id sid tid token lemma pos work_7n2voym2grhjpocfumswh5tooa 1 1 Rare rare JJ work_7n2voym2grhjpocfumswh5tooa 1 2 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 1 3 and and CC work_7n2voym2grhjpocfumswh5tooa 1 4 loci loci NN work_7n2voym2grhjpocfumswh5tooa 1 5 for for IN work_7n2voym2grhjpocfumswh5tooa 1 6 age age NN work_7n2voym2grhjpocfumswh5tooa 1 7 - - HYPH work_7n2voym2grhjpocfumswh5tooa 1 8 related relate VBN work_7n2voym2grhjpocfumswh5tooa 1 9 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 1 10 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 1 11 in in IN work_7n2voym2grhjpocfumswh5tooa 1 12 the the DT work_7n2voym2grhjpocfumswh5tooa 1 13 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 1 14 and and CC work_7n2voym2grhjpocfumswh5tooa 1 15 Indiana Indiana NNP work_7n2voym2grhjpocfumswh5tooa 1 16 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 1 17 Vol Vol NNP work_7n2voym2grhjpocfumswh5tooa 1 18 . . . work_7n2voym2grhjpocfumswh5tooa 2 1 : : : work_7n2voym2grhjpocfumswh5tooa 2 2 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 2 3 0123456789)1 0123456789)1 CD work_7n2voym2grhjpocfumswh5tooa 2 4 3 3 CD work_7n2voym2grhjpocfumswh5tooa 2 5 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 2 6 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 2 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 2 8 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 2 9 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 2 10 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 2 11 https://doi.org/10.1007/s00439-019-02050-4 https://doi.org/10.1007/s00439-019-02050-4 NN work_7n2voym2grhjpocfumswh5tooa 2 12 O o NN work_7n2voym2grhjpocfumswh5tooa 2 13 R r NN work_7n2voym2grhjpocfumswh5tooa 2 14 I i NN work_7n2voym2grhjpocfumswh5tooa 2 15 G g NN work_7n2voym2grhjpocfumswh5tooa 2 16 I i NN work_7n2voym2grhjpocfumswh5tooa 2 17 N n NN work_7n2voym2grhjpocfumswh5tooa 2 18 A a NN work_7n2voym2grhjpocfumswh5tooa 2 19 L l NN work_7n2voym2grhjpocfumswh5tooa 2 20 I i NN work_7n2voym2grhjpocfumswh5tooa 2 21 N n NN work_7n2voym2grhjpocfumswh5tooa 2 22 V v NN work_7n2voym2grhjpocfumswh5tooa 2 23 E e NN work_7n2voym2grhjpocfumswh5tooa 2 24 S s NN work_7n2voym2grhjpocfumswh5tooa 2 25 T t NN work_7n2voym2grhjpocfumswh5tooa 2 26 I i NN work_7n2voym2grhjpocfumswh5tooa 2 27 G g NN work_7n2voym2grhjpocfumswh5tooa 2 28 AT at IN work_7n2voym2grhjpocfumswh5tooa 2 29 I i NN work_7n2voym2grhjpocfumswh5tooa 2 30 O o NN work_7n2voym2grhjpocfumswh5tooa 2 31 N N NNP work_7n2voym2grhjpocfumswh5tooa 2 32 Rare rare JJ work_7n2voym2grhjpocfumswh5tooa 2 33 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 2 34 and and CC work_7n2voym2grhjpocfumswh5tooa 2 35   _SP work_7n2voym2grhjpocfumswh5tooa 2 36 loci loci FW work_7n2voym2grhjpocfumswh5tooa 2 37 for for IN work_7n2voym2grhjpocfumswh5tooa 2 38   _SP work_7n2voym2grhjpocfumswh5tooa 2 39 age‑related age‑related JJ work_7n2voym2grhjpocfumswh5tooa 2 40 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 2 41 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 2 42 in in IN work_7n2voym2grhjpocfumswh5tooa 2 43   _SP work_7n2voym2grhjpocfumswh5tooa 2 44 the the DT work_7n2voym2grhjpocfumswh5tooa 2 45   _SP work_7n2voym2grhjpocfumswh5tooa 2 46 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 2 47 and and CC work_7n2voym2grhjpocfumswh5tooa 2 48   _SP work_7n2voym2grhjpocfumswh5tooa 2 49 Indiana Indiana NNP work_7n2voym2grhjpocfumswh5tooa 2 50 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 2 51 Andrea Andrea NNP work_7n2voym2grhjpocfumswh5tooa 2 52   _SP work_7n2voym2grhjpocfumswh5tooa 2 53 R. R. NNP work_7n2voym2grhjpocfumswh5tooa 2 54   _SP work_7n2voym2grhjpocfumswh5tooa 2 55 Waksmunski1,2,3 Waksmunski1,2,3 NNP work_7n2voym2grhjpocfumswh5tooa 2 56   _SP work_7n2voym2grhjpocfumswh5tooa 2 57 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 58 Robert Robert NNP work_7n2voym2grhjpocfumswh5tooa 2 59   _SP work_7n2voym2grhjpocfumswh5tooa 2 60 P. P. NNP work_7n2voym2grhjpocfumswh5tooa 2 61   _SP work_7n2voym2grhjpocfumswh5tooa 2 62 Igo Igo NNP work_7n2voym2grhjpocfumswh5tooa 2 63   _SP work_7n2voym2grhjpocfumswh5tooa 2 64 Jr.3 Jr.3 VBZ work_7n2voym2grhjpocfumswh5tooa 2 65   _SP work_7n2voym2grhjpocfumswh5tooa 2 66 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 67 Yeunjoo Yeunjoo NNP work_7n2voym2grhjpocfumswh5tooa 2 68   _SP work_7n2voym2grhjpocfumswh5tooa 2 69 E. e. NN work_7n2voym2grhjpocfumswh5tooa 2 70   _SP work_7n2voym2grhjpocfumswh5tooa 2 71 Song3 Song3 VBZ work_7n2voym2grhjpocfumswh5tooa 2 72   _SP work_7n2voym2grhjpocfumswh5tooa 2 73 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 74 Jessica Jessica NNP work_7n2voym2grhjpocfumswh5tooa 2 75   _SP work_7n2voym2grhjpocfumswh5tooa 2 76 N. N. NNP work_7n2voym2grhjpocfumswh5tooa 2 77   _SP work_7n2voym2grhjpocfumswh5tooa 2 78 Cooke Cooke NNP work_7n2voym2grhjpocfumswh5tooa 2 79   _SP work_7n2voym2grhjpocfumswh5tooa 2 80 Bailey2,3 bailey2,3 XX work_7n2voym2grhjpocfumswh5tooa 2 81   _SP work_7n2voym2grhjpocfumswh5tooa 2 82 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 83 Renee renee JJ work_7n2voym2grhjpocfumswh5tooa 2 84   _SP work_7n2voym2grhjpocfumswh5tooa 2 85 Laux3 laux3 NN work_7n2voym2grhjpocfumswh5tooa 2 86   _SP work_7n2voym2grhjpocfumswh5tooa 2 87 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 88 Denise Denise NNP work_7n2voym2grhjpocfumswh5tooa 2 89   _SP work_7n2voym2grhjpocfumswh5tooa 2 90 Fuzzell3 Fuzzell3 NNP work_7n2voym2grhjpocfumswh5tooa 2 91   _SP work_7n2voym2grhjpocfumswh5tooa 2 92 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 93 Sarada Sarada NNP work_7n2voym2grhjpocfumswh5tooa 2 94   _SP work_7n2voym2grhjpocfumswh5tooa 2 95 Fuzzell3 Fuzzell3 NNP work_7n2voym2grhjpocfumswh5tooa 2 96   _SP work_7n2voym2grhjpocfumswh5tooa 2 97 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 98 Larry Larry NNP work_7n2voym2grhjpocfumswh5tooa 2 99   _SP work_7n2voym2grhjpocfumswh5tooa 2 100 D. D. NNP work_7n2voym2grhjpocfumswh5tooa 2 101   _SP work_7n2voym2grhjpocfumswh5tooa 2 102 Adams4 Adams4 NNP work_7n2voym2grhjpocfumswh5tooa 2 103   _SP work_7n2voym2grhjpocfumswh5tooa 2 104 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 105 Laura Laura NNP work_7n2voym2grhjpocfumswh5tooa 2 106   _SP work_7n2voym2grhjpocfumswh5tooa 2 107 Caywood4 caywood4 NN work_7n2voym2grhjpocfumswh5tooa 2 108   _SP work_7n2voym2grhjpocfumswh5tooa 2 109 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 110 Michael Michael NNP work_7n2voym2grhjpocfumswh5tooa 2 111   _SP work_7n2voym2grhjpocfumswh5tooa 2 112 Prough4 Prough4 NNP work_7n2voym2grhjpocfumswh5tooa 2 113   _SP work_7n2voym2grhjpocfumswh5tooa 2 114 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 115 Dwight Dwight NNP work_7n2voym2grhjpocfumswh5tooa 2 116   _SP work_7n2voym2grhjpocfumswh5tooa 2 117 Stambolian5 stambolian5 FW work_7n2voym2grhjpocfumswh5tooa 2 118   _SP work_7n2voym2grhjpocfumswh5tooa 2 119 · · : work_7n2voym2grhjpocfumswh5tooa 2 120 William William NNP work_7n2voym2grhjpocfumswh5tooa 2 121   _SP work_7n2voym2grhjpocfumswh5tooa 2 122 K. K. NNP work_7n2voym2grhjpocfumswh5tooa 2 123   _SP work_7n2voym2grhjpocfumswh5tooa 2 124 Scott4 Scott4 NNP work_7n2voym2grhjpocfumswh5tooa 2 125   _SP work_7n2voym2grhjpocfumswh5tooa 2 126 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 127 Margaret Margaret NNP work_7n2voym2grhjpocfumswh5tooa 2 128   _SP work_7n2voym2grhjpocfumswh5tooa 2 129 A. a. NN work_7n2voym2grhjpocfumswh5tooa 2 130   _SP work_7n2voym2grhjpocfumswh5tooa 2 131 Pericak‑Vance4 pericak‑vance4 NN work_7n2voym2grhjpocfumswh5tooa 2 132   _SP work_7n2voym2grhjpocfumswh5tooa 2 133 · · NFP work_7n2voym2grhjpocfumswh5tooa 2 134 Jonathan Jonathan NNP work_7n2voym2grhjpocfumswh5tooa 2 135   _SP work_7n2voym2grhjpocfumswh5tooa 2 136 L. L. NNP work_7n2voym2grhjpocfumswh5tooa 2 137   _SP work_7n2voym2grhjpocfumswh5tooa 2 138 Haines1,2,3 Haines1,2,3 NNP work_7n2voym2grhjpocfumswh5tooa 2 139 Received receive VBN work_7n2voym2grhjpocfumswh5tooa 2 140 : : : work_7n2voym2grhjpocfumswh5tooa 2 141 27 27 CD work_7n2voym2grhjpocfumswh5tooa 2 142 April April NNP work_7n2voym2grhjpocfumswh5tooa 2 143 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 2 144 / / SYM work_7n2voym2grhjpocfumswh5tooa 2 145 Accepted accept VBN work_7n2voym2grhjpocfumswh5tooa 2 146 : : : work_7n2voym2grhjpocfumswh5tooa 2 147 21 21 CD work_7n2voym2grhjpocfumswh5tooa 2 148 July July NNP work_7n2voym2grhjpocfumswh5tooa 2 149 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 2 150 / / SYM work_7n2voym2grhjpocfumswh5tooa 2 151 Published publish VBN work_7n2voym2grhjpocfumswh5tooa 2 152 online online RB work_7n2voym2grhjpocfumswh5tooa 2 153 : : : work_7n2voym2grhjpocfumswh5tooa 2 154 31 31 CD work_7n2voym2grhjpocfumswh5tooa 2 155 July July NNP work_7n2voym2grhjpocfumswh5tooa 2 156 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 2 157 © © NNP work_7n2voym2grhjpocfumswh5tooa 2 158 The the DT work_7n2voym2grhjpocfumswh5tooa 2 159 Author(s author(s NN work_7n2voym2grhjpocfumswh5tooa 2 160 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 2 161 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 2 162 Abstract Abstract NNP work_7n2voym2grhjpocfumswh5tooa 2 163 Age Age NNP work_7n2voym2grhjpocfumswh5tooa 2 164 - - HYPH work_7n2voym2grhjpocfumswh5tooa 2 165 related relate VBN work_7n2voym2grhjpocfumswh5tooa 2 166 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 2 167 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 2 168 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 2 169 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 2 170 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 2 171 is be VBZ work_7n2voym2grhjpocfumswh5tooa 2 172 a a DT work_7n2voym2grhjpocfumswh5tooa 2 173 leading lead VBG work_7n2voym2grhjpocfumswh5tooa 2 174 cause cause NN work_7n2voym2grhjpocfumswh5tooa 2 175 of of IN work_7n2voym2grhjpocfumswh5tooa 2 176 blindness blindness NN work_7n2voym2grhjpocfumswh5tooa 2 177 in in IN work_7n2voym2grhjpocfumswh5tooa 2 178 the the DT work_7n2voym2grhjpocfumswh5tooa 2 179 world world NN work_7n2voym2grhjpocfumswh5tooa 2 180 . . . work_7n2voym2grhjpocfumswh5tooa 3 1 While while IN work_7n2voym2grhjpocfumswh5tooa 3 2 dozens dozen NNS work_7n2voym2grhjpocfumswh5tooa 3 3 of of IN work_7n2voym2grhjpocfumswh5tooa 3 4 independent independent JJ work_7n2voym2grhjpocfumswh5tooa 3 5 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 3 6 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 3 7 are be VBP work_7n2voym2grhjpocfumswh5tooa 3 8 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 3 9 with with IN work_7n2voym2grhjpocfumswh5tooa 3 10 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 3 11 , , , work_7n2voym2grhjpocfumswh5tooa 3 12 about about RB work_7n2voym2grhjpocfumswh5tooa 3 13 one one CD work_7n2voym2grhjpocfumswh5tooa 3 14 - - HYPH work_7n2voym2grhjpocfumswh5tooa 3 15 third third NN work_7n2voym2grhjpocfumswh5tooa 3 16 of of IN work_7n2voym2grhjpocfumswh5tooa 3 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 3 18 heritability heritability NN work_7n2voym2grhjpocfumswh5tooa 3 19 is be VBZ work_7n2voym2grhjpocfumswh5tooa 3 20 still still RB work_7n2voym2grhjpocfumswh5tooa 3 21 unexplained unexplained JJ work_7n2voym2grhjpocfumswh5tooa 3 22 . . . work_7n2voym2grhjpocfumswh5tooa 4 1 To to TO work_7n2voym2grhjpocfumswh5tooa 4 2 identify identify VB work_7n2voym2grhjpocfumswh5tooa 4 3 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 4 4 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 4 5 and and CC work_7n2voym2grhjpocfumswh5tooa 4 6 loci loci NN work_7n2voym2grhjpocfumswh5tooa 4 7 for for IN work_7n2voym2grhjpocfumswh5tooa 4 8 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 4 9 , , , work_7n2voym2grhjpocfumswh5tooa 4 10 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 4 11 analyzed analyze VBD work_7n2voym2grhjpocfumswh5tooa 4 12 Illumina Illumina NNP work_7n2voym2grhjpocfumswh5tooa 4 13 HumanExome HumanExome NNP work_7n2voym2grhjpocfumswh5tooa 4 14 chip chip NN work_7n2voym2grhjpocfumswh5tooa 4 15 data datum NNS work_7n2voym2grhjpocfumswh5tooa 4 16 from from IN work_7n2voym2grhjpocfumswh5tooa 4 17 87 87 CD work_7n2voym2grhjpocfumswh5tooa 4 18 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 4 19 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 4 20 with with IN work_7n2voym2grhjpocfumswh5tooa 4 21 early early JJ work_7n2voym2grhjpocfumswh5tooa 4 22 or or CC work_7n2voym2grhjpocfumswh5tooa 4 23 late late JJ work_7n2voym2grhjpocfumswh5tooa 4 24 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 4 25 , , , work_7n2voym2grhjpocfumswh5tooa 4 26 79 79 CD work_7n2voym2grhjpocfumswh5tooa 4 27 unaffected unaffected JJ work_7n2voym2grhjpocfumswh5tooa 4 28 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 4 29 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 4 30 , , , work_7n2voym2grhjpocfumswh5tooa 4 31 and and CC work_7n2voym2grhjpocfumswh5tooa 4 32 15 15 CD work_7n2voym2grhjpocfumswh5tooa 4 33 related related JJ work_7n2voym2grhjpocfumswh5tooa 4 34 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 4 35 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 4 36 with with IN work_7n2voym2grhjpocfumswh5tooa 4 37 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 4 38 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 4 39 affection affection NN work_7n2voym2grhjpocfumswh5tooa 4 40 status status NN work_7n2voym2grhjpocfumswh5tooa 4 41 . . . work_7n2voym2grhjpocfumswh5tooa 5 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 5 2 retained retain VBD work_7n2voym2grhjpocfumswh5tooa 5 3 37,428 37,428 CD work_7n2voym2grhjpocfumswh5tooa 5 4 polymorphic polymorphic JJ work_7n2voym2grhjpocfumswh5tooa 5 5 autosomal autosomal JJ work_7n2voym2grhjpocfumswh5tooa 5 6 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 5 7 across across IN work_7n2voym2grhjpocfumswh5tooa 5 8 175 175 CD work_7n2voym2grhjpocfumswh5tooa 5 9 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 5 10 for for IN work_7n2voym2grhjpocfumswh5tooa 5 11 association association NN work_7n2voym2grhjpocfumswh5tooa 5 12 and and CC work_7n2voym2grhjpocfumswh5tooa 5 13 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 5 14 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 5 15 . . . work_7n2voym2grhjpocfumswh5tooa 6 1 After after IN work_7n2voym2grhjpocfumswh5tooa 6 2 correcting correct VBG work_7n2voym2grhjpocfumswh5tooa 6 3 for for IN work_7n2voym2grhjpocfumswh5tooa 6 4 multiple multiple JJ work_7n2voym2grhjpocfumswh5tooa 6 5 testing testing NN work_7n2voym2grhjpocfumswh5tooa 6 6 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 6 7 n n NN work_7n2voym2grhjpocfumswh5tooa 6 8 = = SYM work_7n2voym2grhjpocfumswh5tooa 6 9 37,428 37,428 CD work_7n2voym2grhjpocfumswh5tooa 6 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 6 11 , , , work_7n2voym2grhjpocfumswh5tooa 6 12 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 6 13 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 6 14 four four CD work_7n2voym2grhjpocfumswh5tooa 6 15 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 6 16 significantly significantly RB work_7n2voym2grhjpocfumswh5tooa 6 17 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 6 18 with with IN work_7n2voym2grhjpocfumswh5tooa 6 19 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 6 20 : : : work_7n2voym2grhjpocfumswh5tooa 6 21 rs200437673 rs200437673 NNP work_7n2voym2grhjpocfumswh5tooa 6 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 6 23 LCN9 LCN9 NNP work_7n2voym2grhjpocfumswh5tooa 6 24 , , , work_7n2voym2grhjpocfumswh5tooa 6 25 p p NN work_7n2voym2grhjpocfumswh5tooa 6 26 = = SYM work_7n2voym2grhjpocfumswh5tooa 6 27 1.50 1.50 CD work_7n2voym2grhjpocfumswh5tooa 6 28 × × NNS work_7n2voym2grhjpocfumswh5tooa 6 29 10−11 10−11 CD work_7n2voym2grhjpocfumswh5tooa 6 30 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 6 31 , , , work_7n2voym2grhjpocfumswh5tooa 6 32 rs151214675 rs151214675 NNP work_7n2voym2grhjpocfumswh5tooa 6 33 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 6 34 RTEL1 RTEL1 NNP work_7n2voym2grhjpocfumswh5tooa 6 35 , , , work_7n2voym2grhjpocfumswh5tooa 6 36 p p NN work_7n2voym2grhjpocfumswh5tooa 6 37 = = SYM work_7n2voym2grhjpocfumswh5tooa 6 38 3.18 3.18 CD work_7n2voym2grhjpocfumswh5tooa 6 39 × × CD work_7n2voym2grhjpocfumswh5tooa 6 40 10−8 10−8 CD work_7n2voym2grhjpocfumswh5tooa 6 41 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 6 42 , , , work_7n2voym2grhjpocfumswh5tooa 6 43 rs140250387 rs140250387 NNP work_7n2voym2grhjpocfumswh5tooa 6 44 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 6 45 DLGAP1 DLGAP1 NNP work_7n2voym2grhjpocfumswh5tooa 6 46 , , , work_7n2voym2grhjpocfumswh5tooa 6 47 p p NN work_7n2voym2grhjpocfumswh5tooa 6 48 = = SYM work_7n2voym2grhjpocfumswh5tooa 6 49 4.49 4.49 CD work_7n2voym2grhjpocfumswh5tooa 6 50 × × CD work_7n2voym2grhjpocfumswh5tooa 6 51 10−7 10−7 CD work_7n2voym2grhjpocfumswh5tooa 6 52 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 6 53 , , , work_7n2voym2grhjpocfumswh5tooa 6 54 and and CC work_7n2voym2grhjpocfumswh5tooa 6 55 rs115333865 rs115333865 NNP work_7n2voym2grhjpocfumswh5tooa 6 56 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 6 57 CGRRF1 CGRRF1 NNP work_7n2voym2grhjpocfumswh5tooa 6 58 , , , work_7n2voym2grhjpocfumswh5tooa 6 59 p p NNP work_7n2voym2grhjpocfumswh5tooa 6 60 = = SYM work_7n2voym2grhjpocfumswh5tooa 6 61 1.05 1.05 CD work_7n2voym2grhjpocfumswh5tooa 6 62 × × CD work_7n2voym2grhjpocfumswh5tooa 6 63 10−6 10−6 CD work_7n2voym2grhjpocfumswh5tooa 6 64 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 6 65 . . . work_7n2voym2grhjpocfumswh5tooa 7 1 These these DT work_7n2voym2grhjpocfumswh5tooa 7 2 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 7 3 have have VBP work_7n2voym2grhjpocfumswh5tooa 7 4 not not RB work_7n2voym2grhjpocfumswh5tooa 7 5 been be VBN work_7n2voym2grhjpocfumswh5tooa 7 6 previously previously RB work_7n2voym2grhjpocfumswh5tooa 7 7 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 7 8 with with IN work_7n2voym2grhjpocfumswh5tooa 7 9 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 7 10 and and CC work_7n2voym2grhjpocfumswh5tooa 7 11 are be VBP work_7n2voym2grhjpocfumswh5tooa 7 12 not not RB work_7n2voym2grhjpocfumswh5tooa 7 13 in in IN work_7n2voym2grhjpocfumswh5tooa 7 14 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 7 15 disequilibrium disequilibrium NN work_7n2voym2grhjpocfumswh5tooa 7 16 with with IN work_7n2voym2grhjpocfumswh5tooa 7 17 the the DT work_7n2voym2grhjpocfumswh5tooa 7 18 52 52 CD work_7n2voym2grhjpocfumswh5tooa 7 19 known know VBN work_7n2voym2grhjpocfumswh5tooa 7 20 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 7 21 - - HYPH work_7n2voym2grhjpocfumswh5tooa 7 22 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 7 23 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 7 24 reported report VBN work_7n2voym2grhjpocfumswh5tooa 7 25 by by IN work_7n2voym2grhjpocfumswh5tooa 7 26 the the DT work_7n2voym2grhjpocfumswh5tooa 7 27 International International NNP work_7n2voym2grhjpocfumswh5tooa 7 28 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 7 29 Genomics Genomics NNP work_7n2voym2grhjpocfumswh5tooa 7 30 Consortium Consortium NNP work_7n2voym2grhjpocfumswh5tooa 7 31 based base VBN work_7n2voym2grhjpocfumswh5tooa 7 32 on on IN work_7n2voym2grhjpocfumswh5tooa 7 33 physical physical JJ work_7n2voym2grhjpocfumswh5tooa 7 34 distance distance NN work_7n2voym2grhjpocfumswh5tooa 7 35 . . . work_7n2voym2grhjpocfumswh5tooa 8 1 Genome genome RB work_7n2voym2grhjpocfumswh5tooa 8 2 - - HYPH work_7n2voym2grhjpocfumswh5tooa 8 3 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 8 4 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 8 5 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 8 6 peaks peak NNS work_7n2voym2grhjpocfumswh5tooa 8 7 were be VBD work_7n2voym2grhjpocfumswh5tooa 8 8 observed observe VBN work_7n2voym2grhjpocfumswh5tooa 8 9 on on IN work_7n2voym2grhjpocfumswh5tooa 8 10 chromosomes chromosome NNS work_7n2voym2grhjpocfumswh5tooa 8 11 8q21.11–q21.13 8q21.11–q21.13 NNP work_7n2voym2grhjpocfumswh5tooa 8 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 8 13 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 8 14 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 8 15 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 8 16 = = SYM work_7n2voym2grhjpocfumswh5tooa 8 17 4.03 4.03 CD work_7n2voym2grhjpocfumswh5tooa 8 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 8 19 and and CC work_7n2voym2grhjpocfumswh5tooa 8 20 18q21.2–21.32 18q21.2–21.32 CD work_7n2voym2grhjpocfumswh5tooa 8 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 8 22 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 8 23 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 8 24 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 8 25 = = SYM work_7n2voym2grhjpocfumswh5tooa 8 26 3.87 3.87 CD work_7n2voym2grhjpocfumswh5tooa 8 27 ; ; : work_7n2voym2grhjpocfumswh5tooa 8 28 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 8 29 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 8 30 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 8 31 = = SYM work_7n2voym2grhjpocfumswh5tooa 8 32 4.27 4.27 CD work_7n2voym2grhjpocfumswh5tooa 8 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 8 34 . . . work_7n2voym2grhjpocfumswh5tooa 9 1 These these DT work_7n2voym2grhjpocfumswh5tooa 9 2 loci loci NN work_7n2voym2grhjpocfumswh5tooa 9 3 do do VBP work_7n2voym2grhjpocfumswh5tooa 9 4 not not RB work_7n2voym2grhjpocfumswh5tooa 9 5 overlap overlap VB work_7n2voym2grhjpocfumswh5tooa 9 6 with with IN work_7n2voym2grhjpocfumswh5tooa 9 7 loci loci NN work_7n2voym2grhjpocfumswh5tooa 9 8 previously previously RB work_7n2voym2grhjpocfumswh5tooa 9 9 linked link VBN work_7n2voym2grhjpocfumswh5tooa 9 10 to to IN work_7n2voym2grhjpocfumswh5tooa 9 11 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 9 12 . . . work_7n2voym2grhjpocfumswh5tooa 10 1 Through through IN work_7n2voym2grhjpocfumswh5tooa 10 2 gene gene NN work_7n2voym2grhjpocfumswh5tooa 10 3 ontology ontology NN work_7n2voym2grhjpocfumswh5tooa 10 4 enrichment enrichment NN work_7n2voym2grhjpocfumswh5tooa 10 5 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 10 6 with with IN work_7n2voym2grhjpocfumswh5tooa 10 7 ClueGO ClueGO NNP work_7n2voym2grhjpocfumswh5tooa 10 8 in in IN work_7n2voym2grhjpocfumswh5tooa 10 9 Cytoscape Cytoscape NNP work_7n2voym2grhjpocfumswh5tooa 10 10 , , , work_7n2voym2grhjpocfumswh5tooa 10 11 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 10 12 determined determine VBD work_7n2voym2grhjpocfumswh5tooa 10 13 that that IN work_7n2voym2grhjpocfumswh5tooa 10 14 several several JJ work_7n2voym2grhjpocfumswh5tooa 10 15 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 10 16 in in IN work_7n2voym2grhjpocfumswh5tooa 10 17 the the DT work_7n2voym2grhjpocfumswh5tooa 10 18 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 10 19 support support NN work_7n2voym2grhjpocfumswh5tooa 10 20 interval interval NN work_7n2voym2grhjpocfumswh5tooa 10 21 of of IN work_7n2voym2grhjpocfumswh5tooa 10 22 the the DT work_7n2voym2grhjpocfumswh5tooa 10 23 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 10 24 8 8 CD work_7n2voym2grhjpocfumswh5tooa 10 25 locus locus NN work_7n2voym2grhjpocfumswh5tooa 10 26 are be VBP work_7n2voym2grhjpocfumswh5tooa 10 27 involved involve VBN work_7n2voym2grhjpocfumswh5tooa 10 28 in in IN work_7n2voym2grhjpocfumswh5tooa 10 29 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 10 30 acid acid NN work_7n2voym2grhjpocfumswh5tooa 10 31 binding bind VBG work_7n2voym2grhjpocfumswh5tooa 10 32 and and CC work_7n2voym2grhjpocfumswh5tooa 10 33 triglyceride triglyceride VB work_7n2voym2grhjpocfumswh5tooa 10 34 catabolic catabolic JJ work_7n2voym2grhjpocfumswh5tooa 10 35 processes process NNS work_7n2voym2grhjpocfumswh5tooa 10 36 , , , work_7n2voym2grhjpocfumswh5tooa 10 37 and and CC work_7n2voym2grhjpocfumswh5tooa 10 38 the the DT work_7n2voym2grhjpocfumswh5tooa 10 39 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 10 40 support support NN work_7n2voym2grhjpocfumswh5tooa 10 41 interval interval NN work_7n2voym2grhjpocfumswh5tooa 10 42 of of IN work_7n2voym2grhjpocfumswh5tooa 10 43 the the DT work_7n2voym2grhjpocfumswh5tooa 10 44 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 10 45 region region NN work_7n2voym2grhjpocfumswh5tooa 10 46 on on IN work_7n2voym2grhjpocfumswh5tooa 10 47 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 10 48 18 18 CD work_7n2voym2grhjpocfumswh5tooa 10 49 is be VBZ work_7n2voym2grhjpocfumswh5tooa 10 50 enriched enrich VBN work_7n2voym2grhjpocfumswh5tooa 10 51 in in IN work_7n2voym2grhjpocfumswh5tooa 10 52 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 10 53 that that WDT work_7n2voym2grhjpocfumswh5tooa 10 54 participate participate VBP work_7n2voym2grhjpocfumswh5tooa 10 55 in in IN work_7n2voym2grhjpocfumswh5tooa 10 56 serine serine NN work_7n2voym2grhjpocfumswh5tooa 10 57 - - HYPH work_7n2voym2grhjpocfumswh5tooa 10 58 type type NN work_7n2voym2grhjpocfumswh5tooa 10 59 endo- endo- JJ work_7n2voym2grhjpocfumswh5tooa 10 60 peptidase peptidase NN work_7n2voym2grhjpocfumswh5tooa 10 61 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 10 62 activity activity NN work_7n2voym2grhjpocfumswh5tooa 10 63 and and CC work_7n2voym2grhjpocfumswh5tooa 10 64 the the DT work_7n2voym2grhjpocfumswh5tooa 10 65 positive positive JJ work_7n2voym2grhjpocfumswh5tooa 10 66 regulation regulation NN work_7n2voym2grhjpocfumswh5tooa 10 67 of of IN work_7n2voym2grhjpocfumswh5tooa 10 68 epithelial epithelial NN work_7n2voym2grhjpocfumswh5tooa 10 69 to to IN work_7n2voym2grhjpocfumswh5tooa 10 70 mesenchymal mesenchymal JJ work_7n2voym2grhjpocfumswh5tooa 10 71 transition transition NN work_7n2voym2grhjpocfumswh5tooa 10 72 . . . work_7n2voym2grhjpocfumswh5tooa 11 1 These these DT work_7n2voym2grhjpocfumswh5tooa 11 2 results result NNS work_7n2voym2grhjpocfumswh5tooa 11 3 nominate nominate VBP work_7n2voym2grhjpocfumswh5tooa 11 4 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 11 5 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 11 6 and and CC work_7n2voym2grhjpocfumswh5tooa 11 7 loci loci NN work_7n2voym2grhjpocfumswh5tooa 11 8 for for IN work_7n2voym2grhjpocfumswh5tooa 11 9 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 11 10 that that WDT work_7n2voym2grhjpocfumswh5tooa 11 11 require require VBP work_7n2voym2grhjpocfumswh5tooa 11 12 further further JJ work_7n2voym2grhjpocfumswh5tooa 11 13 investigation investigation NN work_7n2voym2grhjpocfumswh5tooa 11 14 . . . work_7n2voym2grhjpocfumswh5tooa 12 1 Introduction Introduction NNP work_7n2voym2grhjpocfumswh5tooa 12 2 Age age NN work_7n2voym2grhjpocfumswh5tooa 12 3 - - HYPH work_7n2voym2grhjpocfumswh5tooa 12 4 related relate VBN work_7n2voym2grhjpocfumswh5tooa 12 5 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 12 6 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 12 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 12 8 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 12 9 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 12 10 is be VBZ work_7n2voym2grhjpocfumswh5tooa 12 11 the the DT work_7n2voym2grhjpocfumswh5tooa 12 12 third third JJ work_7n2voym2grhjpocfumswh5tooa 12 13 lead- lead- JJ work_7n2voym2grhjpocfumswh5tooa 12 14 ing ing NN work_7n2voym2grhjpocfumswh5tooa 12 15 cause cause NN work_7n2voym2grhjpocfumswh5tooa 12 16 of of IN work_7n2voym2grhjpocfumswh5tooa 12 17 vision vision NN work_7n2voym2grhjpocfumswh5tooa 12 18 loss loss NN work_7n2voym2grhjpocfumswh5tooa 12 19 in in IN work_7n2voym2grhjpocfumswh5tooa 12 20 the the DT work_7n2voym2grhjpocfumswh5tooa 12 21 world world NN work_7n2voym2grhjpocfumswh5tooa 12 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 12 23 Ayoub Ayoub NNP work_7n2voym2grhjpocfumswh5tooa 12 24 and and CC work_7n2voym2grhjpocfumswh5tooa 12 25 Patel Patel NNP work_7n2voym2grhjpocfumswh5tooa 12 26 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 12 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 12 28 . . . work_7n2voym2grhjpocfumswh5tooa 13 1 It -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 13 2 is be VBZ work_7n2voym2grhjpocfumswh5tooa 13 3 characterized characterize VBN work_7n2voym2grhjpocfumswh5tooa 13 4 by by IN work_7n2voym2grhjpocfumswh5tooa 13 5 the the DT work_7n2voym2grhjpocfumswh5tooa 13 6 deterioration deterioration NN work_7n2voym2grhjpocfumswh5tooa 13 7 of of IN work_7n2voym2grhjpocfumswh5tooa 13 8 the the DT work_7n2voym2grhjpocfumswh5tooa 13 9 central central JJ work_7n2voym2grhjpocfumswh5tooa 13 10 field field NN work_7n2voym2grhjpocfumswh5tooa 13 11 of of IN work_7n2voym2grhjpocfumswh5tooa 13 12 vision vision NN work_7n2voym2grhjpocfumswh5tooa 13 13 due due IN work_7n2voym2grhjpocfumswh5tooa 13 14 to to IN work_7n2voym2grhjpocfumswh5tooa 13 15 the the DT work_7n2voym2grhjpocfumswh5tooa 13 16 accumulation accumulation NN work_7n2voym2grhjpocfumswh5tooa 13 17 of of IN work_7n2voym2grhjpocfumswh5tooa 13 18 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 13 19 deposits deposit NNS work_7n2voym2grhjpocfumswh5tooa 13 20 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 13 21 drusen drusen NNP work_7n2voym2grhjpocfumswh5tooa 13 22 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 13 23 , , , work_7n2voym2grhjpocfumswh5tooa 13 24 inflammation inflammation NN work_7n2voym2grhjpocfumswh5tooa 13 25 , , , work_7n2voym2grhjpocfumswh5tooa 13 26 and and CC work_7n2voym2grhjpocfumswh5tooa 13 27 neurodegeneration neurodegeneration NN work_7n2voym2grhjpocfumswh5tooa 13 28 in in IN work_7n2voym2grhjpocfumswh5tooa 13 29 the the DT work_7n2voym2grhjpocfumswh5tooa 13 30 macula macula NNP work_7n2voym2grhjpocfumswh5tooa 13 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 13 32 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 13 33 et et NNP work_7n2voym2grhjpocfumswh5tooa 13 34   _SP work_7n2voym2grhjpocfumswh5tooa 13 35 al al NNP work_7n2voym2grhjpocfumswh5tooa 13 36 . . . work_7n2voym2grhjpocfumswh5tooa 14 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 14 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 14 3 . . . work_7n2voym2grhjpocfumswh5tooa 15 1 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 15 2 is be VBZ work_7n2voym2grhjpocfumswh5tooa 15 3 a a DT work_7n2voym2grhjpocfumswh5tooa 15 4 multifactorial multifactorial JJ work_7n2voym2grhjpocfumswh5tooa 15 5 disease disease NN work_7n2voym2grhjpocfumswh5tooa 15 6 with with IN work_7n2voym2grhjpocfumswh5tooa 15 7 numer- numer- JJ work_7n2voym2grhjpocfumswh5tooa 15 8 ous ous JJ work_7n2voym2grhjpocfumswh5tooa 15 9 influential influential JJ work_7n2voym2grhjpocfumswh5tooa 15 10 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 15 11 and and CC work_7n2voym2grhjpocfumswh5tooa 15 12 environmental environmental JJ work_7n2voym2grhjpocfumswh5tooa 15 13 risk risk NN work_7n2voym2grhjpocfumswh5tooa 15 14 factors factor NNS work_7n2voym2grhjpocfumswh5tooa 15 15 . . . work_7n2voym2grhjpocfumswh5tooa 16 1 Envi- Envi- VBZ work_7n2voym2grhjpocfumswh5tooa 16 2 ronmental ronmental JJ work_7n2voym2grhjpocfumswh5tooa 16 3 factors factor NNS work_7n2voym2grhjpocfumswh5tooa 16 4 constitute constitute VBP work_7n2voym2grhjpocfumswh5tooa 16 5 about about IN work_7n2voym2grhjpocfumswh5tooa 16 6 20–40 20–40 CD work_7n2voym2grhjpocfumswh5tooa 16 7 % % NN work_7n2voym2grhjpocfumswh5tooa 16 8 of of IN work_7n2voym2grhjpocfumswh5tooa 16 9 total total JJ work_7n2voym2grhjpocfumswh5tooa 16 10 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 16 11 variance variance NN work_7n2voym2grhjpocfumswh5tooa 16 12 and and CC work_7n2voym2grhjpocfumswh5tooa 16 13 include include VBP work_7n2voym2grhjpocfumswh5tooa 16 14 age age NN work_7n2voym2grhjpocfumswh5tooa 16 15 , , , work_7n2voym2grhjpocfumswh5tooa 16 16 smoking smoking NN work_7n2voym2grhjpocfumswh5tooa 16 17 , , , work_7n2voym2grhjpocfumswh5tooa 16 18 hypertension hypertension NN work_7n2voym2grhjpocfumswh5tooa 16 19 , , , work_7n2voym2grhjpocfumswh5tooa 16 20 and and CC work_7n2voym2grhjpocfumswh5tooa 16 21 diet diet NNP work_7n2voym2grhjpocfumswh5tooa 16 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 16 23 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 16 24 et et NNP work_7n2voym2grhjpocfumswh5tooa 16 25     _SP work_7n2voym2grhjpocfumswh5tooa 16 26 al al NNP work_7n2voym2grhjpocfumswh5tooa 16 27 . . . work_7n2voym2grhjpocfumswh5tooa 17 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 17 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 17 3 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 17 4 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 17 5 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 17 6 . . . work_7n2voym2grhjpocfumswh5tooa 18 1 More More JJR work_7n2voym2grhjpocfumswh5tooa 18 2 than than IN work_7n2voym2grhjpocfumswh5tooa 18 3 half half NN work_7n2voym2grhjpocfumswh5tooa 18 4 of of IN work_7n2voym2grhjpocfumswh5tooa 18 5 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 18 6 heritability heritability NN work_7n2voym2grhjpocfumswh5tooa 18 7 is be VBZ work_7n2voym2grhjpocfumswh5tooa 18 8 explained explain VBN work_7n2voym2grhjpocfumswh5tooa 18 9 by by IN work_7n2voym2grhjpocfumswh5tooa 18 10 52 52 CD work_7n2voym2grhjpocfumswh5tooa 18 11 independent independent JJ work_7n2voym2grhjpocfumswh5tooa 18 12 common common JJ work_7n2voym2grhjpocfumswh5tooa 18 13 and and CC work_7n2voym2grhjpocfumswh5tooa 18 14 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 18 15 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 18 16 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 18 17 across across IN work_7n2voym2grhjpocfumswh5tooa 18 18 34 34 CD work_7n2voym2grhjpocfumswh5tooa 18 19 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 18 20 loci loci NN work_7n2voym2grhjpocfumswh5tooa 18 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 18 22 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 18 23 et et NNP work_7n2voym2grhjpocfumswh5tooa 18 24   _SP work_7n2voym2grhjpocfumswh5tooa 18 25 al al NNP work_7n2voym2grhjpocfumswh5tooa 18 26 . . . work_7n2voym2grhjpocfumswh5tooa 19 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 19 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 19 3 . . . work_7n2voym2grhjpocfumswh5tooa 20 1 Therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 20 2 , , , work_7n2voym2grhjpocfumswh5tooa 20 3 about about IN work_7n2voym2grhjpocfumswh5tooa 20 4 half half NN work_7n2voym2grhjpocfumswh5tooa 20 5 of of IN work_7n2voym2grhjpocfumswh5tooa 20 6 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 20 7 heritability heritability NN work_7n2voym2grhjpocfumswh5tooa 20 8 is be VBZ work_7n2voym2grhjpocfumswh5tooa 20 9 unaccounted unaccounted JJ work_7n2voym2grhjpocfumswh5tooa 20 10 for for IN work_7n2voym2grhjpocfumswh5tooa 20 11 by by IN work_7n2voym2grhjpocfumswh5tooa 20 12 known know VBN work_7n2voym2grhjpocfumswh5tooa 20 13 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 20 14 polymorphisms polymorphism NNS work_7n2voym2grhjpocfumswh5tooa 20 15 and and CC work_7n2voym2grhjpocfumswh5tooa 20 16 may may MD work_7n2voym2grhjpocfumswh5tooa 20 17 be be VB work_7n2voym2grhjpocfumswh5tooa 20 18 partially partially RB work_7n2voym2grhjpocfumswh5tooa 20 19 resolved resolve VBN work_7n2voym2grhjpocfumswh5tooa 20 20 with with IN work_7n2voym2grhjpocfumswh5tooa 20 21 the the DT work_7n2voym2grhjpocfumswh5tooa 20 22 identification identification NN work_7n2voym2grhjpocfumswh5tooa 20 23 of of IN work_7n2voym2grhjpocfumswh5tooa 20 24 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 20 25 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 20 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 20 27 Manolio Manolio NNP work_7n2voym2grhjpocfumswh5tooa 20 28 et et NNP work_7n2voym2grhjpocfumswh5tooa 20 29   _SP work_7n2voym2grhjpocfumswh5tooa 20 30 al al NNP work_7n2voym2grhjpocfumswh5tooa 20 31 . . . work_7n2voym2grhjpocfumswh5tooa 21 1 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 21 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 21 3 . . . work_7n2voym2grhjpocfumswh5tooa 22 1 Electronic electronic JJ work_7n2voym2grhjpocfumswh5tooa 22 2 supplementary supplementary JJ work_7n2voym2grhjpocfumswh5tooa 22 3 material material NN work_7n2voym2grhjpocfumswh5tooa 22 4 The the DT work_7n2voym2grhjpocfumswh5tooa 22 5 online online JJ work_7n2voym2grhjpocfumswh5tooa 22 6 version version NN work_7n2voym2grhjpocfumswh5tooa 22 7 of of IN work_7n2voym2grhjpocfumswh5tooa 22 8 this this DT work_7n2voym2grhjpocfumswh5tooa 22 9 article article NN work_7n2voym2grhjpocfumswh5tooa 22 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 22 11 https https NN work_7n2voym2grhjpocfumswh5tooa 22 12 : : : work_7n2voym2grhjpocfumswh5tooa 22 13 //doi.org/10.1007 //doi.org/10.1007 NNP work_7n2voym2grhjpocfumswh5tooa 22 14 / / SYM work_7n2voym2grhjpocfumswh5tooa 22 15 s0043 s0043 NNP work_7n2voym2grhjpocfumswh5tooa 22 16 9 9 CD work_7n2voym2grhjpocfumswh5tooa 22 17 - - HYPH work_7n2voym2grhjpocfumswh5tooa 22 18 019 019 CD work_7n2voym2grhjpocfumswh5tooa 22 19 - - HYPH work_7n2voym2grhjpocfumswh5tooa 22 20 02050 02050 CD work_7n2voym2grhjpocfumswh5tooa 22 21 -4 -4 NFP work_7n2voym2grhjpocfumswh5tooa 22 22 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 22 23 contains contain VBZ work_7n2voym2grhjpocfumswh5tooa 22 24 supplementary supplementary JJ work_7n2voym2grhjpocfumswh5tooa 22 25 material material NN work_7n2voym2grhjpocfumswh5tooa 22 26 , , , work_7n2voym2grhjpocfumswh5tooa 22 27 which which WDT work_7n2voym2grhjpocfumswh5tooa 22 28 is be VBZ work_7n2voym2grhjpocfumswh5tooa 22 29 available available JJ work_7n2voym2grhjpocfumswh5tooa 22 30 to to IN work_7n2voym2grhjpocfumswh5tooa 22 31 authorized authorize VBN work_7n2voym2grhjpocfumswh5tooa 22 32 users user NNS work_7n2voym2grhjpocfumswh5tooa 22 33 . . . work_7n2voym2grhjpocfumswh5tooa 23 1 * * NFP work_7n2voym2grhjpocfumswh5tooa 23 2 Jonathan Jonathan NNP work_7n2voym2grhjpocfumswh5tooa 23 3 L. L. NNP work_7n2voym2grhjpocfumswh5tooa 23 4 Haines Haines NNP work_7n2voym2grhjpocfumswh5tooa 23 5 jonathan.haines@case.edu jonathan.haines@case.edu ADD work_7n2voym2grhjpocfumswh5tooa 23 6 1 1 CD work_7n2voym2grhjpocfumswh5tooa 23 7 Department Department NNP work_7n2voym2grhjpocfumswh5tooa 23 8 of of IN work_7n2voym2grhjpocfumswh5tooa 23 9   _SP work_7n2voym2grhjpocfumswh5tooa 23 10 Genetics Genetics NNP work_7n2voym2grhjpocfumswh5tooa 23 11 and and CC work_7n2voym2grhjpocfumswh5tooa 23 12   _SP work_7n2voym2grhjpocfumswh5tooa 23 13 Genome Genome NNP work_7n2voym2grhjpocfumswh5tooa 23 14 Sciences Sciences NNPS work_7n2voym2grhjpocfumswh5tooa 23 15 , , , work_7n2voym2grhjpocfumswh5tooa 23 16 Case Case NNP work_7n2voym2grhjpocfumswh5tooa 23 17 Western Western NNP work_7n2voym2grhjpocfumswh5tooa 23 18 Reserve Reserve NNP work_7n2voym2grhjpocfumswh5tooa 23 19 University University NNP work_7n2voym2grhjpocfumswh5tooa 23 20 , , , work_7n2voym2grhjpocfumswh5tooa 23 21 Cleveland Cleveland NNP work_7n2voym2grhjpocfumswh5tooa 23 22 , , , work_7n2voym2grhjpocfumswh5tooa 23 23 OH oh UH work_7n2voym2grhjpocfumswh5tooa 23 24 , , , work_7n2voym2grhjpocfumswh5tooa 23 25 USA USA NNP work_7n2voym2grhjpocfumswh5tooa 23 26 2 2 CD work_7n2voym2grhjpocfumswh5tooa 23 27 Cleveland Cleveland NNP work_7n2voym2grhjpocfumswh5tooa 23 28 Institute Institute NNP work_7n2voym2grhjpocfumswh5tooa 23 29 for for IN work_7n2voym2grhjpocfumswh5tooa 23 30   _SP work_7n2voym2grhjpocfumswh5tooa 23 31 Computational Computational NNP work_7n2voym2grhjpocfumswh5tooa 23 32 Biology Biology NNP work_7n2voym2grhjpocfumswh5tooa 23 33 , , , work_7n2voym2grhjpocfumswh5tooa 23 34 Case Case NNP work_7n2voym2grhjpocfumswh5tooa 23 35 Western Western NNP work_7n2voym2grhjpocfumswh5tooa 23 36 Reserve Reserve NNP work_7n2voym2grhjpocfumswh5tooa 23 37 University University NNP work_7n2voym2grhjpocfumswh5tooa 23 38 , , , work_7n2voym2grhjpocfumswh5tooa 23 39 Cleveland Cleveland NNP work_7n2voym2grhjpocfumswh5tooa 23 40 , , , work_7n2voym2grhjpocfumswh5tooa 23 41 OH oh UH work_7n2voym2grhjpocfumswh5tooa 23 42 , , , work_7n2voym2grhjpocfumswh5tooa 23 43 USA USA NNP work_7n2voym2grhjpocfumswh5tooa 23 44 3 3 CD work_7n2voym2grhjpocfumswh5tooa 23 45 Department Department NNP work_7n2voym2grhjpocfumswh5tooa 23 46 of of IN work_7n2voym2grhjpocfumswh5tooa 23 47   _SP work_7n2voym2grhjpocfumswh5tooa 23 48 Population Population NNP work_7n2voym2grhjpocfumswh5tooa 23 49 and and CC work_7n2voym2grhjpocfumswh5tooa 23 50   _SP work_7n2voym2grhjpocfumswh5tooa 23 51 Quantitative Quantitative NNP work_7n2voym2grhjpocfumswh5tooa 23 52 Health Health NNP work_7n2voym2grhjpocfumswh5tooa 23 53 Sciences Sciences NNPS work_7n2voym2grhjpocfumswh5tooa 23 54 , , , work_7n2voym2grhjpocfumswh5tooa 23 55 Case Case NNP work_7n2voym2grhjpocfumswh5tooa 23 56 Western Western NNP work_7n2voym2grhjpocfumswh5tooa 23 57 Reserve Reserve NNP work_7n2voym2grhjpocfumswh5tooa 23 58 University University NNP work_7n2voym2grhjpocfumswh5tooa 23 59 , , , work_7n2voym2grhjpocfumswh5tooa 23 60 Cleveland Cleveland NNP work_7n2voym2grhjpocfumswh5tooa 23 61 , , , work_7n2voym2grhjpocfumswh5tooa 23 62 OH oh UH work_7n2voym2grhjpocfumswh5tooa 23 63 , , , work_7n2voym2grhjpocfumswh5tooa 23 64 USA USA NNP work_7n2voym2grhjpocfumswh5tooa 23 65 4 4 CD work_7n2voym2grhjpocfumswh5tooa 23 66 John John NNP work_7n2voym2grhjpocfumswh5tooa 23 67 P. P. NNP work_7n2voym2grhjpocfumswh5tooa 23 68 Hussman Hussman NNP work_7n2voym2grhjpocfumswh5tooa 23 69 Institute Institute NNP work_7n2voym2grhjpocfumswh5tooa 23 70 for for IN work_7n2voym2grhjpocfumswh5tooa 23 71   _SP work_7n2voym2grhjpocfumswh5tooa 23 72 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 23 73 Genomics Genomics NNP work_7n2voym2grhjpocfumswh5tooa 23 74 , , , work_7n2voym2grhjpocfumswh5tooa 23 75 University University NNP work_7n2voym2grhjpocfumswh5tooa 23 76 of of IN work_7n2voym2grhjpocfumswh5tooa 23 77   _SP work_7n2voym2grhjpocfumswh5tooa 23 78 Miami Miami NNP work_7n2voym2grhjpocfumswh5tooa 23 79 Miller Miller NNP work_7n2voym2grhjpocfumswh5tooa 23 80 School School NNP work_7n2voym2grhjpocfumswh5tooa 23 81 of of IN work_7n2voym2grhjpocfumswh5tooa 23 82   _SP work_7n2voym2grhjpocfumswh5tooa 23 83 Medicine Medicine NNP work_7n2voym2grhjpocfumswh5tooa 23 84 , , , work_7n2voym2grhjpocfumswh5tooa 23 85 Miami Miami NNP work_7n2voym2grhjpocfumswh5tooa 23 86 , , , work_7n2voym2grhjpocfumswh5tooa 23 87 FL FL NNP work_7n2voym2grhjpocfumswh5tooa 23 88 , , , work_7n2voym2grhjpocfumswh5tooa 23 89 USA USA NNP work_7n2voym2grhjpocfumswh5tooa 23 90 5 5 CD work_7n2voym2grhjpocfumswh5tooa 23 91 Department Department NNP work_7n2voym2grhjpocfumswh5tooa 23 92 of of IN work_7n2voym2grhjpocfumswh5tooa 23 93   _SP work_7n2voym2grhjpocfumswh5tooa 23 94 Ophthalmology Ophthalmology NNP work_7n2voym2grhjpocfumswh5tooa 23 95 , , , work_7n2voym2grhjpocfumswh5tooa 23 96 University University NNP work_7n2voym2grhjpocfumswh5tooa 23 97 of of IN work_7n2voym2grhjpocfumswh5tooa 23 98   _SP work_7n2voym2grhjpocfumswh5tooa 23 99 Pennsylvania Pennsylvania NNP work_7n2voym2grhjpocfumswh5tooa 23 100 , , , work_7n2voym2grhjpocfumswh5tooa 23 101 Philadelphia Philadelphia NNP work_7n2voym2grhjpocfumswh5tooa 23 102 , , , work_7n2voym2grhjpocfumswh5tooa 23 103 PA PA NNP work_7n2voym2grhjpocfumswh5tooa 23 104 , , , work_7n2voym2grhjpocfumswh5tooa 23 105 USA USA NNP work_7n2voym2grhjpocfumswh5tooa 23 106 http://crossmark.crossref.org/dialog/?doi=10.1007/s00439-019-02050-4&domain=pdf http://crossmark.crossref.org/dialog/?doi=10.1007/s00439-019-02050-4&domain=pdf NNP work_7n2voym2grhjpocfumswh5tooa 23 107 https://doi.org/10.1007/s00439-019-02050-4 https://doi.org/10.1007/s00439-019-02050-4 JJ work_7n2voym2grhjpocfumswh5tooa 23 108 1172 1172 CD work_7n2voym2grhjpocfumswh5tooa 23 109 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 23 110 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 23 111 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 23 112 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 23 113 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 23 114 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 23 115 1 1 CD work_7n2voym2grhjpocfumswh5tooa 23 116 3 3 CD work_7n2voym2grhjpocfumswh5tooa 23 117 As as IN work_7n2voym2grhjpocfumswh5tooa 23 118 the the DT work_7n2voym2grhjpocfumswh5tooa 23 119 minor minor JJ work_7n2voym2grhjpocfumswh5tooa 23 120 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 23 121 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 23 122 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 23 123 MAF MAF NNP work_7n2voym2grhjpocfumswh5tooa 23 124 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 23 125 for for IN work_7n2voym2grhjpocfumswh5tooa 23 126 a a DT work_7n2voym2grhjpocfumswh5tooa 23 127 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 23 128 decreases decrease NNS work_7n2voym2grhjpocfumswh5tooa 23 129 , , , work_7n2voym2grhjpocfumswh5tooa 23 130 the the DT work_7n2voym2grhjpocfumswh5tooa 23 131 sample sample NN work_7n2voym2grhjpocfumswh5tooa 23 132 size size NN work_7n2voym2grhjpocfumswh5tooa 23 133 required require VBN work_7n2voym2grhjpocfumswh5tooa 23 134 to to TO work_7n2voym2grhjpocfumswh5tooa 23 135 detect detect VB work_7n2voym2grhjpocfumswh5tooa 23 136 an an DT work_7n2voym2grhjpocfumswh5tooa 23 137 associa- associa- JJ work_7n2voym2grhjpocfumswh5tooa 23 138 tion tion NN work_7n2voym2grhjpocfumswh5tooa 23 139 increases increase VBZ work_7n2voym2grhjpocfumswh5tooa 23 140 linearly linearly JJ work_7n2voym2grhjpocfumswh5tooa 23 141 with with IN work_7n2voym2grhjpocfumswh5tooa 23 142 1 1 CD work_7n2voym2grhjpocfumswh5tooa 23 143 / / SYM work_7n2voym2grhjpocfumswh5tooa 23 144 MAF MAF NNP work_7n2voym2grhjpocfumswh5tooa 23 145 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 23 146 Manolio Manolio NNP work_7n2voym2grhjpocfumswh5tooa 23 147 et et NNP work_7n2voym2grhjpocfumswh5tooa 23 148   _SP work_7n2voym2grhjpocfumswh5tooa 23 149 al al NNP work_7n2voym2grhjpocfumswh5tooa 23 150 . . . work_7n2voym2grhjpocfumswh5tooa 24 1 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 24 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 24 3 . . . work_7n2voym2grhjpocfumswh5tooa 25 1 Consequently consequently RB work_7n2voym2grhjpocfumswh5tooa 25 2 , , , work_7n2voym2grhjpocfumswh5tooa 25 3 traditional traditional JJ work_7n2voym2grhjpocfumswh5tooa 25 4 genome genome NN work_7n2voym2grhjpocfumswh5tooa 25 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 25 6 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 25 7 - - HYPH work_7n2voym2grhjpocfumswh5tooa 25 8 association association NN work_7n2voym2grhjpocfumswh5tooa 25 9 stud- stud- NNP work_7n2voym2grhjpocfumswh5tooa 25 10 ies ies NNP work_7n2voym2grhjpocfumswh5tooa 25 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 25 12 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 25 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 25 14 have have VBP work_7n2voym2grhjpocfumswh5tooa 25 15 been be VBN work_7n2voym2grhjpocfumswh5tooa 25 16 largely largely RB work_7n2voym2grhjpocfumswh5tooa 25 17 unable unable JJ work_7n2voym2grhjpocfumswh5tooa 25 18 to to TO work_7n2voym2grhjpocfumswh5tooa 25 19 detect detect VB work_7n2voym2grhjpocfumswh5tooa 25 20 associa- associa- JJ work_7n2voym2grhjpocfumswh5tooa 25 21 tions tion NNS work_7n2voym2grhjpocfumswh5tooa 25 22 with with IN work_7n2voym2grhjpocfumswh5tooa 25 23 rarer rare JJR work_7n2voym2grhjpocfumswh5tooa 25 24 variation variation NN work_7n2voym2grhjpocfumswh5tooa 25 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 25 26 typically typically RB work_7n2voym2grhjpocfumswh5tooa 25 27 MAF MAF NNP work_7n2voym2grhjpocfumswh5tooa 25 28 < < XX work_7n2voym2grhjpocfumswh5tooa 25 29 0.01 0.01 XX work_7n2voym2grhjpocfumswh5tooa 25 30 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 25 31 unless unless IN work_7n2voym2grhjpocfumswh5tooa 25 32 the the DT work_7n2voym2grhjpocfumswh5tooa 25 33 sample sample NN work_7n2voym2grhjpocfumswh5tooa 25 34 size size NN work_7n2voym2grhjpocfumswh5tooa 25 35 in in IN work_7n2voym2grhjpocfumswh5tooa 25 36 is be VBZ work_7n2voym2grhjpocfumswh5tooa 25 37 the the DT work_7n2voym2grhjpocfumswh5tooa 25 38 tens ten NNS work_7n2voym2grhjpocfumswh5tooa 25 39 of of IN work_7n2voym2grhjpocfumswh5tooa 25 40 thousands thousand NNS work_7n2voym2grhjpocfumswh5tooa 25 41 . . . work_7n2voym2grhjpocfumswh5tooa 26 1 In in IN work_7n2voym2grhjpocfumswh5tooa 26 2 contrast contrast NN work_7n2voym2grhjpocfumswh5tooa 26 3 , , , work_7n2voym2grhjpocfumswh5tooa 26 4 GWAS gwa VBN work_7n2voym2grhjpocfumswh5tooa 26 5 on on IN work_7n2voym2grhjpocfumswh5tooa 26 6 a a DT work_7n2voym2grhjpocfumswh5tooa 26 7 sample sample NN work_7n2voym2grhjpocfumswh5tooa 26 8 of of IN work_7n2voym2grhjpocfumswh5tooa 26 9 large large JJ work_7n2voym2grhjpocfumswh5tooa 26 10 families family NNS work_7n2voym2grhjpocfumswh5tooa 26 11 can can MD work_7n2voym2grhjpocfumswh5tooa 26 12 increase increase VB work_7n2voym2grhjpocfumswh5tooa 26 13 the the DT work_7n2voym2grhjpocfumswh5tooa 26 14 power power NN work_7n2voym2grhjpocfumswh5tooa 26 15 to to TO work_7n2voym2grhjpocfumswh5tooa 26 16 detect detect VB work_7n2voym2grhjpocfumswh5tooa 26 17 such such JJ work_7n2voym2grhjpocfumswh5tooa 26 18 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 26 19 through through IN work_7n2voym2grhjpocfumswh5tooa 26 20 enrichment enrichment NN work_7n2voym2grhjpocfumswh5tooa 26 21 of of IN work_7n2voym2grhjpocfumswh5tooa 26 22 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 26 23 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 26 24 segregating segregate VBG work_7n2voym2grhjpocfumswh5tooa 26 25 in in IN work_7n2voym2grhjpocfumswh5tooa 26 26 families family NNS work_7n2voym2grhjpocfumswh5tooa 26 27 with with IN work_7n2voym2grhjpocfumswh5tooa 26 28 many many JJ work_7n2voym2grhjpocfumswh5tooa 26 29 affected affected JJ work_7n2voym2grhjpocfumswh5tooa 26 30 members member NNS work_7n2voym2grhjpocfumswh5tooa 26 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 26 32 Auer Auer NNP work_7n2voym2grhjpocfumswh5tooa 26 33 and and CC work_7n2voym2grhjpocfumswh5tooa 26 34 Lettre Lettre NNP work_7n2voym2grhjpocfumswh5tooa 26 35 2015 2015 CD work_7n2voym2grhjpocfumswh5tooa 26 36 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 26 37 . . . work_7n2voym2grhjpocfumswh5tooa 27 1 Isolated isolate VBN work_7n2voym2grhjpocfumswh5tooa 27 2 founder founder NN work_7n2voym2grhjpocfumswh5tooa 27 3 popu- popu- NNP work_7n2voym2grhjpocfumswh5tooa 27 4 lations lation NNS work_7n2voym2grhjpocfumswh5tooa 27 5 , , , work_7n2voym2grhjpocfumswh5tooa 27 6 like like IN work_7n2voym2grhjpocfumswh5tooa 27 7 the the DT work_7n2voym2grhjpocfumswh5tooa 27 8 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 27 9 , , , work_7n2voym2grhjpocfumswh5tooa 27 10 can can MD work_7n2voym2grhjpocfumswh5tooa 27 11 amplify amplify VB work_7n2voym2grhjpocfumswh5tooa 27 12 the the DT work_7n2voym2grhjpocfumswh5tooa 27 13 power power NN work_7n2voym2grhjpocfumswh5tooa 27 14 of of IN work_7n2voym2grhjpocfumswh5tooa 27 15 family- family- NNP work_7n2voym2grhjpocfumswh5tooa 27 16 based base VBN work_7n2voym2grhjpocfumswh5tooa 27 17 studies study NNS work_7n2voym2grhjpocfumswh5tooa 27 18 through through IN work_7n2voym2grhjpocfumswh5tooa 27 19 sharing sharing NN work_7n2voym2grhjpocfumswh5tooa 27 20 of of IN work_7n2voym2grhjpocfumswh5tooa 27 21 founder founder NN work_7n2voym2grhjpocfumswh5tooa 27 22 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 27 23 . . . work_7n2voym2grhjpocfumswh5tooa 28 1 The the DT work_7n2voym2grhjpocfumswh5tooa 28 2 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 28 3 are be VBP work_7n2voym2grhjpocfumswh5tooa 28 4 descendants descendant NNS work_7n2voym2grhjpocfumswh5tooa 28 5 of of IN work_7n2voym2grhjpocfumswh5tooa 28 6 Swiss Swiss NNP work_7n2voym2grhjpocfumswh5tooa 28 7 Anabaptists Anabaptists NNPS work_7n2voym2grhjpocfumswh5tooa 28 8 who who WP work_7n2voym2grhjpocfumswh5tooa 28 9 settled settle VBD work_7n2voym2grhjpocfumswh5tooa 28 10 in in IN work_7n2voym2grhjpocfumswh5tooa 28 11 North North NNP work_7n2voym2grhjpocfumswh5tooa 28 12 America America NNP work_7n2voym2grhjpocfumswh5tooa 28 13 200–300 200–300 CD work_7n2voym2grhjpocfumswh5tooa 28 14   _SP work_7n2voym2grhjpocfumswh5tooa 28 15 years year NNS work_7n2voym2grhjpocfumswh5tooa 28 16 ago ago RB work_7n2voym2grhjpocfumswh5tooa 28 17 and and CC work_7n2voym2grhjpocfumswh5tooa 28 18 maintained maintain VBD work_7n2voym2grhjpocfumswh5tooa 28 19 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 28 20 culturally culturally RB work_7n2voym2grhjpocfumswh5tooa 28 21 segregated segregate VBN work_7n2voym2grhjpocfumswh5tooa 28 22 community community NN work_7n2voym2grhjpocfumswh5tooa 28 23 for for IN work_7n2voym2grhjpocfumswh5tooa 28 24 generations generation NNS work_7n2voym2grhjpocfumswh5tooa 28 25 by by IN work_7n2voym2grhjpocfumswh5tooa 28 26 mar- mar- NN work_7n2voym2grhjpocfumswh5tooa 28 27 rying rye VBG work_7n2voym2grhjpocfumswh5tooa 28 28 within within IN work_7n2voym2grhjpocfumswh5tooa 28 29 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 28 30 faith faith NN work_7n2voym2grhjpocfumswh5tooa 28 31 group group NN work_7n2voym2grhjpocfumswh5tooa 28 32 and and CC work_7n2voym2grhjpocfumswh5tooa 28 33 adhering adhere VBG work_7n2voym2grhjpocfumswh5tooa 28 34 to to IN work_7n2voym2grhjpocfumswh5tooa 28 35 a a DT work_7n2voym2grhjpocfumswh5tooa 28 36 uniform uniform JJ work_7n2voym2grhjpocfumswh5tooa 28 37 , , , work_7n2voym2grhjpocfumswh5tooa 28 38 conservative conservative JJ work_7n2voym2grhjpocfumswh5tooa 28 39 lifestyle lifestyle NN work_7n2voym2grhjpocfumswh5tooa 28 40 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 28 41 Strauss Strauss NNP work_7n2voym2grhjpocfumswh5tooa 28 42 and and CC work_7n2voym2grhjpocfumswh5tooa 28 43 Puffenberger Puffenberger NNP work_7n2voym2grhjpocfumswh5tooa 28 44 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 28 45 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 28 46 . . . work_7n2voym2grhjpocfumswh5tooa 29 1 Therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 29 2 , , , work_7n2voym2grhjpocfumswh5tooa 29 3 they -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 29 4 have have VBP work_7n2voym2grhjpocfumswh5tooa 29 5 lower low JJR work_7n2voym2grhjpocfumswh5tooa 29 6 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 29 7 and and CC work_7n2voym2grhjpocfumswh5tooa 29 8 environmental environmental JJ work_7n2voym2grhjpocfumswh5tooa 29 9 het- het- NN work_7n2voym2grhjpocfumswh5tooa 29 10 erogeneity erogeneity NN work_7n2voym2grhjpocfumswh5tooa 29 11 compared compare VBN work_7n2voym2grhjpocfumswh5tooa 29 12 to to IN work_7n2voym2grhjpocfumswh5tooa 29 13 the the DT work_7n2voym2grhjpocfumswh5tooa 29 14 general general JJ work_7n2voym2grhjpocfumswh5tooa 29 15 population population NN work_7n2voym2grhjpocfumswh5tooa 29 16 of of IN work_7n2voym2grhjpocfumswh5tooa 29 17 Euro- Euro- NNP work_7n2voym2grhjpocfumswh5tooa 29 18 pean pean NNP work_7n2voym2grhjpocfumswh5tooa 29 19 descent descent NN work_7n2voym2grhjpocfumswh5tooa 29 20 . . . work_7n2voym2grhjpocfumswh5tooa 30 1 In in IN work_7n2voym2grhjpocfumswh5tooa 30 2 addition addition NN work_7n2voym2grhjpocfumswh5tooa 30 3 , , , work_7n2voym2grhjpocfumswh5tooa 30 4 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 30 5 communities community NNS work_7n2voym2grhjpocfumswh5tooa 30 6 comprise comprise VBP work_7n2voym2grhjpocfumswh5tooa 30 7 large large JJ work_7n2voym2grhjpocfumswh5tooa 30 8 families family NNS work_7n2voym2grhjpocfumswh5tooa 30 9 with with IN work_7n2voym2grhjpocfumswh5tooa 30 10 an an DT work_7n2voym2grhjpocfumswh5tooa 30 11 average average NN work_7n2voym2grhjpocfumswh5tooa 30 12 of of IN work_7n2voym2grhjpocfumswh5tooa 30 13 seven seven CD work_7n2voym2grhjpocfumswh5tooa 30 14 to to TO work_7n2voym2grhjpocfumswh5tooa 30 15 nine nine CD work_7n2voym2grhjpocfumswh5tooa 30 16 children child NNS work_7n2voym2grhjpocfumswh5tooa 30 17 in in IN work_7n2voym2grhjpocfumswh5tooa 30 18 each each DT work_7n2voym2grhjpocfumswh5tooa 30 19 nuclear nuclear JJ work_7n2voym2grhjpocfumswh5tooa 30 20 family family NN work_7n2voym2grhjpocfumswh5tooa 30 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 30 22 McKusick McKusick NNP work_7n2voym2grhjpocfumswh5tooa 30 23 et et NNP work_7n2voym2grhjpocfumswh5tooa 30 24   _SP work_7n2voym2grhjpocfumswh5tooa 30 25 al al NNP work_7n2voym2grhjpocfumswh5tooa 30 26 . . . work_7n2voym2grhjpocfumswh5tooa 31 1 1964 1964 CD work_7n2voym2grhjpocfumswh5tooa 31 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 31 3 . . . work_7n2voym2grhjpocfumswh5tooa 32 1 Extensive extensive JJ work_7n2voym2grhjpocfumswh5tooa 32 2 genealogical genealogical JJ work_7n2voym2grhjpocfumswh5tooa 32 3 data datum NNS work_7n2voym2grhjpocfumswh5tooa 32 4 are be VBP work_7n2voym2grhjpocfumswh5tooa 32 5 available available JJ work_7n2voym2grhjpocfumswh5tooa 32 6 for for IN work_7n2voym2grhjpocfumswh5tooa 32 7 this this DT work_7n2voym2grhjpocfumswh5tooa 32 8 community community NN work_7n2voym2grhjpocfumswh5tooa 32 9 in in IN work_7n2voym2grhjpocfumswh5tooa 32 10 the the DT work_7n2voym2grhjpocfumswh5tooa 32 11 Anabaptist Anabaptist NNP work_7n2voym2grhjpocfumswh5tooa 32 12 Genealogy Genealogy NNP work_7n2voym2grhjpocfumswh5tooa 32 13 Database Database NNP work_7n2voym2grhjpocfumswh5tooa 32 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 32 15 AGDB AGDB NNP work_7n2voym2grhjpocfumswh5tooa 32 16 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 32 17 making make VBG work_7n2voym2grhjpocfumswh5tooa 32 18 this this DT work_7n2voym2grhjpocfumswh5tooa 32 19 a a DT work_7n2voym2grhjpocfumswh5tooa 32 20 valuable valuable JJ work_7n2voym2grhjpocfumswh5tooa 32 21 population population NN work_7n2voym2grhjpocfumswh5tooa 32 22 to to TO work_7n2voym2grhjpocfumswh5tooa 32 23 identify identify VB work_7n2voym2grhjpocfumswh5tooa 32 24 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 32 25 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 32 26 variation variation NN work_7n2voym2grhjpocfumswh5tooa 32 27 by by IN work_7n2voym2grhjpocfumswh5tooa 32 28 combining combine VBG work_7n2voym2grhjpocfumswh5tooa 32 29 the the DT work_7n2voym2grhjpocfumswh5tooa 32 30 advantages advantage NNS work_7n2voym2grhjpocfumswh5tooa 32 31 of of IN work_7n2voym2grhjpocfumswh5tooa 32 32 isolated isolated JJ work_7n2voym2grhjpocfumswh5tooa 32 33 populations population NNS work_7n2voym2grhjpocfumswh5tooa 32 34 and and CC 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amish JJ work_7n2voym2grhjpocfumswh5tooa 34 28 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 34 29 from from IN work_7n2voym2grhjpocfumswh5tooa 34 30 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 34 31 and and CC work_7n2voym2grhjpocfumswh5tooa 34 32 Indiana Indiana NNP work_7n2voym2grhjpocfumswh5tooa 34 33 . . . work_7n2voym2grhjpocfumswh5tooa 35 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 35 2 also also RB work_7n2voym2grhjpocfumswh5tooa 35 3 exam- exam- RB work_7n2voym2grhjpocfumswh5tooa 35 4 ined ine VBN work_7n2voym2grhjpocfumswh5tooa 35 5 in in IN work_7n2voym2grhjpocfumswh5tooa 35 6 silico silico JJ work_7n2voym2grhjpocfumswh5tooa 35 7 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 35 8 annotations annotation NNS work_7n2voym2grhjpocfumswh5tooa 35 9 of of IN work_7n2voym2grhjpocfumswh5tooa 35 10 the the DT work_7n2voym2grhjpocfumswh5tooa 35 11 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 35 12 from from IN work_7n2voym2grhjpocfumswh5tooa 35 13 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 35 14 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 35 15 regions region NNS work_7n2voym2grhjpocfumswh5tooa 35 16 to to TO work_7n2voym2grhjpocfumswh5tooa 35 17 determine determine VB work_7n2voym2grhjpocfumswh5tooa 35 18 whether whether IN work_7n2voym2grhjpocfumswh5tooa 35 19 these these DT work_7n2voym2grhjpocfumswh5tooa 35 20 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 35 21 participate participate VBP work_7n2voym2grhjpocfumswh5tooa 35 22 in in IN work_7n2voym2grhjpocfumswh5tooa 35 23 biological biological JJ work_7n2voym2grhjpocfumswh5tooa 35 24 processes process NNS work_7n2voym2grhjpocfumswh5tooa 35 25 that that WDT work_7n2voym2grhjpocfumswh5tooa 35 26 may may MD work_7n2voym2grhjpocfumswh5tooa 35 27 be be VB work_7n2voym2grhjpocfumswh5tooa 35 28 relevant relevant JJ work_7n2voym2grhjpocfumswh5tooa 35 29 for for IN work_7n2voym2grhjpocfumswh5tooa 35 30 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 35 31 pathology pathology NN 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work_7n2voym2grhjpocfumswh5tooa 36 18 referral referral NN work_7n2voym2grhjpocfumswh5tooa 36 19 from from IN work_7n2voym2grhjpocfumswh5tooa 36 20 other other JJ work_7n2voym2grhjpocfumswh5tooa 36 21 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 36 22 community community NN work_7n2voym2grhjpocfumswh5tooa 36 23 members member NNS work_7n2voym2grhjpocfumswh5tooa 36 24 , , , work_7n2voym2grhjpocfumswh5tooa 36 25 or or CC work_7n2voym2grhjpocfumswh5tooa 36 26 due due IN work_7n2voym2grhjpocfumswh5tooa 36 27 to to IN work_7n2voym2grhjpocfumswh5tooa 36 28 close close JJ work_7n2voym2grhjpocfumswh5tooa 36 29 relationships relationship NNS work_7n2voym2grhjpocfumswh5tooa 36 30 to to IN work_7n2voym2grhjpocfumswh5tooa 36 31 other other JJ work_7n2voym2grhjpocfumswh5tooa 36 32 research research NN work_7n2voym2grhjpocfumswh5tooa 36 33 subjects subject NNS work_7n2voym2grhjpocfumswh5tooa 36 34 . . . work_7n2voym2grhjpocfumswh5tooa 37 1 All all DT work_7n2voym2grhjpocfumswh5tooa 37 2 study study NN work_7n2voym2grhjpocfumswh5tooa 37 3 participants participant NNS work_7n2voym2grhjpocfumswh5tooa 37 4 were be VBD work_7n2voym2grhjpocfumswh5tooa 37 5 at at RB work_7n2voym2grhjpocfumswh5tooa 37 6 least least RBS work_7n2voym2grhjpocfumswh5tooa 37 7 65 65 CD work_7n2voym2grhjpocfumswh5tooa 37 8   _SP work_7n2voym2grhjpocfumswh5tooa 37 9 years year NNS work_7n2voym2grhjpocfumswh5tooa 37 10 old old JJ work_7n2voym2grhjpocfumswh5tooa 37 11 . . . work_7n2voym2grhjpocfumswh5tooa 38 1 The the DT work_7n2voym2grhjpocfumswh5tooa 38 2 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 38 3 affection affection NN work_7n2voym2grhjpocfumswh5tooa 38 4 status status NN work_7n2voym2grhjpocfumswh5tooa 38 5 was be VBD work_7n2voym2grhjpocfumswh5tooa 38 6 defined define VBN work_7n2voym2grhjpocfumswh5tooa 38 7 by by IN work_7n2voym2grhjpocfumswh5tooa 38 8 a a DT work_7n2voym2grhjpocfumswh5tooa 38 9 self self NN work_7n2voym2grhjpocfumswh5tooa 38 10 - - HYPH work_7n2voym2grhjpocfumswh5tooa 38 11 reported report VBN work_7n2voym2grhjpocfumswh5tooa 38 12 diagnosis diagnosis NN work_7n2voym2grhjpocfumswh5tooa 38 13 on on IN work_7n2voym2grhjpocfumswh5tooa 38 14 a a DT work_7n2voym2grhjpocfumswh5tooa 38 15 health health NN work_7n2voym2grhjpocfumswh5tooa 38 16 questionnaire questionnaire NN work_7n2voym2grhjpocfumswh5tooa 38 17 , , , work_7n2voym2grhjpocfumswh5tooa 38 18 which which WDT work_7n2voym2grhjpocfumswh5tooa 38 19 asked ask VBD work_7n2voym2grhjpocfumswh5tooa 38 20 whether whether IN work_7n2voym2grhjpocfumswh5tooa 38 21 the the DT work_7n2voym2grhjpocfumswh5tooa 38 22 individual individual NN work_7n2voym2grhjpocfumswh5tooa 38 23 had have VBD work_7n2voym2grhjpocfumswh5tooa 38 24 ever ever RB work_7n2voym2grhjpocfumswh5tooa 38 25 received receive VBN work_7n2voym2grhjpocfumswh5tooa 38 26 an an DT work_7n2voym2grhjpocfumswh5tooa 38 27 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 38 28 diagnosis diagnosis NN work_7n2voym2grhjpocfumswh5tooa 38 29 from from IN 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NNS work_7n2voym2grhjpocfumswh5tooa 41 5 also also RB work_7n2voym2grhjpocfumswh5tooa 41 6 received receive VBD work_7n2voym2grhjpocfumswh5tooa 41 7 a a DT work_7n2voym2grhjpocfumswh5tooa 41 8 clinical clinical JJ work_7n2voym2grhjpocfumswh5tooa 41 9 exam exam NN work_7n2voym2grhjpocfumswh5tooa 41 10 at at IN work_7n2voym2grhjpocfumswh5tooa 41 11 the the DT work_7n2voym2grhjpocfumswh5tooa 41 12 Wooster Wooster NNP work_7n2voym2grhjpocfumswh5tooa 41 13 Eye Eye NNP work_7n2voym2grhjpocfumswh5tooa 41 14 Clinic Clinic NNP work_7n2voym2grhjpocfumswh5tooa 41 15 in in IN work_7n2voym2grhjpocfumswh5tooa 41 16 Wooster Wooster NNP work_7n2voym2grhjpocfumswh5tooa 41 17 , , , work_7n2voym2grhjpocfumswh5tooa 41 18 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 41 19 where where WRB work_7n2voym2grhjpocfumswh5tooa 41 20 ocular ocular JJ work_7n2voym2grhjpocfumswh5tooa 41 21 coherence coherence NN work_7n2voym2grhjpocfumswh5tooa 41 22 tomography tomography NN work_7n2voym2grhjpocfumswh5tooa 41 23 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NN work_7n2voym2grhjpocfumswh5tooa 47 11 viduals vidual NNS work_7n2voym2grhjpocfumswh5tooa 47 12 with with IN work_7n2voym2grhjpocfumswh5tooa 47 13 confirmed confirmed JJ work_7n2voym2grhjpocfumswh5tooa 47 14 or or CC work_7n2voym2grhjpocfumswh5tooa 47 15 self self NN work_7n2voym2grhjpocfumswh5tooa 47 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 47 17 reported report VBN work_7n2voym2grhjpocfumswh5tooa 47 18 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 47 19 , , , work_7n2voym2grhjpocfumswh5tooa 47 20 79 79 CD work_7n2voym2grhjpocfumswh5tooa 47 21 unaffected unaffected JJ work_7n2voym2grhjpocfumswh5tooa 47 22 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 47 23 , , , work_7n2voym2grhjpocfumswh5tooa 47 24 and and CC work_7n2voym2grhjpocfumswh5tooa 47 25 15 15 CD work_7n2voym2grhjpocfumswh5tooa 47 26 related related JJ work_7n2voym2grhjpocfumswh5tooa 47 27 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 47 28 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 47 29 with with IN work_7n2voym2grhjpocfumswh5tooa 47 30 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 47 31 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 47 32 phenotype phenotype NN work_7n2voym2grhjpocfumswh5tooa 47 33 . . . work_7n2voym2grhjpocfumswh5tooa 48 1 Using use VBG work_7n2voym2grhjpocfumswh5tooa 48 2 the the DT work_7n2voym2grhjpocfumswh5tooa 48 3 Anabaptist Anabaptist NNP work_7n2voym2grhjpocfumswh5tooa 48 4 Genealogy Genealogy NNP work_7n2voym2grhjpocfumswh5tooa 48 5 Data- Data- NNP work_7n2voym2grhjpocfumswh5tooa 48 6 base base NN work_7n2voym2grhjpocfumswh5tooa 48 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 48 8 Agarwala Agarwala NNP work_7n2voym2grhjpocfumswh5tooa 48 9 et et FW work_7n2voym2grhjpocfumswh5tooa 48 10   _SP work_7n2voym2grhjpocfumswh5tooa 48 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 48 12 . . . work_7n2voym2grhjpocfumswh5tooa 49 1 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 49 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 49 3 , , , work_7n2voym2grhjpocfumswh5tooa 49 4 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 49 5 constructed construct VBD work_7n2voym2grhjpocfumswh5tooa 49 6 a a DT work_7n2voym2grhjpocfumswh5tooa 49 7 2118 2118 CD work_7n2voym2grhjpocfumswh5tooa 49 8 person person NN work_7n2voym2grhjpocfumswh5tooa 49 9 all all RB work_7n2voym2grhjpocfumswh5tooa 49 10 - - HYPH work_7n2voym2grhjpocfumswh5tooa 49 11 connecting connect VBG work_7n2voym2grhjpocfumswh5tooa 49 12 path path NN work_7n2voym2grhjpocfumswh5tooa 49 13 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 49 14 for for IN work_7n2voym2grhjpocfumswh5tooa 49 15 the the DT work_7n2voym2grhjpocfumswh5tooa 49 16 175 175 CD work_7n2voym2grhjpocfumswh5tooa 49 17 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 49 18 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 49 19 that that WDT work_7n2voym2grhjpocfumswh5tooa 49 20 passed pass VBD work_7n2voym2grhjpocfumswh5tooa 49 21 quality quality NN work_7n2voym2grhjpocfumswh5tooa 49 22 control control NN work_7n2voym2grhjpocfumswh5tooa 49 23 and and CC work_7n2voym2grhjpocfumswh5tooa 49 24 were be VBD work_7n2voym2grhjpocfumswh5tooa 49 25 closely closely RB work_7n2voym2grhjpocfumswh5tooa 49 26 related related JJ work_7n2voym2grhjpocfumswh5tooa 49 27 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 49 28 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 49 29 . . . work_7n2voym2grhjpocfumswh5tooa 50 1 1 1 LS work_7n2voym2grhjpocfumswh5tooa 50 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 50 3 . . . work_7n2voym2grhjpocfumswh5tooa 51 1 This this DT work_7n2voym2grhjpocfumswh5tooa 51 2 included include VBD work_7n2voym2grhjpocfumswh5tooa 51 3 86 86 CD work_7n2voym2grhjpocfumswh5tooa 51 4 affected affect VBN work_7n2voym2grhjpocfumswh5tooa 51 5 with with IN work_7n2voym2grhjpocfumswh5tooa 51 6 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 51 7 , , , work_7n2voym2grhjpocfumswh5tooa 51 8 77 77 CD work_7n2voym2grhjpocfumswh5tooa 51 9 unaffected unaffected JJ work_7n2voym2grhjpocfumswh5tooa 51 10 indi- indi- NN work_7n2voym2grhjpocfumswh5tooa 51 11 viduals vidual NNS work_7n2voym2grhjpocfumswh5tooa 51 12 , , , work_7n2voym2grhjpocfumswh5tooa 51 13 and and CC work_7n2voym2grhjpocfumswh5tooa 51 14 12 12 CD work_7n2voym2grhjpocfumswh5tooa 51 15 relatives relative NNS work_7n2voym2grhjpocfumswh5tooa 51 16 with with IN work_7n2voym2grhjpocfumswh5tooa 51 17 an an DT work_7n2voym2grhjpocfumswh5tooa 51 18 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 51 19 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 51 20 affection affection NN work_7n2voym2grhjpocfumswh5tooa 51 21 status status NN work_7n2voym2grhjpocfumswh5tooa 51 22 . . . work_7n2voym2grhjpocfumswh5tooa 52 1 Informed informed JJ work_7n2voym2grhjpocfumswh5tooa 52 2 consent consent NN work_7n2voym2grhjpocfumswh5tooa 52 3 was be VBD work_7n2voym2grhjpocfumswh5tooa 52 4 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 52 5 from from IN work_7n2voym2grhjpocfumswh5tooa 52 6 all all DT work_7n2voym2grhjpocfumswh5tooa 52 7 study study NN work_7n2voym2grhjpocfumswh5tooa 52 8 partici- partici- NN work_7n2voym2grhjpocfumswh5tooa 52 9 pants pant NNS work_7n2voym2grhjpocfumswh5tooa 52 10 , , , work_7n2voym2grhjpocfumswh5tooa 52 11 and and CC work_7n2voym2grhjpocfumswh5tooa 52 12 the the DT work_7n2voym2grhjpocfumswh5tooa 52 13 study study NN work_7n2voym2grhjpocfumswh5tooa 52 14 was be VBD work_7n2voym2grhjpocfumswh5tooa 52 15 approved approve VBN work_7n2voym2grhjpocfumswh5tooa 52 16 by by IN work_7n2voym2grhjpocfumswh5tooa 52 17 the the DT work_7n2voym2grhjpocfumswh5tooa 52 18 institutional institutional JJ work_7n2voym2grhjpocfumswh5tooa 52 19 review review NN work_7n2voym2grhjpocfumswh5tooa 52 20 boards board NNS work_7n2voym2grhjpocfumswh5tooa 52 21 at at IN work_7n2voym2grhjpocfumswh5tooa 52 22 Vanderbilt Vanderbilt NNP work_7n2voym2grhjpocfumswh5tooa 52 23 University University NNP work_7n2voym2grhjpocfumswh5tooa 52 24 and and CC work_7n2voym2grhjpocfumswh5tooa 52 25 Case Case NNP work_7n2voym2grhjpocfumswh5tooa 52 26 Western Western NNP work_7n2voym2grhjpocfumswh5tooa 52 27 Reserve Reserve NNP work_7n2voym2grhjpocfumswh5tooa 52 28 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 52 29 . . . work_7n2voym2grhjpocfumswh5tooa 53 1 1 1 CD work_7n2voym2grhjpocfumswh5tooa 53 2 All all RB work_7n2voym2grhjpocfumswh5tooa 53 3 - - HYPH work_7n2voym2grhjpocfumswh5tooa 53 4 connecting connect VBG work_7n2voym2grhjpocfumswh5tooa 53 5 path path NN work_7n2voym2grhjpocfumswh5tooa 53 6 pedi- pedi- NN work_7n2voym2grhjpocfumswh5tooa 53 7 gree gree NN work_7n2voym2grhjpocfumswh5tooa 53 8 of of IN work_7n2voym2grhjpocfumswh5tooa 53 9 the the DT work_7n2voym2grhjpocfumswh5tooa 53 10 175 175 CD work_7n2voym2grhjpocfumswh5tooa 53 11 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 53 12 individu- individu- NN work_7n2voym2grhjpocfumswh5tooa 53 13 als als NN work_7n2voym2grhjpocfumswh5tooa 53 14 in in IN work_7n2voym2grhjpocfumswh5tooa 53 15 this this DT work_7n2voym2grhjpocfumswh5tooa 53 16 study study NN work_7n2voym2grhjpocfumswh5tooa 53 17 . . . work_7n2voym2grhjpocfumswh5tooa 54 1 The the DT work_7n2voym2grhjpocfumswh5tooa 54 2 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 54 3 was be VBD work_7n2voym2grhjpocfumswh5tooa 54 4 drawn draw VBN work_7n2voym2grhjpocfumswh5tooa 54 5 using use VBG work_7n2voym2grhjpocfumswh5tooa 54 6 information information NN work_7n2voym2grhjpocfumswh5tooa 54 7 from from IN work_7n2voym2grhjpocfumswh5tooa 54 8 the the DT work_7n2voym2grhjpocfumswh5tooa 54 9 Anabaptist Anabaptist NNP work_7n2voym2grhjpocfumswh5tooa 54 10 Genealogy Genealogy NNP work_7n2voym2grhjpocfumswh5tooa 54 11 Database Database NNP work_7n2voym2grhjpocfumswh5tooa 54 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 54 13 AGDB AGDB NNP work_7n2voym2grhjpocfumswh5tooa 54 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 54 15 . . . work_7n2voym2grhjpocfumswh5tooa 55 1 Circles circle NNS work_7n2voym2grhjpocfumswh5tooa 55 2 : : : work_7n2voym2grhjpocfumswh5tooa 55 3 females female NNS work_7n2voym2grhjpocfumswh5tooa 55 4 . . . work_7n2voym2grhjpocfumswh5tooa 56 1 Squares square NNS work_7n2voym2grhjpocfumswh5tooa 56 2 : : : work_7n2voym2grhjpocfumswh5tooa 56 3 males male NNS work_7n2voym2grhjpocfumswh5tooa 56 4 . . . work_7n2voym2grhjpocfumswh5tooa 57 1 The the DT work_7n2voym2grhjpocfumswh5tooa 57 2 genotyped genotype VBN work_7n2voym2grhjpocfumswh5tooa 57 3 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 57 4 are be VBP work_7n2voym2grhjpocfumswh5tooa 57 5 within within IN work_7n2voym2grhjpocfumswh5tooa 57 6 the the DT work_7n2voym2grhjpocfumswh5tooa 57 7 shaded shaded JJ work_7n2voym2grhjpocfumswh5tooa 57 8 blue blue JJ work_7n2voym2grhjpocfumswh5tooa 57 9 box box NNP work_7n2voym2grhjpocfumswh5tooa 57 10 1173Human 1173Human NNPS work_7n2voym2grhjpocfumswh5tooa 57 11 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 57 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 57 13 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 57 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 57 15 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 57 16 1 1 CD work_7n2voym2grhjpocfumswh5tooa 57 17 3 3 CD work_7n2voym2grhjpocfumswh5tooa 57 18 University University NNP work_7n2voym2grhjpocfumswh5tooa 57 19 . . . work_7n2voym2grhjpocfumswh5tooa 58 1 Study study NN work_7n2voym2grhjpocfumswh5tooa 58 2 procedures procedure NNS work_7n2voym2grhjpocfumswh5tooa 58 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 58 4 performed perform VBN work_7n2voym2grhjpocfumswh5tooa 58 5 in in IN work_7n2voym2grhjpocfumswh5tooa 58 6 accordance accordance NN work_7n2voym2grhjpocfumswh5tooa 58 7 with with IN work_7n2voym2grhjpocfumswh5tooa 58 8 the the DT work_7n2voym2grhjpocfumswh5tooa 58 9 tenets tenet NNS work_7n2voym2grhjpocfumswh5tooa 58 10 of of IN work_7n2voym2grhjpocfumswh5tooa 58 11 the the DT work_7n2voym2grhjpocfumswh5tooa 58 12 Declaration Declaration NNP work_7n2voym2grhjpocfumswh5tooa 58 13 of of IN work_7n2voym2grhjpocfumswh5tooa 58 14 Helsinki Helsinki NNP work_7n2voym2grhjpocfumswh5tooa 58 15 . . . work_7n2voym2grhjpocfumswh5tooa 59 1 Genotyping genotyping NN work_7n2voym2grhjpocfumswh5tooa 59 2 and and CC work_7n2voym2grhjpocfumswh5tooa 59 3   _SP work_7n2voym2grhjpocfumswh5tooa 59 4 quality quality NN work_7n2voym2grhjpocfumswh5tooa 59 5 control control NN work_7n2voym2grhjpocfumswh5tooa 59 6 A a DT work_7n2voym2grhjpocfumswh5tooa 59 7 total total NN work_7n2voym2grhjpocfumswh5tooa 59 8 of of IN work_7n2voym2grhjpocfumswh5tooa 59 9 192 192 CD work_7n2voym2grhjpocfumswh5tooa 59 10 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 59 11 , , , work_7n2voym2grhjpocfumswh5tooa 59 12 which which WDT work_7n2voym2grhjpocfumswh5tooa 59 13 included include VBD work_7n2voym2grhjpocfumswh5tooa 59 14 181 181 CD work_7n2voym2grhjpocfumswh5tooa 59 15 unique unique JJ work_7n2voym2grhjpocfumswh5tooa 59 16 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 59 17 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 59 18 , , , work_7n2voym2grhjpocfumswh5tooa 59 19 5 5 CD work_7n2voym2grhjpocfumswh5tooa 59 20 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 59 21 duplicates duplicate NNS work_7n2voym2grhjpocfumswh5tooa 59 22 , , , work_7n2voym2grhjpocfumswh5tooa 59 23 and and CC work_7n2voym2grhjpocfumswh5tooa 59 24 6 6 CD work_7n2voym2grhjpocfumswh5tooa 59 25 Coriell Coriell NNP work_7n2voym2grhjpocfumswh5tooa 59 26 HapMap HapMap NNP work_7n2voym2grhjpocfumswh5tooa 59 27 trio trio NN work_7n2voym2grhjpocfumswh5tooa 59 28 controls control NNS work_7n2voym2grhjpocfumswh5tooa 59 29 of of IN work_7n2voym2grhjpocfumswh5tooa 59 30 European european JJ work_7n2voym2grhjpocfumswh5tooa 59 31 descent descent NN work_7n2voym2grhjpocfumswh5tooa 59 32 , , , work_7n2voym2grhjpocfumswh5tooa 59 33 were be VBD work_7n2voym2grhjpocfumswh5tooa 59 34 genotyped genotype VBN work_7n2voym2grhjpocfumswh5tooa 59 35 using use VBG work_7n2voym2grhjpocfumswh5tooa 59 36 the the DT work_7n2voym2grhjpocfumswh5tooa 59 37 Illumina Illumina NNP work_7n2voym2grhjpocfumswh5tooa 59 38 HumanExome HumanExome NNP work_7n2voym2grhjpocfumswh5tooa 59 39 BeadChip BeadChip NNP work_7n2voym2grhjpocfumswh5tooa 59 40 v1.1 v1.1 VBD work_7n2voym2grhjpocfumswh5tooa 59 41 at at IN work_7n2voym2grhjpocfumswh5tooa 59 42 the the DT work_7n2voym2grhjpocfumswh5tooa 59 43 Vanderbilt Vanderbilt NNP work_7n2voym2grhjpocfumswh5tooa 59 44 Technologies Technologies NNP work_7n2voym2grhjpocfumswh5tooa 59 45 for for IN work_7n2voym2grhjpocfumswh5tooa 59 46 Advanced Advanced NNP work_7n2voym2grhjpocfumswh5tooa 59 47 Genomics Genomics NNP work_7n2voym2grhjpocfumswh5tooa 59 48 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 59 49 VANTAGE VANTAGE NNP work_7n2voym2grhjpocfumswh5tooa 59 50 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 59 51 DNA DNA NNP work_7n2voym2grhjpocfumswh5tooa 59 52 Resources resource NNS work_7n2voym2grhjpocfumswh5tooa 59 53 Core Core NNP work_7n2voym2grhjpocfumswh5tooa 59 54 . . . work_7n2voym2grhjpocfumswh5tooa 60 1 Genotype Genotype NNP work_7n2voym2grhjpocfumswh5tooa 60 2 data datum NNS work_7n2voym2grhjpocfumswh5tooa 60 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 60 4 called call VBN work_7n2voym2grhjpocfumswh5tooa 60 5 and and CC work_7n2voym2grhjpocfumswh5tooa 60 6 clustered cluster VBN work_7n2voym2grhjpocfumswh5tooa 60 7 with with IN work_7n2voym2grhjpocfumswh5tooa 60 8 Illumina Illumina NNP work_7n2voym2grhjpocfumswh5tooa 60 9 ’s ’s , work_7n2voym2grhjpocfumswh5tooa 60 10 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 60 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 60 12 Illumina Illumina NNP work_7n2voym2grhjpocfumswh5tooa 60 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 60 14 . . . work_7n2voym2grhjpocfumswh5tooa 61 1 The the DT work_7n2voym2grhjpocfumswh5tooa 61 2 accuracy accuracy NN work_7n2voym2grhjpocfumswh5tooa 61 3 of of IN work_7n2voym2grhjpocfumswh5tooa 61 4 genotype genotype NN work_7n2voym2grhjpocfumswh5tooa 61 5 calling call VBG work_7n2voym2grhjpocfumswh5tooa 61 6 using use VBG work_7n2voym2grhjpocfumswh5tooa 61 7 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 61 8 is be VBZ work_7n2voym2grhjpocfumswh5tooa 61 9 improved improve VBN work_7n2voym2grhjpocfumswh5tooa 61 10 by by IN work_7n2voym2grhjpocfumswh5tooa 61 11 increasing increase VBG work_7n2voym2grhjpocfumswh5tooa 61 12 the the DT work_7n2voym2grhjpocfumswh5tooa 61 13 sample sample NN work_7n2voym2grhjpocfumswh5tooa 61 14 size size NN work_7n2voym2grhjpocfumswh5tooa 61 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 61 16 Grove Grove NNP work_7n2voym2grhjpocfumswh5tooa 61 17 et et NNP work_7n2voym2grhjpocfumswh5tooa 61 18   _SP work_7n2voym2grhjpocfumswh5tooa 61 19 al al NNP work_7n2voym2grhjpocfumswh5tooa 61 20 . . . work_7n2voym2grhjpocfumswh5tooa 62 1 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 62 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 62 3 . . . work_7n2voym2grhjpocfumswh5tooa 63 1 Therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 63 2 , , , work_7n2voym2grhjpocfumswh5tooa 63 3 an an DT work_7n2voym2grhjpocfumswh5tooa 63 4 additional additional JJ work_7n2voym2grhjpocfumswh5tooa 63 5 2280 2280 CD work_7n2voym2grhjpocfumswh5tooa 63 6 non non JJ work_7n2voym2grhjpocfumswh5tooa 63 7 - - JJ work_7n2voym2grhjpocfumswh5tooa 63 8 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 63 9 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 63 10 that that WDT work_7n2voym2grhjpocfumswh5tooa 63 11 were be VBD work_7n2voym2grhjpocfumswh5tooa 63 12 genotyped genotype VBN work_7n2voym2grhjpocfumswh5tooa 63 13 by by IN work_7n2voym2grhjpocfumswh5tooa 63 14 VANTAGE vantage NN work_7n2voym2grhjpocfumswh5tooa 63 15 with with IN work_7n2voym2grhjpocfumswh5tooa 63 16 the the DT work_7n2voym2grhjpocfumswh5tooa 63 17 same same JJ work_7n2voym2grhjpocfumswh5tooa 63 18 protocols protocol NNS work_7n2voym2grhjpocfumswh5tooa 63 19 and and CC work_7n2voym2grhjpocfumswh5tooa 63 20 at at IN work_7n2voym2grhjpocfumswh5tooa 63 21 the the DT work_7n2voym2grhjpocfumswh5tooa 63 22 same same JJ work_7n2voym2grhjpocfumswh5tooa 63 23 time time NN work_7n2voym2grhjpocfumswh5tooa 63 24 as as IN work_7n2voym2grhjpocfumswh5tooa 63 25 the the DT work_7n2voym2grhjpocfumswh5tooa 63 26 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 63 27 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 63 28 were be VBD work_7n2voym2grhjpocfumswh5tooa 63 29 imported import VBN work_7n2voym2grhjpocfumswh5tooa 63 30 into into IN work_7n2voym2grhjpocfumswh5tooa 63 31 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 63 32 and and CC work_7n2voym2grhjpocfumswh5tooa 63 33 clustered cluster VBN work_7n2voym2grhjpocfumswh5tooa 63 34 with with IN work_7n2voym2grhjpocfumswh5tooa 63 35 the the DT work_7n2voym2grhjpocfumswh5tooa 63 36 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 63 37 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 63 38 . . . work_7n2voym2grhjpocfumswh5tooa 64 1 The the DT work_7n2voym2grhjpocfumswh5tooa 64 2 data datum NNS work_7n2voym2grhjpocfumswh5tooa 64 3 from from IN work_7n2voym2grhjpocfumswh5tooa 64 4 these these DT work_7n2voym2grhjpocfumswh5tooa 64 5 non- non- NN work_7n2voym2grhjpocfumswh5tooa 64 6 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 64 7 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 64 8 were be VBD work_7n2voym2grhjpocfumswh5tooa 64 9 not not RB work_7n2voym2grhjpocfumswh5tooa 64 10 used use VBN work_7n2voym2grhjpocfumswh5tooa 64 11 in in IN work_7n2voym2grhjpocfumswh5tooa 64 12 the the DT work_7n2voym2grhjpocfumswh5tooa 64 13 subsequent subsequent JJ work_7n2voym2grhjpocfumswh5tooa 64 14 association association NN work_7n2voym2grhjpocfumswh5tooa 64 15 and and CC work_7n2voym2grhjpocfumswh5tooa 64 16 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 64 17 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 64 18 . . . work_7n2voym2grhjpocfumswh5tooa 65 1 All all DT work_7n2voym2grhjpocfumswh5tooa 65 2 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 65 3 demonstrated demonstrate VBD work_7n2voym2grhjpocfumswh5tooa 65 4 call call NN work_7n2voym2grhjpocfumswh5tooa 65 5 rates rate NNS work_7n2voym2grhjpocfumswh5tooa 65 6 greater great JJR work_7n2voym2grhjpocfumswh5tooa 65 7 than than IN work_7n2voym2grhjpocfumswh5tooa 65 8 95 95 CD work_7n2voym2grhjpocfumswh5tooa 65 9 % % NN work_7n2voym2grhjpocfumswh5tooa 65 10 and and CC work_7n2voym2grhjpocfumswh5tooa 65 11 were be VBD work_7n2voym2grhjpocfumswh5tooa 65 12 used use VBN work_7n2voym2grhjpocfumswh5tooa 65 13 for for IN work_7n2voym2grhjpocfumswh5tooa 65 14 extensive extensive JJ work_7n2voym2grhjpocfumswh5tooa 65 15 quality quality NN work_7n2voym2grhjpocfumswh5tooa 65 16 con- con- NN work_7n2voym2grhjpocfumswh5tooa 65 17 trol trol NN work_7n2voym2grhjpocfumswh5tooa 65 18 in in IN work_7n2voym2grhjpocfumswh5tooa 65 19 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 65 20 as as IN work_7n2voym2grhjpocfumswh5tooa 65 21 summarized summarize VBN work_7n2voym2grhjpocfumswh5tooa 65 22 in in IN work_7n2voym2grhjpocfumswh5tooa 65 23 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 65 24 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 65 25 . . . work_7n2voym2grhjpocfumswh5tooa 66 1 1 1 LS work_7n2voym2grhjpocfumswh5tooa 66 2 and and CC work_7n2voym2grhjpocfumswh5tooa 66 3 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 66 4 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 66 5   _SP work_7n2voym2grhjpocfumswh5tooa 66 6 1 1 CD work_7n2voym2grhjpocfumswh5tooa 66 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 66 8 Guo Guo NNP work_7n2voym2grhjpocfumswh5tooa 66 9 et et FW work_7n2voym2grhjpocfumswh5tooa 66 10   _SP work_7n2voym2grhjpocfumswh5tooa 66 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 66 12 . . . work_7n2voym2grhjpocfumswh5tooa 67 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 67 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 67 3 . . . work_7n2voym2grhjpocfumswh5tooa 68 1 Briefly briefly RB work_7n2voym2grhjpocfumswh5tooa 68 2 , , , work_7n2voym2grhjpocfumswh5tooa 68 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 68 4 excluded exclude VBD work_7n2voym2grhjpocfumswh5tooa 68 5 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 68 6 for for IN work_7n2voym2grhjpocfumswh5tooa 68 7 low low JJ work_7n2voym2grhjpocfumswh5tooa 68 8 call call NN work_7n2voym2grhjpocfumswh5tooa 68 9 rate rate NN work_7n2voym2grhjpocfumswh5tooa 68 10 , , , work_7n2voym2grhjpocfumswh5tooa 68 11 GenTrain GenTrain NNP work_7n2voym2grhjpocfumswh5tooa 68 12 score score NN work_7n2voym2grhjpocfumswh5tooa 68 13 for for IN work_7n2voym2grhjpocfumswh5tooa 68 14 cluster cluster NN work_7n2voym2grhjpocfumswh5tooa 68 15 quality quality NN work_7n2voym2grhjpocfumswh5tooa 68 16 , , , work_7n2voym2grhjpocfumswh5tooa 68 17 cluster cluster NN work_7n2voym2grhjpocfumswh5tooa 68 18 separation separation NN work_7n2voym2grhjpocfumswh5tooa 68 19 , , , work_7n2voym2grhjpocfumswh5tooa 68 20 and and CC work_7n2voym2grhjpocfumswh5tooa 68 21 intensity intensity NN work_7n2voym2grhjpocfumswh5tooa 68 22 values value NNS work_7n2voym2grhjpocfumswh5tooa 68 23 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 68 24 Supplemen- Supplemen- NNP work_7n2voym2grhjpocfumswh5tooa 68 25 tal tal NNP work_7n2voym2grhjpocfumswh5tooa 68 26 Table table NN work_7n2voym2grhjpocfumswh5tooa 68 27   _SP work_7n2voym2grhjpocfumswh5tooa 68 28 1 1 CD work_7n2voym2grhjpocfumswh5tooa 68 29 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 68 30 . . . work_7n2voym2grhjpocfumswh5tooa 69 1 Hemizygous hemizygous JJ work_7n2voym2grhjpocfumswh5tooa 69 2 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 69 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 69 4 evaluated evaluate VBN work_7n2voym2grhjpocfumswh5tooa 69 5 as as RB work_7n2voym2grhjpocfumswh5tooa 69 6 well well RB work_7n2voym2grhjpocfumswh5tooa 69 7 as as IN work_7n2voym2grhjpocfumswh5tooa 69 8 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 69 9 with with IN work_7n2voym2grhjpocfumswh5tooa 69 10 Mendelian Mendelian NNP work_7n2voym2grhjpocfumswh5tooa 69 11 and and CC work_7n2voym2grhjpocfumswh5tooa 69 12 replication replication NN work_7n2voym2grhjpocfumswh5tooa 69 13 errors error NNS work_7n2voym2grhjpocfumswh5tooa 69 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 69 15 Supplemen- Supplemen- NNP work_7n2voym2grhjpocfumswh5tooa 69 16 tal tal NNP work_7n2voym2grhjpocfumswh5tooa 69 17 Table table NN work_7n2voym2grhjpocfumswh5tooa 69 18   _SP work_7n2voym2grhjpocfumswh5tooa 69 19 1 1 CD work_7n2voym2grhjpocfumswh5tooa 69 20 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 69 21 . . . work_7n2voym2grhjpocfumswh5tooa 70 1 Rare rare JJ work_7n2voym2grhjpocfumswh5tooa 70 2 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 70 3 calling calling NN work_7n2voym2grhjpocfumswh5tooa 70 4 was be VBD work_7n2voym2grhjpocfumswh5tooa 70 5 performed perform VBN work_7n2voym2grhjpocfumswh5tooa 70 6 manually manually RB work_7n2voym2grhjpocfumswh5tooa 70 7 with with IN work_7n2voym2grhjpocfumswh5tooa 70 8 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 70 9 ’s ’s NNP work_7n2voym2grhjpocfumswh5tooa 70 10 GenCall GenCall NNP work_7n2voym2grhjpocfumswh5tooa 70 11 algorithm algorithm NN work_7n2voym2grhjpocfumswh5tooa 70 12 and and CC work_7n2voym2grhjpocfumswh5tooa 70 13 with with IN work_7n2voym2grhjpocfumswh5tooa 70 14 zCall zCall NNP work_7n2voym2grhjpocfumswh5tooa 70 15 , , , work_7n2voym2grhjpocfumswh5tooa 70 16 a a DT work_7n2voym2grhjpocfumswh5tooa 70 17 separate separate JJ work_7n2voym2grhjpocfumswh5tooa 70 18 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 70 19 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 70 20 calling calling NN work_7n2voym2grhjpocfumswh5tooa 70 21 algorithm algorithm NN work_7n2voym2grhjpocfumswh5tooa 70 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 70 23 Goldstein Goldstein NNP work_7n2voym2grhjpocfumswh5tooa 70 24 et et NNP work_7n2voym2grhjpocfumswh5tooa 70 25   _SP work_7n2voym2grhjpocfumswh5tooa 70 26 al al NNP work_7n2voym2grhjpocfumswh5tooa 70 27 . . . work_7n2voym2grhjpocfumswh5tooa 71 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 71 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 71 3 . . . work_7n2voym2grhjpocfumswh5tooa 72 1 zCall zCall NNP work_7n2voym2grhjpocfumswh5tooa 72 2 is be VBZ work_7n2voym2grhjpocfumswh5tooa 72 3 utilized utilize VBN work_7n2voym2grhjpocfumswh5tooa 72 4 as as IN work_7n2voym2grhjpocfumswh5tooa 72 5 a a DT work_7n2voym2grhjpocfumswh5tooa 72 6 post post JJ work_7n2voym2grhjpocfumswh5tooa 72 7 - - JJ work_7n2voym2grhjpocfumswh5tooa 72 8 processing processing JJ work_7n2voym2grhjpocfumswh5tooa 72 9 step step NN work_7n2voym2grhjpocfumswh5tooa 72 10 for for IN work_7n2voym2grhjpocfumswh5tooa 72 11 call- call- XX work_7n2voym2grhjpocfumswh5tooa 72 12 ing ing NN work_7n2voym2grhjpocfumswh5tooa 72 13 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 72 14 with with IN work_7n2voym2grhjpocfumswh5tooa 72 15 no no DT work_7n2voym2grhjpocfumswh5tooa 72 16 genotypes genotype NNS work_7n2voym2grhjpocfumswh5tooa 72 17 assigned assign VBN work_7n2voym2grhjpocfumswh5tooa 72 18 after after IN work_7n2voym2grhjpocfumswh5tooa 72 19 initial initial JJ work_7n2voym2grhjpocfumswh5tooa 72 20 variant variant NN work_7n2voym2grhjpocfumswh5tooa 72 21 calling calling NN work_7n2voym2grhjpocfumswh5tooa 72 22 with with IN work_7n2voym2grhjpocfumswh5tooa 72 23 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 72 24 ’s ’s NNP work_7n2voym2grhjpocfumswh5tooa 72 25 GenCall GenCall NNP work_7n2voym2grhjpocfumswh5tooa 72 26 algorithm algorithm NN work_7n2voym2grhjpocfumswh5tooa 72 27 . . . work_7n2voym2grhjpocfumswh5tooa 73 1 It -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 73 2 uses use VBZ work_7n2voym2grhjpocfumswh5tooa 73 3 the the DT work_7n2voym2grhjpocfumswh5tooa 73 4 intensity intensity NN work_7n2voym2grhjpocfumswh5tooa 73 5 profile profile NN work_7n2voym2grhjpocfumswh5tooa 73 6 of of IN work_7n2voym2grhjpocfumswh5tooa 73 7 the the DT work_7n2voym2grhjpocfumswh5tooa 73 8 homozygous homozygous JJ work_7n2voym2grhjpocfumswh5tooa 73 9 cluster cluster NN work_7n2voym2grhjpocfumswh5tooa 73 10 of of IN work_7n2voym2grhjpocfumswh5tooa 73 11 the the DT work_7n2voym2grhjpocfumswh5tooa 73 12 common common JJ work_7n2voym2grhjpocfumswh5tooa 73 13 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 73 14 to to TO work_7n2voym2grhjpocfumswh5tooa 73 15 determine determine VB work_7n2voym2grhjpocfumswh5tooa 73 16 the the DT work_7n2voym2grhjpocfumswh5tooa 73 17 location location NN work_7n2voym2grhjpocfumswh5tooa 73 18 of of IN work_7n2voym2grhjpocfumswh5tooa 73 19 the the DT work_7n2voym2grhjpocfumswh5tooa 73 20 other other JJ work_7n2voym2grhjpocfumswh5tooa 73 21 homozygous homozygous JJ work_7n2voym2grhjpocfumswh5tooa 73 22 and and CC work_7n2voym2grhjpocfumswh5tooa 73 23 heterozygous heterozygous JJ work_7n2voym2grhjpocfumswh5tooa 73 24 genotype genotype NN work_7n2voym2grhjpocfumswh5tooa 73 25 clusters cluster NNS work_7n2voym2grhjpocfumswh5tooa 73 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 73 27 Goldstein Goldstein NNP work_7n2voym2grhjpocfumswh5tooa 73 28 et et NNP work_7n2voym2grhjpocfumswh5tooa 73 29   _SP work_7n2voym2grhjpocfumswh5tooa 73 30 al al NNP work_7n2voym2grhjpocfumswh5tooa 73 31 . . . work_7n2voym2grhjpocfumswh5tooa 74 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 74 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 74 3 . . . work_7n2voym2grhjpocfumswh5tooa 75 1 All all DT work_7n2voym2grhjpocfumswh5tooa 75 2 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 75 3 with with IN work_7n2voym2grhjpocfumswh5tooa 75 4 at at RB work_7n2voym2grhjpocfumswh5tooa 75 5 least least JJS work_7n2voym2grhjpocfumswh5tooa 75 6 four four CD work_7n2voym2grhjpocfumswh5tooa 75 7 new new JJ work_7n2voym2grhjpocfumswh5tooa 75 8 heterozygous heterozygous JJ work_7n2voym2grhjpocfumswh5tooa 75 9 calls call NNS work_7n2voym2grhjpocfumswh5tooa 75 10 in in IN work_7n2voym2grhjpocfumswh5tooa 75 11 zCall zCall NNP work_7n2voym2grhjpocfumswh5tooa 75 12 were be VBD work_7n2voym2grhjpocfumswh5tooa 75 13 manually manually RB work_7n2voym2grhjpocfumswh5tooa 75 14 reviewed review VBN work_7n2voym2grhjpocfumswh5tooa 75 15 in in IN work_7n2voym2grhjpocfumswh5tooa 75 16 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 75 17 . . . work_7n2voym2grhjpocfumswh5tooa 76 1 A a DT work_7n2voym2grhjpocfumswh5tooa 76 2 total total NN work_7n2voym2grhjpocfumswh5tooa 76 3 of of IN work_7n2voym2grhjpocfumswh5tooa 76 4 146,571 146,571 CD work_7n2voym2grhjpocfumswh5tooa 76 5 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 76 6 and and CC work_7n2voym2grhjpocfumswh5tooa 76 7 2466 2466 CD work_7n2voym2grhjpocfumswh5tooa 76 8 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 76 9 , , , work_7n2voym2grhjpocfumswh5tooa 76 10 includ- includ- NNP work_7n2voym2grhjpocfumswh5tooa 76 11 ing ing NNP work_7n2voym2grhjpocfumswh5tooa 76 12 181 181 CD work_7n2voym2grhjpocfumswh5tooa 76 13 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 76 14 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 76 15 , , , work_7n2voym2grhjpocfumswh5tooa 76 16 passed pass VBD work_7n2voym2grhjpocfumswh5tooa 76 17 quality quality NN work_7n2voym2grhjpocfumswh5tooa 76 18 control control NN work_7n2voym2grhjpocfumswh5tooa 76 19 in in IN work_7n2voym2grhjpocfumswh5tooa 76 20 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 76 21 and and CC work_7n2voym2grhjpocfumswh5tooa 76 22 were be VBD work_7n2voym2grhjpocfumswh5tooa 76 23 evaluated evaluate VBN work_7n2voym2grhjpocfumswh5tooa 76 24 for for IN work_7n2voym2grhjpocfumswh5tooa 76 25 sex sex NN work_7n2voym2grhjpocfumswh5tooa 76 26 mismatch mismatch NN work_7n2voym2grhjpocfumswh5tooa 76 27 , , , work_7n2voym2grhjpocfumswh5tooa 76 28 race race NN work_7n2voym2grhjpocfumswh5tooa 76 29 mismatch mismatch NN work_7n2voym2grhjpocfumswh5tooa 76 30 , , , work_7n2voym2grhjpocfumswh5tooa 76 31 and and CC work_7n2voym2grhjpocfumswh5tooa 76 32 heterozygosity heterozygosity NN work_7n2voym2grhjpocfumswh5tooa 76 33 outliers outlier NNS work_7n2voym2grhjpocfumswh5tooa 76 34 using use VBG work_7n2voym2grhjpocfumswh5tooa 76 35 PLINK PLINK NNP work_7n2voym2grhjpocfumswh5tooa 76 36 v1.07 v1.07 NNS work_7n2voym2grhjpocfumswh5tooa 76 37 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 76 38 Purcell Purcell NNP work_7n2voym2grhjpocfumswh5tooa 76 39 et et NNP work_7n2voym2grhjpocfumswh5tooa 76 40   _SP work_7n2voym2grhjpocfumswh5tooa 76 41 al al NNP work_7n2voym2grhjpocfumswh5tooa 76 42 . . . work_7n2voym2grhjpocfumswh5tooa 77 1 2007 2007 CD work_7n2voym2grhjpocfumswh5tooa 77 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 77 3 . . . work_7n2voym2grhjpocfumswh5tooa 78 1 Sex sex NN work_7n2voym2grhjpocfumswh5tooa 78 2 mismatched mismatch VBD work_7n2voym2grhjpocfumswh5tooa 78 3 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 78 4 were be VBD work_7n2voym2grhjpocfumswh5tooa 78 5 evaluated evaluate VBN work_7n2voym2grhjpocfumswh5tooa 78 6 using use VBG work_7n2voym2grhjpocfumswh5tooa 78 7 heterozygosity heterozygosity NN work_7n2voym2grhjpocfumswh5tooa 78 8 rates rate NNS work_7n2voym2grhjpocfumswh5tooa 78 9 for for IN work_7n2voym2grhjpocfumswh5tooa 78 10 the the DT work_7n2voym2grhjpocfumswh5tooa 78 11 X x NN work_7n2voym2grhjpocfumswh5tooa 78 12 chromo- chromo- NN work_7n2voym2grhjpocfumswh5tooa 78 13 some some DT work_7n2voym2grhjpocfumswh5tooa 78 14 and and CC work_7n2voym2grhjpocfumswh5tooa 78 15 call call VB work_7n2voym2grhjpocfumswh5tooa 78 16 rates rate NNS work_7n2voym2grhjpocfumswh5tooa 78 17 for for IN work_7n2voym2grhjpocfumswh5tooa 78 18 the the DT work_7n2voym2grhjpocfumswh5tooa 78 19 Y Y NNP work_7n2voym2grhjpocfumswh5tooa 78 20 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 78 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 78 22 Supplemen- Supplemen- NNP work_7n2voym2grhjpocfumswh5tooa 78 23 tal tal NNP work_7n2voym2grhjpocfumswh5tooa 78 24 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 78 25 . . . work_7n2voym2grhjpocfumswh5tooa 79 1 2 2 LS work_7n2voym2grhjpocfumswh5tooa 79 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 79 3 . . . work_7n2voym2grhjpocfumswh5tooa 80 1 One one CD work_7n2voym2grhjpocfumswh5tooa 80 2 unresolvable unresolvable JJ work_7n2voym2grhjpocfumswh5tooa 80 3 sex sex NN work_7n2voym2grhjpocfumswh5tooa 80 4 mismatch mismatch NN work_7n2voym2grhjpocfumswh5tooa 80 5 in in IN work_7n2voym2grhjpocfumswh5tooa 80 6 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 80 7 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 80 8 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 80 9 was be VBD work_7n2voym2grhjpocfumswh5tooa 80 10 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 80 11 and and CC work_7n2voym2grhjpocfumswh5tooa 80 12 removed remove VBN work_7n2voym2grhjpocfumswh5tooa 80 13 from from IN work_7n2voym2grhjpocfumswh5tooa 80 14 the the DT work_7n2voym2grhjpocfumswh5tooa 80 15 study study NN work_7n2voym2grhjpocfumswh5tooa 80 16 . . . work_7n2voym2grhjpocfumswh5tooa 81 1 An an DT work_7n2voym2grhjpocfumswh5tooa 81 2 XXY xxy NN work_7n2voym2grhjpocfumswh5tooa 81 3 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 81 4 male male NN work_7n2voym2grhjpocfumswh5tooa 81 5 and and CC work_7n2voym2grhjpocfumswh5tooa 81 6 an an DT work_7n2voym2grhjpocfumswh5tooa 81 7 XO XO NNP work_7n2voym2grhjpocfumswh5tooa 81 8 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 81 9 female female NN work_7n2voym2grhjpocfumswh5tooa 81 10 were be VBD work_7n2voym2grhjpocfumswh5tooa 81 11 identi- identi- VBN work_7n2voym2grhjpocfumswh5tooa 81 12 fied fie VBN work_7n2voym2grhjpocfumswh5tooa 81 13 and and CC work_7n2voym2grhjpocfumswh5tooa 81 14 retained retain VBN work_7n2voym2grhjpocfumswh5tooa 81 15 . . . work_7n2voym2grhjpocfumswh5tooa 82 1 Ancestry ancestry NN work_7n2voym2grhjpocfumswh5tooa 82 2 mismatch mismatch NN work_7n2voym2grhjpocfumswh5tooa 82 3 was be VBD work_7n2voym2grhjpocfumswh5tooa 82 4 assessed assess VBN work_7n2voym2grhjpocfumswh5tooa 82 5 using use VBG work_7n2voym2grhjpocfumswh5tooa 82 6 the the DT work_7n2voym2grhjpocfumswh5tooa 82 7 EIGENSTRAT EIGENSTRAT NNP work_7n2voym2grhjpocfumswh5tooa 82 8 software software NN work_7n2voym2grhjpocfumswh5tooa 82 9 package package NN work_7n2voym2grhjpocfumswh5tooa 82 10 and and CC work_7n2voym2grhjpocfumswh5tooa 82 11 about about RB work_7n2voym2grhjpocfumswh5tooa 82 12 3000 3000 CD work_7n2voym2grhjpocfumswh5tooa 82 13 ancestry ancestry NN work_7n2voym2grhjpocfumswh5tooa 82 14 - - HYPH work_7n2voym2grhjpocfumswh5tooa 82 15 informative informative JJ work_7n2voym2grhjpocfumswh5tooa 82 16 markers marker NNS work_7n2voym2grhjpocfumswh5tooa 82 17 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 82 18 AIMs aim NNS work_7n2voym2grhjpocfumswh5tooa 82 19 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 82 20 from from IN work_7n2voym2grhjpocfumswh5tooa 82 21 the the DT work_7n2voym2grhjpocfumswh5tooa 82 22 exome exome JJ work_7n2voym2grhjpocfumswh5tooa 82 23 chip chip NN work_7n2voym2grhjpocfumswh5tooa 82 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 82 25 Price Price NNP work_7n2voym2grhjpocfumswh5tooa 82 26 et et NN work_7n2voym2grhjpocfumswh5tooa 82 27   _SP work_7n2voym2grhjpocfumswh5tooa 82 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 82 29 . . . work_7n2voym2grhjpocfumswh5tooa 83 1 2006 2006 CD work_7n2voym2grhjpocfumswh5tooa 83 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 83 3 . . . work_7n2voym2grhjpocfumswh5tooa 84 1 Principal principal JJ work_7n2voym2grhjpocfumswh5tooa 84 2 component component NN work_7n2voym2grhjpocfumswh5tooa 84 3 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 84 4 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 84 5 PCA PCA NNP work_7n2voym2grhjpocfumswh5tooa 84 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 84 7 demonstrated demonstrate VBD work_7n2voym2grhjpocfumswh5tooa 84 8 that that IN work_7n2voym2grhjpocfumswh5tooa 84 9 the the DT work_7n2voym2grhjpocfumswh5tooa 84 10 combined combined JJ work_7n2voym2grhjpocfumswh5tooa 84 11 sample sample NN work_7n2voym2grhjpocfumswh5tooa 84 12 set set NN work_7n2voym2grhjpocfumswh5tooa 84 13 is be VBZ work_7n2voym2grhjpocfumswh5tooa 84 14 multi multi JJ work_7n2voym2grhjpocfumswh5tooa 84 15 - - JJ work_7n2voym2grhjpocfumswh5tooa 84 16 ethnic ethnic JJ work_7n2voym2grhjpocfumswh5tooa 84 17 and and CC work_7n2voym2grhjpocfumswh5tooa 84 18 that that IN work_7n2voym2grhjpocfumswh5tooa 84 19 the the DT work_7n2voym2grhjpocfumswh5tooa 84 20 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 84 21 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 84 22 clustered cluster VBN work_7n2voym2grhjpocfumswh5tooa 84 23 together together RB work_7n2voym2grhjpocfumswh5tooa 84 24 with with IN work_7n2voym2grhjpocfumswh5tooa 84 25 other other JJ work_7n2voym2grhjpocfumswh5tooa 84 26 Europeans Europeans NNPS work_7n2voym2grhjpocfumswh5tooa 84 27 as as IN work_7n2voym2grhjpocfumswh5tooa 84 28 expected expect VBN work_7n2voym2grhjpocfumswh5tooa 84 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 84 30 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 84 31 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 84 32 . . . work_7n2voym2grhjpocfumswh5tooa 85 1 3 3 LS work_7n2voym2grhjpocfumswh5tooa 85 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 85 3 . . . work_7n2voym2grhjpocfumswh5tooa 86 1 None none NN work_7n2voym2grhjpocfumswh5tooa 86 2 of of IN work_7n2voym2grhjpocfumswh5tooa 86 3 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 86 4 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 86 5 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 86 6 were be VBD work_7n2voym2grhjpocfumswh5tooa 86 7 in in IN work_7n2voym2grhjpocfumswh5tooa 86 8 the the DT work_7n2voym2grhjpocfumswh5tooa 86 9 extremes extreme NNS work_7n2voym2grhjpocfumswh5tooa 86 10 of of IN work_7n2voym2grhjpocfumswh5tooa 86 11 the the DT work_7n2voym2grhjpocfumswh5tooa 86 12 heterozygo- heterozygo- NNP work_7n2voym2grhjpocfumswh5tooa 86 13 sity sity NN work_7n2voym2grhjpocfumswh5tooa 86 14 distribution distribution NN work_7n2voym2grhjpocfumswh5tooa 86 15 calculated calculate VBN work_7n2voym2grhjpocfumswh5tooa 86 16 by by IN work_7n2voym2grhjpocfumswh5tooa 86 17 PLINK PLINK NNP work_7n2voym2grhjpocfumswh5tooa 86 18 v1.07 v1.07 NNS work_7n2voym2grhjpocfumswh5tooa 86 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 86 20 Purcell Purcell NNP work_7n2voym2grhjpocfumswh5tooa 86 21 et et NNP work_7n2voym2grhjpocfumswh5tooa 86 22   _SP work_7n2voym2grhjpocfumswh5tooa 86 23 al al NNP work_7n2voym2grhjpocfumswh5tooa 86 24 . . . work_7n2voym2grhjpocfumswh5tooa 87 1 2007 2007 CD work_7n2voym2grhjpocfumswh5tooa 87 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 87 3 , , , work_7n2voym2grhjpocfumswh5tooa 87 4 so so RB work_7n2voym2grhjpocfumswh5tooa 87 5 none none NN work_7n2voym2grhjpocfumswh5tooa 87 6 of of IN work_7n2voym2grhjpocfumswh5tooa 87 7 them -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 87 8 were be VBD work_7n2voym2grhjpocfumswh5tooa 87 9 excluded exclude VBN work_7n2voym2grhjpocfumswh5tooa 87 10 as as IN work_7n2voym2grhjpocfumswh5tooa 87 11 outliers outlier NNS work_7n2voym2grhjpocfumswh5tooa 87 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 87 13 Sup- Sup- NNP work_7n2voym2grhjpocfumswh5tooa 87 14 plemental plemental NN work_7n2voym2grhjpocfumswh5tooa 87 15 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 87 16 . . . work_7n2voym2grhjpocfumswh5tooa 88 1 4 4 LS work_7n2voym2grhjpocfumswh5tooa 88 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 88 3 . . . work_7n2voym2grhjpocfumswh5tooa 89 1 The the DT work_7n2voym2grhjpocfumswh5tooa 89 2 heterozygosity heterozygosity NN work_7n2voym2grhjpocfumswh5tooa 89 3 rate rate NN work_7n2voym2grhjpocfumswh5tooa 89 4 can can MD work_7n2voym2grhjpocfumswh5tooa 89 5 indicate indicate VB work_7n2voym2grhjpocfumswh5tooa 89 6 problematic problematic JJ work_7n2voym2grhjpocfumswh5tooa 89 7 , , , work_7n2voym2grhjpocfumswh5tooa 89 8 potentially potentially RB work_7n2voym2grhjpocfumswh5tooa 89 9 contaminated contaminate VBN work_7n2voym2grhjpocfumswh5tooa 89 10 DNA dna NN work_7n2voym2grhjpocfumswh5tooa 89 11 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 89 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 89 13 Guo Guo NNP work_7n2voym2grhjpocfumswh5tooa 89 14 et et NNP work_7n2voym2grhjpocfumswh5tooa 89 15   _SP work_7n2voym2grhjpocfumswh5tooa 89 16 al al NNP work_7n2voym2grhjpocfumswh5tooa 89 17 . . . work_7n2voym2grhjpocfumswh5tooa 90 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 90 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 90 3 . . . work_7n2voym2grhjpocfumswh5tooa 91 1 Of of IN work_7n2voym2grhjpocfumswh5tooa 91 2 the the DT work_7n2voym2grhjpocfumswh5tooa 91 3 242,901 242,901 CD work_7n2voym2grhjpocfumswh5tooa 91 4 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 91 5 genotyped genotype VBD work_7n2voym2grhjpocfumswh5tooa 91 6 , , , work_7n2voym2grhjpocfumswh5tooa 91 7 37,428 37,428 CD work_7n2voym2grhjpocfumswh5tooa 91 8 were be VBD work_7n2voym2grhjpocfumswh5tooa 91 9 polymorphic polymorphic JJ work_7n2voym2grhjpocfumswh5tooa 91 10 in in IN work_7n2voym2grhjpocfumswh5tooa 91 11 the the DT work_7n2voym2grhjpocfumswh5tooa 91 12 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 91 13 sample sample NN work_7n2voym2grhjpocfumswh5tooa 91 14 , , , work_7n2voym2grhjpocfumswh5tooa 91 15 passed pass VBD work_7n2voym2grhjpocfumswh5tooa 91 16 extensive extensive JJ work_7n2voym2grhjpocfumswh5tooa 91 17 quality quality NN work_7n2voym2grhjpocfumswh5tooa 91 18 control control NN work_7n2voym2grhjpocfumswh5tooa 91 19 , , , work_7n2voym2grhjpocfumswh5tooa 91 20 and and CC work_7n2voym2grhjpocfumswh5tooa 91 21 served serve VBD work_7n2voym2grhjpocfumswh5tooa 91 22 as as IN work_7n2voym2grhjpocfumswh5tooa 91 23 input input NN work_7n2voym2grhjpocfumswh5tooa 91 24 for for IN work_7n2voym2grhjpocfumswh5tooa 91 25 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 91 26 association association NN work_7n2voym2grhjpocfumswh5tooa 91 27 and and CC work_7n2voym2grhjpocfumswh5tooa 91 28 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 91 29 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 91 30 . . . work_7n2voym2grhjpocfumswh5tooa 92 1 Variants variant NNS work_7n2voym2grhjpocfumswh5tooa 92 2 were be VBD work_7n2voym2grhjpocfumswh5tooa 92 3 considered consider VBN work_7n2voym2grhjpocfumswh5tooa 92 4 polymorphic polymorphic JJ work_7n2voym2grhjpocfumswh5tooa 92 5 if if IN work_7n2voym2grhjpocfumswh5tooa 92 6 they -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 92 7 had have VBD work_7n2voym2grhjpocfumswh5tooa 92 8 a a DT work_7n2voym2grhjpocfumswh5tooa 92 9 non non JJ work_7n2voym2grhjpocfumswh5tooa 92 10 - - JJ work_7n2voym2grhjpocfumswh5tooa 92 11 zero zero JJ work_7n2voym2grhjpocfumswh5tooa 92 12 minor minor JJ work_7n2voym2grhjpocfumswh5tooa 92 13 allele allele NN work_7n2voym2grhjpocfumswh5tooa 92 14 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 92 15 calculated calculate VBN work_7n2voym2grhjpocfumswh5tooa 92 16 by by IN work_7n2voym2grhjpocfumswh5tooa 92 17 the the DT work_7n2voym2grhjpocfumswh5tooa 92 18 RObust RObust NNP work_7n2voym2grhjpocfumswh5tooa 92 19 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 92 20 - - HYPH work_7n2voym2grhjpocfumswh5tooa 92 21 Detection Detection NNP work_7n2voym2grhjpocfumswh5tooa 92 22 Test Test NNP work_7n2voym2grhjpocfumswh5tooa 92 23 for for IN work_7n2voym2grhjpocfumswh5tooa 92 24 Related related JJ work_7n2voym2grhjpocfumswh5tooa 92 25 Individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 92 26 with with IN work_7n2voym2grhjpocfumswh5tooa 92 27 Population population NN work_7n2voym2grhjpocfumswh5tooa 92 28 Substructure Substructure NNP work_7n2voym2grhjpocfumswh5tooa 92 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 92 30 ROADTRIPS roadtrips NN work_7n2voym2grhjpocfumswh5tooa 92 31 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 92 32 software software NN work_7n2voym2grhjpocfumswh5tooa 92 33 v2.0 v2.0 NN work_7n2voym2grhjpocfumswh5tooa 92 34 . . . work_7n2voym2grhjpocfumswh5tooa 93 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 93 2 omitted omit VBD work_7n2voym2grhjpocfumswh5tooa 93 3 five five CD work_7n2voym2grhjpocfumswh5tooa 93 4 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 93 5 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 93 6 from from IN work_7n2voym2grhjpocfumswh5tooa 93 7 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 93 8 association association NN work_7n2voym2grhjpocfumswh5tooa 93 9 and and CC work_7n2voym2grhjpocfumswh5tooa 93 10 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 93 11 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 93 12 due due JJ work_7n2voym2grhjpocfumswh5tooa 93 13 to to IN work_7n2voym2grhjpocfumswh5tooa 93 14 excessively excessively RB work_7n2voym2grhjpocfumswh5tooa 93 15 distant distant JJ work_7n2voym2grhjpocfumswh5tooa 93 16 relatedness relatedness NN work_7n2voym2grhjpocfumswh5tooa 93 17 in in IN work_7n2voym2grhjpocfumswh5tooa 93 18 the the DT work_7n2voym2grhjpocfumswh5tooa 93 19 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 93 20 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 93 21 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 93 22 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 93 23 . . . work_7n2voym2grhjpocfumswh5tooa 94 1 5 5 LS work_7n2voym2grhjpocfumswh5tooa 94 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 94 3 . . . work_7n2voym2grhjpocfumswh5tooa 95 1 Of of IN work_7n2voym2grhjpocfumswh5tooa 95 2 the the DT work_7n2voym2grhjpocfumswh5tooa 95 3 remaining remain VBG work_7n2voym2grhjpocfumswh5tooa 95 4 175 175 CD work_7n2voym2grhjpocfumswh5tooa 95 5 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 95 6 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 95 7 , , , work_7n2voym2grhjpocfumswh5tooa 95 8 86 86 CD work_7n2voym2grhjpocfumswh5tooa 95 9 are be VBP work_7n2voym2grhjpocfumswh5tooa 95 10 affected affect VBN work_7n2voym2grhjpocfumswh5tooa 95 11 , , , work_7n2voym2grhjpocfumswh5tooa 95 12 77 77 CD work_7n2voym2grhjpocfumswh5tooa 95 13 are be VBP work_7n2voym2grhjpocfumswh5tooa 95 14 unaffected unaffected JJ work_7n2voym2grhjpocfumswh5tooa 95 15 , , , work_7n2voym2grhjpocfumswh5tooa 95 16 and and CC work_7n2voym2grhjpocfumswh5tooa 95 17 12 12 CD work_7n2voym2grhjpocfumswh5tooa 95 18 have have VBP work_7n2voym2grhjpocfumswh5tooa 95 19 an an DT work_7n2voym2grhjpocfumswh5tooa 95 20 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 95 21 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 95 22 status status NN work_7n2voym2grhjpocfumswh5tooa 95 23 . . . work_7n2voym2grhjpocfumswh5tooa 96 1 Association association NN work_7n2voym2grhjpocfumswh5tooa 96 2 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 96 3 The the DT work_7n2voym2grhjpocfumswh5tooa 96 4 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 96 5 in in IN work_7n2voym2grhjpocfumswh5tooa 96 6 this this DT work_7n2voym2grhjpocfumswh5tooa 96 7 study study NN work_7n2voym2grhjpocfumswh5tooa 96 8 are be VBP work_7n2voym2grhjpocfumswh5tooa 96 9 highly highly RB work_7n2voym2grhjpocfumswh5tooa 96 10 interrelated interrelated JJ work_7n2voym2grhjpocfumswh5tooa 96 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 96 12 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 96 13 . . . work_7n2voym2grhjpocfumswh5tooa 97 1 1 1 LS work_7n2voym2grhjpocfumswh5tooa 97 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 97 3 . . . work_7n2voym2grhjpocfumswh5tooa 98 1 To to TO work_7n2voym2grhjpocfumswh5tooa 98 2 account account VB work_7n2voym2grhjpocfumswh5tooa 98 3 for for IN work_7n2voym2grhjpocfumswh5tooa 98 4 these these DT work_7n2voym2grhjpocfumswh5tooa 98 5 relationships relationship NNS work_7n2voym2grhjpocfumswh5tooa 98 6 and and CC work_7n2voym2grhjpocfumswh5tooa 98 7 population population NN work_7n2voym2grhjpocfumswh5tooa 98 8 struc- struc- NN work_7n2voym2grhjpocfumswh5tooa 98 9 ture ture NN work_7n2voym2grhjpocfumswh5tooa 98 10 , , , work_7n2voym2grhjpocfumswh5tooa 98 11 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 98 12 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 98 13 association association NN work_7n2voym2grhjpocfumswh5tooa 98 14 testing testing NN work_7n2voym2grhjpocfumswh5tooa 98 15 using use VBG work_7n2voym2grhjpocfumswh5tooa 98 16 the the DT work_7n2voym2grhjpocfumswh5tooa 98 17 ROAD- ROAD- NNP work_7n2voym2grhjpocfumswh5tooa 98 18 TRIPS TRIPS NNP work_7n2voym2grhjpocfumswh5tooa 98 19 software software NN work_7n2voym2grhjpocfumswh5tooa 98 20 v2.0 v2.0 NN work_7n2voym2grhjpocfumswh5tooa 98 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 98 22 Thornton Thornton NNP work_7n2voym2grhjpocfumswh5tooa 98 23 and and CC work_7n2voym2grhjpocfumswh5tooa 98 24 McPeek McPeek NNP work_7n2voym2grhjpocfumswh5tooa 98 25 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 98 26 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 98 27 . . . work_7n2voym2grhjpocfumswh5tooa 99 1 This this DT work_7n2voym2grhjpocfumswh5tooa 99 2 program program NN work_7n2voym2grhjpocfumswh5tooa 99 3 determines determine VBZ work_7n2voym2grhjpocfumswh5tooa 99 4 associations association NNS work_7n2voym2grhjpocfumswh5tooa 99 5 between between IN work_7n2voym2grhjpocfumswh5tooa 99 6 genotypes genotype NNS work_7n2voym2grhjpocfumswh5tooa 99 7 and and CC work_7n2voym2grhjpocfumswh5tooa 99 8 binary binary JJ work_7n2voym2grhjpocfumswh5tooa 99 9 traits trait NNS work_7n2voym2grhjpocfumswh5tooa 99 10 while while IN work_7n2voym2grhjpocfumswh5tooa 99 11 adjusting adjust VBG work_7n2voym2grhjpocfumswh5tooa 99 12 for for IN work_7n2voym2grhjpocfumswh5tooa 99 13 the the DT work_7n2voym2grhjpocfumswh5tooa 99 14 relatedness relatedness NN work_7n2voym2grhjpocfumswh5tooa 99 15 and and CC work_7n2voym2grhjpocfumswh5tooa 99 16 population population NN work_7n2voym2grhjpocfumswh5tooa 99 17 structure structure NN work_7n2voym2grhjpocfumswh5tooa 99 18 of of IN work_7n2voym2grhjpocfumswh5tooa 99 19 the the DT work_7n2voym2grhjpocfumswh5tooa 99 20 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 99 21 . . . work_7n2voym2grhjpocfumswh5tooa 100 1 It -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 100 2 calculates calculate VBZ work_7n2voym2grhjpocfumswh5tooa 100 3 and and CC work_7n2voym2grhjpocfumswh5tooa 100 4 uses use VBZ work_7n2voym2grhjpocfumswh5tooa 100 5 an an DT work_7n2voym2grhjpocfumswh5tooa 100 6 empirical empirical JJ work_7n2voym2grhjpocfumswh5tooa 100 7 covariance covariance NN work_7n2voym2grhjpocfumswh5tooa 100 8 matrix matrix NN work_7n2voym2grhjpocfumswh5tooa 100 9 based base VBN work_7n2voym2grhjpocfumswh5tooa 100 10 on on IN work_7n2voym2grhjpocfumswh5tooa 100 11 the the DT work_7n2voym2grhjpocfumswh5tooa 100 12 genotypes genotype NNS work_7n2voym2grhjpocfumswh5tooa 100 13 from from IN work_7n2voym2grhjpocfumswh5tooa 100 14 the the DT work_7n2voym2grhjpocfumswh5tooa 100 15 genotype genotype NNP work_7n2voym2grhjpocfumswh5tooa 100 16 data datum NNS work_7n2voym2grhjpocfumswh5tooa 100 17 to to TO work_7n2voym2grhjpocfumswh5tooa 100 18 account account VB work_7n2voym2grhjpocfumswh5tooa 100 19 for for IN work_7n2voym2grhjpocfumswh5tooa 100 20 population population NN work_7n2voym2grhjpocfumswh5tooa 100 21 struc- struc- NNP work_7n2voym2grhjpocfumswh5tooa 100 22 ture ture NN work_7n2voym2grhjpocfumswh5tooa 100 23 . . . work_7n2voym2grhjpocfumswh5tooa 101 1 ROADTRIPS ROADTRIPS NNP work_7n2voym2grhjpocfumswh5tooa 101 2 determines determine VBZ work_7n2voym2grhjpocfumswh5tooa 101 3 three three CD work_7n2voym2grhjpocfumswh5tooa 101 4 different different JJ work_7n2voym2grhjpocfumswh5tooa 101 5 test test NN work_7n2voym2grhjpocfumswh5tooa 101 6 statis- statis- NN work_7n2voym2grhjpocfumswh5tooa 101 7 tics tics NNP work_7n2voym2grhjpocfumswh5tooa 101 8 for for IN work_7n2voym2grhjpocfumswh5tooa 101 9 association association NNP work_7n2voym2grhjpocfumswh5tooa 101 10 : : : work_7n2voym2grhjpocfumswh5tooa 101 11 the the DT work_7n2voym2grhjpocfumswh5tooa 101 12 RM RM NNP work_7n2voym2grhjpocfumswh5tooa 101 13 , , , work_7n2voym2grhjpocfumswh5tooa 101 14 Rχ Rχ NNP work_7n2voym2grhjpocfumswh5tooa 101 15 , , , work_7n2voym2grhjpocfumswh5tooa 101 16 and and CC work_7n2voym2grhjpocfumswh5tooa 101 17 RW RW NNP work_7n2voym2grhjpocfumswh5tooa 101 18 tests test NNS work_7n2voym2grhjpocfumswh5tooa 101 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 101 20 Thornton Thornton NNP work_7n2voym2grhjpocfumswh5tooa 101 21 and and CC work_7n2voym2grhjpocfumswh5tooa 101 22 McPeek McPeek NNP work_7n2voym2grhjpocfumswh5tooa 101 23 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 101 24 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 101 25 . . . work_7n2voym2grhjpocfumswh5tooa 102 1 For for IN work_7n2voym2grhjpocfumswh5tooa 102 2 each each DT work_7n2voym2grhjpocfumswh5tooa 102 3 of of IN work_7n2voym2grhjpocfumswh5tooa 102 4 these these DT work_7n2voym2grhjpocfumswh5tooa 102 5 tests test NNS work_7n2voym2grhjpocfumswh5tooa 102 6 , , , work_7n2voym2grhjpocfumswh5tooa 102 7 p p NN work_7n2voym2grhjpocfumswh5tooa 102 8 values value NNS work_7n2voym2grhjpocfumswh5tooa 102 9 are be VBP work_7n2voym2grhjpocfumswh5tooa 102 10 calculated calculate VBN work_7n2voym2grhjpocfumswh5tooa 102 11 based base VBN work_7n2voym2grhjpocfumswh5tooa 102 12 on on IN work_7n2voym2grhjpocfumswh5tooa 102 13 a a DT work_7n2voym2grhjpocfumswh5tooa 102 14 Chi Chi NNP work_7n2voym2grhjpocfumswh5tooa 102 15 squared square VBD work_7n2voym2grhjpocfumswh5tooa 102 16 distribution distribution NN work_7n2voym2grhjpocfumswh5tooa 102 17 with with IN work_7n2voym2grhjpocfumswh5tooa 102 18 1 1 CD work_7n2voym2grhjpocfumswh5tooa 102 19 df df NN work_7n2voym2grhjpocfumswh5tooa 102 20 asymptotic asymptotic JJ work_7n2voym2grhjpocfumswh5tooa 102 21 null null NN work_7n2voym2grhjpocfumswh5tooa 102 22 distribution distribution NN work_7n2voym2grhjpocfumswh5tooa 102 23 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 102 24 Thornton Thornton NNP work_7n2voym2grhjpocfumswh5tooa 102 25 and and CC work_7n2voym2grhjpocfumswh5tooa 102 26 McPeek McPeek NNP work_7n2voym2grhjpocfumswh5tooa 102 27 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 102 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 102 29 . . . work_7n2voym2grhjpocfumswh5tooa 103 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 103 2 used use VBD work_7n2voym2grhjpocfumswh5tooa 103 3 the the DT work_7n2voym2grhjpocfumswh5tooa 103 4 RM RM NNP work_7n2voym2grhjpocfumswh5tooa 103 5 test test NN work_7n2voym2grhjpocfumswh5tooa 103 6 statistic statistic NN work_7n2voym2grhjpocfumswh5tooa 103 7 because because IN work_7n2voym2grhjpocfumswh5tooa 103 8 it -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 103 9 allows allow VBZ work_7n2voym2grhjpocfumswh5tooa 103 10 inclusion inclusion NN work_7n2voym2grhjpocfumswh5tooa 103 11 of of IN work_7n2voym2grhjpocfumswh5tooa 103 12 both both DT work_7n2voym2grhjpocfumswh5tooa 103 13 unaffected unaffected JJ work_7n2voym2grhjpocfumswh5tooa 103 14 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 103 15 and and CC work_7n2voym2grhjpocfumswh5tooa 103 16 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 103 17 with with IN work_7n2voym2grhjpocfumswh5tooa 103 18 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 103 19 phenotype phenotype NN work_7n2voym2grhjpocfumswh5tooa 103 20 in in IN work_7n2voym2grhjpocfumswh5tooa 103 21 the the DT work_7n2voym2grhjpocfumswh5tooa 103 22 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 103 23 and and CC work_7n2voym2grhjpocfumswh5tooa 103 24 is be VBZ work_7n2voym2grhjpocfumswh5tooa 103 25 more more RBR work_7n2voym2grhjpocfumswh5tooa 103 26 powerful powerful JJ work_7n2voym2grhjpocfumswh5tooa 103 27 than than IN work_7n2voym2grhjpocfumswh5tooa 103 28 the the DT work_7n2voym2grhjpocfumswh5tooa 103 29 other other JJ work_7n2voym2grhjpocfumswh5tooa 103 30 two two CD work_7n2voym2grhjpocfumswh5tooa 103 31 when when WRB work_7n2voym2grhjpocfumswh5tooa 103 32 samples sample NNS work_7n2voym2grhjpocfumswh5tooa 103 33 are be VBP work_7n2voym2grhjpocfumswh5tooa 103 34 related related JJ work_7n2voym2grhjpocfumswh5tooa 103 35 and and CC work_7n2voym2grhjpocfumswh5tooa 103 36 pedigree pedigree JJ work_7n2voym2grhjpocfumswh5tooa 103 37 structure structure NN work_7n2voym2grhjpocfumswh5tooa 103 38 is be VBZ work_7n2voym2grhjpocfumswh5tooa 103 39 known know VBN work_7n2voym2grhjpocfumswh5tooa 103 40 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 103 41 Thornton Thornton NNP work_7n2voym2grhjpocfumswh5tooa 103 42 and and CC work_7n2voym2grhjpocfumswh5tooa 103 43 McPeek McPeek NNP work_7n2voym2grhjpocfumswh5tooa 103 44 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 103 45 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 103 46 . . . work_7n2voym2grhjpocfumswh5tooa 104 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 104 2 used use VBD work_7n2voym2grhjpocfumswh5tooa 104 3 kinship kinship NN work_7n2voym2grhjpocfumswh5tooa 104 4 coefficients coefficient NNS work_7n2voym2grhjpocfumswh5tooa 104 5 for for IN work_7n2voym2grhjpocfumswh5tooa 104 6 the the DT work_7n2voym2grhjpocfumswh5tooa 104 7 175 175 CD work_7n2voym2grhjpocfumswh5tooa 104 8 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 104 9 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 104 10 calculated calculate VBN work_7n2voym2grhjpocfumswh5tooa 104 11 by by IN work_7n2voym2grhjpocfumswh5tooa 104 12 KinInbcoef KinInbcoef NNP work_7n2voym2grhjpocfumswh5tooa 104 13 to to TO work_7n2voym2grhjpocfumswh5tooa 104 14 account account VB work_7n2voym2grhjpocfumswh5tooa 104 15 for for IN work_7n2voym2grhjpocfumswh5tooa 104 16 the the DT work_7n2voym2grhjpocfumswh5tooa 104 17 pedigree pedigree JJ work_7n2voym2grhjpocfumswh5tooa 104 18 structure structure NN work_7n2voym2grhjpocfumswh5tooa 104 19 in in IN work_7n2voym2grhjpocfumswh5tooa 104 20 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 104 21 data datum NNS work_7n2voym2grhjpocfumswh5tooa 104 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 104 23 Bourgain Bourgain NNP work_7n2voym2grhjpocfumswh5tooa 104 24 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 104 25 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 104 26 . . . work_7n2voym2grhjpocfumswh5tooa 105 1 The the DT work_7n2voym2grhjpocfumswh5tooa 105 2 software software NN work_7n2voym2grhjpocfumswh5tooa 105 3 program program NN work_7n2voym2grhjpocfumswh5tooa 105 4 determines determine VBZ work_7n2voym2grhjpocfumswh5tooa 105 5 the the DT work_7n2voym2grhjpocfumswh5tooa 105 6 weight weight NN work_7n2voym2grhjpocfumswh5tooa 105 7 of of IN work_7n2voym2grhjpocfumswh5tooa 105 8 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 105 9 with with IN work_7n2voym2grhjpocfumswh5tooa 105 10 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 105 11 phenotype phenotype NN work_7n2voym2grhjpocfumswh5tooa 105 12 in in IN work_7n2voym2grhjpocfumswh5tooa 105 13 the the DT work_7n2voym2grhjpocfumswh5tooa 105 14 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 105 15 by by IN work_7n2voym2grhjpocfumswh5tooa 105 16 a a DT work_7n2voym2grhjpocfumswh5tooa 105 17 user user NN work_7n2voym2grhjpocfumswh5tooa 105 18 - - HYPH work_7n2voym2grhjpocfumswh5tooa 105 19 defined define VBN work_7n2voym2grhjpocfumswh5tooa 105 20 population population NN work_7n2voym2grhjpocfumswh5tooa 105 21 prevalence prevalence NN work_7n2voym2grhjpocfumswh5tooa 105 22 for for IN work_7n2voym2grhjpocfumswh5tooa 105 23 the the DT work_7n2voym2grhjpocfumswh5tooa 105 24 trait trait NN work_7n2voym2grhjpocfumswh5tooa 105 25 and and CC work_7n2voym2grhjpocfumswh5tooa 105 26 the the DT work_7n2voym2grhjpocfumswh5tooa 105 27 phenotypes phenotype NNS work_7n2voym2grhjpocfumswh5tooa 105 28 of of IN work_7n2voym2grhjpocfumswh5tooa 105 29 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 105 30 genotyped genotype VBN work_7n2voym2grhjpocfumswh5tooa 105 31 relatives relative NNS work_7n2voym2grhjpocfumswh5tooa 105 32 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 105 33 Thornton Thornton NNP work_7n2voym2grhjpocfumswh5tooa 105 34 and and CC work_7n2voym2grhjpocfumswh5tooa 105 35 McPeek McPeek NNP work_7n2voym2grhjpocfumswh5tooa 105 36 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 105 37 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 105 38 . . . work_7n2voym2grhjpocfumswh5tooa 106 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 106 2 set set VBD work_7n2voym2grhjpocfumswh5tooa 106 3 the the DT work_7n2voym2grhjpocfumswh5tooa 106 4 population population NN work_7n2voym2grhjpocfumswh5tooa 106 5 prev- prev- XX work_7n2voym2grhjpocfumswh5tooa 106 6 alence alence NN work_7n2voym2grhjpocfumswh5tooa 106 7 of of IN work_7n2voym2grhjpocfumswh5tooa 106 8 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 106 9 to to IN work_7n2voym2grhjpocfumswh5tooa 106 10 0.13 0.13 CD work_7n2voym2grhjpocfumswh5tooa 106 11 based base VBN work_7n2voym2grhjpocfumswh5tooa 106 12 on on IN work_7n2voym2grhjpocfumswh5tooa 106 13 published publish VBN work_7n2voym2grhjpocfumswh5tooa 106 14 estimates estimate NNS work_7n2voym2grhjpocfumswh5tooa 106 15 of of IN work_7n2voym2grhjpocfumswh5tooa 106 16 its -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 106 17 prevalence prevalence NN work_7n2voym2grhjpocfumswh5tooa 106 18 in in IN work_7n2voym2grhjpocfumswh5tooa 106 19 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 106 20 of of IN work_7n2voym2grhjpocfumswh5tooa 106 21 European european JJ work_7n2voym2grhjpocfumswh5tooa 106 22 descent descent NN work_7n2voym2grhjpocfumswh5tooa 106 23 of of IN work_7n2voym2grhjpocfumswh5tooa 106 24 an an DT work_7n2voym2grhjpocfumswh5tooa 106 25 age age NN work_7n2voym2grhjpocfumswh5tooa 106 26 typical typical JJ work_7n2voym2grhjpocfumswh5tooa 106 27 of of IN work_7n2voym2grhjpocfumswh5tooa 106 28 this this DT work_7n2voym2grhjpocfumswh5tooa 106 29 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 106 30 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 106 31 Shalev Shalev NNP work_7n2voym2grhjpocfumswh5tooa 106 32 et et FW work_7n2voym2grhjpocfumswh5tooa 106 33     _SP work_7n2voym2grhjpocfumswh5tooa 106 34 al al NNP work_7n2voym2grhjpocfumswh5tooa 106 35 . . . work_7n2voym2grhjpocfumswh5tooa 107 1 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 107 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 107 3 Smith Smith NNP work_7n2voym2grhjpocfumswh5tooa 107 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 107 5   _SP work_7n2voym2grhjpocfumswh5tooa 107 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 107 7 . . . work_7n2voym2grhjpocfumswh5tooa 108 1 2001 2001 CD work_7n2voym2grhjpocfumswh5tooa 108 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 108 3 . . . work_7n2voym2grhjpocfumswh5tooa 109 1 1174 1174 CD work_7n2voym2grhjpocfumswh5tooa 109 2 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 109 3 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 109 4 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 109 5 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 109 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 109 7 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 109 8 1 1 CD work_7n2voym2grhjpocfumswh5tooa 109 9 3 3 CD work_7n2voym2grhjpocfumswh5tooa 109 10 Linkage Linkage NNP work_7n2voym2grhjpocfumswh5tooa 109 11 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 109 12 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 109 13 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 109 14 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 109 15 linkage linkage VB work_7n2voym2grhjpocfumswh5tooa 109 16 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 109 17 on on IN work_7n2voym2grhjpocfumswh5tooa 109 18 a a DT work_7n2voym2grhjpocfumswh5tooa 109 19 panel panel NN work_7n2voym2grhjpocfumswh5tooa 109 20 of of IN work_7n2voym2grhjpocfumswh5tooa 109 21 5668 5668 CD work_7n2voym2grhjpocfumswh5tooa 109 22 autosomal autosomal JJ work_7n2voym2grhjpocfumswh5tooa 109 23 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 109 24 chosen choose VBN work_7n2voym2grhjpocfumswh5tooa 109 25 to to TO work_7n2voym2grhjpocfumswh5tooa 109 26 be be VB work_7n2voym2grhjpocfumswh5tooa 109 27 informative informative JJ work_7n2voym2grhjpocfumswh5tooa 109 28 for for IN work_7n2voym2grhjpocfumswh5tooa 109 29 stretches stretch NNS work_7n2voym2grhjpocfumswh5tooa 109 30 of of IN work_7n2voym2grhjpocfumswh5tooa 109 31 identity identity NN work_7n2voym2grhjpocfumswh5tooa 109 32 by by IN work_7n2voym2grhjpocfumswh5tooa 109 33 descent descent NN work_7n2voym2grhjpocfumswh5tooa 109 34 on on IN work_7n2voym2grhjpocfumswh5tooa 109 35 the the DT work_7n2voym2grhjpocfumswh5tooa 109 36 exome exome JJ work_7n2voym2grhjpocfumswh5tooa 109 37 chip chip NN work_7n2voym2grhjpocfumswh5tooa 109 38 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 109 39 Abeca- Abeca- NNP work_7n2voym2grhjpocfumswh5tooa 109 40 sis sis NNP work_7n2voym2grhjpocfumswh5tooa 109 41 Lab Lab NNP work_7n2voym2grhjpocfumswh5tooa 109 42 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 109 43 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 109 44 . . . work_7n2voym2grhjpocfumswh5tooa 110 1 The the DT work_7n2voym2grhjpocfumswh5tooa 110 2 175 175 CD work_7n2voym2grhjpocfumswh5tooa 110 3 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 110 4 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 110 5 in in IN work_7n2voym2grhjpocfumswh5tooa 110 6 this this DT work_7n2voym2grhjpocfumswh5tooa 110 7 study study NN work_7n2voym2grhjpocfumswh5tooa 110 8 are be VBP work_7n2voym2grhjpocfumswh5tooa 110 9 connected connect VBN work_7n2voym2grhjpocfumswh5tooa 110 10 in in IN work_7n2voym2grhjpocfumswh5tooa 110 11 a a DT work_7n2voym2grhjpocfumswh5tooa 110 12 multigenerational multigenerational JJ work_7n2voym2grhjpocfumswh5tooa 110 13 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 110 14 of of IN work_7n2voym2grhjpocfumswh5tooa 110 15 2118 2118 CD work_7n2voym2grhjpocfumswh5tooa 110 16 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 110 17 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 110 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 110 19 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 110 20 . . . work_7n2voym2grhjpocfumswh5tooa 111 1 1 1 LS work_7n2voym2grhjpocfumswh5tooa 111 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 111 3 . . . work_7n2voym2grhjpocfumswh5tooa 112 1 Since since IN work_7n2voym2grhjpocfumswh5tooa 112 2 analyzing analyze VBG work_7n2voym2grhjpocfumswh5tooa 112 3 very very RB work_7n2voym2grhjpocfumswh5tooa 112 4 large large JJ work_7n2voym2grhjpocfumswh5tooa 112 5 , , , work_7n2voym2grhjpocfumswh5tooa 112 6 complex complex JJ work_7n2voym2grhjpocfumswh5tooa 112 7 pedigrees pedigree NNS work_7n2voym2grhjpocfumswh5tooa 112 8 is be VBZ work_7n2voym2grhjpocfumswh5tooa 112 9 computationally computationally RB work_7n2voym2grhjpocfumswh5tooa 112 10 intractable intractable JJ work_7n2voym2grhjpocfumswh5tooa 112 11 , , , work_7n2voym2grhjpocfumswh5tooa 112 12 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 112 13 used use VBD work_7n2voym2grhjpocfumswh5tooa 112 14 PedCut PedCut NNP work_7n2voym2grhjpocfumswh5tooa 112 15 to to TO work_7n2voym2grhjpocfumswh5tooa 112 16 partition partition VB work_7n2voym2grhjpocfumswh5tooa 112 17 the the DT work_7n2voym2grhjpocfumswh5tooa 112 18 all all RB work_7n2voym2grhjpocfumswh5tooa 112 19 - - HYPH work_7n2voym2grhjpocfumswh5tooa 112 20 connecting connect VBG work_7n2voym2grhjpocfumswh5tooa 112 21 path path NN work_7n2voym2grhjpocfumswh5tooa 112 22 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 112 23 into into IN work_7n2voym2grhjpocfumswh5tooa 112 24 densely densely RB work_7n2voym2grhjpocfumswh5tooa 112 25 affected affect VBN work_7n2voym2grhjpocfumswh5tooa 112 26 sub sub NN work_7n2voym2grhjpocfumswh5tooa 112 27 - - HYPH work_7n2voym2grhjpocfumswh5tooa 112 28 pedigrees pedigree NNS work_7n2voym2grhjpocfumswh5tooa 112 29 with with IN work_7n2voym2grhjpocfumswh5tooa 112 30 a a DT work_7n2voym2grhjpocfumswh5tooa 112 31 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 112 32 bit bit NN work_7n2voym2grhjpocfumswh5tooa 112 33 size size NN work_7n2voym2grhjpocfumswh5tooa 112 34 of of IN work_7n2voym2grhjpocfumswh5tooa 112 35 24 24 CD work_7n2voym2grhjpocfumswh5tooa 112 36 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 112 37 Liu Liu NNP work_7n2voym2grhjpocfumswh5tooa 112 38 et et NNP work_7n2voym2grhjpocfumswh5tooa 112 39   _SP work_7n2voym2grhjpocfumswh5tooa 112 40 al al NNP work_7n2voym2grhjpocfumswh5tooa 112 41 . . . work_7n2voym2grhjpocfumswh5tooa 113 1 2008 2008 LS work_7n2voym2grhjpocfumswh5tooa 113 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 113 3 . . . work_7n2voym2grhjpocfumswh5tooa 114 1 Parametric parametric JJ work_7n2voym2grhjpocfumswh5tooa 114 2 heterogeneity heterogeneity NN work_7n2voym2grhjpocfumswh5tooa 114 3 LOD LOD NNP work_7n2voym2grhjpocfumswh5tooa 114 4 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 114 5 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 114 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 114 7 scores score NNS work_7n2voym2grhjpocfumswh5tooa 114 8 were be VBD work_7n2voym2grhjpocfumswh5tooa 114 9 determined determine VBN work_7n2voym2grhjpocfumswh5tooa 114 10 with with IN work_7n2voym2grhjpocfumswh5tooa 114 11 the the DT work_7n2voym2grhjpocfumswh5tooa 114 12 Multi Multi NNP work_7n2voym2grhjpocfumswh5tooa 114 13 - - NNP work_7n2voym2grhjpocfumswh5tooa 114 14 Point Point NNP work_7n2voym2grhjpocfumswh5tooa 114 15 Engine Engine NNP work_7n2voym2grhjpocfumswh5tooa 114 16 for for IN work_7n2voym2grhjpocfumswh5tooa 114 17 Rapid Rapid NNP work_7n2voym2grhjpocfumswh5tooa 114 18 Likelihood Likelihood NNP work_7n2voym2grhjpocfumswh5tooa 114 19 Inference Inference NNP work_7n2voym2grhjpocfumswh5tooa 114 20 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 114 21 MERLIN MERLIN NNP work_7n2voym2grhjpocfumswh5tooa 114 22 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 114 23 software software NN work_7n2voym2grhjpocfumswh5tooa 114 24 tool tool NN work_7n2voym2grhjpocfumswh5tooa 114 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 114 26 Abecasis Abecasis NNP work_7n2voym2grhjpocfumswh5tooa 114 27 et et NNP work_7n2voym2grhjpocfumswh5tooa 114 28     _SP work_7n2voym2grhjpocfumswh5tooa 114 29 al al NNP work_7n2voym2grhjpocfumswh5tooa 114 30 . . . work_7n2voym2grhjpocfumswh5tooa 115 1 2002 2002 LS work_7n2voym2grhjpocfumswh5tooa 115 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 115 3 under under IN work_7n2voym2grhjpocfumswh5tooa 115 4 affected affect VBN work_7n2voym2grhjpocfumswh5tooa 115 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 115 6 only only RB work_7n2voym2grhjpocfumswh5tooa 115 7 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 115 8 and and CC work_7n2voym2grhjpocfumswh5tooa 115 9 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 115 10 models model NNS work_7n2voym2grhjpocfumswh5tooa 115 11 . . . work_7n2voym2grhjpocfumswh5tooa 116 1 The the DT work_7n2voym2grhjpocfumswh5tooa 116 2 penetrance penetrance NN work_7n2voym2grhjpocfumswh5tooa 116 3 values value NNS work_7n2voym2grhjpocfumswh5tooa 116 4 for for IN work_7n2voym2grhjpocfumswh5tooa 116 5 the the DT work_7n2voym2grhjpocfumswh5tooa 116 6 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 116 7 model model NN work_7n2voym2grhjpocfumswh5tooa 116 8 were be VBD work_7n2voym2grhjpocfumswh5tooa 116 9 0 0 CD work_7n2voym2grhjpocfumswh5tooa 116 10 , , , work_7n2voym2grhjpocfumswh5tooa 116 11 0.0001 0.0001 CD work_7n2voym2grhjpocfumswh5tooa 116 12 , , , work_7n2voym2grhjpocfumswh5tooa 116 13 or or CC work_7n2voym2grhjpocfumswh5tooa 116 14 0.0001 0.0001 CD work_7n2voym2grhjpocfumswh5tooa 116 15 for for IN work_7n2voym2grhjpocfumswh5tooa 116 16 0 0 CD work_7n2voym2grhjpocfumswh5tooa 116 17 , , , work_7n2voym2grhjpocfumswh5tooa 116 18 1 1 CD work_7n2voym2grhjpocfumswh5tooa 116 19 , , , work_7n2voym2grhjpocfumswh5tooa 116 20 or or CC work_7n2voym2grhjpocfumswh5tooa 116 21 2 2 CD work_7n2voym2grhjpocfumswh5tooa 116 22 copies copy NNS work_7n2voym2grhjpocfumswh5tooa 116 23 of of IN work_7n2voym2grhjpocfumswh5tooa 116 24 the the DT work_7n2voym2grhjpocfumswh5tooa 116 25 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 116 26 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 116 27 , , , work_7n2voym2grhjpocfumswh5tooa 116 28 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 116 29 . . . work_7n2voym2grhjpocfumswh5tooa 117 1 Under under IN work_7n2voym2grhjpocfumswh5tooa 117 2 the the DT work_7n2voym2grhjpocfumswh5tooa 117 3 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 117 4 model model NN work_7n2voym2grhjpocfumswh5tooa 117 5 , , , work_7n2voym2grhjpocfumswh5tooa 117 6 penetrance penetrance NN work_7n2voym2grhjpocfumswh5tooa 117 7 values value NNS work_7n2voym2grhjpocfumswh5tooa 117 8 were be VBD work_7n2voym2grhjpocfumswh5tooa 117 9 defined define VBN work_7n2voym2grhjpocfumswh5tooa 117 10 as as IN work_7n2voym2grhjpocfumswh5tooa 117 11 0 0 CD work_7n2voym2grhjpocfumswh5tooa 117 12 , , , work_7n2voym2grhjpocfumswh5tooa 117 13 0 0 CD work_7n2voym2grhjpocfumswh5tooa 117 14 , , , work_7n2voym2grhjpocfumswh5tooa 117 15 or or CC work_7n2voym2grhjpocfumswh5tooa 117 16 0.0001 0.0001 CD work_7n2voym2grhjpocfumswh5tooa 117 17 for for IN work_7n2voym2grhjpocfumswh5tooa 117 18 0 0 CD work_7n2voym2grhjpocfumswh5tooa 117 19 , , , work_7n2voym2grhjpocfumswh5tooa 117 20 1 1 CD work_7n2voym2grhjpocfumswh5tooa 117 21 , , , work_7n2voym2grhjpocfumswh5tooa 117 22 or or CC work_7n2voym2grhjpocfumswh5tooa 117 23 2 2 CD work_7n2voym2grhjpocfumswh5tooa 117 24 cop- cop- NNS work_7n2voym2grhjpocfumswh5tooa 117 25 ies ie NNS work_7n2voym2grhjpocfumswh5tooa 117 26 of of IN work_7n2voym2grhjpocfumswh5tooa 117 27 the the DT work_7n2voym2grhjpocfumswh5tooa 117 28 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 117 29 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 117 30 , , , work_7n2voym2grhjpocfumswh5tooa 117 31 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 117 32 . . . work_7n2voym2grhjpocfumswh5tooa 118 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 118 2 set set VBP work_7n2voym2grhjpocfumswh5tooa 118 3 disease disease NN work_7n2voym2grhjpocfumswh5tooa 118 4 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 118 5 frequencies frequencie VBZ work_7n2voym2grhjpocfumswh5tooa 118 6 to to IN work_7n2voym2grhjpocfumswh5tooa 118 7 0.01 0.01 CD work_7n2voym2grhjpocfumswh5tooa 118 8 and and CC work_7n2voym2grhjpocfumswh5tooa 118 9 0.10 0.10 CD work_7n2voym2grhjpocfumswh5tooa 118 10 for for IN work_7n2voym2grhjpocfumswh5tooa 118 11 each each DT work_7n2voym2grhjpocfumswh5tooa 118 12 of of IN work_7n2voym2grhjpocfumswh5tooa 118 13 these these DT work_7n2voym2grhjpocfumswh5tooa 118 14 models model NNS work_7n2voym2grhjpocfumswh5tooa 118 15 . . . work_7n2voym2grhjpocfumswh5tooa 119 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 119 2 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 119 3 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 119 4 linkage linkage VB work_7n2voym2grhjpocfumswh5tooa 119 5 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 119 6 across across IN work_7n2voym2grhjpocfumswh5tooa 119 7 all all DT work_7n2voym2grhjpocfumswh5tooa 119 8 autosomes autosome NNS work_7n2voym2grhjpocfumswh5tooa 119 9 with with IN work_7n2voym2grhjpocfumswh5tooa 119 10 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 119 11 scores score NNS work_7n2voym2grhjpocfumswh5tooa 119 12 evaluated evaluate VBN work_7n2voym2grhjpocfumswh5tooa 119 13 at at IN work_7n2voym2grhjpocfumswh5tooa 119 14 each each DT work_7n2voym2grhjpocfumswh5tooa 119 15 marker marker NN work_7n2voym2grhjpocfumswh5tooa 119 16 and and CC work_7n2voym2grhjpocfumswh5tooa 119 17 at at IN work_7n2voym2grhjpocfumswh5tooa 119 18 every every DT work_7n2voym2grhjpocfumswh5tooa 119 19 1 1 CD work_7n2voym2grhjpocfumswh5tooa 119 20 centimorgan centimorgan NNP work_7n2voym2grhjpocfumswh5tooa 119 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 119 22 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 119 23 ; ; : work_7n2voym2grhjpocfumswh5tooa 119 24 Haldane Haldane NNP work_7n2voym2grhjpocfumswh5tooa 119 25 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 119 26 with with IN work_7n2voym2grhjpocfumswh5tooa 119 27 a a DT work_7n2voym2grhjpocfumswh5tooa 119 28 bit bit NN work_7n2voym2grhjpocfumswh5tooa 119 29 size size NN work_7n2voym2grhjpocfumswh5tooa 119 30 threshold threshold NN work_7n2voym2grhjpocfumswh5tooa 119 31 of of IN work_7n2voym2grhjpocfumswh5tooa 119 32 24 24 CD work_7n2voym2grhjpocfumswh5tooa 119 33 . . . work_7n2voym2grhjpocfumswh5tooa 120 1 For for IN work_7n2voym2grhjpocfumswh5tooa 120 2 chromosomes chromosome NNS work_7n2voym2grhjpocfumswh5tooa 120 3 with with IN work_7n2voym2grhjpocfumswh5tooa 120 4 genome genome NN work_7n2voym2grhjpocfumswh5tooa 120 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 120 6 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 120 7 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 120 8 multi- multi- JJ work_7n2voym2grhjpocfumswh5tooa 120 9 point point NN work_7n2voym2grhjpocfumswh5tooa 120 10 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 120 11 scores score NNS work_7n2voym2grhjpocfumswh5tooa 120 12 , , , work_7n2voym2grhjpocfumswh5tooa 120 13 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 120 14 repartitioned repartitione VBD work_7n2voym2grhjpocfumswh5tooa 120 15 the the DT work_7n2voym2grhjpocfumswh5tooa 120 16 all all RB work_7n2voym2grhjpocfumswh5tooa 120 17 - - HYPH work_7n2voym2grhjpocfumswh5tooa 120 18 connecting connect VBG work_7n2voym2grhjpocfumswh5tooa 120 19 path path NN work_7n2voym2grhjpocfumswh5tooa 120 20 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 120 21 into into IN work_7n2voym2grhjpocfumswh5tooa 120 22 sub sub NN work_7n2voym2grhjpocfumswh5tooa 120 23 - - HYPH work_7n2voym2grhjpocfumswh5tooa 120 24 pedigrees pedigree NNS work_7n2voym2grhjpocfumswh5tooa 120 25 with with IN work_7n2voym2grhjpocfumswh5tooa 120 26 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 120 27 bit bit NN work_7n2voym2grhjpocfumswh5tooa 120 28 sizes size NNS work_7n2voym2grhjpocfumswh5tooa 120 29 of of IN work_7n2voym2grhjpocfumswh5tooa 120 30 23 23 CD work_7n2voym2grhjpocfumswh5tooa 120 31 and and CC work_7n2voym2grhjpocfumswh5tooa 120 32 25 25 CD work_7n2voym2grhjpocfumswh5tooa 120 33 to to TO work_7n2voym2grhjpocfumswh5tooa 120 34 test test VB work_7n2voym2grhjpocfumswh5tooa 120 35 the the DT work_7n2voym2grhjpocfumswh5tooa 120 36 robustness robustness NN work_7n2voym2grhjpocfumswh5tooa 120 37 of of IN work_7n2voym2grhjpocfumswh5tooa 120 38 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 120 39 findings finding NNS work_7n2voym2grhjpocfumswh5tooa 120 40 to to IN work_7n2voym2grhjpocfumswh5tooa 120 41 changes change NNS work_7n2voym2grhjpocfumswh5tooa 120 42 in in IN work_7n2voym2grhjpocfumswh5tooa 120 43 sub sub JJ work_7n2voym2grhjpocfumswh5tooa 120 44 - - JJ work_7n2voym2grhjpocfumswh5tooa 120 45 pedigree pedigree JJ work_7n2voym2grhjpocfumswh5tooa 120 46 construction construction NN work_7n2voym2grhjpocfumswh5tooa 120 47 . . . work_7n2voym2grhjpocfumswh5tooa 121 1 The the DT work_7n2voym2grhjpocfumswh5tooa 121 2 model model NN work_7n2voym2grhjpocfumswh5tooa 121 3 parameters parameter VBZ work_7n2voym2grhjpocfumswh5tooa 121 4 for for IN work_7n2voym2grhjpocfumswh5tooa 121 5 these these DT work_7n2voym2grhjpocfumswh5tooa 121 6 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 121 7 were be VBD work_7n2voym2grhjpocfumswh5tooa 121 8 consistent consistent JJ work_7n2voym2grhjpocfumswh5tooa 121 9 with with IN work_7n2voym2grhjpocfumswh5tooa 121 10 those those DT work_7n2voym2grhjpocfumswh5tooa 121 11 used use VBN work_7n2voym2grhjpocfumswh5tooa 121 12 in in IN work_7n2voym2grhjpocfumswh5tooa 121 13 the the DT work_7n2voym2grhjpocfumswh5tooa 121 14 initial initial JJ work_7n2voym2grhjpocfumswh5tooa 121 15 mul- mul- NN work_7n2voym2grhjpocfumswh5tooa 121 16 tipoint tipoint NN work_7n2voym2grhjpocfumswh5tooa 121 17 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 121 18 . . . work_7n2voym2grhjpocfumswh5tooa 122 1 For for IN work_7n2voym2grhjpocfumswh5tooa 122 2 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 122 3 1 1 CD work_7n2voym2grhjpocfumswh5tooa 122 4 , , , work_7n2voym2grhjpocfumswh5tooa 122 5 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 122 6 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 122 7 a a DT work_7n2voym2grhjpocfumswh5tooa 122 8 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 122 9 link- link- NN work_7n2voym2grhjpocfumswh5tooa 122 10 age age NN work_7n2voym2grhjpocfumswh5tooa 122 11 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 122 12 with with IN work_7n2voym2grhjpocfumswh5tooa 122 13 liability liability NN work_7n2voym2grhjpocfumswh5tooa 122 14 classes class NNS work_7n2voym2grhjpocfumswh5tooa 122 15 for for IN work_7n2voym2grhjpocfumswh5tooa 122 16 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 122 17 of of IN work_7n2voym2grhjpocfumswh5tooa 122 18 the the DT work_7n2voym2grhjpocfumswh5tooa 122 19 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 122 20 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 122 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 122 22 rs1061170 rs1061170 NNP work_7n2voym2grhjpocfumswh5tooa 122 23 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 122 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 122 25 Edwards Edwards NNP work_7n2voym2grhjpocfumswh5tooa 122 26 et et FW work_7n2voym2grhjpocfumswh5tooa 122 27   _SP work_7n2voym2grhjpocfumswh5tooa 122 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 122 29 . . . work_7n2voym2grhjpocfumswh5tooa 123 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 123 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 123 3 Hageman Hageman NNP work_7n2voym2grhjpocfumswh5tooa 123 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 123 5   _SP work_7n2voym2grhjpocfumswh5tooa 123 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 123 7 . . . work_7n2voym2grhjpocfumswh5tooa 124 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 124 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 124 3 Haines Haines NNP work_7n2voym2grhjpocfumswh5tooa 124 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 124 5     _SP work_7n2voym2grhjpocfumswh5tooa 124 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 124 7 . . . work_7n2voym2grhjpocfumswh5tooa 125 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 125 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 125 3 Klein Klein NNP work_7n2voym2grhjpocfumswh5tooa 125 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 125 5     _SP work_7n2voym2grhjpocfumswh5tooa 125 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 125 7 . . . work_7n2voym2grhjpocfumswh5tooa 126 1 2005 2005 LS work_7n2voym2grhjpocfumswh5tooa 126 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 126 3 and and CC work_7n2voym2grhjpocfumswh5tooa 126 4 P503A P503A NNP work_7n2voym2grhjpocfumswh5tooa 126 5 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 126 6 rs570523689 rs570523689 NNP work_7n2voym2grhjpocfumswh5tooa 126 7 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 126 8 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 126 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 126 10 Hoffman Hoffman NNP work_7n2voym2grhjpocfumswh5tooa 126 11 et et NNP work_7n2voym2grhjpocfumswh5tooa 126 12   _SP work_7n2voym2grhjpocfumswh5tooa 126 13 al al NNP work_7n2voym2grhjpocfumswh5tooa 126 14 . . . work_7n2voym2grhjpocfumswh5tooa 127 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 127 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 127 3 . . . work_7n2voym2grhjpocfumswh5tooa 128 1 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 128 2 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 128 3 failed fail VBD work_7n2voym2grhjpocfumswh5tooa 128 4 quality quality NN work_7n2voym2grhjpocfumswh5tooa 128 5 control control NN work_7n2voym2grhjpocfumswh5tooa 128 6 in in IN work_7n2voym2grhjpocfumswh5tooa 128 7 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 128 8 dataset dataset NN work_7n2voym2grhjpocfumswh5tooa 128 9 . . . work_7n2voym2grhjpocfumswh5tooa 129 1 Therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 129 2 , , , work_7n2voym2grhjpocfumswh5tooa 129 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 129 4 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 129 5 a a DT work_7n2voym2grhjpocfumswh5tooa 129 6 surrogate surrogate JJ work_7n2voym2grhjpocfumswh5tooa 129 7 variant variant NN work_7n2voym2grhjpocfumswh5tooa 129 8 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 129 9 rs1329424 rs1329424 FW work_7n2voym2grhjpocfumswh5tooa 129 10 , , , work_7n2voym2grhjpocfumswh5tooa 129 11 r2 r2 NNP work_7n2voym2grhjpocfumswh5tooa 129 12 = = SYM work_7n2voym2grhjpocfumswh5tooa 129 13 1.0 1.0 CD work_7n2voym2grhjpocfumswh5tooa 129 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 129 15 for for IN work_7n2voym2grhjpocfumswh5tooa 129 16 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 129 17 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 129 18 using use VBG work_7n2voym2grhjpocfumswh5tooa 129 19 the the DT work_7n2voym2grhjpocfumswh5tooa 129 20 LDmatrix LDmatrix NNP work_7n2voym2grhjpocfumswh5tooa 129 21 module module NN work_7n2voym2grhjpocfumswh5tooa 129 22 of of IN work_7n2voym2grhjpocfumswh5tooa 129 23 LDlink LDlink NNP work_7n2voym2grhjpocfumswh5tooa 129 24 to to TO work_7n2voym2grhjpocfumswh5tooa 129 25 compare compare VB work_7n2voym2grhjpocfumswh5tooa 129 26 link- link- NN work_7n2voym2grhjpocfumswh5tooa 129 27 age age NN work_7n2voym2grhjpocfumswh5tooa 129 28 disequilibrium disequilibrium NN work_7n2voym2grhjpocfumswh5tooa 129 29 statistics statistic NNS work_7n2voym2grhjpocfumswh5tooa 129 30 among among IN work_7n2voym2grhjpocfumswh5tooa 129 31 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 129 32 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 129 33 that that WDT work_7n2voym2grhjpocfumswh5tooa 129 34 had have VBD work_7n2voym2grhjpocfumswh5tooa 129 35 passed pass VBN work_7n2voym2grhjpocfumswh5tooa 129 36 quality quality NN work_7n2voym2grhjpocfumswh5tooa 129 37 control control NN work_7n2voym2grhjpocfumswh5tooa 129 38 in in IN work_7n2voym2grhjpocfumswh5tooa 129 39 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 129 40 study study NN work_7n2voym2grhjpocfumswh5tooa 129 41 and and CC work_7n2voym2grhjpocfumswh5tooa 129 42 the the DT work_7n2voym2grhjpocfumswh5tooa 129 43 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 129 44 vari- vari- NN work_7n2voym2grhjpocfumswh5tooa 129 45 ant ant NN work_7n2voym2grhjpocfumswh5tooa 129 46 in in IN work_7n2voym2grhjpocfumswh5tooa 129 47 the the DT work_7n2voym2grhjpocfumswh5tooa 129 48 CEU ceu NN work_7n2voym2grhjpocfumswh5tooa 129 49 population population NN work_7n2voym2grhjpocfumswh5tooa 129 50 from from IN work_7n2voym2grhjpocfumswh5tooa 129 51 Phase Phase NNP work_7n2voym2grhjpocfumswh5tooa 129 52 3 3 CD work_7n2voym2grhjpocfumswh5tooa 129 53 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 129 54 Version version NN work_7n2voym2grhjpocfumswh5tooa 129 55 5 5 CD work_7n2voym2grhjpocfumswh5tooa 129 56 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 129 57 of of IN work_7n2voym2grhjpocfumswh5tooa 129 58 the the DT work_7n2voym2grhjpocfumswh5tooa 129 59 1000 1000 CD work_7n2voym2grhjpocfumswh5tooa 129 60 Genome Genome NNP work_7n2voym2grhjpocfumswh5tooa 129 61 Project Project NNP work_7n2voym2grhjpocfumswh5tooa 129 62 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 129 63 Machiela Machiela NNP work_7n2voym2grhjpocfumswh5tooa 129 64 and and CC work_7n2voym2grhjpocfumswh5tooa 129 65 Chanock Chanock NNP work_7n2voym2grhjpocfumswh5tooa 129 66 2015 2015 CD work_7n2voym2grhjpocfumswh5tooa 129 67 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 129 68 . . . work_7n2voym2grhjpocfumswh5tooa 130 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 130 2 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 130 3 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 130 4 P503A p503a NN work_7n2voym2grhjpocfumswh5tooa 130 5 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 130 6 by by IN work_7n2voym2grhjpocfumswh5tooa 130 7 performing perform VBG work_7n2voym2grhjpocfumswh5tooa 130 8 customized customize VBN work_7n2voym2grhjpocfumswh5tooa 130 9 TaqMan TaqMan NNP work_7n2voym2grhjpocfumswh5tooa 130 10 genotyping genotyping NN work_7n2voym2grhjpocfumswh5tooa 130 11 assays assays RB work_7n2voym2grhjpocfumswh5tooa 130 12 of of IN work_7n2voym2grhjpocfumswh5tooa 130 13 the the DT work_7n2voym2grhjpocfumswh5tooa 130 14 variant variant NN work_7n2voym2grhjpocfumswh5tooa 130 15 in in IN work_7n2voym2grhjpocfumswh5tooa 130 16 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 130 17 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 130 18 cohort cohort NN work_7n2voym2grhjpocfumswh5tooa 130 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 130 20 unpublished unpublished JJ work_7n2voym2grhjpocfumswh5tooa 130 21 data datum NNS work_7n2voym2grhjpocfumswh5tooa 130 22 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 130 23 . . . work_7n2voym2grhjpocfumswh5tooa 131 1 Briefly briefly RB work_7n2voym2grhjpocfumswh5tooa 131 2 , , , work_7n2voym2grhjpocfumswh5tooa 131 3 P503A p503a CD work_7n2voym2grhjpocfumswh5tooa 131 4 genotyping genotyping NN work_7n2voym2grhjpocfumswh5tooa 131 5 was be VBD work_7n2voym2grhjpocfumswh5tooa 131 6 carried carry VBN work_7n2voym2grhjpocfumswh5tooa 131 7 out out RP work_7n2voym2grhjpocfumswh5tooa 131 8 using use VBG work_7n2voym2grhjpocfumswh5tooa 131 9 a a DT work_7n2voym2grhjpocfumswh5tooa 131 10 Custom Custom NNP work_7n2voym2grhjpocfumswh5tooa 131 11 TaqMan TaqMan NNP work_7n2voym2grhjpocfumswh5tooa 131 12 SNP SNP NNP work_7n2voym2grhjpocfumswh5tooa 131 13 Genotyping Genotyping NNP work_7n2voym2grhjpocfumswh5tooa 131 14 Assay Assay NNP work_7n2voym2grhjpocfumswh5tooa 131 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 131 16 Thermo Thermo NNP work_7n2voym2grhjpocfumswh5tooa 131 17 Fisher Fisher NNP work_7n2voym2grhjpocfumswh5tooa 131 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 131 19 to to TO work_7n2voym2grhjpocfumswh5tooa 131 20 interrogate interrogate VB work_7n2voym2grhjpocfumswh5tooa 131 21 the the DT work_7n2voym2grhjpocfumswh5tooa 131 22 presence presence NN work_7n2voym2grhjpocfumswh5tooa 131 23 of of IN work_7n2voym2grhjpocfumswh5tooa 131 24 a a DT work_7n2voym2grhjpocfumswh5tooa 131 25 C c NN work_7n2voym2grhjpocfumswh5tooa 131 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 131 27 P503 p503 UH work_7n2voym2grhjpocfumswh5tooa 131 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 131 29 or or CC work_7n2voym2grhjpocfumswh5tooa 131 30 G g NN work_7n2voym2grhjpocfumswh5tooa 131 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 131 32 A503 a503 NN work_7n2voym2grhjpocfumswh5tooa 131 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 131 34 at at IN work_7n2voym2grhjpocfumswh5tooa 131 35 position position NN work_7n2voym2grhjpocfumswh5tooa 131 36 1507 1507 CD work_7n2voym2grhjpocfumswh5tooa 131 37 in in IN work_7n2voym2grhjpocfumswh5tooa 131 38 the the DT work_7n2voym2grhjpocfumswh5tooa 131 39 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 131 40 transcript transcript NN work_7n2voym2grhjpocfumswh5tooa 131 41 . . . work_7n2voym2grhjpocfumswh5tooa 132 1 Assays assay NNS work_7n2voym2grhjpocfumswh5tooa 132 2 were be VBD work_7n2voym2grhjpocfumswh5tooa 132 3 carried carry VBN work_7n2voym2grhjpocfumswh5tooa 132 4 out out RP work_7n2voym2grhjpocfumswh5tooa 132 5 per per IN work_7n2voym2grhjpocfumswh5tooa 132 6 the the DT work_7n2voym2grhjpocfumswh5tooa 132 7 manufacturer manufacturer NN work_7n2voym2grhjpocfumswh5tooa 132 8 ’s ’s POS work_7n2voym2grhjpocfumswh5tooa 132 9 instructions instruction NNS work_7n2voym2grhjpocfumswh5tooa 132 10 using use VBG work_7n2voym2grhjpocfumswh5tooa 132 11 TaqMan TaqMan NNP work_7n2voym2grhjpocfumswh5tooa 132 12 Genotyping Genotyping NNP work_7n2voym2grhjpocfumswh5tooa 132 13 Master Master NNP work_7n2voym2grhjpocfumswh5tooa 132 14 Mix Mix NNP work_7n2voym2grhjpocfumswh5tooa 132 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 132 16 Thermo Thermo NNP work_7n2voym2grhjpocfumswh5tooa 132 17 Fisher Fisher NNP work_7n2voym2grhjpocfumswh5tooa 132 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 132 19 and and CC work_7n2voym2grhjpocfumswh5tooa 132 20 10 10 CD work_7n2voym2grhjpocfumswh5tooa 132 21   _SP work_7n2voym2grhjpocfumswh5tooa 132 22 ng ng NN work_7n2voym2grhjpocfumswh5tooa 132 23 of of IN work_7n2voym2grhjpocfumswh5tooa 132 24 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 132 25 DNA dna NN work_7n2voym2grhjpocfumswh5tooa 132 26 per per IN work_7n2voym2grhjpocfumswh5tooa 132 27 reaction reaction NN work_7n2voym2grhjpocfumswh5tooa 132 28 . . . work_7n2voym2grhjpocfumswh5tooa 133 1 Reactions reaction NNS work_7n2voym2grhjpocfumswh5tooa 133 2 were be VBD work_7n2voym2grhjpocfumswh5tooa 133 3 run run VBN work_7n2voym2grhjpocfumswh5tooa 133 4 on on IN work_7n2voym2grhjpocfumswh5tooa 133 5 a a DT work_7n2voym2grhjpocfumswh5tooa 133 6 QuantStudio QuantStudio NNP work_7n2voym2grhjpocfumswh5tooa 133 7 7 7 CD work_7n2voym2grhjpocfumswh5tooa 133 8 PCR PCR NNP work_7n2voym2grhjpocfumswh5tooa 133 9 machine machine NN work_7n2voym2grhjpocfumswh5tooa 133 10 , , , work_7n2voym2grhjpocfumswh5tooa 133 11 and and CC work_7n2voym2grhjpocfumswh5tooa 133 12 genotypes genotype NNS work_7n2voym2grhjpocfumswh5tooa 133 13 were be VBD work_7n2voym2grhjpocfumswh5tooa 133 14 called call VBN work_7n2voym2grhjpocfumswh5tooa 133 15 by by IN work_7n2voym2grhjpocfumswh5tooa 133 16 the the DT work_7n2voym2grhjpocfumswh5tooa 133 17 QuantStudio QuantStudio NNP work_7n2voym2grhjpocfumswh5tooa 133 18 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 133 19 software software NN work_7n2voym2grhjpocfumswh5tooa 133 20 . . . work_7n2voym2grhjpocfumswh5tooa 134 1 In in IN work_7n2voym2grhjpocfumswh5tooa 134 2 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 134 3 conditional conditional JJ work_7n2voym2grhjpocfumswh5tooa 134 4 link- link- NN work_7n2voym2grhjpocfumswh5tooa 134 5 age age NN work_7n2voym2grhjpocfumswh5tooa 134 6 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 134 7 , , , work_7n2voym2grhjpocfumswh5tooa 134 8 penetrance penetrance NN work_7n2voym2grhjpocfumswh5tooa 134 9 values value NNS work_7n2voym2grhjpocfumswh5tooa 134 10 were be VBD work_7n2voym2grhjpocfumswh5tooa 134 11 0.13 0.13 CD work_7n2voym2grhjpocfumswh5tooa 134 12 , , , work_7n2voym2grhjpocfumswh5tooa 134 13 0.312 0.312 CD work_7n2voym2grhjpocfumswh5tooa 134 14 , , , work_7n2voym2grhjpocfumswh5tooa 134 15 and and CC work_7n2voym2grhjpocfumswh5tooa 134 16 0.624 0.624 CD work_7n2voym2grhjpocfumswh5tooa 134 17 for for IN work_7n2voym2grhjpocfumswh5tooa 134 18 0 0 CD work_7n2voym2grhjpocfumswh5tooa 134 19 , , , work_7n2voym2grhjpocfumswh5tooa 134 20 1 1 CD work_7n2voym2grhjpocfumswh5tooa 134 21 , , , work_7n2voym2grhjpocfumswh5tooa 134 22 and and CC work_7n2voym2grhjpocfumswh5tooa 134 23 2 2 CD work_7n2voym2grhjpocfumswh5tooa 134 24 copies copy NNS work_7n2voym2grhjpocfumswh5tooa 134 25 of of IN work_7n2voym2grhjpocfumswh5tooa 134 26 the the DT work_7n2voym2grhjpocfumswh5tooa 134 27 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 134 28 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 134 29 , , , work_7n2voym2grhjpocfumswh5tooa 134 30 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 134 31 , , , work_7n2voym2grhjpocfumswh5tooa 134 32 for for IN work_7n2voym2grhjpocfumswh5tooa 134 33 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 134 34 of of IN work_7n2voym2grhjpocfumswh5tooa 134 35 only only RB work_7n2voym2grhjpocfumswh5tooa 134 36 the the DT work_7n2voym2grhjpocfumswh5tooa 134 37 surrogate surrogate NN work_7n2voym2grhjpocfumswh5tooa 134 38 for for IN work_7n2voym2grhjpocfumswh5tooa 134 39 Y402H. Y402H. NNP work_7n2voym2grhjpocfumswh5tooa 135 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 135 2 chose choose VBD work_7n2voym2grhjpocfumswh5tooa 135 3 these these DT work_7n2voym2grhjpocfumswh5tooa 135 4 values value NNS work_7n2voym2grhjpocfumswh5tooa 135 5 based base VBN work_7n2voym2grhjpocfumswh5tooa 135 6 on on IN work_7n2voym2grhjpocfumswh5tooa 135 7 the the DT work_7n2voym2grhjpocfumswh5tooa 135 8 population population NN work_7n2voym2grhjpocfumswh5tooa 135 9 prevalence prevalence NN work_7n2voym2grhjpocfumswh5tooa 135 10 of of IN work_7n2voym2grhjpocfumswh5tooa 135 11 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 135 12 in in IN work_7n2voym2grhjpocfumswh5tooa 135 13 the the DT work_7n2voym2grhjpocfumswh5tooa 135 14 Caucasian caucasian JJ work_7n2voym2grhjpocfumswh5tooa 135 15 population population NN work_7n2voym2grhjpocfumswh5tooa 135 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 135 17 13 13 CD work_7n2voym2grhjpocfumswh5tooa 135 18 % % NN work_7n2voym2grhjpocfumswh5tooa 135 19 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 135 20 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 135 21 Shalev Shalev NNP work_7n2voym2grhjpocfumswh5tooa 135 22 et et FW work_7n2voym2grhjpocfumswh5tooa 135 23   _SP work_7n2voym2grhjpocfumswh5tooa 135 24 al al NNP work_7n2voym2grhjpocfumswh5tooa 135 25 . . . work_7n2voym2grhjpocfumswh5tooa 136 1 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 136 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 136 3 Smith Smith NNP work_7n2voym2grhjpocfumswh5tooa 136 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 136 5   _SP work_7n2voym2grhjpocfumswh5tooa 136 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 136 7 . . . work_7n2voym2grhjpocfumswh5tooa 137 1 2001 2001 LS work_7n2voym2grhjpocfumswh5tooa 137 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 137 3 and and CC work_7n2voym2grhjpocfumswh5tooa 137 4 the the DT work_7n2voym2grhjpocfumswh5tooa 137 5 expected expect VBN work_7n2voym2grhjpocfumswh5tooa 137 6 prevalence prevalence NN work_7n2voym2grhjpocfumswh5tooa 137 7 based base VBN work_7n2voym2grhjpocfumswh5tooa 137 8 on on IN work_7n2voym2grhjpocfumswh5tooa 137 9 the the DT work_7n2voym2grhjpocfumswh5tooa 137 10 published publish VBN work_7n2voym2grhjpocfumswh5tooa 137 11 odds odd NNS work_7n2voym2grhjpocfumswh5tooa 137 12 ratio ratio NN work_7n2voym2grhjpocfumswh5tooa 137 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 137 14 OR or CC work_7n2voym2grhjpocfumswh5tooa 137 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 137 16 for for IN work_7n2voym2grhjpocfumswh5tooa 137 17 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 137 18 , , , work_7n2voym2grhjpocfumswh5tooa 137 19 which which WDT work_7n2voym2grhjpocfumswh5tooa 137 20 is be VBZ work_7n2voym2grhjpocfumswh5tooa 137 21 2.4 2.4 CD work_7n2voym2grhjpocfumswh5tooa 137 22 per per IN work_7n2voym2grhjpocfumswh5tooa 137 23 copy copy NN work_7n2voym2grhjpocfumswh5tooa 137 24 of of IN work_7n2voym2grhjpocfumswh5tooa 137 25 the the DT work_7n2voym2grhjpocfumswh5tooa 137 26 risk risk NN work_7n2voym2grhjpocfumswh5tooa 137 27 allele allele RB work_7n2voym2grhjpocfumswh5tooa 137 28 in in IN work_7n2voym2grhjpocfumswh5tooa 137 29 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 137 30 of of IN work_7n2voym2grhjpocfumswh5tooa 137 31 European european JJ work_7n2voym2grhjpocfumswh5tooa 137 32 descent descent NN work_7n2voym2grhjpocfumswh5tooa 137 33 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 137 34 Haines Haines NNP work_7n2voym2grhjpocfumswh5tooa 137 35 et et NNP work_7n2voym2grhjpocfumswh5tooa 137 36   _SP work_7n2voym2grhjpocfumswh5tooa 137 37 al al NNP work_7n2voym2grhjpocfumswh5tooa 137 38 . . . work_7n2voym2grhjpocfumswh5tooa 138 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 138 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 138 3 Sofat Sofat NNP work_7n2voym2grhjpocfumswh5tooa 138 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 138 5   _SP work_7n2voym2grhjpocfumswh5tooa 138 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 138 7 . . . work_7n2voym2grhjpocfumswh5tooa 139 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 139 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 139 3 . . . work_7n2voym2grhjpocfumswh5tooa 140 1 For for IN work_7n2voym2grhjpocfumswh5tooa 140 2 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 140 3 of of IN work_7n2voym2grhjpocfumswh5tooa 140 4 only only RB work_7n2voym2grhjpocfumswh5tooa 140 5 the the DT work_7n2voym2grhjpocfumswh5tooa 140 6 P503A p503a NN work_7n2voym2grhjpocfumswh5tooa 140 7 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 140 8 or or CC work_7n2voym2grhjpocfumswh5tooa 140 9 both both DT work_7n2voym2grhjpocfumswh5tooa 140 10 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 140 11 , , , work_7n2voym2grhjpocfumswh5tooa 140 12 penetrance penetrance NN work_7n2voym2grhjpocfumswh5tooa 140 13 values value NNS work_7n2voym2grhjpocfumswh5tooa 140 14 were be VBD work_7n2voym2grhjpocfumswh5tooa 140 15 0.13 0.13 CD work_7n2voym2grhjpocfumswh5tooa 140 16 , , , work_7n2voym2grhjpocfumswh5tooa 140 17 0.6 0.6 CD work_7n2voym2grhjpocfumswh5tooa 140 18 , , , work_7n2voym2grhjpocfumswh5tooa 140 19 and and CC work_7n2voym2grhjpocfumswh5tooa 140 20 0.6 0.6 CD work_7n2voym2grhjpocfumswh5tooa 140 21 for for IN work_7n2voym2grhjpocfumswh5tooa 140 22 0 0 CD work_7n2voym2grhjpocfumswh5tooa 140 23 , , , work_7n2voym2grhjpocfumswh5tooa 140 24 1 1 CD work_7n2voym2grhjpocfumswh5tooa 140 25 , , , work_7n2voym2grhjpocfumswh5tooa 140 26 and and CC work_7n2voym2grhjpocfumswh5tooa 140 27 2 2 CD work_7n2voym2grhjpocfumswh5tooa 140 28 copies copy NNS work_7n2voym2grhjpocfumswh5tooa 140 29 of of IN work_7n2voym2grhjpocfumswh5tooa 140 30 the the DT work_7n2voym2grhjpocfumswh5tooa 140 31 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 140 32 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 140 33 , , , work_7n2voym2grhjpocfumswh5tooa 140 34 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 140 35 . . . work_7n2voym2grhjpocfumswh5tooa 141 1 The the DT work_7n2voym2grhjpocfumswh5tooa 141 2 penetrance penetrance NN work_7n2voym2grhjpocfumswh5tooa 141 3 value value NN work_7n2voym2grhjpocfumswh5tooa 141 4 for for IN work_7n2voym2grhjpocfumswh5tooa 141 5 the the DT work_7n2voym2grhjpocfumswh5tooa 141 6 P503A P503A NNP work_7n2voym2grhjpocfumswh5tooa 141 7 risk risk NN work_7n2voym2grhjpocfumswh5tooa 141 8 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 141 9 was be VBD work_7n2voym2grhjpocfumswh5tooa 141 10 derived derive VBN work_7n2voym2grhjpocfumswh5tooa 141 11 from from IN work_7n2voym2grhjpocfumswh5tooa 141 12 the the DT work_7n2voym2grhjpocfumswh5tooa 141 13 number number NN work_7n2voym2grhjpocfumswh5tooa 141 14 of of IN work_7n2voym2grhjpocfumswh5tooa 141 15 affected affect VBN work_7n2voym2grhjpocfumswh5tooa 141 16 P503A p503a CD work_7n2voym2grhjpocfumswh5tooa 141 17 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 141 18 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 141 19 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 141 20 in in IN work_7n2voym2grhjpocfumswh5tooa 141 21 a a DT work_7n2voym2grhjpocfumswh5tooa 141 22 pre- pre- RB work_7n2voym2grhjpocfumswh5tooa 141 23 vious vious JJ work_7n2voym2grhjpocfumswh5tooa 141 24 study study NN work_7n2voym2grhjpocfumswh5tooa 141 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 141 26 Hoffman Hoffman NNP work_7n2voym2grhjpocfumswh5tooa 141 27 et et NNP work_7n2voym2grhjpocfumswh5tooa 141 28   _SP work_7n2voym2grhjpocfumswh5tooa 141 29 al al NNP work_7n2voym2grhjpocfumswh5tooa 141 30 . . . work_7n2voym2grhjpocfumswh5tooa 142 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 142 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 142 3 . . . work_7n2voym2grhjpocfumswh5tooa 143 1 For for IN work_7n2voym2grhjpocfumswh5tooa 143 2 non non JJ work_7n2voym2grhjpocfumswh5tooa 143 3 - - NNS work_7n2voym2grhjpocfumswh5tooa 143 4 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 143 5 of of IN work_7n2voym2grhjpocfumswh5tooa 143 6 both both DT work_7n2voym2grhjpocfumswh5tooa 143 7 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 143 8 , , , work_7n2voym2grhjpocfumswh5tooa 143 9 penetrance penetrance NN work_7n2voym2grhjpocfumswh5tooa 143 10 values value NNS work_7n2voym2grhjpocfumswh5tooa 143 11 were be VBD work_7n2voym2grhjpocfumswh5tooa 143 12 consistent consistent JJ work_7n2voym2grhjpocfumswh5tooa 143 13 with with IN work_7n2voym2grhjpocfumswh5tooa 143 14 those those DT work_7n2voym2grhjpocfumswh5tooa 143 15 used use VBN work_7n2voym2grhjpocfumswh5tooa 143 16 for for IN work_7n2voym2grhjpocfumswh5tooa 143 17 the the DT work_7n2voym2grhjpocfumswh5tooa 143 18 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 143 19 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 143 20 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 143 21 of of IN work_7n2voym2grhjpocfumswh5tooa 143 22 the the DT work_7n2voym2grhjpocfumswh5tooa 143 23 other other JJ work_7n2voym2grhjpocfumswh5tooa 143 24 autosomes autosome NNS work_7n2voym2grhjpocfumswh5tooa 143 25 . . . work_7n2voym2grhjpocfumswh5tooa 144 1 In in IN work_7n2voym2grhjpocfumswh5tooa 144 2 silico silico JJ work_7n2voym2grhjpocfumswh5tooa 144 3 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 144 4 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 144 5 of of IN work_7n2voym2grhjpocfumswh5tooa 144 6   _SP work_7n2voym2grhjpocfumswh5tooa 144 7 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 144 8 from from IN work_7n2voym2grhjpocfumswh5tooa 144 9   _SP work_7n2voym2grhjpocfumswh5tooa 144 10 1‑HLOD 1‑hlod CD work_7n2voym2grhjpocfumswh5tooa 144 11 support support NN work_7n2voym2grhjpocfumswh5tooa 144 12 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 144 13 of of IN work_7n2voym2grhjpocfumswh5tooa 144 14   _SP work_7n2voym2grhjpocfumswh5tooa 144 15 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 144 16 regions region NNS work_7n2voym2grhjpocfumswh5tooa 144 17 To to TO work_7n2voym2grhjpocfumswh5tooa 144 18 determine determine VB work_7n2voym2grhjpocfumswh5tooa 144 19 whether whether IN work_7n2voym2grhjpocfumswh5tooa 144 20 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 144 21 present present JJ work_7n2voym2grhjpocfumswh5tooa 144 22 in in IN work_7n2voym2grhjpocfumswh5tooa 144 23 the the DT work_7n2voym2grhjpocfumswh5tooa 144 24 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 144 25 sup- sup- JJ work_7n2voym2grhjpocfumswh5tooa 144 26 port port NN work_7n2voym2grhjpocfumswh5tooa 144 27 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 144 28 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 144 29 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 144 30 Tables Tables NNPS work_7n2voym2grhjpocfumswh5tooa 144 31     _SP work_7n2voym2grhjpocfumswh5tooa 144 32 2–4 2–4 CD work_7n2voym2grhjpocfumswh5tooa 144 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 144 34 of of IN work_7n2voym2grhjpocfumswh5tooa 144 35 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 144 36 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 144 37 regions region NNS work_7n2voym2grhjpocfumswh5tooa 144 38 on on IN work_7n2voym2grhjpocfumswh5tooa 144 39 chromosomes chromosome NNS work_7n2voym2grhjpocfumswh5tooa 144 40 8 8 CD work_7n2voym2grhjpocfumswh5tooa 144 41 and and CC work_7n2voym2grhjpocfumswh5tooa 144 42 18 18 CD work_7n2voym2grhjpocfumswh5tooa 144 43 are be VBP work_7n2voym2grhjpocfumswh5tooa 144 44 functionally functionally RB work_7n2voym2grhjpocfumswh5tooa 144 45 related relate VBN work_7n2voym2grhjpocfumswh5tooa 144 46 to to IN work_7n2voym2grhjpocfumswh5tooa 144 47 one one CD work_7n2voym2grhjpocfumswh5tooa 144 48 another another DT work_7n2voym2grhjpocfumswh5tooa 144 49 , , , work_7n2voym2grhjpocfumswh5tooa 144 50 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 144 51 extracted extract VBD work_7n2voym2grhjpocfumswh5tooa 144 52 gene gene NN work_7n2voym2grhjpocfumswh5tooa 144 53 boundaries boundary NNS work_7n2voym2grhjpocfumswh5tooa 144 54 from from IN work_7n2voym2grhjpocfumswh5tooa 144 55 Ensembl Ensembl NNP work_7n2voym2grhjpocfumswh5tooa 144 56 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 144 57 human human JJ work_7n2voym2grhjpocfumswh5tooa 144 58 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 144 59 build build NN work_7n2voym2grhjpocfumswh5tooa 144 60 37 37 CD work_7n2voym2grhjpocfumswh5tooa 144 61 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 144 62 and and CC work_7n2voym2grhjpocfumswh5tooa 144 63 performed perform VBN work_7n2voym2grhjpocfumswh5tooa 144 64 gene gene NN work_7n2voym2grhjpocfumswh5tooa 144 65 ontology ontology NN work_7n2voym2grhjpocfumswh5tooa 144 66 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 144 67 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 144 68 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 144 69 enrichment enrichment NN work_7n2voym2grhjpocfumswh5tooa 144 70 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 144 71 with with IN work_7n2voym2grhjpocfumswh5tooa 144 72 the the DT work_7n2voym2grhjpocfumswh5tooa 144 73 ClueGO ClueGO NNP work_7n2voym2grhjpocfumswh5tooa 144 74 v2.5.3 v2.5.3 NNP work_7n2voym2grhjpocfumswh5tooa 144 75 plug plug NN work_7n2voym2grhjpocfumswh5tooa 144 76 - - HYPH work_7n2voym2grhjpocfumswh5tooa 144 77 in in NN work_7n2voym2grhjpocfumswh5tooa 144 78 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 144 79 Bindea Bindea NNP work_7n2voym2grhjpocfumswh5tooa 144 80 et et NNP work_7n2voym2grhjpocfumswh5tooa 144 81   _SP work_7n2voym2grhjpocfumswh5tooa 144 82 al al NNP work_7n2voym2grhjpocfumswh5tooa 144 83 . . . work_7n2voym2grhjpocfumswh5tooa 145 1 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 145 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 145 3 of of IN work_7n2voym2grhjpocfumswh5tooa 145 4 Cytoscape Cytoscape NNP work_7n2voym2grhjpocfumswh5tooa 145 5 v3.7.1 v3.7.1 NNP work_7n2voym2grhjpocfumswh5tooa 145 6 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 145 7 https https NN work_7n2voym2grhjpocfumswh5tooa 145 8 : : : work_7n2voym2grhjpocfumswh5tooa 145 9 //cytos //cytos NN work_7n2voym2grhjpocfumswh5tooa 145 10 cape cape NN work_7n2voym2grhjpocfumswh5tooa 145 11 . . . work_7n2voym2grhjpocfumswh5tooa 146 1 org/ org/ NNP work_7n2voym2grhjpocfumswh5tooa 146 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 146 3 . . . work_7n2voym2grhjpocfumswh5tooa 147 1 Specifically specifically RB work_7n2voym2grhjpocfumswh5tooa 147 2 , , , work_7n2voym2grhjpocfumswh5tooa 147 3 terms term NNS work_7n2voym2grhjpocfumswh5tooa 147 4 from from IN work_7n2voym2grhjpocfumswh5tooa 147 5 the the DT work_7n2voym2grhjpocfumswh5tooa 147 6 following follow VBG work_7n2voym2grhjpocfumswh5tooa 147 7 classifications classification NNS work_7n2voym2grhjpocfumswh5tooa 147 8 in in IN work_7n2voym2grhjpocfumswh5tooa 147 9 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 147 10 were be VBD work_7n2voym2grhjpocfumswh5tooa 147 11 considered consider VBN work_7n2voym2grhjpocfumswh5tooa 147 12 : : : work_7n2voym2grhjpocfumswh5tooa 147 13 Immune Immune NNP work_7n2voym2grhjpocfumswh5tooa 147 14 System System NNP work_7n2voym2grhjpocfumswh5tooa 147 15 Process Process NNP work_7n2voym2grhjpocfumswh5tooa 147 16 , , , work_7n2voym2grhjpocfumswh5tooa 147 17 Biological Biological NNP work_7n2voym2grhjpocfumswh5tooa 147 18 Process Process NNP work_7n2voym2grhjpocfumswh5tooa 147 19 , , , work_7n2voym2grhjpocfumswh5tooa 147 20 Molecular Molecular NNP work_7n2voym2grhjpocfumswh5tooa 147 21 Function Function NNP work_7n2voym2grhjpocfumswh5tooa 147 22 , , , work_7n2voym2grhjpocfumswh5tooa 147 23 and and CC work_7n2voym2grhjpocfumswh5tooa 147 24 Cellular Cellular NNP work_7n2voym2grhjpocfumswh5tooa 147 25 Component Component NNP work_7n2voym2grhjpocfumswh5tooa 147 26 . . . work_7n2voym2grhjpocfumswh5tooa 148 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 148 2 included include VBD work_7n2voym2grhjpocfumswh5tooa 148 3 all all DT work_7n2voym2grhjpocfumswh5tooa 148 4 evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 148 5 codes code NNS work_7n2voym2grhjpocfumswh5tooa 148 6 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 148 7 experimental experimental JJ work_7n2voym2grhjpocfumswh5tooa 148 8 , , , work_7n2voym2grhjpocfumswh5tooa 148 9 non non JJ work_7n2voym2grhjpocfumswh5tooa 148 10 - - JJ work_7n2voym2grhjpocfumswh5tooa 148 11 experimen- experimen- JJ work_7n2voym2grhjpocfumswh5tooa 148 12 tal tal NN work_7n2voym2grhjpocfumswh5tooa 148 13 , , , work_7n2voym2grhjpocfumswh5tooa 148 14 author author NN work_7n2voym2grhjpocfumswh5tooa 148 15 statements statement NNS work_7n2voym2grhjpocfumswh5tooa 148 16 from from IN work_7n2voym2grhjpocfumswh5tooa 148 17 publication publication NN work_7n2voym2grhjpocfumswh5tooa 148 18 , , , work_7n2voym2grhjpocfumswh5tooa 148 19 and and CC work_7n2voym2grhjpocfumswh5tooa 148 20 curator curator NN work_7n2voym2grhjpocfumswh5tooa 148 21 state- state- NNP work_7n2voym2grhjpocfumswh5tooa 148 22 ments ments NNP work_7n2voym2grhjpocfumswh5tooa 148 23 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 148 24 in in IN work_7n2voym2grhjpocfumswh5tooa 148 25 the the DT work_7n2voym2grhjpocfumswh5tooa 148 26 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 148 27 . . . work_7n2voym2grhjpocfumswh5tooa 149 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 149 2 calculated calculate VBD work_7n2voym2grhjpocfumswh5tooa 149 3 p p NN work_7n2voym2grhjpocfumswh5tooa 149 4 values value NNS work_7n2voym2grhjpocfumswh5tooa 149 5 using use VBG work_7n2voym2grhjpocfumswh5tooa 149 6 right- right- NNP work_7n2voym2grhjpocfumswh5tooa 149 7 sided side VBN work_7n2voym2grhjpocfumswh5tooa 149 8 hypergeometric hypergeometric NN work_7n2voym2grhjpocfumswh5tooa 149 9 tests test NNS work_7n2voym2grhjpocfumswh5tooa 149 10 and and CC work_7n2voym2grhjpocfumswh5tooa 149 11 the the DT work_7n2voym2grhjpocfumswh5tooa 149 12 Benjamini Benjamini NNP work_7n2voym2grhjpocfumswh5tooa 149 13 – – : work_7n2voym2grhjpocfumswh5tooa 149 14 Hochberg Hochberg NNP work_7n2voym2grhjpocfumswh5tooa 149 15 correction correction NN work_7n2voym2grhjpocfumswh5tooa 149 16 for for IN work_7n2voym2grhjpocfumswh5tooa 149 17 multiple multiple JJ work_7n2voym2grhjpocfumswh5tooa 149 18 testing testing NN work_7n2voym2grhjpocfumswh5tooa 149 19 . . . work_7n2voym2grhjpocfumswh5tooa 150 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 150 2 chose choose VBD work_7n2voym2grhjpocfumswh5tooa 150 3 medium medium JJ work_7n2voym2grhjpocfumswh5tooa 150 4 network network NN work_7n2voym2grhjpocfumswh5tooa 150 5 specificity specificity NN work_7n2voym2grhjpocfumswh5tooa 150 6 to to TO work_7n2voym2grhjpocfumswh5tooa 150 7 identify identify VB work_7n2voym2grhjpocfumswh5tooa 150 8 representative representative JJ work_7n2voym2grhjpocfumswh5tooa 150 9 pathways pathway NNS work_7n2voym2grhjpocfumswh5tooa 150 10 for for IN work_7n2voym2grhjpocfumswh5tooa 150 11 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 150 12 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 150 13 of of IN work_7n2voym2grhjpocfumswh5tooa 150 14 interest interest NN work_7n2voym2grhjpocfumswh5tooa 150 15 . . . work_7n2voym2grhjpocfumswh5tooa 151 1 This this DT work_7n2voym2grhjpocfumswh5tooa 151 2 level level NN work_7n2voym2grhjpocfumswh5tooa 151 3 of of IN work_7n2voym2grhjpocfumswh5tooa 151 4 specificity specificity NN work_7n2voym2grhjpocfumswh5tooa 151 5 examines examine VBZ work_7n2voym2grhjpocfumswh5tooa 151 6 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 151 7 levels level NNS work_7n2voym2grhjpocfumswh5tooa 151 8 3–8 3–8 CD work_7n2voym2grhjpocfumswh5tooa 151 9 , , , work_7n2voym2grhjpocfumswh5tooa 151 10 requires require VBZ work_7n2voym2grhjpocfumswh5tooa 151 11 at at IN work_7n2voym2grhjpocfumswh5tooa 151 12 least least RBS work_7n2voym2grhjpocfumswh5tooa 151 13 three three CD work_7n2voym2grhjpocfumswh5tooa 151 14 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 151 15 per per IN work_7n2voym2grhjpocfumswh5tooa 151 16 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 151 17 term term NN work_7n2voym2grhjpocfumswh5tooa 151 18 , , , work_7n2voym2grhjpocfumswh5tooa 151 19 and and CC work_7n2voym2grhjpocfumswh5tooa 151 20 ensures ensure VBZ work_7n2voym2grhjpocfumswh5tooa 151 21 that that IN work_7n2voym2grhjpocfumswh5tooa 151 22 mapped map VBN work_7n2voym2grhjpocfumswh5tooa 151 23 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 151 24 represent represent VBP work_7n2voym2grhjpocfumswh5tooa 151 25 at at RB work_7n2voym2grhjpocfumswh5tooa 151 26 least least JJS work_7n2voym2grhjpocfumswh5tooa 151 27 4 4 CD work_7n2voym2grhjpocfumswh5tooa 151 28 % % NN work_7n2voym2grhjpocfumswh5tooa 151 29 of of IN work_7n2voym2grhjpocfumswh5tooa 151 30 the the DT work_7n2voym2grhjpocfumswh5tooa 151 31 total total JJ work_7n2voym2grhjpocfumswh5tooa 151 32 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 151 33 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 151 34 . . . work_7n2voym2grhjpocfumswh5tooa 152 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 152 2 also also RB work_7n2voym2grhjpocfumswh5tooa 152 3 used use VBD work_7n2voym2grhjpocfumswh5tooa 152 4 a a DT work_7n2voym2grhjpocfumswh5tooa 152 5 Kappa Kappa NNP work_7n2voym2grhjpocfumswh5tooa 152 6 score score NN work_7n2voym2grhjpocfumswh5tooa 152 7 of of IN work_7n2voym2grhjpocfumswh5tooa 152 8 0.4 0.4 CD work_7n2voym2grhjpocfumswh5tooa 152 9 for for IN work_7n2voym2grhjpocfumswh5tooa 152 10 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 152 11 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 152 12 term term NN work_7n2voym2grhjpocfumswh5tooa 152 13 network network NN work_7n2voym2grhjpocfumswh5tooa 152 14 connectivity connectivity NN work_7n2voym2grhjpocfumswh5tooa 152 15 threshold threshold NN work_7n2voym2grhjpocfumswh5tooa 152 16 . . . work_7n2voym2grhjpocfumswh5tooa 153 1 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 153 2 terms term NNS work_7n2voym2grhjpocfumswh5tooa 153 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 153 4 iteratively iteratively RB work_7n2voym2grhjpocfumswh5tooa 153 5 compared compare VBN work_7n2voym2grhjpocfumswh5tooa 153 6 , , , work_7n2voym2grhjpocfumswh5tooa 153 7 merged merge VBN work_7n2voym2grhjpocfumswh5tooa 153 8 into into IN work_7n2voym2grhjpocfumswh5tooa 153 9 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 153 10 groups group NNS work_7n2voym2grhjpocfumswh5tooa 153 11 , , , work_7n2voym2grhjpocfumswh5tooa 153 12 and and CC work_7n2voym2grhjpocfumswh5tooa 153 13 visualized visualize VBN work_7n2voym2grhjpocfumswh5tooa 153 14 in in IN work_7n2voym2grhjpocfumswh5tooa 153 15 Cytoscape Cytoscape NNP work_7n2voym2grhjpocfumswh5tooa 153 16 . . . work_7n2voym2grhjpocfumswh5tooa 154 1 Results Results NNP work_7n2voym2grhjpocfumswh5tooa 154 2 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 154 3 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 154 4 Of of IN work_7n2voym2grhjpocfumswh5tooa 154 5 the the DT work_7n2voym2grhjpocfumswh5tooa 154 6 37,428 37,428 CD work_7n2voym2grhjpocfumswh5tooa 154 7 polymorphic polymorphic JJ work_7n2voym2grhjpocfumswh5tooa 154 8 autosomal autosomal JJ work_7n2voym2grhjpocfumswh5tooa 154 9 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 154 10 that that WDT work_7n2voym2grhjpocfumswh5tooa 154 11 passed pass VBD work_7n2voym2grhjpocfumswh5tooa 154 12 quality quality NN work_7n2voym2grhjpocfumswh5tooa 154 13 control control NN work_7n2voym2grhjpocfumswh5tooa 154 14 , , , work_7n2voym2grhjpocfumswh5tooa 154 15 four four CD work_7n2voym2grhjpocfumswh5tooa 154 16 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 154 17 met meet VBD work_7n2voym2grhjpocfumswh5tooa 154 18 the the DT work_7n2voym2grhjpocfumswh5tooa 154 19 Bonferroni Bonferroni NNP work_7n2voym2grhjpocfumswh5tooa 154 20 correction correction NN work_7n2voym2grhjpocfumswh5tooa 154 21 threshold threshold NN work_7n2voym2grhjpocfumswh5tooa 154 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 23 p p NNP work_7n2voym2grhjpocfumswh5tooa 154 24 < < XX work_7n2voym2grhjpocfumswh5tooa 154 25 1.34 1.34 CD work_7n2voym2grhjpocfumswh5tooa 154 26 × × CD work_7n2voym2grhjpocfumswh5tooa 154 27 10−6 10−6 CD work_7n2voym2grhjpocfumswh5tooa 154 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 154 29 : : : work_7n2voym2grhjpocfumswh5tooa 154 30 rs200437673 rs200437673 NNP work_7n2voym2grhjpocfumswh5tooa 154 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 32 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 154 33 9 9 CD work_7n2voym2grhjpocfumswh5tooa 154 34 , , , work_7n2voym2grhjpocfumswh5tooa 154 35 https://cytoscape.org/ https://cytoscape.org/ CD work_7n2voym2grhjpocfumswh5tooa 154 36 https://cytoscape.org/ https://cytoscape.org/ NNP work_7n2voym2grhjpocfumswh5tooa 154 37 1175Human 1175Human NNP work_7n2voym2grhjpocfumswh5tooa 154 38 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 154 39 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 40 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 154 41 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 154 42 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 154 43 1 1 CD work_7n2voym2grhjpocfumswh5tooa 154 44 3 3 CD work_7n2voym2grhjpocfumswh5tooa 154 45 LCN9 LCN9 NNP work_7n2voym2grhjpocfumswh5tooa 154 46 , , , work_7n2voym2grhjpocfumswh5tooa 154 47 p p NN work_7n2voym2grhjpocfumswh5tooa 154 48 = = SYM work_7n2voym2grhjpocfumswh5tooa 154 49 1.50 1.50 CD work_7n2voym2grhjpocfumswh5tooa 154 50 × × NNS work_7n2voym2grhjpocfumswh5tooa 154 51 10−11 10−11 CD work_7n2voym2grhjpocfumswh5tooa 154 52 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 154 53 , , , work_7n2voym2grhjpocfumswh5tooa 154 54 rs151214675 rs151214675 NNP work_7n2voym2grhjpocfumswh5tooa 154 55 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 56 chromosome chromosome NNP work_7n2voym2grhjpocfumswh5tooa 154 57 20 20 CD work_7n2voym2grhjpocfumswh5tooa 154 58 , , , work_7n2voym2grhjpocfumswh5tooa 154 59 RTEL1 RTEL1 '' work_7n2voym2grhjpocfumswh5tooa 154 60 , , , work_7n2voym2grhjpocfumswh5tooa 154 61 p p NN work_7n2voym2grhjpocfumswh5tooa 154 62 = = SYM work_7n2voym2grhjpocfumswh5tooa 154 63 3.18 3.18 CD work_7n2voym2grhjpocfumswh5tooa 154 64 × × CD work_7n2voym2grhjpocfumswh5tooa 154 65 10−8 10−8 CD work_7n2voym2grhjpocfumswh5tooa 154 66 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 154 67 , , , work_7n2voym2grhjpocfumswh5tooa 154 68 rs140250387 rs140250387 NNP work_7n2voym2grhjpocfumswh5tooa 154 69 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 70 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 154 71 18 18 CD work_7n2voym2grhjpocfumswh5tooa 154 72 , , , work_7n2voym2grhjpocfumswh5tooa 154 73 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 154 74 , , , work_7n2voym2grhjpocfumswh5tooa 154 75 p p NN work_7n2voym2grhjpocfumswh5tooa 154 76 = = SYM work_7n2voym2grhjpocfumswh5tooa 154 77 4.49 4.49 CD work_7n2voym2grhjpocfumswh5tooa 154 78 × × CD work_7n2voym2grhjpocfumswh5tooa 154 79 10−7 10−7 CD work_7n2voym2grhjpocfumswh5tooa 154 80 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 154 81 , , , work_7n2voym2grhjpocfumswh5tooa 154 82 and and CC work_7n2voym2grhjpocfumswh5tooa 154 83 rs115333865 rs115333865 NNP work_7n2voym2grhjpocfumswh5tooa 154 84 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 85 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 154 86 14 14 CD work_7n2voym2grhjpocfumswh5tooa 154 87 , , , work_7n2voym2grhjpocfumswh5tooa 154 88 CGRRF1 CGRRF1 NNP work_7n2voym2grhjpocfumswh5tooa 154 89 , , , work_7n2voym2grhjpocfumswh5tooa 154 90 p p NNP work_7n2voym2grhjpocfumswh5tooa 154 91 = = SYM work_7n2voym2grhjpocfumswh5tooa 154 92 1.05 1.05 CD work_7n2voym2grhjpocfumswh5tooa 154 93 × × CD work_7n2voym2grhjpocfumswh5tooa 154 94 10−6 10−6 CD work_7n2voym2grhjpocfumswh5tooa 154 95 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 154 96 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 154 97 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 154 98 . . . work_7n2voym2grhjpocfumswh5tooa 155 1 2 2 LS work_7n2voym2grhjpocfumswh5tooa 155 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 155 3 Table table NN work_7n2voym2grhjpocfumswh5tooa 155 4   _SP work_7n2voym2grhjpocfumswh5tooa 155 5 1 1 CD work_7n2voym2grhjpocfumswh5tooa 155 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 155 7 . . . work_7n2voym2grhjpocfumswh5tooa 156 1 p p NN work_7n2voym2grhjpocfumswh5tooa 156 2 values value NNS work_7n2voym2grhjpocfumswh5tooa 156 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 156 4 not not RB work_7n2voym2grhjpocfumswh5tooa 156 5 corrected correct VBN work_7n2voym2grhjpocfumswh5tooa 156 6 for for IN work_7n2voym2grhjpocfumswh5tooa 156 7 inflation inflation NN work_7n2voym2grhjpocfumswh5tooa 156 8 because because IN work_7n2voym2grhjpocfumswh5tooa 156 9 the the DT work_7n2voym2grhjpocfumswh5tooa 156 10 genomic genomic NNP work_7n2voym2grhjpocfumswh5tooa 156 11 control control NNP work_7n2voym2grhjpocfumswh5tooa 156 12 factor factor NN work_7n2voym2grhjpocfumswh5tooa 156 13 was be VBD work_7n2voym2grhjpocfumswh5tooa 156 14 1.05 1.05 CD work_7n2voym2grhjpocfumswh5tooa 156 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 156 16 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 156 17 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 156 18 . . . work_7n2voym2grhjpocfumswh5tooa 157 1 6 6 LS work_7n2voym2grhjpocfumswh5tooa 157 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 157 3 . . . work_7n2voym2grhjpocfumswh5tooa 158 1 These these DT work_7n2voym2grhjpocfumswh5tooa 158 2 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 158 3 dem- dem- RB work_7n2voym2grhjpocfumswh5tooa 158 4 onstrate onstrate VBP work_7n2voym2grhjpocfumswh5tooa 158 5 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 158 6 associations association NNS work_7n2voym2grhjpocfumswh5tooa 158 7 with with IN work_7n2voym2grhjpocfumswh5tooa 158 8 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 158 9 and and CC work_7n2voym2grhjpocfumswh5tooa 158 10 do do VBP work_7n2voym2grhjpocfumswh5tooa 158 11 not not RB work_7n2voym2grhjpocfumswh5tooa 158 12 map map VB work_7n2voym2grhjpocfumswh5tooa 158 13 to to IN work_7n2voym2grhjpocfumswh5tooa 158 14 the the DT work_7n2voym2grhjpocfumswh5tooa 158 15 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 158 16 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 158 17 loci loci NN work_7n2voym2grhjpocfumswh5tooa 158 18 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 158 19 by by IN work_7n2voym2grhjpocfumswh5tooa 158 20 the the DT work_7n2voym2grhjpocfumswh5tooa 158 21 International International NNP work_7n2voym2grhjpocfumswh5tooa 158 22 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 158 23 Genomics Genomics NNP work_7n2voym2grhjpocfumswh5tooa 158 24 Consortium Consortium NNP work_7n2voym2grhjpocfumswh5tooa 158 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 158 26 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 158 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 158 28 based base VBN work_7n2voym2grhjpocfumswh5tooa 158 29 on on IN work_7n2voym2grhjpocfumswh5tooa 158 30 physical physical JJ work_7n2voym2grhjpocfumswh5tooa 158 31 distance distance NN work_7n2voym2grhjpocfumswh5tooa 158 32 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 158 33 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 158 34 et et NNP work_7n2voym2grhjpocfumswh5tooa 158 35   _SP work_7n2voym2grhjpocfumswh5tooa 158 36 al al NNP work_7n2voym2grhjpocfumswh5tooa 158 37 . . . work_7n2voym2grhjpocfumswh5tooa 159 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 159 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 159 3 . . . work_7n2voym2grhjpocfumswh5tooa 160 1 While while IN work_7n2voym2grhjpocfumswh5tooa 160 2 these these DT work_7n2voym2grhjpocfumswh5tooa 160 3 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 160 4 were be VBD work_7n2voym2grhjpocfumswh5tooa 160 5 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 160 6 in in IN work_7n2voym2grhjpocfumswh5tooa 160 7 the the DT work_7n2voym2grhjpocfumswh5tooa 160 8 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 160 9 , , , work_7n2voym2grhjpocfumswh5tooa 160 10 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 160 11 found find VBD work_7n2voym2grhjpocfumswh5tooa 160 12 that that IN work_7n2voym2grhjpocfumswh5tooa 160 13 they -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 160 14 are be VBP work_7n2voym2grhjpocfumswh5tooa 160 15 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 160 16 to to TO work_7n2voym2grhjpocfumswh5tooa 160 17 low- low- NN work_7n2voym2grhjpocfumswh5tooa 160 18 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 160 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 160 20 MAF MAF NNP work_7n2voym2grhjpocfumswh5tooa 160 21 < < XX work_7n2voym2grhjpocfumswh5tooa 160 22 0.01 0.01 XX work_7n2voym2grhjpocfumswh5tooa 160 23 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 160 24 in in IN work_7n2voym2grhjpocfumswh5tooa 160 25 outbred outbreed VBN work_7n2voym2grhjpocfumswh5tooa 160 26 populations population NNS work_7n2voym2grhjpocfumswh5tooa 160 27 of of IN work_7n2voym2grhjpocfumswh5tooa 160 28 European european JJ work_7n2voym2grhjpocfumswh5tooa 160 29 descent descent NN work_7n2voym2grhjpocfumswh5tooa 160 30 including include VBG work_7n2voym2grhjpocfumswh5tooa 160 31 the the DT work_7n2voym2grhjpocfumswh5tooa 160 32 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 160 33 dataset dataset NN work_7n2voym2grhjpocfumswh5tooa 160 34 and and CC work_7n2voym2grhjpocfumswh5tooa 160 35 the the DT work_7n2voym2grhjpocfumswh5tooa 160 36 gnomAD gnomAD NNP work_7n2voym2grhjpocfumswh5tooa 160 37 database database NN work_7n2voym2grhjpocfumswh5tooa 160 38 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 160 39 Table table NN work_7n2voym2grhjpocfumswh5tooa 160 40   _SP work_7n2voym2grhjpocfumswh5tooa 160 41 2 2 CD work_7n2voym2grhjpocfumswh5tooa 160 42 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 160 43 . . . work_7n2voym2grhjpocfumswh5tooa 161 1 Linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 161 2 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 161 3 Multipoint Multipoint NNP work_7n2voym2grhjpocfumswh5tooa 161 4 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 161 5 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 161 6 under under IN work_7n2voym2grhjpocfumswh5tooa 161 7 autosomal autosomal JJ work_7n2voym2grhjpocfumswh5tooa 161 8 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 161 9 and and CC work_7n2voym2grhjpocfumswh5tooa 161 10 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 161 11 models model NNS work_7n2voym2grhjpocfumswh5tooa 161 12 were be VBD work_7n2voym2grhjpocfumswh5tooa 161 13 performed perform VBN work_7n2voym2grhjpocfumswh5tooa 161 14 to to TO work_7n2voym2grhjpocfumswh5tooa 161 15 identify identify VB work_7n2voym2grhjpocfumswh5tooa 161 16 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 161 17 loci loci NN work_7n2voym2grhjpocfumswh5tooa 161 18 linked link VBN work_7n2voym2grhjpocfumswh5tooa 161 19 to to IN work_7n2voym2grhjpocfumswh5tooa 161 20 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 161 21 in in IN work_7n2voym2grhjpocfumswh5tooa 161 22 16 16 CD work_7n2voym2grhjpocfumswh5tooa 161 23 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 161 24 sub sub NN work_7n2voym2grhjpocfumswh5tooa 161 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 161 26 pedigrees pedigree NNS work_7n2voym2grhjpocfumswh5tooa 161 27 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 161 28 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 161 29 Figs Figs NNP work_7n2voym2grhjpocfumswh5tooa 161 30 . . . work_7n2voym2grhjpocfumswh5tooa 162 1 7 7 CD work_7n2voym2grhjpocfumswh5tooa 162 2 , , , work_7n2voym2grhjpocfumswh5tooa 162 3 8 8 CD work_7n2voym2grhjpocfumswh5tooa 162 4 ; ; : work_7n2voym2grhjpocfumswh5tooa 162 5 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 162 6 Tables Tables NNPS work_7n2voym2grhjpocfumswh5tooa 162 7   _SP work_7n2voym2grhjpocfumswh5tooa 162 8 5 5 CD work_7n2voym2grhjpocfumswh5tooa 162 9 , , , work_7n2voym2grhjpocfumswh5tooa 162 10 6 6 CD work_7n2voym2grhjpocfumswh5tooa 162 11 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 162 12 . . . work_7n2voym2grhjpocfumswh5tooa 163 1 Under under IN work_7n2voym2grhjpocfumswh5tooa 163 2 the the DT work_7n2voym2grhjpocfumswh5tooa 163 3 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 163 4 model model NN work_7n2voym2grhjpocfumswh5tooa 163 5 with with IN work_7n2voym2grhjpocfumswh5tooa 163 6 a a DT work_7n2voym2grhjpocfumswh5tooa 163 7 disease disease NN work_7n2voym2grhjpocfumswh5tooa 163 8 allele allele NN work_7n2voym2grhjpocfumswh5tooa 163 9 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 163 10 of of IN work_7n2voym2grhjpocfumswh5tooa 163 11 0.10 0.10 CD work_7n2voym2grhjpocfumswh5tooa 163 12 , , , work_7n2voym2grhjpocfumswh5tooa 163 13 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 163 14 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 163 15 genome genome NN work_7n2voym2grhjpocfumswh5tooa 163 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 163 17 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 163 18 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 163 19 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 163 20 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 163 21 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 163 22 > > XX work_7n2voym2grhjpocfumswh5tooa 163 23 3.6 3.6 CD work_7n2voym2grhjpocfumswh5tooa 163 24 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 163 25 on on IN work_7n2voym2grhjpocfumswh5tooa 163 26 chro- chro- NN work_7n2voym2grhjpocfumswh5tooa 163 27 mosome mosome NN work_7n2voym2grhjpocfumswh5tooa 163 28 8 8 CD work_7n2voym2grhjpocfumswh5tooa 163 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 163 30 Table table NN work_7n2voym2grhjpocfumswh5tooa 163 31   _SP work_7n2voym2grhjpocfumswh5tooa 163 32 3 3 CD work_7n2voym2grhjpocfumswh5tooa 163 33 ; ; : work_7n2voym2grhjpocfumswh5tooa 163 34 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 163 35 . . . work_7n2voym2grhjpocfumswh5tooa 164 1 3 3 LS work_7n2voym2grhjpocfumswh5tooa 164 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 164 3 . . . work_7n2voym2grhjpocfumswh5tooa 165 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 165 2 also also RB work_7n2voym2grhjpocfumswh5tooa 165 3 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 165 4 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 165 5 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 165 6 on on IN work_7n2voym2grhjpocfumswh5tooa 165 7 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 165 8 18 18 CD work_7n2voym2grhjpocfumswh5tooa 165 9 under under IN work_7n2voym2grhjpocfumswh5tooa 165 10 the the DT work_7n2voym2grhjpocfumswh5tooa 165 11 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 165 12 and and CC work_7n2voym2grhjpocfumswh5tooa 165 13 reces- reces- VBZ work_7n2voym2grhjpocfumswh5tooa 165 14 sive sive JJ work_7n2voym2grhjpocfumswh5tooa 165 15 models model NNS work_7n2voym2grhjpocfumswh5tooa 165 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 165 17 Table table NN work_7n2voym2grhjpocfumswh5tooa 165 18   _SP work_7n2voym2grhjpocfumswh5tooa 165 19 3 3 CD work_7n2voym2grhjpocfumswh5tooa 165 20 ; ; : work_7n2voym2grhjpocfumswh5tooa 165 21 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 165 22 . . . work_7n2voym2grhjpocfumswh5tooa 166 1 4 4 LS work_7n2voym2grhjpocfumswh5tooa 166 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 166 3 . . . work_7n2voym2grhjpocfumswh5tooa 167 1 These these DT work_7n2voym2grhjpocfumswh5tooa 167 2 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 167 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 167 4 robust robust JJ work_7n2voym2grhjpocfumswh5tooa 167 5 to to IN work_7n2voym2grhjpocfumswh5tooa 167 6 varying vary VBG work_7n2voym2grhjpocfumswh5tooa 167 7 sub sub NN work_7n2voym2grhjpocfumswh5tooa 167 8 - - JJ work_7n2voym2grhjpocfumswh5tooa 167 9 pedigree pedigree JJ work_7n2voym2grhjpocfumswh5tooa 167 10 structure structure NN work_7n2voym2grhjpocfumswh5tooa 167 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 167 12 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 167 13 Figs Figs NNP work_7n2voym2grhjpocfumswh5tooa 167 14 . . . work_7n2voym2grhjpocfumswh5tooa 168 1 9 9 CD work_7n2voym2grhjpocfumswh5tooa 168 2 , , , work_7n2voym2grhjpocfumswh5tooa 168 3 10 10 CD work_7n2voym2grhjpocfumswh5tooa 168 4 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 168 5 . . . work_7n2voym2grhjpocfumswh5tooa 169 1 Although although IN work_7n2voym2grhjpocfumswh5tooa 169 2 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 169 3 initially initially RB work_7n2voym2grhjpocfumswh5tooa 169 4 observed observe VBD work_7n2voym2grhjpocfumswh5tooa 169 5 genome genome NN work_7n2voym2grhjpocfumswh5tooa 169 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 169 7 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 169 8 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 169 9 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 169 10 . . . work_7n2voym2grhjpocfumswh5tooa 170 1 2 2 CD work_7n2voym2grhjpocfumswh5tooa 170 2 Manhattan Manhattan NNP work_7n2voym2grhjpocfumswh5tooa 170 3 plot plot NN work_7n2voym2grhjpocfumswh5tooa 170 4 of of IN work_7n2voym2grhjpocfumswh5tooa 170 5 p p NN work_7n2voym2grhjpocfumswh5tooa 170 6 values value NNS work_7n2voym2grhjpocfumswh5tooa 170 7 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 170 8 from from IN work_7n2voym2grhjpocfumswh5tooa 170 9 association association NN work_7n2voym2grhjpocfumswh5tooa 170 10 testing testing NN work_7n2voym2grhjpocfumswh5tooa 170 11 using use VBG work_7n2voym2grhjpocfumswh5tooa 170 12 ROADTRIPS ROADTRIPS NNP work_7n2voym2grhjpocfumswh5tooa 170 13 . . . work_7n2voym2grhjpocfumswh5tooa 171 1 The the DT work_7n2voym2grhjpocfumswh5tooa 171 2 red red JJ work_7n2voym2grhjpocfumswh5tooa 171 3 line line NN work_7n2voym2grhjpocfumswh5tooa 171 4 denotes denote VBZ work_7n2voym2grhjpocfumswh5tooa 171 5 the the DT work_7n2voym2grhjpocfumswh5tooa 171 6 Bonferroni Bonferroni NNP work_7n2voym2grhjpocfumswh5tooa 171 7 correction correction NN work_7n2voym2grhjpocfumswh5tooa 171 8 threshold threshold NN work_7n2voym2grhjpocfumswh5tooa 171 9 for for IN work_7n2voym2grhjpocfumswh5tooa 171 10 multiple multiple JJ work_7n2voym2grhjpocfumswh5tooa 171 11 testing testing NN work_7n2voym2grhjpocfumswh5tooa 171 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 171 13 p p NNP work_7n2voym2grhjpocfumswh5tooa 171 14 < < XX work_7n2voym2grhjpocfumswh5tooa 171 15 1.34 1.34 CD work_7n2voym2grhjpocfumswh5tooa 171 16 × × CD work_7n2voym2grhjpocfumswh5tooa 171 17 10−6 10−6 CD work_7n2voym2grhjpocfumswh5tooa 171 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 171 19 . . . work_7n2voym2grhjpocfumswh5tooa 172 1 Four four CD work_7n2voym2grhjpocfumswh5tooa 172 2 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 172 3 passed pass VBD work_7n2voym2grhjpocfumswh5tooa 172 4 this this DT work_7n2voym2grhjpocfumswh5tooa 172 5 threshold threshold NN work_7n2voym2grhjpocfumswh5tooa 172 6 and and CC work_7n2voym2grhjpocfumswh5tooa 172 7 are be VBP work_7n2voym2grhjpocfumswh5tooa 172 8 summarized summarize VBN work_7n2voym2grhjpocfumswh5tooa 172 9 in in IN work_7n2voym2grhjpocfumswh5tooa 172 10 Table table NN work_7n2voym2grhjpocfumswh5tooa 172 11   _SP work_7n2voym2grhjpocfumswh5tooa 172 12 1 1 CD work_7n2voym2grhjpocfumswh5tooa 172 13 Table table NN work_7n2voym2grhjpocfumswh5tooa 172 14 1 1 CD work_7n2voym2grhjpocfumswh5tooa 172 15 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 172 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 172 17 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 172 18 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 172 19 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 172 20 with with IN work_7n2voym2grhjpocfumswh5tooa 172 21 ROADTRIPS roadtrips JJ work_7n2voym2grhjpocfumswh5tooa 172 22 testing testing NN work_7n2voym2grhjpocfumswh5tooa 172 23 of of IN work_7n2voym2grhjpocfumswh5tooa 172 24 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 172 25 families family NNS work_7n2voym2grhjpocfumswh5tooa 172 26 p p NN work_7n2voym2grhjpocfumswh5tooa 172 27 values value NNS work_7n2voym2grhjpocfumswh5tooa 172 28 were be VBD work_7n2voym2grhjpocfumswh5tooa 172 29 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 172 30 from from IN work_7n2voym2grhjpocfumswh5tooa 172 31 the the DT work_7n2voym2grhjpocfumswh5tooa 172 32 RM RM NNP work_7n2voym2grhjpocfumswh5tooa 172 33 test test NN work_7n2voym2grhjpocfumswh5tooa 172 34 Variant variant JJ work_7n2voym2grhjpocfumswh5tooa 172 35 positions position NNS work_7n2voym2grhjpocfumswh5tooa 172 36 are be VBP work_7n2voym2grhjpocfumswh5tooa 172 37 given give VBN work_7n2voym2grhjpocfumswh5tooa 172 38 for for IN work_7n2voym2grhjpocfumswh5tooa 172 39 build build NN work_7n2voym2grhjpocfumswh5tooa 172 40 37 37 CD work_7n2voym2grhjpocfumswh5tooa 172 41 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 172 42 hg19 hg19 NNP work_7n2voym2grhjpocfumswh5tooa 172 43 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 172 44 of of IN work_7n2voym2grhjpocfumswh5tooa 172 45 the the DT work_7n2voym2grhjpocfumswh5tooa 172 46 human human JJ work_7n2voym2grhjpocfumswh5tooa 172 47 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 172 48 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 172 49 , , , work_7n2voym2grhjpocfumswh5tooa 172 50 age age NN work_7n2voym2grhjpocfumswh5tooa 172 51 - - HYPH work_7n2voym2grhjpocfumswh5tooa 172 52 related relate VBN work_7n2voym2grhjpocfumswh5tooa 172 53 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 172 54 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 172 55 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 56 ROADTRIPS ROADTRIPS NNP work_7n2voym2grhjpocfumswh5tooa 172 57 , , , work_7n2voym2grhjpocfumswh5tooa 172 58 RObust RObust NNP work_7n2voym2grhjpocfumswh5tooa 172 59 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 172 60 - - HYPH work_7n2voym2grhjpocfumswh5tooa 172 61 Detection Detection NNP work_7n2voym2grhjpocfumswh5tooa 172 62 Test Test NNP work_7n2voym2grhjpocfumswh5tooa 172 63 for for IN work_7n2voym2grhjpocfumswh5tooa 172 64 Related related JJ work_7n2voym2grhjpocfumswh5tooa 172 65 Individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 172 66 with with IN work_7n2voym2grhjpocfumswh5tooa 172 67 Population Population NNP work_7n2voym2grhjpocfumswh5tooa 172 68 Substruc- Substruc- NNP work_7n2voym2grhjpocfumswh5tooa 172 69 ture ture NN work_7n2voym2grhjpocfumswh5tooa 172 70 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 71 Chr Chr NNP work_7n2voym2grhjpocfumswh5tooa 172 72 . . NNP work_7n2voym2grhjpocfumswh5tooa 172 73 , , , work_7n2voym2grhjpocfumswh5tooa 172 74 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 172 75 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 76 LCN9 LCN9 NNP work_7n2voym2grhjpocfumswh5tooa 172 77 , , , work_7n2voym2grhjpocfumswh5tooa 172 78 lipocalin lipocalin NNP work_7n2voym2grhjpocfumswh5tooa 172 79 9 9 CD work_7n2voym2grhjpocfumswh5tooa 172 80 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 81 RTEL1 rtel1 NN work_7n2voym2grhjpocfumswh5tooa 172 82 , , , work_7n2voym2grhjpocfumswh5tooa 172 83 regulator regulator NN work_7n2voym2grhjpocfumswh5tooa 172 84 of of IN work_7n2voym2grhjpocfumswh5tooa 172 85 telomere telomere JJ work_7n2voym2grhjpocfumswh5tooa 172 86 elongation elongation NN work_7n2voym2grhjpocfumswh5tooa 172 87 helicase helicase NN work_7n2voym2grhjpocfumswh5tooa 172 88 1 1 CD work_7n2voym2grhjpocfumswh5tooa 172 89 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 90 RTEL1-TNFRSF6B RTEL1-TNFRSF6B NNP work_7n2voym2grhjpocfumswh5tooa 172 91 , , , work_7n2voym2grhjpocfumswh5tooa 172 92 RTEL1-TNFRSF6B RTEL1-TNFRSF6B NNP work_7n2voym2grhjpocfumswh5tooa 172 93 readthrough readthrough NN work_7n2voym2grhjpocfumswh5tooa 172 94 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 172 95 NMD NMD NNP work_7n2voym2grhjpocfumswh5tooa 172 96 candidate candidate NN work_7n2voym2grhjpocfumswh5tooa 172 97 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 172 98 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 99 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 172 100 , , , work_7n2voym2grhjpocfumswh5tooa 172 101 DLG DLG NNP work_7n2voym2grhjpocfumswh5tooa 172 102 - - HYPH work_7n2voym2grhjpocfumswh5tooa 172 103 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 172 104 protein protein NN work_7n2voym2grhjpocfumswh5tooa 172 105 1 1 CD work_7n2voym2grhjpocfumswh5tooa 172 106 ; ; : work_7n2voym2grhjpocfumswh5tooa 172 107 CGRRF1 cgrrf1 NN work_7n2voym2grhjpocfumswh5tooa 172 108 , , , work_7n2voym2grhjpocfumswh5tooa 172 109 cell cell NN work_7n2voym2grhjpocfumswh5tooa 172 110 growth growth NN work_7n2voym2grhjpocfumswh5tooa 172 111 regulator regulator NN work_7n2voym2grhjpocfumswh5tooa 172 112 with with IN work_7n2voym2grhjpocfumswh5tooa 172 113 ring ring NN work_7n2voym2grhjpocfumswh5tooa 172 114 finger finger NN work_7n2voym2grhjpocfumswh5tooa 172 115 domain domain NN work_7n2voym2grhjpocfumswh5tooa 172 116 1 1 CD work_7n2voym2grhjpocfumswh5tooa 172 117 rsID rsID NNP work_7n2voym2grhjpocfumswh5tooa 172 118 Chr Chr NNP work_7n2voym2grhjpocfumswh5tooa 172 119 . . . work_7n2voym2grhjpocfumswh5tooa 173 1 Position Position NNP work_7n2voym2grhjpocfumswh5tooa 173 2 Alleles Alleles NNP work_7n2voym2grhjpocfumswh5tooa 173 3 Gene(s gene(s NN work_7n2voym2grhjpocfumswh5tooa 173 4 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 173 5 Consequence Consequence NNP work_7n2voym2grhjpocfumswh5tooa 173 6 Allele Allele NNP work_7n2voym2grhjpocfumswh5tooa 173 7 count count VBP work_7n2voym2grhjpocfumswh5tooa 173 8 P p NN work_7n2voym2grhjpocfumswh5tooa 173 9 Affected Affected NNP work_7n2voym2grhjpocfumswh5tooa 173 10 Unaffected Unaffected NNP work_7n2voym2grhjpocfumswh5tooa 173 11 Unknowns Unknowns NNP work_7n2voym2grhjpocfumswh5tooa 173 12 rs200437673 rs200437673 NNP work_7n2voym2grhjpocfumswh5tooa 173 13 9 9 CD work_7n2voym2grhjpocfumswh5tooa 173 14 138,555,237 138,555,237 CD work_7n2voym2grhjpocfumswh5tooa 173 15 A a NN work_7n2voym2grhjpocfumswh5tooa 173 16 / / SYM work_7n2voym2grhjpocfumswh5tooa 173 17 G g NN work_7n2voym2grhjpocfumswh5tooa 173 18 LCN9 LCN9 NNP work_7n2voym2grhjpocfumswh5tooa 173 19 Missense Missense NNP work_7n2voym2grhjpocfumswh5tooa 173 20 5 5 CD work_7n2voym2grhjpocfumswh5tooa 173 21 0 0 CD work_7n2voym2grhjpocfumswh5tooa 173 22 1 1 CD work_7n2voym2grhjpocfumswh5tooa 173 23 1.50 1.50 CD work_7n2voym2grhjpocfumswh5tooa 173 24 × × NNS work_7n2voym2grhjpocfumswh5tooa 173 25 10−11 10−11 CD work_7n2voym2grhjpocfumswh5tooa 173 26 rs151214675 rs151214675 NN work_7n2voym2grhjpocfumswh5tooa 173 27 20 20 CD work_7n2voym2grhjpocfumswh5tooa 173 28 62,293,235 62,293,235 CD work_7n2voym2grhjpocfumswh5tooa 173 29 G g NN work_7n2voym2grhjpocfumswh5tooa 173 30 / / , work_7n2voym2grhjpocfumswh5tooa 173 31 A a NN work_7n2voym2grhjpocfumswh5tooa 173 32 RTEL1 rtel1 NN work_7n2voym2grhjpocfumswh5tooa 173 33 RTEL1-TNFRSF6B RTEL1-TNFRSF6B NNP work_7n2voym2grhjpocfumswh5tooa 173 34 Missense Missense NNP work_7n2voym2grhjpocfumswh5tooa 173 35 Non non JJ work_7n2voym2grhjpocfumswh5tooa 173 36 - - JJ work_7n2voym2grhjpocfumswh5tooa 173 37 coding coding JJ work_7n2voym2grhjpocfumswh5tooa 173 38 Transcript Transcript NNP work_7n2voym2grhjpocfumswh5tooa 173 39 6 6 CD work_7n2voym2grhjpocfumswh5tooa 173 40 1 1 CD work_7n2voym2grhjpocfumswh5tooa 173 41 0 0 CD work_7n2voym2grhjpocfumswh5tooa 173 42 3.18 3.18 CD work_7n2voym2grhjpocfumswh5tooa 173 43 × × CD work_7n2voym2grhjpocfumswh5tooa 173 44 10−8 10−8 CD work_7n2voym2grhjpocfumswh5tooa 173 45 rs140250387 rs140250387 NNP work_7n2voym2grhjpocfumswh5tooa 173 46 18 18 CD work_7n2voym2grhjpocfumswh5tooa 173 47 3,534,424 3,534,424 CD work_7n2voym2grhjpocfumswh5tooa 173 48 A a NN work_7n2voym2grhjpocfumswh5tooa 173 49 / / SYM work_7n2voym2grhjpocfumswh5tooa 173 50 G G NNP work_7n2voym2grhjpocfumswh5tooa 173 51 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 173 52 Synonymous Synonymous NNP work_7n2voym2grhjpocfumswh5tooa 173 53 3 3 CD work_7n2voym2grhjpocfumswh5tooa 173 54 1 1 CD work_7n2voym2grhjpocfumswh5tooa 173 55 0 0 CD work_7n2voym2grhjpocfumswh5tooa 173 56 4.49 4.49 CD work_7n2voym2grhjpocfumswh5tooa 173 57 × × CD work_7n2voym2grhjpocfumswh5tooa 173 58 10−7 10−7 CD work_7n2voym2grhjpocfumswh5tooa 173 59 rs115333865 rs115333865 NN work_7n2voym2grhjpocfumswh5tooa 173 60 14 14 CD work_7n2voym2grhjpocfumswh5tooa 173 61 55,004,449 55,004,449 CD work_7n2voym2grhjpocfumswh5tooa 173 62 G g NN work_7n2voym2grhjpocfumswh5tooa 173 63 / / , work_7n2voym2grhjpocfumswh5tooa 173 64 A A NNP work_7n2voym2grhjpocfumswh5tooa 173 65 CGRRF1 cgrrf1 NN work_7n2voym2grhjpocfumswh5tooa 173 66 Missense Missense NNP work_7n2voym2grhjpocfumswh5tooa 173 67 10 10 CD work_7n2voym2grhjpocfumswh5tooa 173 68 2 2 CD work_7n2voym2grhjpocfumswh5tooa 173 69 1 1 CD work_7n2voym2grhjpocfumswh5tooa 173 70 1.05 1.05 CD work_7n2voym2grhjpocfumswh5tooa 173 71 × × CD work_7n2voym2grhjpocfumswh5tooa 173 72 10−6 10−6 CD work_7n2voym2grhjpocfumswh5tooa 173 73 Table table NN work_7n2voym2grhjpocfumswh5tooa 173 74 2 2 CD work_7n2voym2grhjpocfumswh5tooa 173 75 Allele Allele NNP work_7n2voym2grhjpocfumswh5tooa 173 76 frequencies frequency NNS work_7n2voym2grhjpocfumswh5tooa 173 77 for for IN work_7n2voym2grhjpocfumswh5tooa 173 78 the the DT work_7n2voym2grhjpocfumswh5tooa 173 79 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 173 80 - - HYPH work_7n2voym2grhjpocfumswh5tooa 173 81 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 173 82 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 173 83 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 173 84 with with IN work_7n2voym2grhjpocfumswh5tooa 173 85 ROADTRIPS roadtrips JJ work_7n2voym2grhjpocfumswh5tooa 173 86 testing testing NN work_7n2voym2grhjpocfumswh5tooa 173 87 of of IN work_7n2voym2grhjpocfumswh5tooa 173 88 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 173 89 families family NNS work_7n2voym2grhjpocfumswh5tooa 173 90 in in IN work_7n2voym2grhjpocfumswh5tooa 173 91 outbred outbreed VBN work_7n2voym2grhjpocfumswh5tooa 173 92 populations population NNS work_7n2voym2grhjpocfumswh5tooa 173 93 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 173 94 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 173 95 and and CC work_7n2voym2grhjpocfumswh5tooa 173 96 gnomAD gnomAD NNP work_7n2voym2grhjpocfumswh5tooa 173 97 release release NN work_7n2voym2grhjpocfumswh5tooa 173 98 2.1 2.1 CD work_7n2voym2grhjpocfumswh5tooa 173 99 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 173 100 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 173 101 , , , work_7n2voym2grhjpocfumswh5tooa 173 102 age age NN work_7n2voym2grhjpocfumswh5tooa 173 103 - - HYPH work_7n2voym2grhjpocfumswh5tooa 173 104 related relate VBN work_7n2voym2grhjpocfumswh5tooa 173 105 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 173 106 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 173 107 ; ; : work_7n2voym2grhjpocfumswh5tooa 173 108 ROADTRIPS ROADTRIPS NNP work_7n2voym2grhjpocfumswh5tooa 173 109 , , , work_7n2voym2grhjpocfumswh5tooa 173 110 RObust RObust NNP work_7n2voym2grhjpocfumswh5tooa 173 111 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 173 112 - - HYPH work_7n2voym2grhjpocfumswh5tooa 173 113 Detection Detection NNP work_7n2voym2grhjpocfumswh5tooa 173 114 Test Test NNP work_7n2voym2grhjpocfumswh5tooa 173 115 for for IN work_7n2voym2grhjpocfumswh5tooa 173 116 Related related JJ work_7n2voym2grhjpocfumswh5tooa 173 117 Individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 173 118 with with IN work_7n2voym2grhjpocfumswh5tooa 173 119 Population Population NNP work_7n2voym2grhjpocfumswh5tooa 173 120 Substructure Substructure NNP work_7n2voym2grhjpocfumswh5tooa 173 121 ; ; : work_7n2voym2grhjpocfumswh5tooa 173 122 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 173 123 , , , work_7n2voym2grhjpocfumswh5tooa 173 124 International International NNP work_7n2voym2grhjpocfumswh5tooa 173 125 Age Age NNP work_7n2voym2grhjpocfumswh5tooa 173 126 - - HYPH work_7n2voym2grhjpocfumswh5tooa 173 127 related relate VBN work_7n2voym2grhjpocfumswh5tooa 173 128 Macular Macular NNP work_7n2voym2grhjpocfumswh5tooa 173 129 Degeneration Degeneration NNP work_7n2voym2grhjpocfumswh5tooa 173 130 Genomics Genomics NNP work_7n2voym2grhjpocfumswh5tooa 173 131 Consortium Consortium NNP work_7n2voym2grhjpocfumswh5tooa 173 132 ; ; : work_7n2voym2grhjpocfumswh5tooa 173 133 gnomAD gnomAD NNP work_7n2voym2grhjpocfumswh5tooa 173 134 , , , work_7n2voym2grhjpocfumswh5tooa 173 135 Genome Genome NNP work_7n2voym2grhjpocfumswh5tooa 173 136 Aggregation Aggregation NNP work_7n2voym2grhjpocfumswh5tooa 173 137 Database Database NNP work_7n2voym2grhjpocfumswh5tooa 173 138 Variant Variant NNP work_7n2voym2grhjpocfumswh5tooa 173 139 Allele Allele NNP work_7n2voym2grhjpocfumswh5tooa 173 140 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 173 141 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 173 142 gnomAD gnomAD NNP work_7n2voym2grhjpocfumswh5tooa 173 143 rsID rsID NNP work_7n2voym2grhjpocfumswh5tooa 173 144 Chromosome Chromosome NNP work_7n2voym2grhjpocfumswh5tooa 173 145 Advanced Advanced NNP work_7n2voym2grhjpocfumswh5tooa 173 146 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 173 147 cases case NNS work_7n2voym2grhjpocfumswh5tooa 173 148 Controls Controls NNP work_7n2voym2grhjpocfumswh5tooa 173 149 Non non JJ work_7n2voym2grhjpocfumswh5tooa 173 150 - - JJ work_7n2voym2grhjpocfumswh5tooa 173 151 Finnish finnish JJ work_7n2voym2grhjpocfumswh5tooa 173 152 Europeans Europeans NNPS work_7n2voym2grhjpocfumswh5tooa 173 153 rs200437673 rs200437673 NN work_7n2voym2grhjpocfumswh5tooa 173 154 9 9 CD work_7n2voym2grhjpocfumswh5tooa 173 155 0.004118 0.004118 CD work_7n2voym2grhjpocfumswh5tooa 173 156 0.0043691 0.0043691 CD work_7n2voym2grhjpocfumswh5tooa 173 157 0.004341 0.004341 CD work_7n2voym2grhjpocfumswh5tooa 173 158 rs151214675 rs151214675 NNP work_7n2voym2grhjpocfumswh5tooa 173 159 20 20 CD work_7n2voym2grhjpocfumswh5tooa 173 160 0.00024779 0.00024779 CD work_7n2voym2grhjpocfumswh5tooa 173 161 0.00016824 0.00016824 CD work_7n2voym2grhjpocfumswh5tooa 173 162 0.0001936 0.0001936 CD work_7n2voym2grhjpocfumswh5tooa 173 163 rs140250387 rs140250387 NNP work_7n2voym2grhjpocfumswh5tooa 173 164 18 18 CD work_7n2voym2grhjpocfumswh5tooa 173 165 0.001146 0.001146 CD work_7n2voym2grhjpocfumswh5tooa 173 166 0.0012338 0.0012338 CD work_7n2voym2grhjpocfumswh5tooa 173 167 0.001611 0.001611 CD work_7n2voym2grhjpocfumswh5tooa 173 168 rs115333865 rs115333865 NN work_7n2voym2grhjpocfumswh5tooa 173 169 14 14 CD work_7n2voym2grhjpocfumswh5tooa 173 170 0.019112 0.019112 CD work_7n2voym2grhjpocfumswh5tooa 173 171 0.019993 0.019993 CD work_7n2voym2grhjpocfumswh5tooa 173 172 0.01879 0.01879 CD work_7n2voym2grhjpocfumswh5tooa 173 173 1176 1176 CD work_7n2voym2grhjpocfumswh5tooa 173 174 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 173 175 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 173 176 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 173 177 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 173 178 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 173 179 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 173 180 1 1 CD work_7n2voym2grhjpocfumswh5tooa 173 181 3 3 CD work_7n2voym2grhjpocfumswh5tooa 173 182 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 173 183 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 173 184 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 173 185 > > XX work_7n2voym2grhjpocfumswh5tooa 173 186 3.6 3.6 CD work_7n2voym2grhjpocfumswh5tooa 173 187 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 173 188 on on IN work_7n2voym2grhjpocfumswh5tooa 173 189 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 173 190 2 2 CD work_7n2voym2grhjpocfumswh5tooa 173 191 under under IN work_7n2voym2grhjpocfumswh5tooa 173 192 the the DT work_7n2voym2grhjpocfumswh5tooa 173 193 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 173 194 and and CC work_7n2voym2grhjpocfumswh5tooa 173 195 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 173 196 models model NNS work_7n2voym2grhjpocfumswh5tooa 173 197 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 173 198 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 173 199 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 173 200   _SP work_7n2voym2grhjpocfumswh5tooa 173 201 7 7 CD work_7n2voym2grhjpocfumswh5tooa 173 202 ; ; : work_7n2voym2grhjpocfumswh5tooa 173 203 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 173 204 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 173 205 . . . work_7n2voym2grhjpocfumswh5tooa 174 1 11 11 CD work_7n2voym2grhjpocfumswh5tooa 174 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 174 3 and and CC work_7n2voym2grhjpocfumswh5tooa 174 4 on on IN work_7n2voym2grhjpocfumswh5tooa 174 5 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 174 6 15 15 CD work_7n2voym2grhjpocfumswh5tooa 174 7 under under IN work_7n2voym2grhjpocfumswh5tooa 174 8 the the DT work_7n2voym2grhjpocfumswh5tooa 174 9 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 174 10 model model NN work_7n2voym2grhjpocfumswh5tooa 174 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 174 12 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 174 13 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 174 14   _SP work_7n2voym2grhjpocfumswh5tooa 174 15 7 7 CD work_7n2voym2grhjpocfumswh5tooa 174 16 ; ; : work_7n2voym2grhjpocfumswh5tooa 174 17 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 174 18 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 174 19 . . . work_7n2voym2grhjpocfumswh5tooa 175 1 12 12 CD work_7n2voym2grhjpocfumswh5tooa 175 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 175 3 , , , work_7n2voym2grhjpocfumswh5tooa 175 4 these these DT work_7n2voym2grhjpocfumswh5tooa 175 5 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 175 6 greatly greatly RB work_7n2voym2grhjpocfumswh5tooa 175 7 reduced reduce VBD work_7n2voym2grhjpocfumswh5tooa 175 8 when when WRB work_7n2voym2grhjpocfumswh5tooa 175 9 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 175 10 re re VBP work_7n2voym2grhjpocfumswh5tooa 175 11 - - VBD work_7n2voym2grhjpocfumswh5tooa 175 12 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 175 13 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 175 14 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 175 15 with with IN work_7n2voym2grhjpocfumswh5tooa 175 16 dif- dif- DT work_7n2voym2grhjpocfumswh5tooa 175 17 ferent ferent JJ work_7n2voym2grhjpocfumswh5tooa 175 18 sub sub NN work_7n2voym2grhjpocfumswh5tooa 175 19 - - JJ work_7n2voym2grhjpocfumswh5tooa 175 20 pedigree pedigree JJ work_7n2voym2grhjpocfumswh5tooa 175 21 structures structure NNS work_7n2voym2grhjpocfumswh5tooa 175 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 175 23 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 175 24 Figs Figs NNP work_7n2voym2grhjpocfumswh5tooa 175 25 . . . work_7n2voym2grhjpocfumswh5tooa 176 1 13 13 CD work_7n2voym2grhjpocfumswh5tooa 176 2 , , , work_7n2voym2grhjpocfumswh5tooa 176 3 14 14 CD work_7n2voym2grhjpocfumswh5tooa 176 4 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 176 5 . . . work_7n2voym2grhjpocfumswh5tooa 177 1 In in IN work_7n2voym2grhjpocfumswh5tooa 177 2 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 177 3 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 177 4 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 177 5 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 177 6 under under IN work_7n2voym2grhjpocfumswh5tooa 177 7 the the DT work_7n2voym2grhjpocfumswh5tooa 177 8 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 177 9 model model NN work_7n2voym2grhjpocfumswh5tooa 177 10 with with IN work_7n2voym2grhjpocfumswh5tooa 177 11 a a DT work_7n2voym2grhjpocfumswh5tooa 177 12 disease disease NN work_7n2voym2grhjpocfumswh5tooa 177 13 allele allele NN work_7n2voym2grhjpocfumswh5tooa 177 14 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 177 15 of of IN work_7n2voym2grhjpocfumswh5tooa 177 16 0.10 0.10 CD work_7n2voym2grhjpocfumswh5tooa 177 17 , , , work_7n2voym2grhjpocfumswh5tooa 177 18 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 177 19 observed observe VBD work_7n2voym2grhjpocfumswh5tooa 177 20 a a DT work_7n2voym2grhjpocfumswh5tooa 177 21 region region NN work_7n2voym2grhjpocfumswh5tooa 177 22 on on IN work_7n2voym2grhjpocfumswh5tooa 177 23 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 177 24 1 1 CD work_7n2voym2grhjpocfumswh5tooa 177 25 that that WDT work_7n2voym2grhjpocfumswh5tooa 177 26 was be VBD work_7n2voym2grhjpocfumswh5tooa 177 27 nearly nearly RB work_7n2voym2grhjpocfumswh5tooa 177 28 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 177 29 - - HYPH work_7n2voym2grhjpocfumswh5tooa 177 30 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 177 31 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 177 32 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 177 33 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 177 34 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 177 35 = = SYM work_7n2voym2grhjpocfumswh5tooa 177 36 3.50 3.50 CD work_7n2voym2grhjpocfumswh5tooa 177 37 at at IN work_7n2voym2grhjpocfumswh5tooa 177 38 234.60 234.60 CD work_7n2voym2grhjpocfumswh5tooa 177 39   _SP work_7n2voym2grhjpocfumswh5tooa 177 40 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 177 41 ; ; : work_7n2voym2grhjpocfumswh5tooa 177 42 Supple- Supple- NNP work_7n2voym2grhjpocfumswh5tooa 177 43 mental mental JJ work_7n2voym2grhjpocfumswh5tooa 177 44 Table table NN work_7n2voym2grhjpocfumswh5tooa 177 45   _SP work_7n2voym2grhjpocfumswh5tooa 177 46 5 5 CD work_7n2voym2grhjpocfumswh5tooa 177 47 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 177 48 . . . work_7n2voym2grhjpocfumswh5tooa 178 1 The the DT work_7n2voym2grhjpocfumswh5tooa 178 2 peak peak NN work_7n2voym2grhjpocfumswh5tooa 178 3 of of IN work_7n2voym2grhjpocfumswh5tooa 178 4 this this DT work_7n2voym2grhjpocfumswh5tooa 178 5 region region NN work_7n2voym2grhjpocfumswh5tooa 178 6 is be VBZ work_7n2voym2grhjpocfumswh5tooa 178 7 about about RB work_7n2voym2grhjpocfumswh5tooa 178 8 16 16 CD work_7n2voym2grhjpocfumswh5tooa 178 9   _SP work_7n2voym2grhjpocfumswh5tooa 178 10 MB mb NN work_7n2voym2grhjpocfumswh5tooa 178 11 from from IN work_7n2voym2grhjpocfumswh5tooa 178 12 the the DT work_7n2voym2grhjpocfumswh5tooa 178 13 complement complement JJ work_7n2voym2grhjpocfumswh5tooa 178 14 factor factor NN work_7n2voym2grhjpocfumswh5tooa 178 15 H H NNP work_7n2voym2grhjpocfumswh5tooa 178 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 178 17 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 178 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 178 19 gene gene NN work_7n2voym2grhjpocfumswh5tooa 178 20 , , , work_7n2voym2grhjpocfumswh5tooa 178 21 which which WDT work_7n2voym2grhjpocfumswh5tooa 178 22 has have VBZ work_7n2voym2grhjpocfumswh5tooa 178 23 been be VBN work_7n2voym2grhjpocfumswh5tooa 178 24 repeatedly repeatedly RB work_7n2voym2grhjpocfumswh5tooa 178 25 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 178 26 with with IN work_7n2voym2grhjpocfumswh5tooa 178 27 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 178 28 risk risk NN work_7n2voym2grhjpocfumswh5tooa 178 29 in in IN work_7n2voym2grhjpocfumswh5tooa 178 30 the the DT work_7n2voym2grhjpocfumswh5tooa 178 31 general general JJ work_7n2voym2grhjpocfumswh5tooa 178 32 popu- popu- NNP work_7n2voym2grhjpocfumswh5tooa 178 33 lation lation NNP work_7n2voym2grhjpocfumswh5tooa 178 34 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 178 35 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 178 36 et et NNP work_7n2voym2grhjpocfumswh5tooa 178 37   _SP work_7n2voym2grhjpocfumswh5tooa 178 38 al al NNP work_7n2voym2grhjpocfumswh5tooa 178 39 . . . work_7n2voym2grhjpocfumswh5tooa 179 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 179 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 179 3 . . . work_7n2voym2grhjpocfumswh5tooa 180 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 180 2 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 180 3 a a DT work_7n2voym2grhjpocfumswh5tooa 180 4 conditional conditional JJ work_7n2voym2grhjpocfumswh5tooa 180 5 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 180 6 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 180 7 on on IN work_7n2voym2grhjpocfumswh5tooa 180 8 the the DT work_7n2voym2grhjpocfumswh5tooa 180 9 markers marker NNS work_7n2voym2grhjpocfumswh5tooa 180 10 on on IN work_7n2voym2grhjpocfumswh5tooa 180 11 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 180 12 1 1 CD work_7n2voym2grhjpocfumswh5tooa 180 13 with with IN work_7n2voym2grhjpocfumswh5tooa 180 14 lia- lia- JJ work_7n2voym2grhjpocfumswh5tooa 180 15 bility bility NN work_7n2voym2grhjpocfumswh5tooa 180 16 classes class NNS work_7n2voym2grhjpocfumswh5tooa 180 17 for for IN work_7n2voym2grhjpocfumswh5tooa 180 18 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 180 19 of of IN work_7n2voym2grhjpocfumswh5tooa 180 20 two two CD work_7n2voym2grhjpocfumswh5tooa 180 21 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 180 22 risk risk NN work_7n2voym2grhjpocfumswh5tooa 180 23 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 180 24 in in IN work_7n2voym2grhjpocfumswh5tooa 180 25 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 180 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 180 27 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 180 28 and and CC work_7n2voym2grhjpocfumswh5tooa 180 29 P503A P503A NNP work_7n2voym2grhjpocfumswh5tooa 180 30 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 180 31 to to TO work_7n2voym2grhjpocfumswh5tooa 180 32 determine determine VB work_7n2voym2grhjpocfumswh5tooa 180 33 whether whether IN work_7n2voym2grhjpocfumswh5tooa 180 34 these these DT work_7n2voym2grhjpocfumswh5tooa 180 35 markers marker NNS work_7n2voym2grhjpocfumswh5tooa 180 36 were be VBD work_7n2voym2grhjpocfumswh5tooa 180 37 driving drive VBG work_7n2voym2grhjpocfumswh5tooa 180 38 the the DT work_7n2voym2grhjpocfumswh5tooa 180 39 peak peak NN work_7n2voym2grhjpocfumswh5tooa 180 40 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 180 41 signal signal NN work_7n2voym2grhjpocfumswh5tooa 180 42 on on IN work_7n2voym2grhjpocfumswh5tooa 180 43 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 180 44 1 1 CD work_7n2voym2grhjpocfumswh5tooa 180 45 . . . work_7n2voym2grhjpocfumswh5tooa 181 1 Of of IN work_7n2voym2grhjpocfumswh5tooa 181 2 the the DT work_7n2voym2grhjpocfumswh5tooa 181 3 86 86 CD work_7n2voym2grhjpocfumswh5tooa 181 4 affected affect VBN work_7n2voym2grhjpocfumswh5tooa 181 5 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 181 6 in in IN work_7n2voym2grhjpocfumswh5tooa 181 7 the the DT work_7n2voym2grhjpocfumswh5tooa 181 8 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 181 9 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 181 10 , , , work_7n2voym2grhjpocfumswh5tooa 181 11 8 8 CD work_7n2voym2grhjpocfumswh5tooa 181 12 carry carry VBP work_7n2voym2grhjpocfumswh5tooa 181 13 at at RB work_7n2voym2grhjpocfumswh5tooa 181 14 least least RBS work_7n2voym2grhjpocfumswh5tooa 181 15 one one CD work_7n2voym2grhjpocfumswh5tooa 181 16 copy copy NN work_7n2voym2grhjpocfumswh5tooa 181 17 of of IN work_7n2voym2grhjpocfumswh5tooa 181 18 the the DT work_7n2voym2grhjpocfumswh5tooa 181 19 P503A p503a NN work_7n2voym2grhjpocfumswh5tooa 181 20 variant variant NN work_7n2voym2grhjpocfumswh5tooa 181 21 , , , work_7n2voym2grhjpocfumswh5tooa 181 22 and and CC work_7n2voym2grhjpocfumswh5tooa 181 23 63 63 CD work_7n2voym2grhjpocfumswh5tooa 181 24 have have VBP work_7n2voym2grhjpocfumswh5tooa 181 25 at at RB work_7n2voym2grhjpocfumswh5tooa 181 26 least least JJS work_7n2voym2grhjpocfumswh5tooa 181 27 1 1 CD work_7n2voym2grhjpocfumswh5tooa 181 28 copy copy NN work_7n2voym2grhjpocfumswh5tooa 181 29 of of IN work_7n2voym2grhjpocfumswh5tooa 181 30 the the DT work_7n2voym2grhjpocfumswh5tooa 181 31 surrogate surrogate NN work_7n2voym2grhjpocfumswh5tooa 181 32 for for IN work_7n2voym2grhjpocfumswh5tooa 181 33 Y402H. Y402H. NNP work_7n2voym2grhjpocfumswh5tooa 182 1 Three three CD work_7n2voym2grhjpocfumswh5tooa 182 2 of of IN work_7n2voym2grhjpocfumswh5tooa 182 3 the the DT work_7n2voym2grhjpocfumswh5tooa 182 4 P503A p503a CD work_7n2voym2grhjpocfumswh5tooa 182 5 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 182 6 are be VBP work_7n2voym2grhjpocfumswh5tooa 182 7 also also RB work_7n2voym2grhjpocfumswh5tooa 182 8 heterozygous heterozygous JJ work_7n2voym2grhjpocfumswh5tooa 182 9 for for IN work_7n2voym2grhjpocfumswh5tooa 182 10 the the DT work_7n2voym2grhjpocfumswh5tooa 182 11 surrogate surrogate NN work_7n2voym2grhjpocfumswh5tooa 182 12 of of IN work_7n2voym2grhjpocfumswh5tooa 182 13 Y402H. Y402H. NNP work_7n2voym2grhjpocfumswh5tooa 183 1 Our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 183 2 conditional conditional JJ work_7n2voym2grhjpocfumswh5tooa 183 3 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 183 4 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 183 5 on on IN work_7n2voym2grhjpocfumswh5tooa 183 6 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 183 7 1 1 CD work_7n2voym2grhjpocfumswh5tooa 183 8 using use VBG work_7n2voym2grhjpocfumswh5tooa 183 9 distinct distinct JJ work_7n2voym2grhjpocfumswh5tooa 183 10 classes class NNS work_7n2voym2grhjpocfumswh5tooa 183 11 for for IN work_7n2voym2grhjpocfumswh5tooa 183 12 carriers carrier NNS work_7n2voym2grhjpocfumswh5tooa 183 13 of of IN work_7n2voym2grhjpocfumswh5tooa 183 14 the the DT work_7n2voym2grhjpocfumswh5tooa 183 15 surrogate surrogate NN work_7n2voym2grhjpocfumswh5tooa 183 16 for for IN work_7n2voym2grhjpocfumswh5tooa 183 17 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 183 18 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 183 19 and/or and/or CC work_7n2voym2grhjpocfumswh5tooa 183 20 the the DT work_7n2voym2grhjpocfumswh5tooa 183 21 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 183 22 P503A p503a NN work_7n2voym2grhjpocfumswh5tooa 183 23 variant variant NN work_7n2voym2grhjpocfumswh5tooa 183 24 demonstrated demonstrate VBD work_7n2voym2grhjpocfumswh5tooa 183 25 that that IN work_7n2voym2grhjpocfumswh5tooa 183 26 the the DT work_7n2voym2grhjpocfumswh5tooa 183 27 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 183 28 locus locus NN work_7n2voym2grhjpocfumswh5tooa 183 29 was be VBD work_7n2voym2grhjpocfumswh5tooa 183 30 contributing contribute VBG work_7n2voym2grhjpocfumswh5tooa 183 31 to to IN work_7n2voym2grhjpocfumswh5tooa 183 32 the the DT work_7n2voym2grhjpocfumswh5tooa 183 33 peak peak NN work_7n2voym2grhjpocfumswh5tooa 183 34 signal signal NN work_7n2voym2grhjpocfumswh5tooa 183 35 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 183 36 observed observe VBD work_7n2voym2grhjpocfumswh5tooa 183 37 in in IN work_7n2voym2grhjpocfumswh5tooa 183 38 the the DT work_7n2voym2grhjpocfumswh5tooa 183 39 unconditioned unconditioned JJ work_7n2voym2grhjpocfumswh5tooa 183 40 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 183 41 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 183 42 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 183 43 . . . work_7n2voym2grhjpocfumswh5tooa 184 1 5 5 LS work_7n2voym2grhjpocfumswh5tooa 184 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 184 3 . . . work_7n2voym2grhjpocfumswh5tooa 185 1 In in IN work_7n2voym2grhjpocfumswh5tooa 185 2 silico silico JJ work_7n2voym2grhjpocfumswh5tooa 185 3 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 185 4 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 185 5 of of IN work_7n2voym2grhjpocfumswh5tooa 185 6   _SP work_7n2voym2grhjpocfumswh5tooa 185 7 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 185 8 from from IN work_7n2voym2grhjpocfumswh5tooa 185 9   _SP work_7n2voym2grhjpocfumswh5tooa 185 10 1‑HLOD 1‑hlod CD work_7n2voym2grhjpocfumswh5tooa 185 11 support support NN work_7n2voym2grhjpocfumswh5tooa 185 12 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 185 13 of of IN work_7n2voym2grhjpocfumswh5tooa 185 14   _SP work_7n2voym2grhjpocfumswh5tooa 185 15 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 185 16 regions region NNS work_7n2voym2grhjpocfumswh5tooa 185 17 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 185 18 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 185 19 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 185 20 enrichment enrichment VB work_7n2voym2grhjpocfumswh5tooa 185 21 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 185 22 using use VBG work_7n2voym2grhjpocfumswh5tooa 185 23 right right RB work_7n2voym2grhjpocfumswh5tooa 185 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 185 25 sided sided JJ work_7n2voym2grhjpocfumswh5tooa 185 26 hypergeometric hypergeometric NN work_7n2voym2grhjpocfumswh5tooa 185 27 tests test NNS work_7n2voym2grhjpocfumswh5tooa 185 28 on on IN work_7n2voym2grhjpocfumswh5tooa 185 29 the the DT work_7n2voym2grhjpocfumswh5tooa 185 30 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 185 31 from from IN work_7n2voym2grhjpocfumswh5tooa 185 32 the the DT work_7n2voym2grhjpocfumswh5tooa 185 33 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 185 34 sup- sup- JJ work_7n2voym2grhjpocfumswh5tooa 185 35 port port NN work_7n2voym2grhjpocfumswh5tooa 185 36 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 185 37 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 185 38 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 185 39 regions region NNS work_7n2voym2grhjpocfumswh5tooa 185 40 to to TO work_7n2voym2grhjpocfumswh5tooa 185 41 identify identify VB work_7n2voym2grhjpocfumswh5tooa 185 42 any any DT work_7n2voym2grhjpocfumswh5tooa 185 43 func- func- JJ work_7n2voym2grhjpocfumswh5tooa 185 44 tional tional JJ work_7n2voym2grhjpocfumswh5tooa 185 45 relationships relationship NNS work_7n2voym2grhjpocfumswh5tooa 185 46 through through IN work_7n2voym2grhjpocfumswh5tooa 185 47 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 185 48 terms term NNS work_7n2voym2grhjpocfumswh5tooa 185 49 . . . work_7n2voym2grhjpocfumswh5tooa 186 1 p p NN work_7n2voym2grhjpocfumswh5tooa 186 2 values value NNS work_7n2voym2grhjpocfumswh5tooa 186 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 186 4 cor- cor- RB work_7n2voym2grhjpocfumswh5tooa 186 5 rected recte VBN work_7n2voym2grhjpocfumswh5tooa 186 6 for for IN work_7n2voym2grhjpocfumswh5tooa 186 7 multiple multiple JJ work_7n2voym2grhjpocfumswh5tooa 186 8 testing testing NN work_7n2voym2grhjpocfumswh5tooa 186 9 using use VBG work_7n2voym2grhjpocfumswh5tooa 186 10 the the DT work_7n2voym2grhjpocfumswh5tooa 186 11 Benjamini Benjamini NNP work_7n2voym2grhjpocfumswh5tooa 186 12 – – : work_7n2voym2grhjpocfumswh5tooa 186 13 Hochberg Hochberg NNP work_7n2voym2grhjpocfumswh5tooa 186 14 method method NN work_7n2voym2grhjpocfumswh5tooa 186 15 . . . work_7n2voym2grhjpocfumswh5tooa 187 1 The the DT work_7n2voym2grhjpocfumswh5tooa 187 2 region region NN work_7n2voym2grhjpocfumswh5tooa 187 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 187 4 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 187 5 with with IN work_7n2voym2grhjpocfumswh5tooa 187 6 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 187 7 evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 187 8 of of IN work_7n2voym2grhjpocfumswh5tooa 187 9 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 187 10 on on IN work_7n2voym2grhjpocfumswh5tooa 187 11 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 187 12 8q21.11–q21.13 8q21.11–q21.13 NNP work_7n2voym2grhjpocfumswh5tooa 187 13 includes include VBZ work_7n2voym2grhjpocfumswh5tooa 187 14 19 19 CD work_7n2voym2grhjpocfumswh5tooa 187 15 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 187 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 187 17 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 187 18 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 187 19   _SP work_7n2voym2grhjpocfumswh5tooa 187 20 2 2 CD work_7n2voym2grhjpocfumswh5tooa 187 21 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 187 22 . . . work_7n2voym2grhjpocfumswh5tooa 188 1 The the DT work_7n2voym2grhjpocfumswh5tooa 188 2 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 188 3 support support NN work_7n2voym2grhjpocfumswh5tooa 188 4 inter- inter- FW work_7n2voym2grhjpocfumswh5tooa 188 5 val val NN work_7n2voym2grhjpocfumswh5tooa 188 6 of of IN work_7n2voym2grhjpocfumswh5tooa 188 7 this this DT work_7n2voym2grhjpocfumswh5tooa 188 8 peak peak NN work_7n2voym2grhjpocfumswh5tooa 188 9 contains contain VBZ work_7n2voym2grhjpocfumswh5tooa 188 10 80 80 CD work_7n2voym2grhjpocfumswh5tooa 188 11 unique unique JJ work_7n2voym2grhjpocfumswh5tooa 188 12 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 188 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 188 14 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 188 15 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 188 16   _SP work_7n2voym2grhjpocfumswh5tooa 188 17 2 2 CD work_7n2voym2grhjpocfumswh5tooa 188 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 188 19 , , , work_7n2voym2grhjpocfumswh5tooa 188 20 including include VBG work_7n2voym2grhjpocfumswh5tooa 188 21 those those DT work_7n2voym2grhjpocfumswh5tooa 188 22 that that WDT work_7n2voym2grhjpocfumswh5tooa 188 23 are be VBP work_7n2voym2grhjpocfumswh5tooa 188 24 involved involve VBN work_7n2voym2grhjpocfumswh5tooa 188 25 in in IN work_7n2voym2grhjpocfumswh5tooa 188 26 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 188 27 acid acid NN work_7n2voym2grhjpocfumswh5tooa 188 28 binding bind VBG work_7n2voym2grhjpocfumswh5tooa 188 29 and and CC work_7n2voym2grhjpocfumswh5tooa 188 30 triglyceride triglyceride VB work_7n2voym2grhjpocfumswh5tooa 188 31 catabolic catabolic JJ work_7n2voym2grhjpocfumswh5tooa 188 32 processes process NNS work_7n2voym2grhjpocfumswh5tooa 188 33 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 188 34 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 188 35 . . . work_7n2voym2grhjpocfumswh5tooa 189 1 6a 6a LS work_7n2voym2grhjpocfumswh5tooa 189 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 189 3 Sup- Sup- NNP work_7n2voym2grhjpocfumswh5tooa 189 4 plemental plemental JJ work_7n2voym2grhjpocfumswh5tooa 189 5 Table table NN work_7n2voym2grhjpocfumswh5tooa 189 6   _SP work_7n2voym2grhjpocfumswh5tooa 189 7 8) 8) CD work_7n2voym2grhjpocfumswh5tooa 189 8 . . . work_7n2voym2grhjpocfumswh5tooa 190 1 The the DT work_7n2voym2grhjpocfumswh5tooa 190 2 region region NN work_7n2voym2grhjpocfumswh5tooa 190 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 190 4 found find VBD work_7n2voym2grhjpocfumswh5tooa 190 5 with with IN work_7n2voym2grhjpocfumswh5tooa 190 6 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 190 7 evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 190 8 of of IN work_7n2voym2grhjpocfumswh5tooa 190 9 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 190 10 on on IN work_7n2voym2grhjpocfumswh5tooa 190 11 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 190 12 18q21.2–21.32 18q21.2–21.32 CD work_7n2voym2grhjpocfumswh5tooa 190 13 under under IN work_7n2voym2grhjpocfumswh5tooa 190 14 the the DT work_7n2voym2grhjpocfumswh5tooa 190 15 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 190 16 model model NN work_7n2voym2grhjpocfumswh5tooa 190 17 includes include VBZ work_7n2voym2grhjpocfumswh5tooa 190 18 47 47 CD work_7n2voym2grhjpocfumswh5tooa 190 19 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 190 20 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 190 21 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 190 22 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 190 23   _SP work_7n2voym2grhjpocfumswh5tooa 190 24 3 3 CD work_7n2voym2grhjpocfumswh5tooa 190 25 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 190 26 . . . work_7n2voym2grhjpocfumswh5tooa 191 1 The the DT work_7n2voym2grhjpocfumswh5tooa 191 2 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 191 3 support support NN work_7n2voym2grhjpocfumswh5tooa 191 4 interval interval NN work_7n2voym2grhjpocfumswh5tooa 191 5 of of IN work_7n2voym2grhjpocfumswh5tooa 191 6 this this DT work_7n2voym2grhjpocfumswh5tooa 191 7 peak peak NN work_7n2voym2grhjpocfumswh5tooa 191 8 con- con- NN work_7n2voym2grhjpocfumswh5tooa 191 9 tains tain VBZ work_7n2voym2grhjpocfumswh5tooa 191 10 102 102 CD work_7n2voym2grhjpocfumswh5tooa 191 11 unique unique JJ work_7n2voym2grhjpocfumswh5tooa 191 12 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 191 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 191 14 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 191 15 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 191 16   _SP work_7n2voym2grhjpocfumswh5tooa 191 17 3 3 CD work_7n2voym2grhjpocfumswh5tooa 191 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 191 19 , , , work_7n2voym2grhjpocfumswh5tooa 191 20 includ- includ- NNP work_7n2voym2grhjpocfumswh5tooa 191 21 ing e VBG work_7n2voym2grhjpocfumswh5tooa 191 22 those those DT work_7n2voym2grhjpocfumswh5tooa 191 23 that that WDT work_7n2voym2grhjpocfumswh5tooa 191 24 are be VBP work_7n2voym2grhjpocfumswh5tooa 191 25 implicated implicate VBN work_7n2voym2grhjpocfumswh5tooa 191 26 in in IN work_7n2voym2grhjpocfumswh5tooa 191 27 serine serine JJ work_7n2voym2grhjpocfumswh5tooa 191 28 - - HYPH work_7n2voym2grhjpocfumswh5tooa 191 29 type type NN work_7n2voym2grhjpocfumswh5tooa 191 30 endopeptidase endopeptidase NN work_7n2voym2grhjpocfumswh5tooa 191 31 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 191 32 activity activity NN work_7n2voym2grhjpocfumswh5tooa 191 33 and and CC work_7n2voym2grhjpocfumswh5tooa 191 34 positive positive JJ work_7n2voym2grhjpocfumswh5tooa 191 35 regulation regulation NN work_7n2voym2grhjpocfumswh5tooa 191 36 of of IN work_7n2voym2grhjpocfumswh5tooa 191 37 epithelial epithelial NN work_7n2voym2grhjpocfumswh5tooa 191 38 to to IN work_7n2voym2grhjpocfumswh5tooa 191 39 mesenchymal mesenchymal JJ work_7n2voym2grhjpocfumswh5tooa 191 40 transition transition NN work_7n2voym2grhjpocfumswh5tooa 191 41 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 191 42 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 191 43 . . . work_7n2voym2grhjpocfumswh5tooa 192 1 6b 6b LS work_7n2voym2grhjpocfumswh5tooa 192 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 192 3 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 192 4 Table table NN work_7n2voym2grhjpocfumswh5tooa 192 5   _SP work_7n2voym2grhjpocfumswh5tooa 192 6 9 9 CD work_7n2voym2grhjpocfumswh5tooa 192 7 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 192 8 . . . work_7n2voym2grhjpocfumswh5tooa 193 1 Table table NN work_7n2voym2grhjpocfumswh5tooa 193 2 3 3 CD work_7n2voym2grhjpocfumswh5tooa 193 3 Significant significant JJ work_7n2voym2grhjpocfumswh5tooa 193 4 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 193 5 loci loci NN work_7n2voym2grhjpocfumswh5tooa 193 6 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 193 7 from from IN work_7n2voym2grhjpocfumswh5tooa 193 8 model model NN work_7n2voym2grhjpocfumswh5tooa 193 9 - - HYPH work_7n2voym2grhjpocfumswh5tooa 193 10 based base VBN work_7n2voym2grhjpocfumswh5tooa 193 11 mul- mul- NNP work_7n2voym2grhjpocfumswh5tooa 193 12 tipoint tipoint NN work_7n2voym2grhjpocfumswh5tooa 193 13 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 193 14 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 193 15 of of IN work_7n2voym2grhjpocfumswh5tooa 193 16 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 193 17 families family NNS work_7n2voym2grhjpocfumswh5tooa 193 18 with with IN work_7n2voym2grhjpocfumswh5tooa 193 19 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 193 20 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 193 21 fre- fre- NNP work_7n2voym2grhjpocfumswh5tooa 193 22 quency quency NN work_7n2voym2grhjpocfumswh5tooa 193 23 of of IN work_7n2voym2grhjpocfumswh5tooa 193 24 0.10 0.10 CD work_7n2voym2grhjpocfumswh5tooa 193 25 The the DT work_7n2voym2grhjpocfumswh5tooa 193 26 peak peak NN work_7n2voym2grhjpocfumswh5tooa 193 27 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 193 28 score score NN work_7n2voym2grhjpocfumswh5tooa 193 29 is be VBZ work_7n2voym2grhjpocfumswh5tooa 193 30 the the DT work_7n2voym2grhjpocfumswh5tooa 193 31 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 193 32 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 193 33 score score NN work_7n2voym2grhjpocfumswh5tooa 193 34 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 193 35 for for IN work_7n2voym2grhjpocfumswh5tooa 193 36 the the DT work_7n2voym2grhjpocfumswh5tooa 193 37 designated designate VBN work_7n2voym2grhjpocfumswh5tooa 193 38 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 193 39 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 193 40 , , , work_7n2voym2grhjpocfumswh5tooa 193 41 heterogeneity heterogeneity NN work_7n2voym2grhjpocfumswh5tooa 193 42 LOD LOD NNP work_7n2voym2grhjpocfumswh5tooa 193 43 ; ; : work_7n2voym2grhjpocfumswh5tooa 193 44 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 193 45 , , , work_7n2voym2grhjpocfumswh5tooa 193 46 centimorgans centimorgan VBZ work_7n2voym2grhjpocfumswh5tooa 193 47 Model Model NNP work_7n2voym2grhjpocfumswh5tooa 193 48 Chromosome Chromosome NNP work_7n2voym2grhjpocfumswh5tooa 193 49 Peak Peak NNP work_7n2voym2grhjpocfumswh5tooa 193 50 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 193 51 score score NN work_7n2voym2grhjpocfumswh5tooa 193 52 Region region NN work_7n2voym2grhjpocfumswh5tooa 193 53 with with IN work_7n2voym2grhjpocfumswh5tooa 193 54 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 193 55 > > XX work_7n2voym2grhjpocfumswh5tooa 193 56 3.6 3.6 CD work_7n2voym2grhjpocfumswh5tooa 193 57 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 193 58 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 193 59 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 193 60 1-HLOD 1-hlod CD work_7n2voym2grhjpocfumswh5tooa 193 61 sup- sup- JJ work_7n2voym2grhjpocfumswh5tooa 193 62 port port NN work_7n2voym2grhjpocfumswh5tooa 193 63 interval interval NN work_7n2voym2grhjpocfumswh5tooa 193 64 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 193 65 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 193 66 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 193 67 Recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 193 68 8 8 CD work_7n2voym2grhjpocfumswh5tooa 193 69 4.03 4.03 CD work_7n2voym2grhjpocfumswh5tooa 193 70 97.28–99.61 97.28–99.61 CD work_7n2voym2grhjpocfumswh5tooa 193 71 96.745–105.65 96.745–105.65 CD work_7n2voym2grhjpocfumswh5tooa 193 72 Dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 193 73 18 18 CD work_7n2voym2grhjpocfumswh5tooa 193 74 3.87 3.87 CD work_7n2voym2grhjpocfumswh5tooa 193 75 75.82–85.41 75.82–85.41 CD work_7n2voym2grhjpocfumswh5tooa 193 76 70.88–87.23 70.88–87.23 CD work_7n2voym2grhjpocfumswh5tooa 193 77 Recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 193 78 18 18 CD work_7n2voym2grhjpocfumswh5tooa 193 79 4.27 4.27 CD work_7n2voym2grhjpocfumswh5tooa 193 80 74.39–78.51 74.39–78.51 CD work_7n2voym2grhjpocfumswh5tooa 193 81 74.025–78.87 74.025–78.87 CD work_7n2voym2grhjpocfumswh5tooa 193 82 81.31–82.18 81.31–82.18 CD work_7n2voym2grhjpocfumswh5tooa 193 83 83.46–84.80 83.46–84.80 CD work_7n2voym2grhjpocfumswh5tooa 193 84 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 193 85 . . . work_7n2voym2grhjpocfumswh5tooa 194 1 3 3 CD work_7n2voym2grhjpocfumswh5tooa 194 2 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 194 3 scores score NNS work_7n2voym2grhjpocfumswh5tooa 194 4 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 194 5 from from IN work_7n2voym2grhjpocfumswh5tooa 194 6 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 194 7 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 194 8 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 194 9 in in IN work_7n2voym2grhjpocfumswh5tooa 194 10 MERLIN MERLIN NNP work_7n2voym2grhjpocfumswh5tooa 194 11 under under IN work_7n2voym2grhjpocfumswh5tooa 194 12 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 194 13 and and CC work_7n2voym2grhjpocfumswh5tooa 194 14 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 194 15 models model NNS work_7n2voym2grhjpocfumswh5tooa 194 16 on on IN work_7n2voym2grhjpocfumswh5tooa 194 17 chromo- chromo- NN work_7n2voym2grhjpocfumswh5tooa 194 18 some some DT work_7n2voym2grhjpocfumswh5tooa 194 19 8 8 CD work_7n2voym2grhjpocfumswh5tooa 194 20 . . . work_7n2voym2grhjpocfumswh5tooa 195 1 The the DT work_7n2voym2grhjpocfumswh5tooa 195 2 black black JJ work_7n2voym2grhjpocfumswh5tooa 195 3 line line NN work_7n2voym2grhjpocfumswh5tooa 195 4 denotes denote VBZ work_7n2voym2grhjpocfumswh5tooa 195 5 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 195 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 195 7 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 195 8 significance significance NN work_7n2voym2grhjpocfumswh5tooa 195 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 195 10 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 195 11 Score Score NNP work_7n2voym2grhjpocfumswh5tooa 195 12 > > XX work_7n2voym2grhjpocfumswh5tooa 195 13 3.6 3.6 CD work_7n2voym2grhjpocfumswh5tooa 195 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 195 15 . . . work_7n2voym2grhjpocfumswh5tooa 196 1 A a DT work_7n2voym2grhjpocfumswh5tooa 196 2 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 196 3 - - HYPH work_7n2voym2grhjpocfumswh5tooa 196 4 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 196 5 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 196 6 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 196 7 score score NN work_7n2voym2grhjpocfumswh5tooa 196 8 of of IN work_7n2voym2grhjpocfumswh5tooa 196 9 4.03 4.03 CD work_7n2voym2grhjpocfumswh5tooa 196 10 was be VBD work_7n2voym2grhjpocfumswh5tooa 196 11 observed observe VBN work_7n2voym2grhjpocfumswh5tooa 196 12 under under IN work_7n2voym2grhjpocfumswh5tooa 196 13 the the DT work_7n2voym2grhjpocfumswh5tooa 196 14 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 196 15 model model NN work_7n2voym2grhjpocfumswh5tooa 196 16 . . . work_7n2voym2grhjpocfumswh5tooa 197 1 Tick tick VB work_7n2voym2grhjpocfumswh5tooa 197 2 marks mark NNS work_7n2voym2grhjpocfumswh5tooa 197 3 along along IN work_7n2voym2grhjpocfumswh5tooa 197 4 the the DT work_7n2voym2grhjpocfumswh5tooa 197 5 upper upper JJ work_7n2voym2grhjpocfumswh5tooa 197 6 x x NN work_7n2voym2grhjpocfumswh5tooa 197 7 - - : work_7n2voym2grhjpocfumswh5tooa 197 8 axis axis RB work_7n2voym2grhjpocfumswh5tooa 197 9 correspond correspond VBP work_7n2voym2grhjpocfumswh5tooa 197 10 to to IN work_7n2voym2grhjpocfumswh5tooa 197 11 the the DT work_7n2voym2grhjpocfumswh5tooa 197 12 marker marker NN work_7n2voym2grhjpocfumswh5tooa 197 13 positions position NNS work_7n2voym2grhjpocfumswh5tooa 197 14 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 197 15 . . . work_7n2voym2grhjpocfumswh5tooa 198 1 4 4 CD work_7n2voym2grhjpocfumswh5tooa 198 2 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 198 3 scores score NNS work_7n2voym2grhjpocfumswh5tooa 198 4 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 198 5 from from IN work_7n2voym2grhjpocfumswh5tooa 198 6 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 198 7 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 198 8 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 198 9 in in IN work_7n2voym2grhjpocfumswh5tooa 198 10 MERLIN MERLIN NNP work_7n2voym2grhjpocfumswh5tooa 198 11 under under IN work_7n2voym2grhjpocfumswh5tooa 198 12 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 198 13 and and CC work_7n2voym2grhjpocfumswh5tooa 198 14 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 198 15 models model NNS work_7n2voym2grhjpocfumswh5tooa 198 16 on on IN work_7n2voym2grhjpocfumswh5tooa 198 17 chromo- chromo- NN work_7n2voym2grhjpocfumswh5tooa 198 18 some some DT work_7n2voym2grhjpocfumswh5tooa 198 19 18 18 CD work_7n2voym2grhjpocfumswh5tooa 198 20 . . . work_7n2voym2grhjpocfumswh5tooa 199 1 The the DT work_7n2voym2grhjpocfumswh5tooa 199 2 black black JJ work_7n2voym2grhjpocfumswh5tooa 199 3 line line NN work_7n2voym2grhjpocfumswh5tooa 199 4 denotes denote VBZ work_7n2voym2grhjpocfumswh5tooa 199 5 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 199 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 199 7 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 199 8 significance significance NN work_7n2voym2grhjpocfumswh5tooa 199 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 199 10 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 199 11 Score Score NNP work_7n2voym2grhjpocfumswh5tooa 199 12 > > XX work_7n2voym2grhjpocfumswh5tooa 199 13 3.6 3.6 CD work_7n2voym2grhjpocfumswh5tooa 199 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 199 15 . . . work_7n2voym2grhjpocfumswh5tooa 200 1 The the DT work_7n2voym2grhjpocfumswh5tooa 200 2 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 200 3 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 200 4 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 200 5 score score NN work_7n2voym2grhjpocfumswh5tooa 200 6 was be VBD work_7n2voym2grhjpocfumswh5tooa 200 7 3.87 3.87 CD work_7n2voym2grhjpocfumswh5tooa 200 8 . . . work_7n2voym2grhjpocfumswh5tooa 201 1 The the DT work_7n2voym2grhjpocfumswh5tooa 201 2 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 201 3 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 201 4 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 201 5 score score NN work_7n2voym2grhjpocfumswh5tooa 201 6 was be VBD work_7n2voym2grhjpocfumswh5tooa 201 7 4.27 4.27 CD work_7n2voym2grhjpocfumswh5tooa 201 8 . . . work_7n2voym2grhjpocfumswh5tooa 202 1 Tick tick VB work_7n2voym2grhjpocfumswh5tooa 202 2 marks mark NNS work_7n2voym2grhjpocfumswh5tooa 202 3 along along IN work_7n2voym2grhjpocfumswh5tooa 202 4 the the DT work_7n2voym2grhjpocfumswh5tooa 202 5 upper upper JJ work_7n2voym2grhjpocfumswh5tooa 202 6 x x NN work_7n2voym2grhjpocfumswh5tooa 202 7 - - : work_7n2voym2grhjpocfumswh5tooa 202 8 axis axis RB work_7n2voym2grhjpocfumswh5tooa 202 9 correspond correspond VBP work_7n2voym2grhjpocfumswh5tooa 202 10 to to IN work_7n2voym2grhjpocfumswh5tooa 202 11 the the DT work_7n2voym2grhjpocfumswh5tooa 202 12 marker marker NN work_7n2voym2grhjpocfumswh5tooa 202 13 positions position NNS work_7n2voym2grhjpocfumswh5tooa 202 14 1177Human 1177Human NNPS work_7n2voym2grhjpocfumswh5tooa 202 15 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 202 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 202 17 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 202 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 202 19 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 202 20 1 1 CD work_7n2voym2grhjpocfumswh5tooa 202 21 3 3 CD work_7n2voym2grhjpocfumswh5tooa 202 22 The the DT work_7n2voym2grhjpocfumswh5tooa 202 23 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 202 24 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 202 25 region region NN work_7n2voym2grhjpocfumswh5tooa 202 26 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 202 27 observed observe VBD work_7n2voym2grhjpocfumswh5tooa 202 28 on on IN work_7n2voym2grhjpocfumswh5tooa 202 29 chromo- chromo- NN work_7n2voym2grhjpocfumswh5tooa 202 30 some some DT work_7n2voym2grhjpocfumswh5tooa 202 31 18q21.2–21.31 18q21.2–21.31 CD work_7n2voym2grhjpocfumswh5tooa 202 32 under under IN work_7n2voym2grhjpocfumswh5tooa 202 33 the the DT work_7n2voym2grhjpocfumswh5tooa 202 34 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 202 35 model model NN work_7n2voym2grhjpocfumswh5tooa 202 36 includes include VBZ work_7n2voym2grhjpocfumswh5tooa 202 37 19 19 CD work_7n2voym2grhjpocfumswh5tooa 202 38 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 202 39 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 202 40 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 202 41 Table Table NNP work_7n2voym2grhjpocfumswh5tooa 202 42   _SP work_7n2voym2grhjpocfumswh5tooa 202 43 4 4 CD work_7n2voym2grhjpocfumswh5tooa 202 44 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 202 45 . . . work_7n2voym2grhjpocfumswh5tooa 203 1 The the DT work_7n2voym2grhjpocfumswh5tooa 203 2 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 203 3 support support NN work_7n2voym2grhjpocfumswh5tooa 203 4 interval interval NN work_7n2voym2grhjpocfumswh5tooa 203 5 of of IN work_7n2voym2grhjpocfumswh5tooa 203 6 this this DT work_7n2voym2grhjpocfumswh5tooa 203 7 peak peak NN work_7n2voym2grhjpocfumswh5tooa 203 8 contains contain VBZ work_7n2voym2grhjpocfumswh5tooa 203 9 46 46 CD work_7n2voym2grhjpocfumswh5tooa 203 10 unique unique JJ work_7n2voym2grhjpocfumswh5tooa 203 11 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 203 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 203 13 Supple- Supple- NNP work_7n2voym2grhjpocfumswh5tooa 203 14 mental mental JJ work_7n2voym2grhjpocfumswh5tooa 203 15 Table table NN work_7n2voym2grhjpocfumswh5tooa 203 16   _SP work_7n2voym2grhjpocfumswh5tooa 203 17 4 4 CD work_7n2voym2grhjpocfumswh5tooa 203 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 203 19 , , , work_7n2voym2grhjpocfumswh5tooa 203 20 which which WDT work_7n2voym2grhjpocfumswh5tooa 203 21 were be VBD work_7n2voym2grhjpocfumswh5tooa 203 22 not not RB work_7n2voym2grhjpocfumswh5tooa 203 23 overrepresented overrepresente VBN work_7n2voym2grhjpocfumswh5tooa 203 24 in in IN work_7n2voym2grhjpocfumswh5tooa 203 25 any any DT work_7n2voym2grhjpocfumswh5tooa 203 26 particular particular JJ work_7n2voym2grhjpocfumswh5tooa 203 27 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 203 28 terms term NNS work_7n2voym2grhjpocfumswh5tooa 203 29 in in IN work_7n2voym2grhjpocfumswh5tooa 203 30 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 203 31 enrichment enrichment NN work_7n2voym2grhjpocfumswh5tooa 203 32 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 203 33 . . . work_7n2voym2grhjpocfumswh5tooa 204 1 When when WRB work_7n2voym2grhjpocfumswh5tooa 204 2 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 204 3 analyzed analyze VBD work_7n2voym2grhjpocfumswh5tooa 204 4 all all PDT work_7n2voym2grhjpocfumswh5tooa 204 5 the the DT work_7n2voym2grhjpocfumswh5tooa 204 6 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 204 7 from from IN work_7n2voym2grhjpocfumswh5tooa 204 8 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 204 9 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 204 10 support support NN work_7n2voym2grhjpocfumswh5tooa 204 11 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 204 12 on on IN work_7n2voym2grhjpocfumswh5tooa 204 13 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 204 14 8 8 CD work_7n2voym2grhjpocfumswh5tooa 204 15 and and CC work_7n2voym2grhjpocfumswh5tooa 204 16 18 18 CD work_7n2voym2grhjpocfumswh5tooa 204 17 together together RB work_7n2voym2grhjpocfumswh5tooa 204 18 in in IN work_7n2voym2grhjpocfumswh5tooa 204 19 ClueGO ClueGO NNP work_7n2voym2grhjpocfumswh5tooa 204 20 , , , work_7n2voym2grhjpocfumswh5tooa 204 21 the the DT work_7n2voym2grhjpocfumswh5tooa 204 22 same same JJ work_7n2voym2grhjpocfumswh5tooa 204 23 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 204 24 terms term NNS work_7n2voym2grhjpocfumswh5tooa 204 25 from from IN work_7n2voym2grhjpocfumswh5tooa 204 26 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 204 27 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 204 28 - - HYPH work_7n2voym2grhjpocfumswh5tooa 204 29 specific specific JJ work_7n2voym2grhjpocfumswh5tooa 204 30 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 204 31 were be VBD work_7n2voym2grhjpocfumswh5tooa 204 32 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 204 33 . . . work_7n2voym2grhjpocfumswh5tooa 205 1 Discussion Discussion NNP work_7n2voym2grhjpocfumswh5tooa 205 2 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 205 3 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 205 4 association association NN work_7n2voym2grhjpocfumswh5tooa 205 5 and and CC work_7n2voym2grhjpocfumswh5tooa 205 6 linkage linkage VB work_7n2voym2grhjpocfumswh5tooa 205 7 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 205 8 on on IN work_7n2voym2grhjpocfumswh5tooa 205 9 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 205 10 families family NNS work_7n2voym2grhjpocfumswh5tooa 205 11 from from IN work_7n2voym2grhjpocfumswh5tooa 205 12 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 205 13 and and CC work_7n2voym2grhjpocfumswh5tooa 205 14 Indiana Indiana NNP work_7n2voym2grhjpocfumswh5tooa 205 15 to to TO work_7n2voym2grhjpocfumswh5tooa 205 16 uncover uncover VB work_7n2voym2grhjpocfumswh5tooa 205 17 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 205 18 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 205 19 and and CC work_7n2voym2grhjpocfumswh5tooa 205 20 loci loci NN work_7n2voym2grhjpocfumswh5tooa 205 21 for for IN work_7n2voym2grhjpocfumswh5tooa 205 22 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 205 23 . . . work_7n2voym2grhjpocfumswh5tooa 206 1 Using use VBG work_7n2voym2grhjpocfumswh5tooa 206 2 ROADTRIPS ROADTRIPS NNPS work_7n2voym2grhjpocfumswh5tooa 206 3 and and CC work_7n2voym2grhjpocfumswh5tooa 206 4 kinship kinship NN work_7n2voym2grhjpocfumswh5tooa 206 5 coef- coef- NNP work_7n2voym2grhjpocfumswh5tooa 206 6 ficients ficient NNS work_7n2voym2grhjpocfumswh5tooa 206 7 derived derive VBN work_7n2voym2grhjpocfumswh5tooa 206 8 from from IN work_7n2voym2grhjpocfumswh5tooa 206 9 the the DT work_7n2voym2grhjpocfumswh5tooa 206 10 relationships relationship NNS work_7n2voym2grhjpocfumswh5tooa 206 11 detailed detail VBN work_7n2voym2grhjpocfumswh5tooa 206 12 in in IN work_7n2voym2grhjpocfumswh5tooa 206 13 the the DT work_7n2voym2grhjpocfumswh5tooa 206 14 all- all- NN work_7n2voym2grhjpocfumswh5tooa 206 15 connecting connect VBG work_7n2voym2grhjpocfumswh5tooa 206 16 path path NN work_7n2voym2grhjpocfumswh5tooa 206 17 pedigree pedigree NN work_7n2voym2grhjpocfumswh5tooa 206 18 , , , work_7n2voym2grhjpocfumswh5tooa 206 19 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 206 20 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 206 21 four four CD work_7n2voym2grhjpocfumswh5tooa 206 22 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 206 23 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 206 24 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 206 25 with with IN work_7n2voym2grhjpocfumswh5tooa 206 26 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 206 27 in in IN work_7n2voym2grhjpocfumswh5tooa 206 28 the the DT work_7n2voym2grhjpocfumswh5tooa 206 29 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 206 30 . . . work_7n2voym2grhjpocfumswh5tooa 207 1 Since since IN work_7n2voym2grhjpocfumswh5tooa 207 2 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 207 3 analyzed analyze VBD work_7n2voym2grhjpocfumswh5tooa 207 4 exome exome JJ work_7n2voym2grhjpocfumswh5tooa 207 5 chip chip NN work_7n2voym2grhjpocfumswh5tooa 207 6 data datum NNS work_7n2voym2grhjpocfumswh5tooa 207 7 , , , work_7n2voym2grhjpocfumswh5tooa 207 8 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 207 9 recognize recognize VBP work_7n2voym2grhjpocfumswh5tooa 207 10 that that IN work_7n2voym2grhjpocfumswh5tooa 207 11 these these DT work_7n2voym2grhjpocfumswh5tooa 207 12 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 207 13 may may MD work_7n2voym2grhjpocfumswh5tooa 207 14 not not RB work_7n2voym2grhjpocfumswh5tooa 207 15 be be VB work_7n2voym2grhjpocfumswh5tooa 207 16 the the DT work_7n2voym2grhjpocfumswh5tooa 207 17 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 207 18 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 207 19 underlying underlie VBG work_7n2voym2grhjpocfumswh5tooa 207 20 these these DT work_7n2voym2grhjpocfumswh5tooa 207 21 loci loci NN work_7n2voym2grhjpocfumswh5tooa 207 22 and and CC work_7n2voym2grhjpocfumswh5tooa 207 23 that that IN work_7n2voym2grhjpocfumswh5tooa 207 24 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 207 25 might may MD work_7n2voym2grhjpocfumswh5tooa 207 26 be be VB work_7n2voym2grhjpocfumswh5tooa 207 27 observing observe VBG work_7n2voym2grhjpocfumswh5tooa 207 28 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 207 29 association association NN work_7n2voym2grhjpocfumswh5tooa 207 30 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 207 31 because because IN work_7n2voym2grhjpocfumswh5tooa 207 32 they -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 207 33 are be VBP work_7n2voym2grhjpocfumswh5tooa 207 34 in in IN work_7n2voym2grhjpocfumswh5tooa 207 35 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 207 36 disequilibrium disequilibrium NN work_7n2voym2grhjpocfumswh5tooa 207 37 with with IN work_7n2voym2grhjpocfumswh5tooa 207 38 the the DT work_7n2voym2grhjpocfumswh5tooa 207 39 true true JJ work_7n2voym2grhjpocfumswh5tooa 207 40 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 207 41 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 207 42 for for IN work_7n2voym2grhjpocfumswh5tooa 207 43 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 207 44 . . . work_7n2voym2grhjpocfumswh5tooa 208 1 These these DT work_7n2voym2grhjpocfumswh5tooa 208 2 four four CD work_7n2voym2grhjpocfumswh5tooa 208 3 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 208 4 are be VBP work_7n2voym2grhjpocfumswh5tooa 208 5 independent independent JJ work_7n2voym2grhjpocfumswh5tooa 208 6 and and CC work_7n2voym2grhjpocfumswh5tooa 208 7 physi- physi- JJ work_7n2voym2grhjpocfumswh5tooa 208 8 cally cally RB work_7n2voym2grhjpocfumswh5tooa 208 9 distant distant JJ work_7n2voym2grhjpocfumswh5tooa 208 10 from from IN work_7n2voym2grhjpocfumswh5tooa 208 11 the the DT work_7n2voym2grhjpocfumswh5tooa 208 12 52 52 CD work_7n2voym2grhjpocfumswh5tooa 208 13 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 208 14 - - HYPH work_7n2voym2grhjpocfumswh5tooa 208 15 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 208 16 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 208 17 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 208 18 by by IN work_7n2voym2grhjpocfumswh5tooa 208 19 the the DT work_7n2voym2grhjpocfumswh5tooa 208 20 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 208 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 208 22 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 208 23 et et NNP work_7n2voym2grhjpocfumswh5tooa 208 24   _SP work_7n2voym2grhjpocfumswh5tooa 208 25 al al NNP work_7n2voym2grhjpocfumswh5tooa 208 26 . . . work_7n2voym2grhjpocfumswh5tooa 209 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 209 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 209 3 . . . work_7n2voym2grhjpocfumswh5tooa 210 1 Association association NN work_7n2voym2grhjpocfumswh5tooa 210 2 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 210 3 were be VBD work_7n2voym2grhjpocfumswh5tooa 210 4 not not RB work_7n2voym2grhjpocfumswh5tooa 210 5 detected detect VBN work_7n2voym2grhjpocfumswh5tooa 210 6 in in IN work_7n2voym2grhjpocfumswh5tooa 210 7 the the DT work_7n2voym2grhjpocfumswh5tooa 210 8 5 5 CD work_7n2voym2grhjpocfumswh5tooa 210 9 directly directly RB work_7n2voym2grhjpocfumswh5tooa 210 10 genotyped genotype VBN work_7n2voym2grhjpocfumswh5tooa 210 11 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 210 12 in in IN work_7n2voym2grhjpocfumswh5tooa 210 13 the the DT work_7n2voym2grhjpocfumswh5tooa 210 14 LCN9 LCN9 NNP work_7n2voym2grhjpocfumswh5tooa 210 15 gene gene NN work_7n2voym2grhjpocfumswh5tooa 210 16 on on IN work_7n2voym2grhjpocfumswh5tooa 210 17 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 210 18 9 9 CD work_7n2voym2grhjpocfumswh5tooa 210 19 or or CC work_7n2voym2grhjpocfumswh5tooa 210 20 the the DT work_7n2voym2grhjpocfumswh5tooa 210 21 27 27 CD work_7n2voym2grhjpocfumswh5tooa 210 22 directly directly RB work_7n2voym2grhjpocfumswh5tooa 210 23 genotyped genotype VBD work_7n2voym2grhjpocfumswh5tooa 210 24 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 210 25 in in IN work_7n2voym2grhjpocfumswh5tooa 210 26 the the DT work_7n2voym2grhjpocfumswh5tooa 210 27 RTEL1 RTEL1 NNS work_7n2voym2grhjpocfumswh5tooa 210 28 / / SYM work_7n2voym2grhjpocfumswh5tooa 210 29 RTEL1-TNFRSF6B RTEL1-TNFRSF6B NNP work_7n2voym2grhjpocfumswh5tooa 210 30 locus locus NN work_7n2voym2grhjpocfumswh5tooa 210 31 on on IN work_7n2voym2grhjpocfumswh5tooa 210 32 chromo- chromo- NN work_7n2voym2grhjpocfumswh5tooa 210 33 some some DT work_7n2voym2grhjpocfumswh5tooa 210 34 20 20 CD work_7n2voym2grhjpocfumswh5tooa 210 35 from from IN work_7n2voym2grhjpocfumswh5tooa 210 36 the the DT work_7n2voym2grhjpocfumswh5tooa 210 37 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 210 38 GWAS gwa VBN work_7n2voym2grhjpocfumswh5tooa 210 39 for for IN work_7n2voym2grhjpocfumswh5tooa 210 40 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 210 41 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 210 42 . . . work_7n2voym2grhjpocfumswh5tooa 211 1 However however RB work_7n2voym2grhjpocfumswh5tooa 211 2 , , , work_7n2voym2grhjpocfumswh5tooa 211 3 a a DT work_7n2voym2grhjpocfumswh5tooa 211 4 few few JJ work_7n2voym2grhjpocfumswh5tooa 211 5 nominal nominal JJ work_7n2voym2grhjpocfumswh5tooa 211 6 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 211 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 211 8 p p NNP work_7n2voym2grhjpocfumswh5tooa 211 9 < < XX work_7n2voym2grhjpocfumswh5tooa 211 10   _SP work_7n2voym2grhjpocfumswh5tooa 211 11 0.05 0.05 CD work_7n2voym2grhjpocfumswh5tooa 211 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 211 13 were be VBD work_7n2voym2grhjpocfumswh5tooa 211 14 found find VBN work_7n2voym2grhjpocfumswh5tooa 211 15 in in IN work_7n2voym2grhjpocfumswh5tooa 211 16 the the DT work_7n2voym2grhjpocfumswh5tooa 211 17 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 211 18 loci loci NN work_7n2voym2grhjpocfumswh5tooa 211 19 for for IN work_7n2voym2grhjpocfumswh5tooa 211 20 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 211 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 211 22 n n NN work_7n2voym2grhjpocfumswh5tooa 211 23 = = SYM work_7n2voym2grhjpocfumswh5tooa 211 24 3 3 CD work_7n2voym2grhjpocfumswh5tooa 211 25 out out IN work_7n2voym2grhjpocfumswh5tooa 211 26 of of IN work_7n2voym2grhjpocfumswh5tooa 211 27 144 144 CD work_7n2voym2grhjpocfumswh5tooa 211 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 211 29 on on IN work_7n2voym2grhjpocfumswh5tooa 211 30 chro- chro- NN work_7n2voym2grhjpocfumswh5tooa 211 31 mosome mosome NNP work_7n2voym2grhjpocfumswh5tooa 211 32 18 18 CD work_7n2voym2grhjpocfumswh5tooa 211 33 and and CC work_7n2voym2grhjpocfumswh5tooa 211 34 CGRRF1 CGRRF1 NNP work_7n2voym2grhjpocfumswh5tooa 211 35 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 211 36 n n NN work_7n2voym2grhjpocfumswh5tooa 211 37 = = SYM work_7n2voym2grhjpocfumswh5tooa 211 38 1 1 CD work_7n2voym2grhjpocfumswh5tooa 211 39 out out IN work_7n2voym2grhjpocfumswh5tooa 211 40 of of IN work_7n2voym2grhjpocfumswh5tooa 211 41 6 6 CD work_7n2voym2grhjpocfumswh5tooa 211 42 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 211 43 on on IN work_7n2voym2grhjpocfumswh5tooa 211 44 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 211 45 14 14 CD work_7n2voym2grhjpocfumswh5tooa 211 46 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 211 47 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 211 48 et et NNP work_7n2voym2grhjpocfumswh5tooa 211 49     _SP work_7n2voym2grhjpocfumswh5tooa 211 50 al al NNP work_7n2voym2grhjpocfumswh5tooa 211 51 . . . work_7n2voym2grhjpocfumswh5tooa 212 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 212 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 212 3 . . . work_7n2voym2grhjpocfumswh5tooa 213 1 These these DT work_7n2voym2grhjpocfumswh5tooa 213 2 three three CD work_7n2voym2grhjpocfumswh5tooa 213 3 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 213 4 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 213 5 are be VBP work_7n2voym2grhjpocfumswh5tooa 213 6 not not RB work_7n2voym2grhjpocfumswh5tooa 213 7 in in IN work_7n2voym2grhjpocfumswh5tooa 213 8 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 213 9 disequilibrium disequilibrium NN work_7n2voym2grhjpocfumswh5tooa 213 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 213 11 LD LD NNP work_7n2voym2grhjpocfumswh5tooa 213 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 213 13 with with IN work_7n2voym2grhjpocfumswh5tooa 213 14 one one CD work_7n2voym2grhjpocfumswh5tooa 213 15 another another DT work_7n2voym2grhjpocfumswh5tooa 213 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 213 17 r2 r2 NNP work_7n2voym2grhjpocfumswh5tooa 213 18 < < XX work_7n2voym2grhjpocfumswh5tooa 213 19 0.2 0.2 CD work_7n2voym2grhjpocfumswh5tooa 213 20 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 213 21 but but CC work_7n2voym2grhjpocfumswh5tooa 213 22 are be VBP work_7n2voym2grhjpocfumswh5tooa 213 23 within within IN work_7n2voym2grhjpocfumswh5tooa 213 24 500 500 CD work_7n2voym2grhjpocfumswh5tooa 213 25   _SP work_7n2voym2grhjpocfumswh5tooa 213 26 KB KB NNP work_7n2voym2grhjpocfumswh5tooa 213 27 of of IN work_7n2voym2grhjpocfumswh5tooa 213 28 the the DT work_7n2voym2grhjpocfumswh5tooa 213 29 variant variant NN work_7n2voym2grhjpocfumswh5tooa 213 30 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 213 31 identi- identi- VBD work_7n2voym2grhjpocfumswh5tooa 213 32 fied fie VBN work_7n2voym2grhjpocfumswh5tooa 213 33 in in IN work_7n2voym2grhjpocfumswh5tooa 213 34 the the DT work_7n2voym2grhjpocfumswh5tooa 213 35 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 213 36 . . . work_7n2voym2grhjpocfumswh5tooa 214 1 The the DT work_7n2voym2grhjpocfumswh5tooa 214 2 CGRRF1 cgrrf1 NN work_7n2voym2grhjpocfumswh5tooa 214 3 variant variant NN work_7n2voym2grhjpocfumswh5tooa 214 4 that that WDT work_7n2voym2grhjpocfumswh5tooa 214 5 achieved achieve VBD work_7n2voym2grhjpocfumswh5tooa 214 6 a a DT work_7n2voym2grhjpocfumswh5tooa 214 7 p p NN work_7n2voym2grhjpocfumswh5tooa 214 8 value value NN work_7n2voym2grhjpocfumswh5tooa 214 9 less less JJR work_7n2voym2grhjpocfumswh5tooa 214 10 than than IN work_7n2voym2grhjpocfumswh5tooa 214 11 0.05 0.05 CD work_7n2voym2grhjpocfumswh5tooa 214 12 in in IN work_7n2voym2grhjpocfumswh5tooa 214 13 the the DT work_7n2voym2grhjpocfumswh5tooa 214 14 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 214 15 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 214 16 and and CC work_7n2voym2grhjpocfumswh5tooa 214 17 the the DT work_7n2voym2grhjpocfumswh5tooa 214 18 variant variant NN work_7n2voym2grhjpocfumswh5tooa 214 19 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 214 20 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 214 21 with with IN work_7n2voym2grhjpocfumswh5tooa 214 22 ROADTRIPS ROADTRIPS NNPS work_7n2voym2grhjpocfumswh5tooa 214 23 in in IN work_7n2voym2grhjpocfumswh5tooa 214 24 the the DT work_7n2voym2grhjpocfumswh5tooa 214 25 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 214 26 are be VBP work_7n2voym2grhjpocfumswh5tooa 214 27 500 500 CD work_7n2voym2grhjpocfumswh5tooa 214 28   _SP work_7n2voym2grhjpocfumswh5tooa 214 29 bp bp VBP work_7n2voym2grhjpocfumswh5tooa 214 30 apart apart RB work_7n2voym2grhjpocfumswh5tooa 214 31 but but CC work_7n2voym2grhjpocfumswh5tooa 214 32 are be VBP work_7n2voym2grhjpocfumswh5tooa 214 33 not not RB work_7n2voym2grhjpocfumswh5tooa 214 34 in in IN work_7n2voym2grhjpocfumswh5tooa 214 35 LD LD NNP work_7n2voym2grhjpocfumswh5tooa 214 36 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 214 37 r2 r2 NNP work_7n2voym2grhjpocfumswh5tooa 214 38 = = SYM work_7n2voym2grhjpocfumswh5tooa 214 39 0.0001 0.0001 CD work_7n2voym2grhjpocfumswh5tooa 214 40 in in IN work_7n2voym2grhjpocfumswh5tooa 214 41 CEU ceu NN work_7n2voym2grhjpocfumswh5tooa 214 42 population population NN work_7n2voym2grhjpocfumswh5tooa 214 43 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 214 44 . . . work_7n2voym2grhjpocfumswh5tooa 215 1 The the DT work_7n2voym2grhjpocfumswh5tooa 215 2 variant variant NN work_7n2voym2grhjpocfumswh5tooa 215 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 215 4 found find VBD work_7n2voym2grhjpocfumswh5tooa 215 5 on on IN work_7n2voym2grhjpocfumswh5tooa 215 6 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 215 7 9 9 CD work_7n2voym2grhjpocfumswh5tooa 215 8 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 215 9 rs200437673 rs200437673 NNP work_7n2voym2grhjpocfumswh5tooa 215 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 215 11 is be VBZ work_7n2voym2grhjpocfumswh5tooa 215 12 about about RB work_7n2voym2grhjpocfumswh5tooa 215 13 36.6 36.6 CD work_7n2voym2grhjpocfumswh5tooa 215 14   _SP work_7n2voym2grhjpocfumswh5tooa 215 15 MB MB NNP work_7n2voym2grhjpocfumswh5tooa 215 16 , , , work_7n2voym2grhjpocfumswh5tooa 215 17 65.1 65.1 CD work_7n2voym2grhjpocfumswh5tooa 215 18   _SP work_7n2voym2grhjpocfumswh5tooa 215 19 MB mb NN work_7n2voym2grhjpocfumswh5tooa 215 20 , , , work_7n2voym2grhjpocfumswh5tooa 215 21 61.9 61.9 CD work_7n2voym2grhjpocfumswh5tooa 215 22   _SP work_7n2voym2grhjpocfumswh5tooa 215 23 MB mb NN work_7n2voym2grhjpocfumswh5tooa 215 24 , , , work_7n2voym2grhjpocfumswh5tooa 215 25 and and CC work_7n2voym2grhjpocfumswh5tooa 215 26 30.9 30.9 CD work_7n2voym2grhjpocfumswh5tooa 215 27   _SP work_7n2voym2grhjpocfumswh5tooa 215 28 MB MB NNS work_7n2voym2grhjpocfumswh5tooa 215 29 away away RB work_7n2voym2grhjpocfumswh5tooa 215 30 from from IN work_7n2voym2grhjpocfumswh5tooa 215 31 the the DT work_7n2voym2grhjpocfumswh5tooa 215 32 lead lead NN work_7n2voym2grhjpocfumswh5tooa 215 33 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 215 34 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 215 35 by by IN work_7n2voym2grhjpocfumswh5tooa 215 36 the the DT work_7n2voym2grhjpocfumswh5tooa 215 37 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 215 38 on on IN work_7n2voym2grhjpocfumswh5tooa 215 39 this this DT work_7n2voym2grhjpocfumswh5tooa 215 40 chromo- chromo- NN work_7n2voym2grhjpocfumswh5tooa 215 41 some some DT work_7n2voym2grhjpocfumswh5tooa 215 42 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 215 43 rs1626340 rs1626340 NNP work_7n2voym2grhjpocfumswh5tooa 215 44 , , , work_7n2voym2grhjpocfumswh5tooa 215 45 rs71507014 rs71507014 NNP work_7n2voym2grhjpocfumswh5tooa 215 46 , , , work_7n2voym2grhjpocfumswh5tooa 215 47 rs10781182 rs10781182 NNP work_7n2voym2grhjpocfumswh5tooa 215 48 , , , work_7n2voym2grhjpocfumswh5tooa 215 49 and and CC work_7n2voym2grhjpocfumswh5tooa 215 50 rs2740488 rs2740488 NNP work_7n2voym2grhjpocfumswh5tooa 215 51 , , , work_7n2voym2grhjpocfumswh5tooa 215 52 Fig Fig NNP work_7n2voym2grhjpocfumswh5tooa 215 53 . . . work_7n2voym2grhjpocfumswh5tooa 216 1 5 5 LS work_7n2voym2grhjpocfumswh5tooa 216 2 Conditional conditional JJ work_7n2voym2grhjpocfumswh5tooa 216 3 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 216 4 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 216 5 on on IN work_7n2voym2grhjpocfumswh5tooa 216 6 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 216 7 1 1 CD work_7n2voym2grhjpocfumswh5tooa 216 8 taking take VBG work_7n2voym2grhjpocfumswh5tooa 216 9 into into IN work_7n2voym2grhjpocfumswh5tooa 216 10 account account NN work_7n2voym2grhjpocfumswh5tooa 216 11 the the DT work_7n2voym2grhjpocfumswh5tooa 216 12 Y402H Y402H NNP work_7n2voym2grhjpocfumswh5tooa 216 13 and and CC work_7n2voym2grhjpocfumswh5tooa 216 14 P503A p503a CD work_7n2voym2grhjpocfumswh5tooa 216 15 carrier carrier NN work_7n2voym2grhjpocfumswh5tooa 216 16 statuses status NNS work_7n2voym2grhjpocfumswh5tooa 216 17 . . . work_7n2voym2grhjpocfumswh5tooa 217 1 The the DT work_7n2voym2grhjpocfumswh5tooa 217 2 black black JJ work_7n2voym2grhjpocfumswh5tooa 217 3 line line NN work_7n2voym2grhjpocfumswh5tooa 217 4 denotes denote VBZ work_7n2voym2grhjpocfumswh5tooa 217 5 the the DT work_7n2voym2grhjpocfumswh5tooa 217 6 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 217 7 scores score NNS work_7n2voym2grhjpocfumswh5tooa 217 8 from from IN work_7n2voym2grhjpocfumswh5tooa 217 9 the the DT work_7n2voym2grhjpocfumswh5tooa 217 10 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 217 11 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 217 12 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 217 13 per- per- NN work_7n2voym2grhjpocfumswh5tooa 217 14 formed form VBN work_7n2voym2grhjpocfumswh5tooa 217 15 without without IN work_7n2voym2grhjpocfumswh5tooa 217 16 liability liability NN work_7n2voym2grhjpocfumswh5tooa 217 17 classes class NNS work_7n2voym2grhjpocfumswh5tooa 217 18 for for IN work_7n2voym2grhjpocfumswh5tooa 217 19 the the DT work_7n2voym2grhjpocfumswh5tooa 217 20 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 217 21 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 217 22 . . . work_7n2voym2grhjpocfumswh5tooa 218 1 The the DT work_7n2voym2grhjpocfumswh5tooa 218 2 orange orange JJ work_7n2voym2grhjpocfumswh5tooa 218 3 line line NN work_7n2voym2grhjpocfumswh5tooa 218 4 represents represent VBZ work_7n2voym2grhjpocfumswh5tooa 218 5 the the DT work_7n2voym2grhjpocfumswh5tooa 218 6 distribution distribution NN work_7n2voym2grhjpocfumswh5tooa 218 7 of of IN work_7n2voym2grhjpocfumswh5tooa 218 8 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 218 9 scores score NNS work_7n2voym2grhjpocfumswh5tooa 218 10 from from IN work_7n2voym2grhjpocfumswh5tooa 218 11 the the DT work_7n2voym2grhjpocfumswh5tooa 218 12 condi- condi- NNP work_7n2voym2grhjpocfumswh5tooa 218 13 tional tional JJ work_7n2voym2grhjpocfumswh5tooa 218 14 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 218 15 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 218 16 . . . work_7n2voym2grhjpocfumswh5tooa 219 1 The the DT work_7n2voym2grhjpocfumswh5tooa 219 2 peak peak NN work_7n2voym2grhjpocfumswh5tooa 219 3 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 219 4 score score NN work_7n2voym2grhjpocfumswh5tooa 219 5 in in IN work_7n2voym2grhjpocfumswh5tooa 219 6 the the DT work_7n2voym2grhjpocfumswh5tooa 219 7 uncondi- uncondi- NN work_7n2voym2grhjpocfumswh5tooa 219 8 tioned tioned JJ work_7n2voym2grhjpocfumswh5tooa 219 9 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 219 10 was be VBD work_7n2voym2grhjpocfumswh5tooa 219 11 3.503 3.503 CD work_7n2voym2grhjpocfumswh5tooa 219 12 at at IN work_7n2voym2grhjpocfumswh5tooa 219 13 234.6 234.6 CD work_7n2voym2grhjpocfumswh5tooa 219 14     _SP work_7n2voym2grhjpocfumswh5tooa 219 15 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 219 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 219 17 212,619,339 212,619,339 CD work_7n2voym2grhjpocfumswh5tooa 219 18     _SP work_7n2voym2grhjpocfumswh5tooa 219 19 bp bp NN work_7n2voym2grhjpocfumswh5tooa 219 20 , , , work_7n2voym2grhjpocfumswh5tooa 219 21 build build VB work_7n2voym2grhjpocfumswh5tooa 219 22 37 37 CD work_7n2voym2grhjpocfumswh5tooa 219 23 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 219 24 . . . work_7n2voym2grhjpocfumswh5tooa 220 1 The the DT work_7n2voym2grhjpocfumswh5tooa 220 2 peak peak NN work_7n2voym2grhjpocfumswh5tooa 220 3 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 220 4 score score NN work_7n2voym2grhjpocfumswh5tooa 220 5 in in IN work_7n2voym2grhjpocfumswh5tooa 220 6 the the DT work_7n2voym2grhjpocfumswh5tooa 220 7 conditioned conditioned JJ work_7n2voym2grhjpocfumswh5tooa 220 8 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 220 9 was be VBD work_7n2voym2grhjpocfumswh5tooa 220 10 2.1836 2.1836 CD work_7n2voym2grhjpocfumswh5tooa 220 11 at at IN work_7n2voym2grhjpocfumswh5tooa 220 12 214.47 214.47 CD work_7n2voym2grhjpocfumswh5tooa 220 13   _SP work_7n2voym2grhjpocfumswh5tooa 220 14 cM cM NNP work_7n2voym2grhjpocfumswh5tooa 220 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 220 16 197,070,697 197,070,697 CD work_7n2voym2grhjpocfumswh5tooa 220 17   _SP work_7n2voym2grhjpocfumswh5tooa 220 18 bp bp NNP work_7n2voym2grhjpocfumswh5tooa 220 19 , , , work_7n2voym2grhjpocfumswh5tooa 220 20 build build VB work_7n2voym2grhjpocfumswh5tooa 220 21 37 37 CD work_7n2voym2grhjpocfumswh5tooa 220 22 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 220 23 . . . work_7n2voym2grhjpocfumswh5tooa 221 1 The the DT work_7n2voym2grhjpocfumswh5tooa 221 2 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 221 3 gene gene NN work_7n2voym2grhjpocfumswh5tooa 221 4 boundaries boundary NNS work_7n2voym2grhjpocfumswh5tooa 221 5 are be VBP work_7n2voym2grhjpocfumswh5tooa 221 6 196,621,008–196,716,634 196,621,008–196,716,634 : work_7n2voym2grhjpocfumswh5tooa 221 7   _SP work_7n2voym2grhjpocfumswh5tooa 221 8 bp bp NNP work_7n2voym2grhjpocfumswh5tooa 221 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 221 10 Ensembl Ensembl NNP work_7n2voym2grhjpocfumswh5tooa 221 11 , , , work_7n2voym2grhjpocfumswh5tooa 221 12 build build VB work_7n2voym2grhjpocfumswh5tooa 221 13 37 37 CD work_7n2voym2grhjpocfumswh5tooa 221 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 221 15 Fig fig NN work_7n2voym2grhjpocfumswh5tooa 221 16 . . . work_7n2voym2grhjpocfumswh5tooa 222 1 6 6 CD work_7n2voym2grhjpocfumswh5tooa 222 2 Gene Gene NNP work_7n2voym2grhjpocfumswh5tooa 222 3 Ontology Ontology NNP work_7n2voym2grhjpocfumswh5tooa 222 4 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 222 5 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 222 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 222 7 Enrichment Enrichment NNP work_7n2voym2grhjpocfumswh5tooa 222 8 Networks Networks NNP work_7n2voym2grhjpocfumswh5tooa 222 9 for for IN work_7n2voym2grhjpocfumswh5tooa 222 10 Genes Genes NNP work_7n2voym2grhjpocfumswh5tooa 222 11 from from IN work_7n2voym2grhjpocfumswh5tooa 222 12 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 222 13 Support Support NNP work_7n2voym2grhjpocfumswh5tooa 222 14 Intervals Intervals NNPS work_7n2voym2grhjpocfumswh5tooa 222 15 from from IN work_7n2voym2grhjpocfumswh5tooa 222 16 a a DT work_7n2voym2grhjpocfumswh5tooa 222 17 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 222 18 8 8 CD work_7n2voym2grhjpocfumswh5tooa 222 19 and and CC work_7n2voym2grhjpocfumswh5tooa 222 20 b b CD work_7n2voym2grhjpocfumswh5tooa 222 21 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 222 22 18 18 CD work_7n2voym2grhjpocfumswh5tooa 222 23 . . . work_7n2voym2grhjpocfumswh5tooa 223 1 The the DT work_7n2voym2grhjpocfumswh5tooa 223 2 size size NN work_7n2voym2grhjpocfumswh5tooa 223 3 of of IN work_7n2voym2grhjpocfumswh5tooa 223 4 the the DT work_7n2voym2grhjpocfumswh5tooa 223 5 nodes node NNS work_7n2voym2grhjpocfumswh5tooa 223 6 in in IN work_7n2voym2grhjpocfumswh5tooa 223 7 each each DT work_7n2voym2grhjpocfumswh5tooa 223 8 network network NN work_7n2voym2grhjpocfumswh5tooa 223 9 illustrates illustrate VBZ work_7n2voym2grhjpocfumswh5tooa 223 10 the the DT work_7n2voym2grhjpocfumswh5tooa 223 11 number number NN work_7n2voym2grhjpocfumswh5tooa 223 12 of of IN work_7n2voym2grhjpocfumswh5tooa 223 13 mapped map VBN work_7n2voym2grhjpocfumswh5tooa 223 14 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 223 15 to to IN work_7n2voym2grhjpocfumswh5tooa 223 16 the the DT work_7n2voym2grhjpocfumswh5tooa 223 17 depicted depicted JJ work_7n2voym2grhjpocfumswh5tooa 223 18 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 223 19 term term NN work_7n2voym2grhjpocfumswh5tooa 223 20 , , , work_7n2voym2grhjpocfumswh5tooa 223 21 and and CC work_7n2voym2grhjpocfumswh5tooa 223 22 the the DT work_7n2voym2grhjpocfumswh5tooa 223 23 color color NN work_7n2voym2grhjpocfumswh5tooa 223 24 of of IN work_7n2voym2grhjpocfumswh5tooa 223 25 the the DT work_7n2voym2grhjpocfumswh5tooa 223 26 node node NN work_7n2voym2grhjpocfumswh5tooa 223 27 shows show VBZ work_7n2voym2grhjpocfumswh5tooa 223 28 the the DT work_7n2voym2grhjpocfumswh5tooa 223 29 significance significance NN work_7n2voym2grhjpocfumswh5tooa 223 30 of of IN work_7n2voym2grhjpocfumswh5tooa 223 31 the the DT work_7n2voym2grhjpocfumswh5tooa 223 32 term term NN work_7n2voym2grhjpocfumswh5tooa 223 33 in in IN work_7n2voym2grhjpocfumswh5tooa 223 34 each each DT work_7n2voym2grhjpocfumswh5tooa 223 35 enrichment enrichment NN work_7n2voym2grhjpocfumswh5tooa 223 36 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 223 37 . . . work_7n2voym2grhjpocfumswh5tooa 224 1 The the DT work_7n2voym2grhjpocfumswh5tooa 224 2 leading leading JJ work_7n2voym2grhjpocfumswh5tooa 224 3 term term NN work_7n2voym2grhjpocfumswh5tooa 224 4 of of IN work_7n2voym2grhjpocfumswh5tooa 224 5 each each DT work_7n2voym2grhjpocfumswh5tooa 224 6 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 224 7 group group NN work_7n2voym2grhjpocfumswh5tooa 224 8 is be VBZ work_7n2voym2grhjpocfumswh5tooa 224 9 depicted depict VBN work_7n2voym2grhjpocfumswh5tooa 224 10 in in IN work_7n2voym2grhjpocfumswh5tooa 224 11 bold bold JJ work_7n2voym2grhjpocfumswh5tooa 224 12 and and CC work_7n2voym2grhjpocfumswh5tooa 224 13 represents represent VBZ work_7n2voym2grhjpocfumswh5tooa 224 14 the the DT work_7n2voym2grhjpocfumswh5tooa 224 15 most most RBS work_7n2voym2grhjpocfumswh5tooa 224 16 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 224 17 ontology ontology NN work_7n2voym2grhjpocfumswh5tooa 224 18 from from IN work_7n2voym2grhjpocfumswh5tooa 224 19 the the DT work_7n2voym2grhjpocfumswh5tooa 224 20 group group NN work_7n2voym2grhjpocfumswh5tooa 224 21 . . . work_7n2voym2grhjpocfumswh5tooa 225 1 Full full JJ work_7n2voym2grhjpocfumswh5tooa 225 2 descriptions description NNS work_7n2voym2grhjpocfumswh5tooa 225 3 of of IN work_7n2voym2grhjpocfumswh5tooa 225 4 these these DT work_7n2voym2grhjpocfumswh5tooa 225 5 terms term NNS work_7n2voym2grhjpocfumswh5tooa 225 6 are be VBP work_7n2voym2grhjpocfumswh5tooa 225 7 available available JJ work_7n2voym2grhjpocfumswh5tooa 225 8 in in IN work_7n2voym2grhjpocfumswh5tooa 225 9 Supplemental Supplemental NNP work_7n2voym2grhjpocfumswh5tooa 225 10 Tables Tables NNPS work_7n2voym2grhjpocfumswh5tooa 225 11   _SP work_7n2voym2grhjpocfumswh5tooa 225 12 8 8 CD work_7n2voym2grhjpocfumswh5tooa 225 13 and and CC work_7n2voym2grhjpocfumswh5tooa 225 14 9 9 CD work_7n2voym2grhjpocfumswh5tooa 225 15 1178 1178 CD work_7n2voym2grhjpocfumswh5tooa 225 16 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 225 17 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 225 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 225 19 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 225 20 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 225 21 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 225 22 1 1 CD work_7n2voym2grhjpocfumswh5tooa 225 23 3 3 CD work_7n2voym2grhjpocfumswh5tooa 225 24 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 225 25 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 225 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 225 27 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 225 28 et et NNP work_7n2voym2grhjpocfumswh5tooa 225 29   _SP work_7n2voym2grhjpocfumswh5tooa 225 30 al al NNP work_7n2voym2grhjpocfumswh5tooa 225 31 . . . work_7n2voym2grhjpocfumswh5tooa 226 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 226 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 226 3 . . . work_7n2voym2grhjpocfumswh5tooa 227 1 The the DT work_7n2voym2grhjpocfumswh5tooa 227 2 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 227 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 227 4 iden- iden- VBP work_7n2voym2grhjpocfumswh5tooa 227 5 tified tifie VBN work_7n2voym2grhjpocfumswh5tooa 227 6 on on IN work_7n2voym2grhjpocfumswh5tooa 227 7 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 227 8 20 20 CD work_7n2voym2grhjpocfumswh5tooa 227 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 227 10 rs151214675 rs151214675 NNP work_7n2voym2grhjpocfumswh5tooa 227 11 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 227 12 is be VBZ work_7n2voym2grhjpocfumswh5tooa 227 13 about about RB work_7n2voym2grhjpocfumswh5tooa 227 14 5.6 5.6 CD work_7n2voym2grhjpocfumswh5tooa 227 15 and and CC work_7n2voym2grhjpocfumswh5tooa 227 16 17.7 17.7 CD work_7n2voym2grhjpocfumswh5tooa 227 17   _SP work_7n2voym2grhjpocfumswh5tooa 227 18 MB MB NNS work_7n2voym2grhjpocfumswh5tooa 227 19 away away RB work_7n2voym2grhjpocfumswh5tooa 227 20 from from IN work_7n2voym2grhjpocfumswh5tooa 227 21 the the DT work_7n2voym2grhjpocfumswh5tooa 227 22 lead lead JJ work_7n2voym2grhjpocfumswh5tooa 227 23 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 227 24 from from IN work_7n2voym2grhjpocfumswh5tooa 227 25 the the DT work_7n2voym2grhjpocfumswh5tooa 227 26 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 227 27 GWAS gwa VBN work_7n2voym2grhjpocfumswh5tooa 227 28 on on IN work_7n2voym2grhjpocfumswh5tooa 227 29 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 227 30 20 20 CD work_7n2voym2grhjpocfumswh5tooa 227 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 227 32 rs201459901 rs201459901 NNP work_7n2voym2grhjpocfumswh5tooa 227 33 and and CC work_7n2voym2grhjpocfumswh5tooa 227 34 rs142450006 rs142450006 NNP work_7n2voym2grhjpocfumswh5tooa 227 35 , , , work_7n2voym2grhjpocfumswh5tooa 227 36 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 227 37 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 227 38 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 227 39 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 227 40 et et NNP work_7n2voym2grhjpocfumswh5tooa 227 41   _SP work_7n2voym2grhjpocfumswh5tooa 227 42 al al NNP work_7n2voym2grhjpocfumswh5tooa 227 43 . . . work_7n2voym2grhjpocfumswh5tooa 228 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 228 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 228 3 . . . work_7n2voym2grhjpocfumswh5tooa 229 1 The the DT work_7n2voym2grhjpocfumswh5tooa 229 2 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 229 3 did do VBD work_7n2voym2grhjpocfumswh5tooa 229 4 not not RB work_7n2voym2grhjpocfumswh5tooa 229 5 identify identify VB work_7n2voym2grhjpocfumswh5tooa 229 6 any any DT work_7n2voym2grhjpocfumswh5tooa 229 7 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 229 8 - - HYPH work_7n2voym2grhjpocfumswh5tooa 229 9 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 229 10 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 229 11 on on IN work_7n2voym2grhjpocfumswh5tooa 229 12 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 229 13 18 18 CD work_7n2voym2grhjpocfumswh5tooa 229 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 229 15 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 229 16 et et NNP work_7n2voym2grhjpocfumswh5tooa 229 17   _SP work_7n2voym2grhjpocfumswh5tooa 229 18 al al NNP work_7n2voym2grhjpocfumswh5tooa 229 19 . . . work_7n2voym2grhjpocfumswh5tooa 230 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 230 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 230 3 . . . work_7n2voym2grhjpocfumswh5tooa 231 1 The the DT work_7n2voym2grhjpocfumswh5tooa 231 2 lead lead JJ work_7n2voym2grhjpocfumswh5tooa 231 3 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 231 4 in in IN work_7n2voym2grhjpocfumswh5tooa 231 5 the the DT work_7n2voym2grhjpocfumswh5tooa 231 6 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 231 7 locus locus NN work_7n2voym2grhjpocfumswh5tooa 231 8 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 231 9 by by IN work_7n2voym2grhjpocfumswh5tooa 231 10 the the DT work_7n2voym2grhjpocfumswh5tooa 231 11 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 231 12 on on IN work_7n2voym2grhjpocfumswh5tooa 231 13 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 231 14 14 14 CD work_7n2voym2grhjpocfumswh5tooa 231 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 231 16 rs61985136 rs61985136 NNP work_7n2voym2grhjpocfumswh5tooa 231 17 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 231 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 231 19 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 231 20 et et NNP work_7n2voym2grhjpocfumswh5tooa 231 21   _SP work_7n2voym2grhjpocfumswh5tooa 231 22 al al NNP work_7n2voym2grhjpocfumswh5tooa 231 23 . . . work_7n2voym2grhjpocfumswh5tooa 232 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 232 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 232 3 is be VBZ work_7n2voym2grhjpocfumswh5tooa 232 4 almost almost RB work_7n2voym2grhjpocfumswh5tooa 232 5 14 14 CD work_7n2voym2grhjpocfumswh5tooa 232 6   _SP work_7n2voym2grhjpocfumswh5tooa 232 7 MB MB NNS work_7n2voym2grhjpocfumswh5tooa 232 8 away away RB work_7n2voym2grhjpocfumswh5tooa 232 9 from from IN work_7n2voym2grhjpocfumswh5tooa 232 10 the the DT work_7n2voym2grhjpocfumswh5tooa 232 11 variant variant NN work_7n2voym2grhjpocfumswh5tooa 232 12 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 232 13 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 232 14 in in IN work_7n2voym2grhjpocfumswh5tooa 232 15 the the DT work_7n2voym2grhjpocfumswh5tooa 232 16 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 232 17 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 232 18 rs115333865 rs115333865 NNP work_7n2voym2grhjpocfumswh5tooa 232 19 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 232 20 . . . work_7n2voym2grhjpocfumswh5tooa 233 1 The the DT work_7n2voym2grhjpocfumswh5tooa 233 2 four four CD work_7n2voym2grhjpocfumswh5tooa 233 3 vari- vari- JJ work_7n2voym2grhjpocfumswh5tooa 233 4 ants ant NNS work_7n2voym2grhjpocfumswh5tooa 233 5 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 233 6 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 233 7 in in IN work_7n2voym2grhjpocfumswh5tooa 233 8 the the DT work_7n2voym2grhjpocfumswh5tooa 233 9 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 233 10 are be VBP work_7n2voym2grhjpocfumswh5tooa 233 11 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 233 12 to to IN work_7n2voym2grhjpocfumswh5tooa 233 13 low low JJ work_7n2voym2grhjpocfumswh5tooa 233 14 - - HYPH work_7n2voym2grhjpocfumswh5tooa 233 15 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 233 16 in in IN work_7n2voym2grhjpocfumswh5tooa 233 17 the the DT work_7n2voym2grhjpocfumswh5tooa 233 18 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 233 19 data datum NNS work_7n2voym2grhjpocfumswh5tooa 233 20 and and CC work_7n2voym2grhjpocfumswh5tooa 233 21 the the DT work_7n2voym2grhjpocfumswh5tooa 233 22 gnomAD gnomAD NNP work_7n2voym2grhjpocfumswh5tooa 233 23 database database NN work_7n2voym2grhjpocfumswh5tooa 233 24 . . . work_7n2voym2grhjpocfumswh5tooa 234 1 While while IN work_7n2voym2grhjpocfumswh5tooa 234 2 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 234 3 frequencies frequencie VBZ work_7n2voym2grhjpocfumswh5tooa 234 4 for for IN work_7n2voym2grhjpocfumswh5tooa 234 5 these these DT work_7n2voym2grhjpocfumswh5tooa 234 6 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 234 7 are be VBP work_7n2voym2grhjpocfumswh5tooa 234 8 fairly fairly RB work_7n2voym2grhjpocfumswh5tooa 234 9 similar similar JJ work_7n2voym2grhjpocfumswh5tooa 234 10 in in IN work_7n2voym2grhjpocfumswh5tooa 234 11 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 234 12 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 234 13 cases case NNS work_7n2voym2grhjpocfumswh5tooa 234 14 and and CC work_7n2voym2grhjpocfumswh5tooa 234 15 controls control NNS work_7n2voym2grhjpocfumswh5tooa 234 16 from from IN work_7n2voym2grhjpocfumswh5tooa 234 17 the the DT work_7n2voym2grhjpocfumswh5tooa 234 18 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 234 19 , , , work_7n2voym2grhjpocfumswh5tooa 234 20 these these DT work_7n2voym2grhjpocfumswh5tooa 234 21 vari- vari- JJ work_7n2voym2grhjpocfumswh5tooa 234 22 ants ant NNS work_7n2voym2grhjpocfumswh5tooa 234 23 were be VBD work_7n2voym2grhjpocfumswh5tooa 234 24 significantly significantly RB work_7n2voym2grhjpocfumswh5tooa 234 25 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 234 26 with with IN work_7n2voym2grhjpocfumswh5tooa 234 27 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 234 28 in in IN work_7n2voym2grhjpocfumswh5tooa 234 29 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 234 30 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 234 31 cohort cohort NN work_7n2voym2grhjpocfumswh5tooa 234 32 . . . work_7n2voym2grhjpocfumswh5tooa 235 1 It -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 235 2 was be VBD work_7n2voym2grhjpocfumswh5tooa 235 3 previously previously RB work_7n2voym2grhjpocfumswh5tooa 235 4 demonstrated demonstrate VBN work_7n2voym2grhjpocfumswh5tooa 235 5 that that IN work_7n2voym2grhjpocfumswh5tooa 235 6 the the DT work_7n2voym2grhjpocfumswh5tooa 235 7 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 235 8 popu- popu- NN work_7n2voym2grhjpocfumswh5tooa 235 9 lation lation NN work_7n2voym2grhjpocfumswh5tooa 235 10 has have VBZ work_7n2voym2grhjpocfumswh5tooa 235 11 a a DT work_7n2voym2grhjpocfumswh5tooa 235 12 lower low JJR work_7n2voym2grhjpocfumswh5tooa 235 13 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 235 14 burden burden NN work_7n2voym2grhjpocfumswh5tooa 235 15 of of IN work_7n2voym2grhjpocfumswh5tooa 235 16 known know VBN work_7n2voym2grhjpocfumswh5tooa 235 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 235 18 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 235 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 235 20 Hoffman Hoffman NNP work_7n2voym2grhjpocfumswh5tooa 235 21 et et NNP work_7n2voym2grhjpocfumswh5tooa 235 22   _SP work_7n2voym2grhjpocfumswh5tooa 235 23 al al NNP work_7n2voym2grhjpocfumswh5tooa 235 24 . . . work_7n2voym2grhjpocfumswh5tooa 236 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 236 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 236 3 ; ; : work_7n2voym2grhjpocfumswh5tooa 236 4 therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 236 5 , , , work_7n2voym2grhjpocfumswh5tooa 236 6 this this DT work_7n2voym2grhjpocfumswh5tooa 236 7 may may MD work_7n2voym2grhjpocfumswh5tooa 236 8 suggest suggest VB work_7n2voym2grhjpocfumswh5tooa 236 9 that that IN work_7n2voym2grhjpocfumswh5tooa 236 10 the the DT work_7n2voym2grhjpocfumswh5tooa 236 11 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 236 12 have have VBP work_7n2voym2grhjpocfumswh5tooa 236 13 different different JJ work_7n2voym2grhjpocfumswh5tooa 236 14 etiology etiology NN work_7n2voym2grhjpocfumswh5tooa 236 15 for for IN work_7n2voym2grhjpocfumswh5tooa 236 16 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 236 17 than than IN work_7n2voym2grhjpocfumswh5tooa 236 18 the the DT work_7n2voym2grhjpocfumswh5tooa 236 19 general general JJ work_7n2voym2grhjpocfumswh5tooa 236 20 population population NN work_7n2voym2grhjpocfumswh5tooa 236 21 of of IN work_7n2voym2grhjpocfumswh5tooa 236 22 European european JJ work_7n2voym2grhjpocfumswh5tooa 236 23 descent descent NN work_7n2voym2grhjpocfumswh5tooa 236 24 . . . work_7n2voym2grhjpocfumswh5tooa 237 1 Of of IN work_7n2voym2grhjpocfumswh5tooa 237 2 the the DT work_7n2voym2grhjpocfumswh5tooa 237 3 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 237 4 - - HYPH work_7n2voym2grhjpocfumswh5tooa 237 5 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 237 6 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 237 7 that that WDT work_7n2voym2grhjpocfumswh5tooa 237 8 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 237 9 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 237 10 in in IN work_7n2voym2grhjpocfumswh5tooa 237 11 this this DT work_7n2voym2grhjpocfumswh5tooa 237 12 study study NN work_7n2voym2grhjpocfumswh5tooa 237 13 , , , work_7n2voym2grhjpocfumswh5tooa 237 14 only only RB work_7n2voym2grhjpocfumswh5tooa 237 15 the the DT work_7n2voym2grhjpocfumswh5tooa 237 16 RTEL1 rtel1 NN work_7n2voym2grhjpocfumswh5tooa 237 17 variant variant NN work_7n2voym2grhjpocfumswh5tooa 237 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 237 19 rs151214675 rs151214675 NNP work_7n2voym2grhjpocfumswh5tooa 237 20 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 237 21 is be VBZ work_7n2voym2grhjpocfumswh5tooa 237 22 cataloged catalog VBN work_7n2voym2grhjpocfumswh5tooa 237 23 in in IN work_7n2voym2grhjpocfumswh5tooa 237 24 the the DT work_7n2voym2grhjpocfumswh5tooa 237 25 ClinVar ClinVar NNP work_7n2voym2grhjpocfumswh5tooa 237 26 database database NN work_7n2voym2grhjpocfumswh5tooa 237 27 , , , work_7n2voym2grhjpocfumswh5tooa 237 28 but but CC work_7n2voym2grhjpocfumswh5tooa 237 29 it -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 237 30 is be VBZ work_7n2voym2grhjpocfumswh5tooa 237 31 considered consider VBN work_7n2voym2grhjpocfumswh5tooa 237 32 a a DT work_7n2voym2grhjpocfumswh5tooa 237 33 variant variant NN work_7n2voym2grhjpocfumswh5tooa 237 34 of of IN work_7n2voym2grhjpocfumswh5tooa 237 35 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 237 36 significance significance NN work_7n2voym2grhjpocfumswh5tooa 237 37 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 237 38 https https NN work_7n2voym2grhjpocfumswh5tooa 237 39 : : : work_7n2voym2grhjpocfumswh5tooa 237 40 //www.ncbi.nlm.nih.gov //www.ncbi.nlm.nih.gov . work_7n2voym2grhjpocfumswh5tooa 237 41 / / SYM work_7n2voym2grhjpocfumswh5tooa 237 42 clinv clinv NN work_7n2voym2grhjpocfumswh5tooa 237 43 ar ar NNP work_7n2voym2grhjpocfumswh5tooa 237 44 / / SYM work_7n2voym2grhjpocfumswh5tooa 237 45 RCV00 RCV00 NNP work_7n2voym2grhjpocfumswh5tooa 237 46 05041 05041 CD work_7n2voym2grhjpocfumswh5tooa 237 47 85/ 85/ NNP work_7n2voym2grhjpocfumswh5tooa 237 48 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 237 49 . . . work_7n2voym2grhjpocfumswh5tooa 238 1 This this DT work_7n2voym2grhjpocfumswh5tooa 238 2 variant variant NN work_7n2voym2grhjpocfumswh5tooa 238 3 also also RB work_7n2voym2grhjpocfumswh5tooa 238 4 maps map VBZ work_7n2voym2grhjpocfumswh5tooa 238 5 to to IN work_7n2voym2grhjpocfumswh5tooa 238 6 the the DT work_7n2voym2grhjpocfumswh5tooa 238 7 natu- natu- JJ work_7n2voym2grhjpocfumswh5tooa 238 8 rally rally NN work_7n2voym2grhjpocfumswh5tooa 238 9 occurring occur VBG work_7n2voym2grhjpocfumswh5tooa 238 10 RTEL1-TNFRSF6B RTEL1-TNFRSF6B NNP work_7n2voym2grhjpocfumswh5tooa 238 11 read read VB work_7n2voym2grhjpocfumswh5tooa 238 12 - - HYPH work_7n2voym2grhjpocfumswh5tooa 238 13 through through RP work_7n2voym2grhjpocfumswh5tooa 238 14 transcript transcript NN work_7n2voym2grhjpocfumswh5tooa 238 15 of of IN work_7n2voym2grhjpocfumswh5tooa 238 16 this this DT work_7n2voym2grhjpocfumswh5tooa 238 17 locus locus NN work_7n2voym2grhjpocfumswh5tooa 238 18 , , , work_7n2voym2grhjpocfumswh5tooa 238 19 which which WDT work_7n2voym2grhjpocfumswh5tooa 238 20 is be VBZ work_7n2voym2grhjpocfumswh5tooa 238 21 a a DT work_7n2voym2grhjpocfumswh5tooa 238 22 candidate candidate NN work_7n2voym2grhjpocfumswh5tooa 238 23 for for IN work_7n2voym2grhjpocfumswh5tooa 238 24 nonsense nonsense NN work_7n2voym2grhjpocfumswh5tooa 238 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 238 26 mediated mediate VBN work_7n2voym2grhjpocfumswh5tooa 238 27 mRNA mRNA NNP work_7n2voym2grhjpocfumswh5tooa 238 28 decay decay NNP work_7n2voym2grhjpocfumswh5tooa 238 29 and and CC work_7n2voym2grhjpocfumswh5tooa 238 30 unlikely unlikely JJ work_7n2voym2grhjpocfumswh5tooa 238 31 to to TO work_7n2voym2grhjpocfumswh5tooa 238 32 yield yield VB work_7n2voym2grhjpocfumswh5tooa 238 33 a a DT work_7n2voym2grhjpocfumswh5tooa 238 34 protein protein NN work_7n2voym2grhjpocfumswh5tooa 238 35 product product NN work_7n2voym2grhjpocfumswh5tooa 238 36 . . . work_7n2voym2grhjpocfumswh5tooa 239 1 RTEL1 RTEL1 NNP work_7n2voym2grhjpocfumswh5tooa 239 2 encodes encode VBZ work_7n2voym2grhjpocfumswh5tooa 239 3 a a DT work_7n2voym2grhjpocfumswh5tooa 239 4 regulator regulator NN work_7n2voym2grhjpocfumswh5tooa 239 5 of of IN work_7n2voym2grhjpocfumswh5tooa 239 6 a a DT work_7n2voym2grhjpocfumswh5tooa 239 7 telomere telomere JJ work_7n2voym2grhjpocfumswh5tooa 239 8 elongation elongation NN work_7n2voym2grhjpocfumswh5tooa 239 9 helicase helicase NN work_7n2voym2grhjpocfumswh5tooa 239 10 , , , work_7n2voym2grhjpocfumswh5tooa 239 11 which which WDT work_7n2voym2grhjpocfumswh5tooa 239 12 maintains maintain VBZ work_7n2voym2grhjpocfumswh5tooa 239 13 telomere telomere JJ work_7n2voym2grhjpocfumswh5tooa 239 14 length length NN work_7n2voym2grhjpocfumswh5tooa 239 15 and and CC work_7n2voym2grhjpocfumswh5tooa 239 16 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 239 17 stability stability NN work_7n2voym2grhjpocfumswh5tooa 239 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 239 19 Barber Barber NNP work_7n2voym2grhjpocfumswh5tooa 239 20 et et NNP work_7n2voym2grhjpocfumswh5tooa 239 21   _SP work_7n2voym2grhjpocfumswh5tooa 239 22 al al NNP work_7n2voym2grhjpocfumswh5tooa 239 23 . . . work_7n2voym2grhjpocfumswh5tooa 240 1 2008 2008 LS work_7n2voym2grhjpocfumswh5tooa 240 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 240 3 Codd Codd NNP work_7n2voym2grhjpocfumswh5tooa 240 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 240 5   _SP work_7n2voym2grhjpocfumswh5tooa 240 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 240 7 . . . work_7n2voym2grhjpocfumswh5tooa 241 1 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 241 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 241 3 Ding Ding NNP work_7n2voym2grhjpocfumswh5tooa 241 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 241 5   _SP work_7n2voym2grhjpocfumswh5tooa 241 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 241 7 . . . work_7n2voym2grhjpocfumswh5tooa 242 1 2004 2004 CD work_7n2voym2grhjpocfumswh5tooa 242 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 242 3 . . . work_7n2voym2grhjpocfumswh5tooa 243 1 Telomere telomere JJ work_7n2voym2grhjpocfumswh5tooa 243 2 length length NN work_7n2voym2grhjpocfumswh5tooa 243 3 has have VBZ work_7n2voym2grhjpocfumswh5tooa 243 4 been be VBN work_7n2voym2grhjpocfumswh5tooa 243 5 hypothesized hypothesize VBN work_7n2voym2grhjpocfumswh5tooa 243 6 as as IN work_7n2voym2grhjpocfumswh5tooa 243 7 a a DT work_7n2voym2grhjpocfumswh5tooa 243 8 marker marker NN work_7n2voym2grhjpocfumswh5tooa 243 9 of of IN work_7n2voym2grhjpocfumswh5tooa 243 10 aging age VBG work_7n2voym2grhjpocfumswh5tooa 243 11 because because IN work_7n2voym2grhjpocfumswh5tooa 243 12 telomeres telomere NNS work_7n2voym2grhjpocfumswh5tooa 243 13 shorten shorten VBP work_7n2voym2grhjpocfumswh5tooa 243 14 with with IN work_7n2voym2grhjpocfumswh5tooa 243 15 age age NN work_7n2voym2grhjpocfumswh5tooa 243 16 and and CC work_7n2voym2grhjpocfumswh5tooa 243 17 the the DT work_7n2voym2grhjpocfumswh5tooa 243 18 presence presence NN work_7n2voym2grhjpocfumswh5tooa 243 19 of of IN work_7n2voym2grhjpocfumswh5tooa 243 20 short short JJ work_7n2voym2grhjpocfumswh5tooa 243 21 telom- telom- NN work_7n2voym2grhjpocfumswh5tooa 243 22 eres ere NNS work_7n2voym2grhjpocfumswh5tooa 243 23 directs direct VBZ work_7n2voym2grhjpocfumswh5tooa 243 24 the the DT work_7n2voym2grhjpocfumswh5tooa 243 25 cell cell NN work_7n2voym2grhjpocfumswh5tooa 243 26 to to TO work_7n2voym2grhjpocfumswh5tooa 243 27 enter enter VB work_7n2voym2grhjpocfumswh5tooa 243 28 senescence senescence NN work_7n2voym2grhjpocfumswh5tooa 243 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 243 30 von von NNP work_7n2voym2grhjpocfumswh5tooa 243 31 Zglinicki Zglinicki NNP work_7n2voym2grhjpocfumswh5tooa 243 32 and and CC work_7n2voym2grhjpocfumswh5tooa 243 33 Martin Martin NNP work_7n2voym2grhjpocfumswh5tooa 243 34 - - HYPH work_7n2voym2grhjpocfumswh5tooa 243 35 Ruiz Ruiz NNP work_7n2voym2grhjpocfumswh5tooa 243 36 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 243 37 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 243 38 . . . work_7n2voym2grhjpocfumswh5tooa 244 1 Oxidative oxidative JJ work_7n2voym2grhjpocfumswh5tooa 244 2 stress stress NN work_7n2voym2grhjpocfumswh5tooa 244 3 can can MD work_7n2voym2grhjpocfumswh5tooa 244 4 also also RB work_7n2voym2grhjpocfumswh5tooa 244 5 contribute contribute VB work_7n2voym2grhjpocfumswh5tooa 244 6 to to IN work_7n2voym2grhjpocfumswh5tooa 244 7 the the DT work_7n2voym2grhjpocfumswh5tooa 244 8 reduction reduction NN work_7n2voym2grhjpocfumswh5tooa 244 9 of of IN work_7n2voym2grhjpocfumswh5tooa 244 10 telomere telomere JJ work_7n2voym2grhjpocfumswh5tooa 244 11 length length NN work_7n2voym2grhjpocfumswh5tooa 244 12 in in IN work_7n2voym2grhjpocfumswh5tooa 244 13 cells cell NNS work_7n2voym2grhjpocfumswh5tooa 244 14 and and CC work_7n2voym2grhjpocfumswh5tooa 244 15 has have VBZ work_7n2voym2grhjpocfumswh5tooa 244 16 been be VBN work_7n2voym2grhjpocfumswh5tooa 244 17 char- char- RB work_7n2voym2grhjpocfumswh5tooa 244 18 acterized acterize VBN work_7n2voym2grhjpocfumswh5tooa 244 19 as as IN work_7n2voym2grhjpocfumswh5tooa 244 20 a a DT work_7n2voym2grhjpocfumswh5tooa 244 21 contributing contribute VBG work_7n2voym2grhjpocfumswh5tooa 244 22 factor factor NN work_7n2voym2grhjpocfumswh5tooa 244 23 to to IN work_7n2voym2grhjpocfumswh5tooa 244 24 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 244 25 pathophysiology pathophysiology NN work_7n2voym2grhjpocfumswh5tooa 244 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 244 27 Shaw Shaw NNP work_7n2voym2grhjpocfumswh5tooa 244 28 et et NNP work_7n2voym2grhjpocfumswh5tooa 244 29   _SP work_7n2voym2grhjpocfumswh5tooa 244 30 al al NNP work_7n2voym2grhjpocfumswh5tooa 244 31 . . . work_7n2voym2grhjpocfumswh5tooa 245 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 245 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 245 3 von von NNP work_7n2voym2grhjpocfumswh5tooa 245 4 Zglinicki Zglinicki NNP work_7n2voym2grhjpocfumswh5tooa 245 5 and and CC work_7n2voym2grhjpocfumswh5tooa 245 6 Martin Martin NNP work_7n2voym2grhjpocfumswh5tooa 245 7 - - HYPH work_7n2voym2grhjpocfumswh5tooa 245 8 Ruiz Ruiz NNP work_7n2voym2grhjpocfumswh5tooa 245 9 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 245 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 245 11 . . . work_7n2voym2grhjpocfumswh5tooa 246 1 Lipocalins lipocalin NNS work_7n2voym2grhjpocfumswh5tooa 246 2 constitute constitute VBP work_7n2voym2grhjpocfumswh5tooa 246 3 a a DT work_7n2voym2grhjpocfumswh5tooa 246 4 family family NN work_7n2voym2grhjpocfumswh5tooa 246 5 of of IN work_7n2voym2grhjpocfumswh5tooa 246 6 extracellular extracellular NNP work_7n2voym2grhjpocfumswh5tooa 246 7 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 246 8 that that WDT work_7n2voym2grhjpocfumswh5tooa 246 9 are be VBP work_7n2voym2grhjpocfumswh5tooa 246 10 responsible responsible JJ work_7n2voym2grhjpocfumswh5tooa 246 11 for for IN work_7n2voym2grhjpocfumswh5tooa 246 12 transporting transport VBG work_7n2voym2grhjpocfumswh5tooa 246 13 small small JJ work_7n2voym2grhjpocfumswh5tooa 246 14 lipids lipid NNS work_7n2voym2grhjpocfumswh5tooa 246 15 such such JJ work_7n2voym2grhjpocfumswh5tooa 246 16 as as IN work_7n2voym2grhjpocfumswh5tooa 246 17 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 246 18 acids acid NNS work_7n2voym2grhjpocfumswh5tooa 246 19 , , , work_7n2voym2grhjpocfumswh5tooa 246 20 retinoids retinoid NNS work_7n2voym2grhjpocfumswh5tooa 246 21 , , , work_7n2voym2grhjpocfumswh5tooa 246 22 and and CC work_7n2voym2grhjpocfumswh5tooa 246 23 steroids steroid NNS work_7n2voym2grhjpocfumswh5tooa 246 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 246 25 Suzuki Suzuki NNP work_7n2voym2grhjpocfumswh5tooa 246 26 et et NNP work_7n2voym2grhjpocfumswh5tooa 246 27   _SP work_7n2voym2grhjpocfumswh5tooa 246 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 246 29 . . . work_7n2voym2grhjpocfumswh5tooa 247 1 2004 2004 CD work_7n2voym2grhjpocfumswh5tooa 247 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 247 3 . . . work_7n2voym2grhjpocfumswh5tooa 248 1 There there EX work_7n2voym2grhjpocfumswh5tooa 248 2 are be VBP work_7n2voym2grhjpocfumswh5tooa 248 3 no no DT work_7n2voym2grhjpocfumswh5tooa 248 4 LCN9 LCN9 NNP work_7n2voym2grhjpocfumswh5tooa 248 5 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 248 6 documented document VBN work_7n2voym2grhjpocfumswh5tooa 248 7 in in IN work_7n2voym2grhjpocfumswh5tooa 248 8 the the DT work_7n2voym2grhjpocfumswh5tooa 248 9 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 248 10 Catalog Catalog NNP work_7n2voym2grhjpocfumswh5tooa 248 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 248 12 https https NN work_7n2voym2grhjpocfumswh5tooa 248 13 : : : work_7n2voym2grhjpocfumswh5tooa 248 14 //www.ebi.ac.uk //www.ebi.ac.uk , work_7n2voym2grhjpocfumswh5tooa 248 15 / / SYM work_7n2voym2grhjpocfumswh5tooa 248 16 gwas/ gwas/ NNP work_7n2voym2grhjpocfumswh5tooa 248 17 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 248 18 . . . work_7n2voym2grhjpocfumswh5tooa 249 1 However however RB work_7n2voym2grhjpocfumswh5tooa 249 2 , , , work_7n2voym2grhjpocfumswh5tooa 249 3 another another DT work_7n2voym2grhjpocfumswh5tooa 249 4 lipocalin lipocalin NNP work_7n2voym2grhjpocfumswh5tooa 249 5 family family NN work_7n2voym2grhjpocfumswh5tooa 249 6 member member NN work_7n2voym2grhjpocfumswh5tooa 249 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 249 8 lipocalin-2 lipocalin-2 NNP work_7n2voym2grhjpocfumswh5tooa 249 9 , , , work_7n2voym2grhjpocfumswh5tooa 249 10 LCN2 LCN2 NNP work_7n2voym2grhjpocfumswh5tooa 249 11 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 249 12 may may MD work_7n2voym2grhjpocfumswh5tooa 249 13 modulate modulate VB work_7n2voym2grhjpocfumswh5tooa 249 14 inflam- inflam- JJ work_7n2voym2grhjpocfumswh5tooa 249 15 mation mation NN work_7n2voym2grhjpocfumswh5tooa 249 16 in in IN work_7n2voym2grhjpocfumswh5tooa 249 17 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 249 18 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 249 19 by by IN work_7n2voym2grhjpocfumswh5tooa 249 20 promoting promote VBG work_7n2voym2grhjpocfumswh5tooa 249 21 cell cell NN work_7n2voym2grhjpocfumswh5tooa 249 22 survival survival NN work_7n2voym2grhjpocfumswh5tooa 249 23 responses response NNS work_7n2voym2grhjpocfumswh5tooa 249 24 and and CC work_7n2voym2grhjpocfumswh5tooa 249 25 regulating regulate VBG work_7n2voym2grhjpocfumswh5tooa 249 26 the the DT work_7n2voym2grhjpocfumswh5tooa 249 27 production production NN work_7n2voym2grhjpocfumswh5tooa 249 28 of of IN work_7n2voym2grhjpocfumswh5tooa 249 29 inflammatory inflammatory JJ work_7n2voym2grhjpocfumswh5tooa 249 30 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 249 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 249 32 Parmar Parmar NNP work_7n2voym2grhjpocfumswh5tooa 249 33 et et NNP work_7n2voym2grhjpocfumswh5tooa 249 34   _SP work_7n2voym2grhjpocfumswh5tooa 249 35 al al NNP work_7n2voym2grhjpocfumswh5tooa 249 36 . . . work_7n2voym2grhjpocfumswh5tooa 250 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 250 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 250 3 . . . work_7n2voym2grhjpocfumswh5tooa 251 1 Additionally additionally RB work_7n2voym2grhjpocfumswh5tooa 251 2 , , , work_7n2voym2grhjpocfumswh5tooa 251 3 tear tear NN work_7n2voym2grhjpocfumswh5tooa 251 4 lipocalins lipocalin NNS work_7n2voym2grhjpocfumswh5tooa 251 5 constitute constitute VBP work_7n2voym2grhjpocfumswh5tooa 251 6 a a DT work_7n2voym2grhjpocfumswh5tooa 251 7 large large JJ work_7n2voym2grhjpocfumswh5tooa 251 8 group group NN work_7n2voym2grhjpocfumswh5tooa 251 9 of of IN work_7n2voym2grhjpocfumswh5tooa 251 10 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 251 11 - - HYPH work_7n2voym2grhjpocfumswh5tooa 251 12 binding bind VBG work_7n2voym2grhjpocfumswh5tooa 251 13 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 251 14 in in IN work_7n2voym2grhjpocfumswh5tooa 251 15 tears tear NNS work_7n2voym2grhjpocfumswh5tooa 251 16 and and CC work_7n2voym2grhjpocfumswh5tooa 251 17 may may MD work_7n2voym2grhjpocfumswh5tooa 251 18 serve serve VB work_7n2voym2grhjpocfumswh5tooa 251 19 as as IN work_7n2voym2grhjpocfumswh5tooa 251 20 potential potential JJ work_7n2voym2grhjpocfumswh5tooa 251 21 biomarkers biomarker NNS work_7n2voym2grhjpocfumswh5tooa 251 22 for for IN work_7n2voym2grhjpocfumswh5tooa 251 23 diabetic diabetic JJ work_7n2voym2grhjpocfumswh5tooa 251 24 retin- retin- NNP work_7n2voym2grhjpocfumswh5tooa 251 25 opathy opathy NNP work_7n2voym2grhjpocfumswh5tooa 251 26 and and CC work_7n2voym2grhjpocfumswh5tooa 251 27 Alzheimer Alzheimer NNP work_7n2voym2grhjpocfumswh5tooa 251 28 ’s ’s POS work_7n2voym2grhjpocfumswh5tooa 251 29 disease disease NN work_7n2voym2grhjpocfumswh5tooa 251 30 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 251 31 Kallo Kallo NNP work_7n2voym2grhjpocfumswh5tooa 251 32 et et FW work_7n2voym2grhjpocfumswh5tooa 251 33   _SP work_7n2voym2grhjpocfumswh5tooa 251 34 al al NNP work_7n2voym2grhjpocfumswh5tooa 251 35 . . . work_7n2voym2grhjpocfumswh5tooa 252 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 252 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 252 3 Wang Wang NNP work_7n2voym2grhjpocfumswh5tooa 252 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 252 5   _SP work_7n2voym2grhjpocfumswh5tooa 252 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 252 7 . . . work_7n2voym2grhjpocfumswh5tooa 253 1 2017 2017 CD work_7n2voym2grhjpocfumswh5tooa 253 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 253 3 . . . work_7n2voym2grhjpocfumswh5tooa 254 1 DLGAP1 DLGAP1 NNP work_7n2voym2grhjpocfumswh5tooa 254 2 encodes encode VBZ work_7n2voym2grhjpocfumswh5tooa 254 3 a a DT work_7n2voym2grhjpocfumswh5tooa 254 4 guanylate guanylate NN work_7n2voym2grhjpocfumswh5tooa 254 5 kinase kinase NN work_7n2voym2grhjpocfumswh5tooa 254 6 - - , work_7n2voym2grhjpocfumswh5tooa 254 7 associ- associ- NN work_7n2voym2grhjpocfumswh5tooa 254 8 ated ated JJ work_7n2voym2grhjpocfumswh5tooa 254 9 protein protein NN work_7n2voym2grhjpocfumswh5tooa 254 10 involved involve VBN work_7n2voym2grhjpocfumswh5tooa 254 11 in in IN work_7n2voym2grhjpocfumswh5tooa 254 12 protein protein NN work_7n2voym2grhjpocfumswh5tooa 254 13 – – : work_7n2voym2grhjpocfumswh5tooa 254 14 protein protein NN work_7n2voym2grhjpocfumswh5tooa 254 15 interactions interaction NNS work_7n2voym2grhjpocfumswh5tooa 254 16 with with IN work_7n2voym2grhjpocfumswh5tooa 254 17 scaffold scaffold JJ work_7n2voym2grhjpocfumswh5tooa 254 18 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 254 19 in in IN work_7n2voym2grhjpocfumswh5tooa 254 20 the the DT work_7n2voym2grhjpocfumswh5tooa 254 21 post post JJ work_7n2voym2grhjpocfumswh5tooa 254 22 - - JJ work_7n2voym2grhjpocfumswh5tooa 254 23 synaptic synaptic JJ work_7n2voym2grhjpocfumswh5tooa 254 24 density density NN work_7n2voym2grhjpocfumswh5tooa 254 25 of of IN work_7n2voym2grhjpocfumswh5tooa 254 26 excitatory excitatory NN work_7n2voym2grhjpocfumswh5tooa 254 27 synapses synapsis NNS work_7n2voym2grhjpocfumswh5tooa 254 28 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 254 29 Feng Feng NNP work_7n2voym2grhjpocfumswh5tooa 254 30 and and CC work_7n2voym2grhjpocfumswh5tooa 254 31 Zhang Zhang NNP work_7n2voym2grhjpocfumswh5tooa 254 32 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 254 33 ; ; : work_7n2voym2grhjpocfumswh5tooa 254 34 Li Li NNP work_7n2voym2grhjpocfumswh5tooa 254 35 et et NNP work_7n2voym2grhjpocfumswh5tooa 254 36   _SP work_7n2voym2grhjpocfumswh5tooa 254 37 al al NNP work_7n2voym2grhjpocfumswh5tooa 254 38 . . . work_7n2voym2grhjpocfumswh5tooa 255 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 255 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 255 3 . . . work_7n2voym2grhjpocfumswh5tooa 256 1 DLGAP1 DLGAP1 NNP work_7n2voym2grhjpocfumswh5tooa 256 2 also also RB work_7n2voym2grhjpocfumswh5tooa 256 3 is be VBZ work_7n2voym2grhjpocfumswh5tooa 256 4 one one CD work_7n2voym2grhjpocfumswh5tooa 256 5 of of IN work_7n2voym2grhjpocfumswh5tooa 256 6 nine nine CD work_7n2voym2grhjpocfumswh5tooa 256 7 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 256 8 located locate VBN work_7n2voym2grhjpocfumswh5tooa 256 9 in in IN work_7n2voym2grhjpocfumswh5tooa 256 10 a a DT work_7n2voym2grhjpocfumswh5tooa 256 11 chromosomal chromosomal JJ work_7n2voym2grhjpocfumswh5tooa 256 12 region region NN work_7n2voym2grhjpocfumswh5tooa 256 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 256 14 myopia-2 myopia-2 NNP work_7n2voym2grhjpocfumswh5tooa 256 15 , , , work_7n2voym2grhjpocfumswh5tooa 256 16 MYP2 MYP2 NNP work_7n2voym2grhjpocfumswh5tooa 256 17 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 256 18 that that WDT work_7n2voym2grhjpocfumswh5tooa 256 19 demonstrated demonstrate VBD work_7n2voym2grhjpocfumswh5tooa 256 20 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 256 21 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 256 22 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 256 23 with with IN work_7n2voym2grhjpocfumswh5tooa 256 24 autosomal autosomal JJ work_7n2voym2grhjpocfumswh5tooa 256 25 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 256 26 high high JJ work_7n2voym2grhjpocfumswh5tooa 256 27 myopia myopia NNP work_7n2voym2grhjpocfumswh5tooa 256 28 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 256 29 Scavello Scavello NNP work_7n2voym2grhjpocfumswh5tooa 256 30 et et NNP work_7n2voym2grhjpocfumswh5tooa 256 31   _SP work_7n2voym2grhjpocfumswh5tooa 256 32 al al NNP work_7n2voym2grhjpocfumswh5tooa 256 33 . . . work_7n2voym2grhjpocfumswh5tooa 257 1 2005 2005 LS work_7n2voym2grhjpocfumswh5tooa 257 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 257 3 Young Young NNP work_7n2voym2grhjpocfumswh5tooa 257 4 et et NN work_7n2voym2grhjpocfumswh5tooa 257 5   _SP work_7n2voym2grhjpocfumswh5tooa 257 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 257 7 . . . work_7n2voym2grhjpocfumswh5tooa 258 1 1998 1998 CD work_7n2voym2grhjpocfumswh5tooa 258 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 258 3 . . . work_7n2voym2grhjpocfumswh5tooa 259 1 The the DT work_7n2voym2grhjpocfumswh5tooa 259 2 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 259 3 encoded encode VBN work_7n2voym2grhjpocfumswh5tooa 259 4 by by IN work_7n2voym2grhjpocfumswh5tooa 259 5 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 259 6 and and CC work_7n2voym2grhjpocfumswh5tooa 259 7 lipocalin lipocalin NNP work_7n2voym2grhjpocfumswh5tooa 259 8 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 259 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 259 10 LCN1 LCN1 NNP work_7n2voym2grhjpocfumswh5tooa 259 11 and and CC work_7n2voym2grhjpocfumswh5tooa 259 12 LCN2 LCN2 NNP work_7n2voym2grhjpocfumswh5tooa 259 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 259 14 were be VBD work_7n2voym2grhjpocfumswh5tooa 259 15 also also RB work_7n2voym2grhjpocfumswh5tooa 259 16 found find VBN work_7n2voym2grhjpocfumswh5tooa 259 17 to to TO work_7n2voym2grhjpocfumswh5tooa 259 18 be be VB work_7n2voym2grhjpocfumswh5tooa 259 19 expressed express VBN work_7n2voym2grhjpocfumswh5tooa 259 20 in in IN work_7n2voym2grhjpocfumswh5tooa 259 21 the the DT work_7n2voym2grhjpocfumswh5tooa 259 22 human human JJ work_7n2voym2grhjpocfumswh5tooa 259 23 choroid choroid JJ work_7n2voym2grhjpocfumswh5tooa 259 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 259 25 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 259 26 pigment pigment NN work_7n2voym2grhjpocfumswh5tooa 259 27 epithelial epithelial JJ work_7n2voym2grhjpocfumswh5tooa 259 28 complex complex NN work_7n2voym2grhjpocfumswh5tooa 259 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 259 30 Skeie Skeie NNP work_7n2voym2grhjpocfumswh5tooa 259 31 and and CC work_7n2voym2grhjpocfumswh5tooa 259 32 Mahajan Mahajan NNP work_7n2voym2grhjpocfumswh5tooa 259 33 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 259 34 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 259 35 . . . work_7n2voym2grhjpocfumswh5tooa 260 1 The the DT work_7n2voym2grhjpocfumswh5tooa 260 2 variant variant NN work_7n2voym2grhjpocfumswh5tooa 260 3 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 260 4 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 260 5 in in IN work_7n2voym2grhjpocfumswh5tooa 260 6 DLGAP1 dlgap1 NN work_7n2voym2grhjpocfumswh5tooa 260 7 is be VBZ work_7n2voym2grhjpocfumswh5tooa 260 8 about about RB work_7n2voym2grhjpocfumswh5tooa 260 9 3 3 CD work_7n2voym2grhjpocfumswh5tooa 260 10   _SP work_7n2voym2grhjpocfumswh5tooa 260 11 MB MB NNS work_7n2voym2grhjpocfumswh5tooa 260 12 away away RB work_7n2voym2grhjpocfumswh5tooa 260 13 from from IN work_7n2voym2grhjpocfumswh5tooa 260 14 an an DT work_7n2voym2grhjpocfumswh5tooa 260 15 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 260 16 variant variant NN work_7n2voym2grhjpocfumswh5tooa 260 17 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 260 18 rs9973159 rs9973159 FW work_7n2voym2grhjpocfumswh5tooa 260 19 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 260 20 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 260 21 in in IN work_7n2voym2grhjpocfumswh5tooa 260 22 a a DT work_7n2voym2grhjpocfumswh5tooa 260 23 genome genome RB work_7n2voym2grhjpocfumswh5tooa 260 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 260 25 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 260 26 association association NN work_7n2voym2grhjpocfumswh5tooa 260 27 study study NN work_7n2voym2grhjpocfumswh5tooa 260 28 accounting account VBG work_7n2voym2grhjpocfumswh5tooa 260 29 for for IN work_7n2voym2grhjpocfumswh5tooa 260 30 age age NN work_7n2voym2grhjpocfumswh5tooa 260 31 - - HYPH work_7n2voym2grhjpocfumswh5tooa 260 32 stratified stratify VBN work_7n2voym2grhjpocfumswh5tooa 260 33 effects effect NNS work_7n2voym2grhjpocfumswh5tooa 260 34 in in IN work_7n2voym2grhjpocfumswh5tooa 260 35 the the DT work_7n2voym2grhjpocfumswh5tooa 260 36 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 260 37 data datum NNS work_7n2voym2grhjpocfumswh5tooa 260 38 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 260 39 Winkler Winkler NNP work_7n2voym2grhjpocfumswh5tooa 260 40 et et NNP work_7n2voym2grhjpocfumswh5tooa 260 41   _SP work_7n2voym2grhjpocfumswh5tooa 260 42 al al NNP work_7n2voym2grhjpocfumswh5tooa 260 43 . . . work_7n2voym2grhjpocfumswh5tooa 261 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 261 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 261 3 . . . work_7n2voym2grhjpocfumswh5tooa 262 1 CGRRF1 CGRRF1 NNP work_7n2voym2grhjpocfumswh5tooa 262 2 encodes encode VBZ work_7n2voym2grhjpocfumswh5tooa 262 3 a a DT work_7n2voym2grhjpocfumswh5tooa 262 4 cell cell NN work_7n2voym2grhjpocfumswh5tooa 262 5 growth growth NN work_7n2voym2grhjpocfumswh5tooa 262 6 regulator regulator NN work_7n2voym2grhjpocfumswh5tooa 262 7 that that WDT work_7n2voym2grhjpocfumswh5tooa 262 8 has have VBZ work_7n2voym2grhjpocfumswh5tooa 262 9 been be VBN work_7n2voym2grhjpocfumswh5tooa 262 10 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 262 11 with with IN work_7n2voym2grhjpocfumswh5tooa 262 12 eye eye NN work_7n2voym2grhjpocfumswh5tooa 262 13 morphology morphology NN work_7n2voym2grhjpocfumswh5tooa 262 14 in in IN work_7n2voym2grhjpocfumswh5tooa 262 15 humans human NNS work_7n2voym2grhjpocfumswh5tooa 262 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 262 17 Lee Lee NNP work_7n2voym2grhjpocfumswh5tooa 262 18 et et NNP work_7n2voym2grhjpocfumswh5tooa 262 19   _SP work_7n2voym2grhjpocfumswh5tooa 262 20 al al NNP work_7n2voym2grhjpocfumswh5tooa 262 21 . . . work_7n2voym2grhjpocfumswh5tooa 263 1 2017 2017 CD work_7n2voym2grhjpocfumswh5tooa 263 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 263 3 . . . work_7n2voym2grhjpocfumswh5tooa 264 1 While while IN work_7n2voym2grhjpocfumswh5tooa 264 2 the the DT work_7n2voym2grhjpocfumswh5tooa 264 3 protein protein NN work_7n2voym2grhjpocfumswh5tooa 264 4 product product NN work_7n2voym2grhjpocfumswh5tooa 264 5 of of IN work_7n2voym2grhjpocfumswh5tooa 264 6 this this DT work_7n2voym2grhjpocfumswh5tooa 264 7 gene gene NN work_7n2voym2grhjpocfumswh5tooa 264 8 is be VBZ work_7n2voym2grhjpocfumswh5tooa 264 9 not not RB work_7n2voym2grhjpocfumswh5tooa 264 10 well well RB work_7n2voym2grhjpocfumswh5tooa 264 11 - - HYPH work_7n2voym2grhjpocfumswh5tooa 264 12 characterized characterize VBN work_7n2voym2grhjpocfumswh5tooa 264 13 , , , work_7n2voym2grhjpocfumswh5tooa 264 14 it -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 264 15 has have VBZ work_7n2voym2grhjpocfumswh5tooa 264 16 proposed propose VBN work_7n2voym2grhjpocfumswh5tooa 264 17 as as IN work_7n2voym2grhjpocfumswh5tooa 264 18 a a DT work_7n2voym2grhjpocfumswh5tooa 264 19 modula- modula- JJ work_7n2voym2grhjpocfumswh5tooa 264 20 tor tor NN work_7n2voym2grhjpocfumswh5tooa 264 21 of of IN work_7n2voym2grhjpocfumswh5tooa 264 22 Evi Evi NNP work_7n2voym2grhjpocfumswh5tooa 264 23 , , , work_7n2voym2grhjpocfumswh5tooa 264 24 which which WDT work_7n2voym2grhjpocfumswh5tooa 264 25 is be VBZ work_7n2voym2grhjpocfumswh5tooa 264 26 a a DT work_7n2voym2grhjpocfumswh5tooa 264 27 transmembrane transmembrane JJ work_7n2voym2grhjpocfumswh5tooa 264 28 protein protein NN work_7n2voym2grhjpocfumswh5tooa 264 29 involved involve VBN work_7n2voym2grhjpocfumswh5tooa 264 30 in in IN work_7n2voym2grhjpocfumswh5tooa 264 31 Wnt Wnt NNP work_7n2voym2grhjpocfumswh5tooa 264 32 protein protein NN work_7n2voym2grhjpocfumswh5tooa 264 33 secretion secretion NN work_7n2voym2grhjpocfumswh5tooa 264 34 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 264 35 Glaeser Glaeser NNP work_7n2voym2grhjpocfumswh5tooa 264 36 et et NNP work_7n2voym2grhjpocfumswh5tooa 264 37   _SP work_7n2voym2grhjpocfumswh5tooa 264 38 al al NNP work_7n2voym2grhjpocfumswh5tooa 264 39 . . . work_7n2voym2grhjpocfumswh5tooa 265 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 265 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 265 3 . . . work_7n2voym2grhjpocfumswh5tooa 266 1 Canonical Canonical NNP work_7n2voym2grhjpocfumswh5tooa 266 2 Wnt Wnt NNP work_7n2voym2grhjpocfumswh5tooa 266 3 signaling signaling NN work_7n2voym2grhjpocfumswh5tooa 266 4 has have VBZ work_7n2voym2grhjpocfumswh5tooa 266 5 been be VBN work_7n2voym2grhjpocfumswh5tooa 266 6 implicated implicate VBN work_7n2voym2grhjpocfumswh5tooa 266 7 in in IN work_7n2voym2grhjpocfumswh5tooa 266 8 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 266 9 inflammation inflammation NN work_7n2voym2grhjpocfumswh5tooa 266 10 and and CC work_7n2voym2grhjpocfumswh5tooa 266 11 may may MD work_7n2voym2grhjpocfumswh5tooa 266 12 have have VB work_7n2voym2grhjpocfumswh5tooa 266 13 a a DT work_7n2voym2grhjpocfumswh5tooa 266 14 role role NN work_7n2voym2grhjpocfumswh5tooa 266 15 in in IN work_7n2voym2grhjpocfumswh5tooa 266 16 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 266 17 pathology pathology NN work_7n2voym2grhjpocfumswh5tooa 266 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 266 19 Zhou Zhou NNP work_7n2voym2grhjpocfumswh5tooa 266 20 et et FW work_7n2voym2grhjpocfumswh5tooa 266 21   _SP work_7n2voym2grhjpocfumswh5tooa 266 22 al al NNP work_7n2voym2grhjpocfumswh5tooa 266 23 . . . work_7n2voym2grhjpocfumswh5tooa 267 1 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 267 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 267 3 . . . work_7n2voym2grhjpocfumswh5tooa 268 1 Addi- Addi- NNP work_7n2voym2grhjpocfumswh5tooa 268 2 tional tional JJ work_7n2voym2grhjpocfumswh5tooa 268 3 studies study NNS work_7n2voym2grhjpocfumswh5tooa 268 4 will will MD work_7n2voym2grhjpocfumswh5tooa 268 5 be be VB work_7n2voym2grhjpocfumswh5tooa 268 6 required require VBN work_7n2voym2grhjpocfumswh5tooa 268 7 to to TO work_7n2voym2grhjpocfumswh5tooa 268 8 elucidate elucidate VB work_7n2voym2grhjpocfumswh5tooa 268 9 the the DT work_7n2voym2grhjpocfumswh5tooa 268 10 roles role NNS work_7n2voym2grhjpocfumswh5tooa 268 11 these these DT work_7n2voym2grhjpocfumswh5tooa 268 12 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 268 13 might may MD work_7n2voym2grhjpocfumswh5tooa 268 14 have have VB work_7n2voym2grhjpocfumswh5tooa 268 15 in in IN work_7n2voym2grhjpocfumswh5tooa 268 16 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 268 17 etiology etiology NN work_7n2voym2grhjpocfumswh5tooa 268 18 . . . work_7n2voym2grhjpocfumswh5tooa 269 1 In in IN work_7n2voym2grhjpocfumswh5tooa 269 2 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 269 3 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 269 4 screens screen NNS work_7n2voym2grhjpocfumswh5tooa 269 5 in in IN work_7n2voym2grhjpocfumswh5tooa 269 6 the the DT work_7n2voym2grhjpocfumswh5tooa 269 7 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 269 8 , , , work_7n2voym2grhjpocfumswh5tooa 269 9 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 269 10 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 269 11 a a DT work_7n2voym2grhjpocfumswh5tooa 269 12 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 269 13 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 269 14 locus locus NN work_7n2voym2grhjpocfumswh5tooa 269 15 for for IN work_7n2voym2grhjpocfumswh5tooa 269 16 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 269 17 on on IN work_7n2voym2grhjpocfumswh5tooa 269 18 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 269 19 8q21.11–q21.13 8q21.11–q21.13 NNP work_7n2voym2grhjpocfumswh5tooa 269 20 under under IN work_7n2voym2grhjpocfumswh5tooa 269 21 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 269 22 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 269 23 model model NN work_7n2voym2grhjpocfumswh5tooa 269 24 . . . work_7n2voym2grhjpocfumswh5tooa 270 1 This this DT work_7n2voym2grhjpocfumswh5tooa 270 2 region region NN work_7n2voym2grhjpocfumswh5tooa 270 3 does do VBZ work_7n2voym2grhjpocfumswh5tooa 270 4 not not RB work_7n2voym2grhjpocfumswh5tooa 270 5 overlap overlap VB work_7n2voym2grhjpocfumswh5tooa 270 6 with with IN work_7n2voym2grhjpocfumswh5tooa 270 7 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 270 8 loci loci NN work_7n2voym2grhjpocfumswh5tooa 270 9 previously previously RB work_7n2voym2grhjpocfumswh5tooa 270 10 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 270 11 with with IN work_7n2voym2grhjpocfumswh5tooa 270 12 genome genome NN work_7n2voym2grhjpocfumswh5tooa 270 13 - - HYPH work_7n2voym2grhjpocfumswh5tooa 270 14 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 270 15 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 270 16 screens screen NNS work_7n2voym2grhjpocfumswh5tooa 270 17 , , , work_7n2voym2grhjpocfumswh5tooa 270 18 which which WDT work_7n2voym2grhjpocfumswh5tooa 270 19 occur occur VBP work_7n2voym2grhjpocfumswh5tooa 270 20 on on IN work_7n2voym2grhjpocfumswh5tooa 270 21 chromosomes chromosome NNS work_7n2voym2grhjpocfumswh5tooa 270 22 8p21 8p21 CD work_7n2voym2grhjpocfumswh5tooa 270 23 and and CC work_7n2voym2grhjpocfumswh5tooa 270 24 8q11.2 8q11.2 CD work_7n2voym2grhjpocfumswh5tooa 270 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 270 26 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 270 27 et et NNP work_7n2voym2grhjpocfumswh5tooa 270 28   _SP work_7n2voym2grhjpocfumswh5tooa 270 29 al al NNP work_7n2voym2grhjpocfumswh5tooa 270 30 . . . work_7n2voym2grhjpocfumswh5tooa 271 1 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 271 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 271 3 . . . work_7n2voym2grhjpocfumswh5tooa 272 1 In in IN work_7n2voym2grhjpocfumswh5tooa 272 2 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 272 3 recent recent JJ work_7n2voym2grhjpocfumswh5tooa 272 4 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 272 5 , , , work_7n2voym2grhjpocfumswh5tooa 272 6 the the DT work_7n2voym2grhjpocfumswh5tooa 272 7 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 272 8 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 272 9 a a DT work_7n2voym2grhjpocfumswh5tooa 272 10 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 272 11 locus locus NN work_7n2voym2grhjpocfumswh5tooa 272 12 for for IN work_7n2voym2grhjpocfumswh5tooa 272 13 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 272 14 on on IN work_7n2voym2grhjpocfumswh5tooa 272 15 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 272 16 8p21.3 8p21.3 CD work_7n2voym2grhjpocfumswh5tooa 272 17 with with IN work_7n2voym2grhjpocfumswh5tooa 272 18 the the DT work_7n2voym2grhjpocfumswh5tooa 272 19 most most RBS work_7n2voym2grhjpocfumswh5tooa 272 20 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 272 21 signals signal NNS work_7n2voym2grhjpocfumswh5tooa 272 22 com- com- NN work_7n2voym2grhjpocfumswh5tooa 272 23 ing e VBG work_7n2voym2grhjpocfumswh5tooa 272 24 from from IN work_7n2voym2grhjpocfumswh5tooa 272 25 rs13278062 rs13278062 NNP work_7n2voym2grhjpocfumswh5tooa 272 26 and and CC work_7n2voym2grhjpocfumswh5tooa 272 27 rs79037040 rs79037040 NNP work_7n2voym2grhjpocfumswh5tooa 272 28 in in IN work_7n2voym2grhjpocfumswh5tooa 272 29 the the DT work_7n2voym2grhjpocfumswh5tooa 272 30 TNFRSF10A/ tnfrsf10a/ NN work_7n2voym2grhjpocfumswh5tooa 272 31 LOC389641 LOC389641 NNP work_7n2voym2grhjpocfumswh5tooa 272 32 and and CC work_7n2voym2grhjpocfumswh5tooa 272 33 TNFRSF10A TNFRSF10A NNP work_7n2voym2grhjpocfumswh5tooa 272 34 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 272 35 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 272 36 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 272 37 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 272 38 , , , work_7n2voym2grhjpocfumswh5tooa 272 39 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 272 40 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 272 41 . . . work_7n2voym2grhjpocfumswh5tooa 273 1 In in IN work_7n2voym2grhjpocfumswh5tooa 273 2 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 273 3 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 273 4 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 273 5 of of IN work_7n2voym2grhjpocfumswh5tooa 273 6 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 273 7 8 8 CD work_7n2voym2grhjpocfumswh5tooa 273 8 , , , work_7n2voym2grhjpocfumswh5tooa 273 9 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 273 10 observed observe VBD work_7n2voym2grhjpocfumswh5tooa 273 11 a a DT work_7n2voym2grhjpocfumswh5tooa 273 12 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 273 13 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 273 14 score score NN work_7n2voym2grhjpocfumswh5tooa 273 15 of of IN work_7n2voym2grhjpocfumswh5tooa 273 16 0.67 0.67 CD work_7n2voym2grhjpocfumswh5tooa 273 17 in in IN work_7n2voym2grhjpocfumswh5tooa 273 18 this this DT work_7n2voym2grhjpocfumswh5tooa 273 19 gene gene NN work_7n2voym2grhjpocfumswh5tooa 273 20 region region NN work_7n2voym2grhjpocfumswh5tooa 273 21 under under IN work_7n2voym2grhjpocfumswh5tooa 273 22 the the DT work_7n2voym2grhjpocfumswh5tooa 273 23 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 273 24 model model NN work_7n2voym2grhjpocfumswh5tooa 273 25 with with IN work_7n2voym2grhjpocfumswh5tooa 273 26 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 273 27 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 273 28 frequency frequency NN work_7n2voym2grhjpocfumswh5tooa 273 29 of of IN work_7n2voym2grhjpocfumswh5tooa 273 30 0.10 0.10 CD work_7n2voym2grhjpocfumswh5tooa 273 31 . . . work_7n2voym2grhjpocfumswh5tooa 274 1 The the DT work_7n2voym2grhjpocfumswh5tooa 274 2 strongest strong JJS work_7n2voym2grhjpocfumswh5tooa 274 3 single single JJ work_7n2voym2grhjpocfumswh5tooa 274 4 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 274 5 p p NN work_7n2voym2grhjpocfumswh5tooa 274 6 value value NN work_7n2voym2grhjpocfumswh5tooa 274 7 observed observe VBN work_7n2voym2grhjpocfumswh5tooa 274 8 by by IN work_7n2voym2grhjpocfumswh5tooa 274 9 the the DT work_7n2voym2grhjpocfumswh5tooa 274 10 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 274 11 in in IN work_7n2voym2grhjpocfumswh5tooa 274 12 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 274 13 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 274 14 region region NN work_7n2voym2grhjpocfumswh5tooa 274 15 was be VBD work_7n2voym2grhjpocfumswh5tooa 274 16 6.54 6.54 CD work_7n2voym2grhjpocfumswh5tooa 274 17 × × CD work_7n2voym2grhjpocfumswh5tooa 274 18 10−4 10−4 CD work_7n2voym2grhjpocfumswh5tooa 274 19 , , , work_7n2voym2grhjpocfumswh5tooa 274 20 which which WDT work_7n2voym2grhjpocfumswh5tooa 274 21 does do VBZ work_7n2voym2grhjpocfumswh5tooa 274 22 not not RB work_7n2voym2grhjpocfumswh5tooa 274 23 reach reach VB work_7n2voym2grhjpocfumswh5tooa 274 24 classical classical JJ work_7n2voym2grhjpocfumswh5tooa 274 25 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 274 26 significance significance NN work_7n2voym2grhjpocfumswh5tooa 274 27 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 274 28 p p NN work_7n2voym2grhjpocfumswh5tooa 274 29 < < XX work_7n2voym2grhjpocfumswh5tooa 274 30 5 5 CD work_7n2voym2grhjpocfumswh5tooa 274 31 × × CD work_7n2voym2grhjpocfumswh5tooa 274 32 10−8 10−8 CD work_7n2voym2grhjpocfumswh5tooa 274 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 274 34 . . . work_7n2voym2grhjpocfumswh5tooa 275 1 Common common JJ work_7n2voym2grhjpocfumswh5tooa 275 2 vari- vari- JJ work_7n2voym2grhjpocfumswh5tooa 275 3 ants ant NNS work_7n2voym2grhjpocfumswh5tooa 275 4 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 275 5 with with IN work_7n2voym2grhjpocfumswh5tooa 275 6 optic optic JJ work_7n2voym2grhjpocfumswh5tooa 275 7 nerve nerve NN work_7n2voym2grhjpocfumswh5tooa 275 8 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 275 9 in in IN work_7n2voym2grhjpocfumswh5tooa 275 10 glaucoma glaucoma NN work_7n2voym2grhjpocfumswh5tooa 275 11 have have VBP work_7n2voym2grhjpocfumswh5tooa 275 12 also also RB work_7n2voym2grhjpocfumswh5tooa 275 13 been be VBN work_7n2voym2grhjpocfumswh5tooa 275 14 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 275 15 in in IN work_7n2voym2grhjpocfumswh5tooa 275 16 8q22 8q22 CD work_7n2voym2grhjpocfumswh5tooa 275 17 , , , work_7n2voym2grhjpocfumswh5tooa 275 18 which which WDT work_7n2voym2grhjpocfumswh5tooa 275 19 is be VBZ work_7n2voym2grhjpocfumswh5tooa 275 20 near near IN work_7n2voym2grhjpocfumswh5tooa 275 21 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 275 22 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 275 23 region region NN work_7n2voym2grhjpocfumswh5tooa 275 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 275 25 Wiggs Wiggs NNP work_7n2voym2grhjpocfumswh5tooa 275 26 et et NNP work_7n2voym2grhjpocfumswh5tooa 275 27   _SP work_7n2voym2grhjpocfumswh5tooa 275 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 275 29 . . . work_7n2voym2grhjpocfumswh5tooa 276 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 276 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 276 3 . . . work_7n2voym2grhjpocfumswh5tooa 277 1 Based base VBN work_7n2voym2grhjpocfumswh5tooa 277 2 on on IN work_7n2voym2grhjpocfumswh5tooa 277 3 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 277 4 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 277 5 enrichment enrichment NN work_7n2voym2grhjpocfumswh5tooa 277 6 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 277 7 with with IN work_7n2voym2grhjpocfumswh5tooa 277 8 ClueGO ClueGO NNP work_7n2voym2grhjpocfumswh5tooa 277 9 , , , work_7n2voym2grhjpocfumswh5tooa 277 10 the the DT work_7n2voym2grhjpocfumswh5tooa 277 11 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 277 12 from from IN work_7n2voym2grhjpocfumswh5tooa 277 13 the the DT work_7n2voym2grhjpocfumswh5tooa 277 14 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 277 15 support support NN work_7n2voym2grhjpocfumswh5tooa 277 16 interval interval NN work_7n2voym2grhjpocfumswh5tooa 277 17 of of IN work_7n2voym2grhjpocfumswh5tooa 277 18 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 277 19 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 277 20 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 277 21 region region NN work_7n2voym2grhjpocfumswh5tooa 277 22 on on IN work_7n2voym2grhjpocfumswh5tooa 277 23 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 277 24 8q21.11–q21.13 8q21.11–q21.13 NNP work_7n2voym2grhjpocfumswh5tooa 277 25 have have VBP work_7n2voym2grhjpocfumswh5tooa 277 26 func- func- JJ work_7n2voym2grhjpocfumswh5tooa 277 27 tional tional JJ work_7n2voym2grhjpocfumswh5tooa 277 28 annotations annotation NNS work_7n2voym2grhjpocfumswh5tooa 277 29 related relate VBN work_7n2voym2grhjpocfumswh5tooa 277 30 to to IN work_7n2voym2grhjpocfumswh5tooa 277 31 triglyceride triglyceride VB work_7n2voym2grhjpocfumswh5tooa 277 32 catabolic catabolic JJ work_7n2voym2grhjpocfumswh5tooa 277 33 processes process NNS work_7n2voym2grhjpocfumswh5tooa 277 34 and and CC work_7n2voym2grhjpocfumswh5tooa 277 35 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 277 36 acid acid NN work_7n2voym2grhjpocfumswh5tooa 277 37 binding bind VBG work_7n2voym2grhjpocfumswh5tooa 277 38 . . . work_7n2voym2grhjpocfumswh5tooa 278 1 Components component NNS work_7n2voym2grhjpocfumswh5tooa 278 2 of of IN work_7n2voym2grhjpocfumswh5tooa 278 3 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 278 4 metabolism metabolism NN work_7n2voym2grhjpocfumswh5tooa 278 5 have have VBP work_7n2voym2grhjpocfumswh5tooa 278 6 been be VBN work_7n2voym2grhjpocfumswh5tooa 278 7 previously previously RB work_7n2voym2grhjpocfumswh5tooa 278 8 implicated implicate VBN work_7n2voym2grhjpocfumswh5tooa 278 9 in in IN work_7n2voym2grhjpocfumswh5tooa 278 10 the the DT work_7n2voym2grhjpocfumswh5tooa 278 11 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 278 12 etiology etiology NN work_7n2voym2grhjpocfumswh5tooa 278 13 and and CC work_7n2voym2grhjpocfumswh5tooa 278 14 pathophysiology pathophysiology NN work_7n2voym2grhjpocfumswh5tooa 278 15 of of IN work_7n2voym2grhjpocfumswh5tooa 278 16 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 278 17 . . . work_7n2voym2grhjpocfumswh5tooa 279 1 Lipids lipid NNS work_7n2voym2grhjpocfumswh5tooa 279 2 comprise comprise VBP work_7n2voym2grhjpocfumswh5tooa 279 3 about about RB work_7n2voym2grhjpocfumswh5tooa 279 4 40 40 CD work_7n2voym2grhjpocfumswh5tooa 279 5 % % NN work_7n2voym2grhjpocfumswh5tooa 279 6 of of IN work_7n2voym2grhjpocfumswh5tooa 279 7 the the DT work_7n2voym2grhjpocfumswh5tooa 279 8 composition composition NN work_7n2voym2grhjpocfumswh5tooa 279 9 of of IN work_7n2voym2grhjpocfumswh5tooa 279 10 drusen drusen NNP work_7n2voym2grhjpocfumswh5tooa 279 11 , , , work_7n2voym2grhjpocfumswh5tooa 279 12 which which WDT work_7n2voym2grhjpocfumswh5tooa 279 13 are be VBP work_7n2voym2grhjpocfumswh5tooa 279 14 a a DT work_7n2voym2grhjpocfumswh5tooa 279 15 hallmark hallmark NN work_7n2voym2grhjpocfumswh5tooa 279 16 of of IN work_7n2voym2grhjpocfumswh5tooa 279 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 279 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 279 19 Wang Wang NNP work_7n2voym2grhjpocfumswh5tooa 279 20 et et NNP work_7n2voym2grhjpocfumswh5tooa 279 21     _SP work_7n2voym2grhjpocfumswh5tooa 279 22 al al NNP work_7n2voym2grhjpocfumswh5tooa 279 23 . . . work_7n2voym2grhjpocfumswh5tooa 280 1 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 280 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 280 3 . . . work_7n2voym2grhjpocfumswh5tooa 281 1 In in IN work_7n2voym2grhjpocfumswh5tooa 281 2 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 281 3 most most RBS work_7n2voym2grhjpocfumswh5tooa 281 4 recent recent JJ work_7n2voym2grhjpocfumswh5tooa 281 5 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 281 6 , , , work_7n2voym2grhjpocfumswh5tooa 281 7 the the DT work_7n2voym2grhjpocfumswh5tooa 281 8 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 281 9 determined determine VBD work_7n2voym2grhjpocfumswh5tooa 281 10 that that IN work_7n2voym2grhjpocfumswh5tooa 281 11 several several JJ work_7n2voym2grhjpocfumswh5tooa 281 12 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 281 13 pathways pathway NNS work_7n2voym2grhjpocfumswh5tooa 281 14 from from IN work_7n2voym2grhjpocfumswh5tooa 281 15 the the DT work_7n2voym2grhjpocfumswh5tooa 281 16 Reactome Reactome NNP work_7n2voym2grhjpocfumswh5tooa 281 17 and and CC work_7n2voym2grhjpocfumswh5tooa 281 18 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 281 19 pathway pathway NN work_7n2voym2grhjpocfumswh5tooa 281 20 databases database NNS work_7n2voym2grhjpocfumswh5tooa 281 21 were be VBD work_7n2voym2grhjpocfumswh5tooa 281 22 enriched enrich VBN work_7n2voym2grhjpocfumswh5tooa 281 23 for for IN work_7n2voym2grhjpocfumswh5tooa 281 24 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 281 25 from from IN work_7n2voym2grhjpocfumswh5tooa 281 26 the the DT work_7n2voym2grhjpocfumswh5tooa 281 27 34 34 CD work_7n2voym2grhjpocfumswh5tooa 281 28 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 281 29 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 281 30 loci loci NN work_7n2voym2grhjpocfumswh5tooa 281 31 they -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 281 32 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 281 33 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 281 34 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 281 35 et et NNP work_7n2voym2grhjpocfumswh5tooa 281 36   _SP work_7n2voym2grhjpocfumswh5tooa 281 37 al al NNP work_7n2voym2grhjpocfumswh5tooa 281 38 . . . work_7n2voym2grhjpocfumswh5tooa 282 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 282 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 282 3 . . . work_7n2voym2grhjpocfumswh5tooa 283 1 Known know VBN work_7n2voym2grhjpocfumswh5tooa 283 2 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 283 3 - - HYPH work_7n2voym2grhjpocfumswh5tooa 283 4 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 283 5 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 283 6 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 283 7 APOE APOE NNP work_7n2voym2grhjpocfumswh5tooa 283 8 and and CC work_7n2voym2grhjpocfumswh5tooa 283 9 LIPC LIPC NNP work_7n2voym2grhjpocfumswh5tooa 283 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 283 11 https://www.ncbi.nlm.nih.gov/clinvar/RCV000504185/ https://www.ncbi.nlm.nih.gov/clinvar/RCV000504185/ VBZ work_7n2voym2grhjpocfumswh5tooa 283 12 https://www.ncbi.nlm.nih.gov/clinvar/RCV000504185/ https://www.ncbi.nlm.nih.gov/clinvar/rcv000504185/ NN work_7n2voym2grhjpocfumswh5tooa 283 13 https://www.ebi.ac.uk/gwas/ https://www.ebi.ac.uk/gwas/ CD work_7n2voym2grhjpocfumswh5tooa 283 14 1179Human 1179human CD work_7n2voym2grhjpocfumswh5tooa 283 15 Genetics Genetics NNP work_7n2voym2grhjpocfumswh5tooa 283 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 283 17 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 283 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 283 19 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 283 20 1 1 CD work_7n2voym2grhjpocfumswh5tooa 283 21 3 3 CD work_7n2voym2grhjpocfumswh5tooa 283 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 283 23 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 283 24 et et NNP work_7n2voym2grhjpocfumswh5tooa 283 25   _SP work_7n2voym2grhjpocfumswh5tooa 283 26 al al NNP work_7n2voym2grhjpocfumswh5tooa 283 27 . . . work_7n2voym2grhjpocfumswh5tooa 284 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 284 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 284 3 are be VBP work_7n2voym2grhjpocfumswh5tooa 284 4 also also RB work_7n2voym2grhjpocfumswh5tooa 284 5 described describe VBN work_7n2voym2grhjpocfumswh5tooa 284 6 as as IN work_7n2voym2grhjpocfumswh5tooa 284 7 members member NNS work_7n2voym2grhjpocfumswh5tooa 284 8 of of IN work_7n2voym2grhjpocfumswh5tooa 284 9 the the DT work_7n2voym2grhjpocfumswh5tooa 284 10 triglyceride triglyceride NN work_7n2voym2grhjpocfumswh5tooa 284 11 , , , work_7n2voym2grhjpocfumswh5tooa 284 12 neutral neutral JJ work_7n2voym2grhjpocfumswh5tooa 284 13 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 284 14 , , , work_7n2voym2grhjpocfumswh5tooa 284 15 acylglycerol acylglycerol NN work_7n2voym2grhjpocfumswh5tooa 284 16 , , , work_7n2voym2grhjpocfumswh5tooa 284 17 and and CC work_7n2voym2grhjpocfumswh5tooa 284 18 glycerolipid glycerolipid NN work_7n2voym2grhjpocfumswh5tooa 284 19 cat- cat- NNP work_7n2voym2grhjpocfumswh5tooa 284 20 abolic abolic NN work_7n2voym2grhjpocfumswh5tooa 284 21 processes process NNS work_7n2voym2grhjpocfumswh5tooa 284 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 284 23 GO:0019433 GO:0019433 NNP work_7n2voym2grhjpocfumswh5tooa 284 24 , , , work_7n2voym2grhjpocfumswh5tooa 284 25 GO:0046461 GO:0046461 NNP work_7n2voym2grhjpocfumswh5tooa 284 26 , , , work_7n2voym2grhjpocfumswh5tooa 284 27 GO:0046464 GO:0046464 NNP work_7n2voym2grhjpocfumswh5tooa 284 28 , , , work_7n2voym2grhjpocfumswh5tooa 284 29 and and CC work_7n2voym2grhjpocfumswh5tooa 284 30 GO:0046503 GO:0046503 NNP work_7n2voym2grhjpocfumswh5tooa 284 31 , , , work_7n2voym2grhjpocfumswh5tooa 284 32 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 284 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 284 34 , , , work_7n2voym2grhjpocfumswh5tooa 284 35 which which WDT work_7n2voym2grhjpocfumswh5tooa 284 36 were be VBD work_7n2voym2grhjpocfumswh5tooa 284 37 enriched enrich VBN work_7n2voym2grhjpocfumswh5tooa 284 38 in in IN work_7n2voym2grhjpocfumswh5tooa 284 39 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 284 40 from from IN work_7n2voym2grhjpocfumswh5tooa 284 41 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 284 42 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 284 43 region region NN work_7n2voym2grhjpocfumswh5tooa 284 44 . . . work_7n2voym2grhjpocfumswh5tooa 285 1 Additionally additionally RB work_7n2voym2grhjpocfumswh5tooa 285 2 , , , work_7n2voym2grhjpocfumswh5tooa 285 3 although although IN work_7n2voym2grhjpocfumswh5tooa 285 4 con- con- NN work_7n2voym2grhjpocfumswh5tooa 285 5 suming sum VBG work_7n2voym2grhjpocfumswh5tooa 285 6 high high JJ work_7n2voym2grhjpocfumswh5tooa 285 7 amounts amount NNS work_7n2voym2grhjpocfumswh5tooa 285 8 of of IN work_7n2voym2grhjpocfumswh5tooa 285 9 saturated saturate VBN work_7n2voym2grhjpocfumswh5tooa 285 10 and and CC work_7n2voym2grhjpocfumswh5tooa 285 11 monounsaturated monounsaturated JJ work_7n2voym2grhjpocfumswh5tooa 285 12 fats fat NNS work_7n2voym2grhjpocfumswh5tooa 285 13 has have VBZ work_7n2voym2grhjpocfumswh5tooa 285 14 been be VBN work_7n2voym2grhjpocfumswh5tooa 285 15 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 285 16 with with IN work_7n2voym2grhjpocfumswh5tooa 285 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 285 18 risk risk NN work_7n2voym2grhjpocfumswh5tooa 285 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 285 20 Delcourt Delcourt NNP work_7n2voym2grhjpocfumswh5tooa 285 21 et et NNP work_7n2voym2grhjpocfumswh5tooa 285 22   _SP work_7n2voym2grhjpocfumswh5tooa 285 23 al al NNP work_7n2voym2grhjpocfumswh5tooa 285 24 . . . work_7n2voym2grhjpocfumswh5tooa 286 1 2007 2007 CD work_7n2voym2grhjpocfumswh5tooa 286 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 286 3 , , , work_7n2voym2grhjpocfumswh5tooa 286 4 dietary dietary JJ work_7n2voym2grhjpocfumswh5tooa 286 5 intake intake NN work_7n2voym2grhjpocfumswh5tooa 286 6 of of IN work_7n2voym2grhjpocfumswh5tooa 286 7 omega-3-fatty omega-3-fatty NNP work_7n2voym2grhjpocfumswh5tooa 286 8 acids acid NNS work_7n2voym2grhjpocfumswh5tooa 286 9 has have VBZ work_7n2voym2grhjpocfumswh5tooa 286 10 been be VBN work_7n2voym2grhjpocfumswh5tooa 286 11 attributed attribute VBN work_7n2voym2grhjpocfumswh5tooa 286 12 to to IN work_7n2voym2grhjpocfumswh5tooa 286 13 reducing reduce VBG work_7n2voym2grhjpocfumswh5tooa 286 14 the the DT work_7n2voym2grhjpocfumswh5tooa 286 15 risk risk NN work_7n2voym2grhjpocfumswh5tooa 286 16 of of IN work_7n2voym2grhjpocfumswh5tooa 286 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 286 18 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 286 19 Delcourt Delcourt NNP work_7n2voym2grhjpocfumswh5tooa 286 20 et et NNP work_7n2voym2grhjpocfumswh5tooa 286 21   _SP work_7n2voym2grhjpocfumswh5tooa 286 22 al al NNP work_7n2voym2grhjpocfumswh5tooa 286 23 . . . work_7n2voym2grhjpocfumswh5tooa 287 1 2007 2007 CD work_7n2voym2grhjpocfumswh5tooa 287 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 287 3 San- San- NNP work_7n2voym2grhjpocfumswh5tooa 287 4 Giovanni Giovanni NNP work_7n2voym2grhjpocfumswh5tooa 287 5 and and CC work_7n2voym2grhjpocfumswh5tooa 287 6 Chew Chew NNP work_7n2voym2grhjpocfumswh5tooa 287 7 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 287 8 ; ; : work_7n2voym2grhjpocfumswh5tooa 287 9 SanGiovanni SanGiovanni NNP work_7n2voym2grhjpocfumswh5tooa 287 10 et et NNP work_7n2voym2grhjpocfumswh5tooa 287 11   _SP work_7n2voym2grhjpocfumswh5tooa 287 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 287 13 . . . work_7n2voym2grhjpocfumswh5tooa 288 1 2008 2008 LS work_7n2voym2grhjpocfumswh5tooa 288 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 288 3 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 288 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 288 5   _SP work_7n2voym2grhjpocfumswh5tooa 288 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 288 7 . . . work_7n2voym2grhjpocfumswh5tooa 289 1 2006a 2006a LS work_7n2voym2grhjpocfumswh5tooa 289 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 289 3 . . . work_7n2voym2grhjpocfumswh5tooa 290 1 There there EX work_7n2voym2grhjpocfumswh5tooa 290 2 is be VBZ work_7n2voym2grhjpocfumswh5tooa 290 3 not not RB work_7n2voym2grhjpocfumswh5tooa 290 4 a a DT work_7n2voym2grhjpocfumswh5tooa 290 5 consistent consistent JJ work_7n2voym2grhjpocfumswh5tooa 290 6 association association NN work_7n2voym2grhjpocfumswh5tooa 290 7 between between IN work_7n2voym2grhjpocfumswh5tooa 290 8 triglyceride triglyceride NN work_7n2voym2grhjpocfumswh5tooa 290 9 levels level NNS work_7n2voym2grhjpocfumswh5tooa 290 10 and and CC work_7n2voym2grhjpocfumswh5tooa 290 11 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 290 12 risk risk NN work_7n2voym2grhjpocfumswh5tooa 290 13 . . . work_7n2voym2grhjpocfumswh5tooa 291 1 Some some DT work_7n2voym2grhjpocfumswh5tooa 291 2 studies study NNS work_7n2voym2grhjpocfumswh5tooa 291 3 observed observe VBD work_7n2voym2grhjpocfumswh5tooa 291 4 lower low JJR work_7n2voym2grhjpocfumswh5tooa 291 5 triglyceride triglyceride NN work_7n2voym2grhjpocfumswh5tooa 291 6 levels level NNS work_7n2voym2grhjpocfumswh5tooa 291 7 in in IN work_7n2voym2grhjpocfumswh5tooa 291 8 patients patient NNS work_7n2voym2grhjpocfumswh5tooa 291 9 with with IN work_7n2voym2grhjpocfumswh5tooa 291 10 early early JJ work_7n2voym2grhjpocfumswh5tooa 291 11 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 291 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 291 13 Klein Klein NNP work_7n2voym2grhjpocfumswh5tooa 291 14 et et NNP work_7n2voym2grhjpocfumswh5tooa 291 15   _SP work_7n2voym2grhjpocfumswh5tooa 291 16 al al NNP work_7n2voym2grhjpocfumswh5tooa 291 17 . . . work_7n2voym2grhjpocfumswh5tooa 292 1 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 292 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 292 3 , , , work_7n2voym2grhjpocfumswh5tooa 292 4 the the DT work_7n2voym2grhjpocfumswh5tooa 292 5 choroidal choroidal NN work_7n2voym2grhjpocfumswh5tooa 292 6 neovascularization neovascularization NN work_7n2voym2grhjpocfumswh5tooa 292 7 subtype subtype NN work_7n2voym2grhjpocfumswh5tooa 292 8 of of IN work_7n2voym2grhjpocfumswh5tooa 292 9 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 292 10 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 292 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 292 12 Merle Merle NNP work_7n2voym2grhjpocfumswh5tooa 292 13 et et NNP work_7n2voym2grhjpocfumswh5tooa 292 14   _SP work_7n2voym2grhjpocfumswh5tooa 292 15 al al NNP work_7n2voym2grhjpocfumswh5tooa 292 16 . . . work_7n2voym2grhjpocfumswh5tooa 293 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 293 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 293 3 , , , work_7n2voym2grhjpocfumswh5tooa 293 4 or or CC work_7n2voym2grhjpocfumswh5tooa 293 5 any any DT work_7n2voym2grhjpocfumswh5tooa 293 6 type type NN work_7n2voym2grhjpocfumswh5tooa 293 7 of of IN work_7n2voym2grhjpocfumswh5tooa 293 8 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 293 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 293 10 Paun Paun NNP work_7n2voym2grhjpocfumswh5tooa 293 11 et et FW work_7n2voym2grhjpocfumswh5tooa 293 12   _SP work_7n2voym2grhjpocfumswh5tooa 293 13 al al NNP work_7n2voym2grhjpocfumswh5tooa 293 14 . . . work_7n2voym2grhjpocfumswh5tooa 294 1 2015 2015 CD work_7n2voym2grhjpocfumswh5tooa 294 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 294 3 Roh Roh NNP work_7n2voym2grhjpocfumswh5tooa 294 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 294 5   _SP work_7n2voym2grhjpocfumswh5tooa 294 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 294 7 . . . work_7n2voym2grhjpocfumswh5tooa 295 1 2008 2008 CD work_7n2voym2grhjpocfumswh5tooa 295 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 295 3 Semba Semba NNP work_7n2voym2grhjpocfumswh5tooa 295 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 295 5   _SP work_7n2voym2grhjpocfumswh5tooa 295 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 295 7 . . . work_7n2voym2grhjpocfumswh5tooa 296 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 296 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 296 3 . . . work_7n2voym2grhjpocfumswh5tooa 297 1 How- How- NNP work_7n2voym2grhjpocfumswh5tooa 297 2 ever ever RB work_7n2voym2grhjpocfumswh5tooa 297 3 , , , work_7n2voym2grhjpocfumswh5tooa 297 4 other other JJ work_7n2voym2grhjpocfumswh5tooa 297 5 studies study NNS work_7n2voym2grhjpocfumswh5tooa 297 6 found find VBD work_7n2voym2grhjpocfumswh5tooa 297 7 higher high JJR work_7n2voym2grhjpocfumswh5tooa 297 8 triglyceride triglyceride NN work_7n2voym2grhjpocfumswh5tooa 297 9 levels level NNS work_7n2voym2grhjpocfumswh5tooa 297 10 were be VBD work_7n2voym2grhjpocfumswh5tooa 297 11 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 297 12 with with IN work_7n2voym2grhjpocfumswh5tooa 297 13 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 297 14 status status NN work_7n2voym2grhjpocfumswh5tooa 297 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 297 16 Munch Munch NNP work_7n2voym2grhjpocfumswh5tooa 297 17 et et NNP work_7n2voym2grhjpocfumswh5tooa 297 18   _SP work_7n2voym2grhjpocfumswh5tooa 297 19 al al NNP work_7n2voym2grhjpocfumswh5tooa 297 20 . . . work_7n2voym2grhjpocfumswh5tooa 298 1 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 298 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 298 3 Nowak Nowak NNP work_7n2voym2grhjpocfumswh5tooa 298 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 298 5   _SP work_7n2voym2grhjpocfumswh5tooa 298 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 298 7 . . . work_7n2voym2grhjpocfumswh5tooa 299 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 299 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 299 3 . . . work_7n2voym2grhjpocfumswh5tooa 300 1 Recently recently RB work_7n2voym2grhjpocfumswh5tooa 300 2 , , , work_7n2voym2grhjpocfumswh5tooa 300 3 levels level NNS work_7n2voym2grhjpocfumswh5tooa 300 4 of of IN work_7n2voym2grhjpocfumswh5tooa 300 5 triglycerides triglyceride NNS work_7n2voym2grhjpocfumswh5tooa 300 6 were be VBD work_7n2voym2grhjpocfumswh5tooa 300 7 associ- associ- RB work_7n2voym2grhjpocfumswh5tooa 300 8 ated ate VBN work_7n2voym2grhjpocfumswh5tooa 300 9 with with IN work_7n2voym2grhjpocfumswh5tooa 300 10 a a DT work_7n2voym2grhjpocfumswh5tooa 300 11 decreased decrease VBN work_7n2voym2grhjpocfumswh5tooa 300 12 risk risk NN work_7n2voym2grhjpocfumswh5tooa 300 13 for for IN work_7n2voym2grhjpocfumswh5tooa 300 14 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 300 15 and and CC work_7n2voym2grhjpocfumswh5tooa 300 16 smaller small JJR work_7n2voym2grhjpocfumswh5tooa 300 17 drusen drusen NNP work_7n2voym2grhjpocfumswh5tooa 300 18 area area NN work_7n2voym2grhjpocfumswh5tooa 300 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 300 20 Colijn Colijn NNP work_7n2voym2grhjpocfumswh5tooa 300 21 et et NNP work_7n2voym2grhjpocfumswh5tooa 300 22   _SP work_7n2voym2grhjpocfumswh5tooa 300 23 al al NNP work_7n2voym2grhjpocfumswh5tooa 300 24 . . . work_7n2voym2grhjpocfumswh5tooa 301 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 301 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 301 3 . . . work_7n2voym2grhjpocfumswh5tooa 302 1 Further further JJ work_7n2voym2grhjpocfumswh5tooa 302 2 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 302 3 studies study NNS work_7n2voym2grhjpocfumswh5tooa 302 4 would would MD work_7n2voym2grhjpocfumswh5tooa 302 5 need need VB work_7n2voym2grhjpocfumswh5tooa 302 6 to to TO work_7n2voym2grhjpocfumswh5tooa 302 7 be be VB work_7n2voym2grhjpocfumswh5tooa 302 8 performed perform VBN work_7n2voym2grhjpocfumswh5tooa 302 9 to to TO work_7n2voym2grhjpocfumswh5tooa 302 10 definitively definitively RB work_7n2voym2grhjpocfumswh5tooa 302 11 implicate implicate VB work_7n2voym2grhjpocfumswh5tooa 302 12 the the DT work_7n2voym2grhjpocfumswh5tooa 302 13 role role NN work_7n2voym2grhjpocfumswh5tooa 302 14 of of IN work_7n2voym2grhjpocfumswh5tooa 302 15 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 302 16 acid acid NN work_7n2voym2grhjpocfumswh5tooa 302 17 binding bind VBG work_7n2voym2grhjpocfumswh5tooa 302 18 and and CC work_7n2voym2grhjpocfumswh5tooa 302 19 triglyceride triglyceride NN work_7n2voym2grhjpocfumswh5tooa 302 20 levels level NNS work_7n2voym2grhjpocfumswh5tooa 302 21 in in IN work_7n2voym2grhjpocfumswh5tooa 302 22 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 302 23 pathology pathology NN work_7n2voym2grhjpocfumswh5tooa 302 24 . . . work_7n2voym2grhjpocfumswh5tooa 303 1 From from IN work_7n2voym2grhjpocfumswh5tooa 303 2 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 303 3 multipoint multipoint NN work_7n2voym2grhjpocfumswh5tooa 303 4 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 303 5 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 303 6 with with IN work_7n2voym2grhjpocfumswh5tooa 303 7 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 303 8 and and CC work_7n2voym2grhjpocfumswh5tooa 303 9 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 303 10 models model NNS work_7n2voym2grhjpocfumswh5tooa 303 11 of of IN work_7n2voym2grhjpocfumswh5tooa 303 12 inheritance inheritance NN work_7n2voym2grhjpocfumswh5tooa 303 13 , , , work_7n2voym2grhjpocfumswh5tooa 303 14 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 303 15 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 303 16 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 303 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 303 18 loci loci NN work_7n2voym2grhjpocfumswh5tooa 303 19 on on IN work_7n2voym2grhjpocfumswh5tooa 303 20 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 303 21 18q21.2–21.32 18q21.2–21.32 CD work_7n2voym2grhjpocfumswh5tooa 303 22 and and CC work_7n2voym2grhjpocfumswh5tooa 303 23 18q21.2–21.31 18q21.2–21.31 CD work_7n2voym2grhjpocfumswh5tooa 303 24 , , , work_7n2voym2grhjpocfumswh5tooa 303 25 respectively respectively RB work_7n2voym2grhjpocfumswh5tooa 303 26 . . . work_7n2voym2grhjpocfumswh5tooa 304 1 These these DT work_7n2voym2grhjpocfumswh5tooa 304 2 regions region NNS work_7n2voym2grhjpocfumswh5tooa 304 3 do do VBP work_7n2voym2grhjpocfumswh5tooa 304 4 not not RB work_7n2voym2grhjpocfumswh5tooa 304 5 overlap overlap VB work_7n2voym2grhjpocfumswh5tooa 304 6 with with IN work_7n2voym2grhjpocfumswh5tooa 304 7 the the DT work_7n2voym2grhjpocfumswh5tooa 304 8 AMD- AMD- NNP work_7n2voym2grhjpocfumswh5tooa 304 9 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 304 10 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 304 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 304 12 rs140250387 rs140250387 NNP work_7n2voym2grhjpocfumswh5tooa 304 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 304 14 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 304 15 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 304 16 in in IN work_7n2voym2grhjpocfumswh5tooa 304 17 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 304 18 asso- asso- JJ work_7n2voym2grhjpocfumswh5tooa 304 19 ciation ciation NN work_7n2voym2grhjpocfumswh5tooa 304 20 test test NN work_7n2voym2grhjpocfumswh5tooa 304 21 . . . work_7n2voym2grhjpocfumswh5tooa 305 1 Although although IN work_7n2voym2grhjpocfumswh5tooa 305 2 both both DT work_7n2voym2grhjpocfumswh5tooa 305 3 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 305 4 interrogate interrogate VBP work_7n2voym2grhjpocfumswh5tooa 305 5 the the DT work_7n2voym2grhjpocfumswh5tooa 305 6 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 305 7 etiology etiology NN work_7n2voym2grhjpocfumswh5tooa 305 8 of of IN work_7n2voym2grhjpocfumswh5tooa 305 9 the the DT work_7n2voym2grhjpocfumswh5tooa 305 10 trait trait NN work_7n2voym2grhjpocfumswh5tooa 305 11 , , , work_7n2voym2grhjpocfumswh5tooa 305 12 linkage linkage VB work_7n2voym2grhjpocfumswh5tooa 305 13 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 305 14 identify identify VBP work_7n2voym2grhjpocfumswh5tooa 305 15 chromosomal chromosomal NN work_7n2voym2grhjpocfumswh5tooa 305 16 segments segment NNS work_7n2voym2grhjpocfumswh5tooa 305 17 co co VB work_7n2voym2grhjpocfumswh5tooa 305 18 - - JJ work_7n2voym2grhjpocfumswh5tooa 305 19 segregating segregating JJ work_7n2voym2grhjpocfumswh5tooa 305 20 with with IN work_7n2voym2grhjpocfumswh5tooa 305 21 traits trait NNS work_7n2voym2grhjpocfumswh5tooa 305 22 in in IN work_7n2voym2grhjpocfumswh5tooa 305 23 families family NNS work_7n2voym2grhjpocfumswh5tooa 305 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 305 25 Morton Morton NNP work_7n2voym2grhjpocfumswh5tooa 305 26 1955 1955 CD work_7n2voym2grhjpocfumswh5tooa 305 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 305 28 ; ; : work_7n2voym2grhjpocfumswh5tooa 305 29 whereas whereas IN work_7n2voym2grhjpocfumswh5tooa 305 30 , , , work_7n2voym2grhjpocfumswh5tooa 305 31 association association NN work_7n2voym2grhjpocfumswh5tooa 305 32 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 305 33 compare compare VBP work_7n2voym2grhjpocfumswh5tooa 305 34 allele allele NNP work_7n2voym2grhjpocfumswh5tooa 305 35 fre- fre- NN work_7n2voym2grhjpocfumswh5tooa 305 36 quencies quencie NNS work_7n2voym2grhjpocfumswh5tooa 305 37 between between IN work_7n2voym2grhjpocfumswh5tooa 305 38 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 305 39 with with IN work_7n2voym2grhjpocfumswh5tooa 305 40 and and CC work_7n2voym2grhjpocfumswh5tooa 305 41 without without IN work_7n2voym2grhjpocfumswh5tooa 305 42 the the DT work_7n2voym2grhjpocfumswh5tooa 305 43 trait trait NN work_7n2voym2grhjpocfumswh5tooa 305 44 of of IN work_7n2voym2grhjpocfumswh5tooa 305 45 interest interest NN work_7n2voym2grhjpocfumswh5tooa 305 46 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 305 47 Hirschhorn Hirschhorn NNP work_7n2voym2grhjpocfumswh5tooa 305 48 and and CC work_7n2voym2grhjpocfumswh5tooa 305 49 Daly Daly NNP work_7n2voym2grhjpocfumswh5tooa 305 50 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 305 51 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 305 52 . . . work_7n2voym2grhjpocfumswh5tooa 306 1 Therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 306 2 , , , work_7n2voym2grhjpocfumswh5tooa 306 3 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 306 4 results result NNS work_7n2voym2grhjpocfumswh5tooa 306 5 can can MD work_7n2voym2grhjpocfumswh5tooa 306 6 be be VB work_7n2voym2grhjpocfumswh5tooa 306 7 independent independent JJ work_7n2voym2grhjpocfumswh5tooa 306 8 of of IN work_7n2voym2grhjpocfumswh5tooa 306 9 one one CD work_7n2voym2grhjpocfumswh5tooa 306 10 another another DT work_7n2voym2grhjpocfumswh5tooa 306 11 . . . work_7n2voym2grhjpocfumswh5tooa 307 1 The the DT work_7n2voym2grhjpocfumswh5tooa 307 2 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 307 3 did do VBD work_7n2voym2grhjpocfumswh5tooa 307 4 not not RB work_7n2voym2grhjpocfumswh5tooa 307 5 identify identify VB work_7n2voym2grhjpocfumswh5tooa 307 6 any any DT work_7n2voym2grhjpocfumswh5tooa 307 7 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 307 8 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 307 9 loci loci NN work_7n2voym2grhjpocfumswh5tooa 307 10 on on IN work_7n2voym2grhjpocfumswh5tooa 307 11 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 307 12 18 18 CD work_7n2voym2grhjpocfumswh5tooa 307 13 in in IN work_7n2voym2grhjpocfumswh5tooa 307 14 either either DT work_7n2voym2grhjpocfumswh5tooa 307 15 of of IN work_7n2voym2grhjpocfumswh5tooa 307 16 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 307 17 recent recent JJ work_7n2voym2grhjpocfumswh5tooa 307 18 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 307 19 , , , work_7n2voym2grhjpocfumswh5tooa 307 20 and and CC work_7n2voym2grhjpocfumswh5tooa 307 21 another another DT work_7n2voym2grhjpocfumswh5tooa 307 22 study study NN work_7n2voym2grhjpocfumswh5tooa 307 23 using use VBG work_7n2voym2grhjpocfumswh5tooa 307 24 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 307 25 data datum NNS work_7n2voym2grhjpocfumswh5tooa 307 26 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 307 27 an an DT work_7n2voym2grhjpocfumswh5tooa 307 28 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 307 29 gene gene NN work_7n2voym2grhjpocfumswh5tooa 307 30 × × NN work_7n2voym2grhjpocfumswh5tooa 307 31 age age NN work_7n2voym2grhjpocfumswh5tooa 307 32 interaction interaction NN work_7n2voym2grhjpocfumswh5tooa 307 33 on on IN work_7n2voym2grhjpocfumswh5tooa 307 34 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 307 35 18p 18p NNS work_7n2voym2grhjpocfumswh5tooa 307 36 , , , work_7n2voym2grhjpocfumswh5tooa 307 37 which which WDT work_7n2voym2grhjpocfumswh5tooa 307 38 is be VBZ work_7n2voym2grhjpocfumswh5tooa 307 39 independent independent JJ work_7n2voym2grhjpocfumswh5tooa 307 40 of of IN work_7n2voym2grhjpocfumswh5tooa 307 41 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 307 42 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 307 43 peak peak NN work_7n2voym2grhjpocfumswh5tooa 307 44 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 307 45 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 307 46 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 307 47 , , , work_7n2voym2grhjpocfumswh5tooa 307 48 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 307 49 ; ; : work_7n2voym2grhjpocfumswh5tooa 307 50 Winkler Winkler NNP work_7n2voym2grhjpocfumswh5tooa 307 51 et et NNP work_7n2voym2grhjpocfumswh5tooa 307 52   _SP work_7n2voym2grhjpocfumswh5tooa 307 53 al al NNP work_7n2voym2grhjpocfumswh5tooa 307 54 . . . work_7n2voym2grhjpocfumswh5tooa 308 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 308 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 308 3 . . . work_7n2voym2grhjpocfumswh5tooa 309 1 The the DT work_7n2voym2grhjpocfumswh5tooa 309 2 most most RBS work_7n2voym2grhjpocfumswh5tooa 309 3 notable notable JJ work_7n2voym2grhjpocfumswh5tooa 309 4 single single JJ work_7n2voym2grhjpocfumswh5tooa 309 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 309 6 marker marker NN work_7n2voym2grhjpocfumswh5tooa 309 7 p p NN work_7n2voym2grhjpocfumswh5tooa 309 8 value value NN work_7n2voym2grhjpocfumswh5tooa 309 9 observed observe VBN work_7n2voym2grhjpocfumswh5tooa 309 10 in in IN work_7n2voym2grhjpocfumswh5tooa 309 11 the the DT work_7n2voym2grhjpocfumswh5tooa 309 12 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 309 13 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 309 14 was be VBD work_7n2voym2grhjpocfumswh5tooa 309 15 1.27 1.27 CD work_7n2voym2grhjpocfumswh5tooa 309 16 × × CD work_7n2voym2grhjpocfumswh5tooa 309 17 10−4 10−4 CD work_7n2voym2grhjpocfumswh5tooa 309 18 , , , work_7n2voym2grhjpocfumswh5tooa 309 19 which which WDT work_7n2voym2grhjpocfumswh5tooa 309 20 occurred occur VBD work_7n2voym2grhjpocfumswh5tooa 309 21 for for IN work_7n2voym2grhjpocfumswh5tooa 309 22 a a DT work_7n2voym2grhjpocfumswh5tooa 309 23 variant variant NN work_7n2voym2grhjpocfumswh5tooa 309 24 that that WDT work_7n2voym2grhjpocfumswh5tooa 309 25 falls fall VBZ work_7n2voym2grhjpocfumswh5tooa 309 26 within within IN work_7n2voym2grhjpocfumswh5tooa 309 27 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 309 28 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 309 29 regions region NNS work_7n2voym2grhjpocfumswh5tooa 309 30 under under IN work_7n2voym2grhjpocfumswh5tooa 309 31 both both CC work_7n2voym2grhjpocfumswh5tooa 309 32 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 309 33 and and CC work_7n2voym2grhjpocfumswh5tooa 309 34 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 309 35 models model NNS work_7n2voym2grhjpocfumswh5tooa 309 36 . . . work_7n2voym2grhjpocfumswh5tooa 310 1 Previous previous JJ work_7n2voym2grhjpocfumswh5tooa 310 2 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 310 3 have have VBP work_7n2voym2grhjpocfumswh5tooa 310 4 found find VBN work_7n2voym2grhjpocfumswh5tooa 310 5 suggestive suggestive JJ work_7n2voym2grhjpocfumswh5tooa 310 6 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 310 7 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 310 8 on on IN work_7n2voym2grhjpocfumswh5tooa 310 9 chromosomes chromosome NNS work_7n2voym2grhjpocfumswh5tooa 310 10 18q22.1 18q22.1 NNS work_7n2voym2grhjpocfumswh5tooa 310 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 310 12 Naj Naj NNP work_7n2voym2grhjpocfumswh5tooa 310 13 et et NN work_7n2voym2grhjpocfumswh5tooa 310 14   _SP work_7n2voym2grhjpocfumswh5tooa 310 15 al al NNP work_7n2voym2grhjpocfumswh5tooa 310 16 . . . work_7n2voym2grhjpocfumswh5tooa 311 1 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 311 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 311 3 and and CC work_7n2voym2grhjpocfumswh5tooa 311 4 18q23 18q23 NNP work_7n2voym2grhjpocfumswh5tooa 311 5 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 311 6 Sobrin Sobrin NNP work_7n2voym2grhjpocfumswh5tooa 311 7 et et NNP work_7n2voym2grhjpocfumswh5tooa 311 8   _SP work_7n2voym2grhjpocfumswh5tooa 311 9 al al NNP work_7n2voym2grhjpocfumswh5tooa 311 10 . . . work_7n2voym2grhjpocfumswh5tooa 312 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 312 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 312 3 , , , work_7n2voym2grhjpocfumswh5tooa 312 4 which which WDT work_7n2voym2grhjpocfumswh5tooa 312 5 are be VBP work_7n2voym2grhjpocfumswh5tooa 312 6 located locate VBN work_7n2voym2grhjpocfumswh5tooa 312 7 outside outside IN work_7n2voym2grhjpocfumswh5tooa 312 8 of of IN work_7n2voym2grhjpocfumswh5tooa 312 9 the the DT work_7n2voym2grhjpocfumswh5tooa 312 10 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 312 11 support support NN work_7n2voym2grhjpocfumswh5tooa 312 12 interval interval NN work_7n2voym2grhjpocfumswh5tooa 312 13 of of IN work_7n2voym2grhjpocfumswh5tooa 312 14 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 312 15 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 312 16 region region NN work_7n2voym2grhjpocfumswh5tooa 312 17 . . . work_7n2voym2grhjpocfumswh5tooa 313 1 The the DT work_7n2voym2grhjpocfumswh5tooa 313 2 C C NNP work_7n2voym2grhjpocfumswh5tooa 313 3 allele allele NN work_7n2voym2grhjpocfumswh5tooa 313 4 of of IN work_7n2voym2grhjpocfumswh5tooa 313 5 the the DT work_7n2voym2grhjpocfumswh5tooa 313 6 18q22.1 18q22.1 NN work_7n2voym2grhjpocfumswh5tooa 313 7 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 313 8 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 313 9 rs17073641 rs17073641 NNP work_7n2voym2grhjpocfumswh5tooa 313 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 313 11 has have VBZ work_7n2voym2grhjpocfumswh5tooa 313 12 a a DT work_7n2voym2grhjpocfumswh5tooa 313 13 strong strong JJ work_7n2voym2grhjpocfumswh5tooa 313 14 pro- pro- NN work_7n2voym2grhjpocfumswh5tooa 313 15 tective tective JJ work_7n2voym2grhjpocfumswh5tooa 313 16 effect effect NN work_7n2voym2grhjpocfumswh5tooa 313 17 in in IN work_7n2voym2grhjpocfumswh5tooa 313 18 never never RB work_7n2voym2grhjpocfumswh5tooa 313 19 smokers smoker NNS work_7n2voym2grhjpocfumswh5tooa 313 20 but but CC work_7n2voym2grhjpocfumswh5tooa 313 21 increases increase VBZ work_7n2voym2grhjpocfumswh5tooa 313 22 the the DT work_7n2voym2grhjpocfumswh5tooa 313 23 risk risk NN work_7n2voym2grhjpocfumswh5tooa 313 24 of of IN work_7n2voym2grhjpocfumswh5tooa 313 25 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 313 26 in in IN work_7n2voym2grhjpocfumswh5tooa 313 27 smokers smoker NNS work_7n2voym2grhjpocfumswh5tooa 313 28 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 313 29 Naj Naj NNP work_7n2voym2grhjpocfumswh5tooa 313 30 et et NN work_7n2voym2grhjpocfumswh5tooa 313 31   _SP work_7n2voym2grhjpocfumswh5tooa 313 32 al al NNP work_7n2voym2grhjpocfumswh5tooa 313 33 . . . work_7n2voym2grhjpocfumswh5tooa 314 1 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 314 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 314 3 . . . work_7n2voym2grhjpocfumswh5tooa 315 1 The the DT work_7n2voym2grhjpocfumswh5tooa 315 2 18q23 18q23 NNP work_7n2voym2grhjpocfumswh5tooa 315 3 variant variant NN work_7n2voym2grhjpocfumswh5tooa 315 4 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 315 5 rs1789110 rs1789110 NNP work_7n2voym2grhjpocfumswh5tooa 315 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 315 7 , , , work_7n2voym2grhjpocfumswh5tooa 315 8 which which WDT work_7n2voym2grhjpocfumswh5tooa 315 9 occurs occur VBZ work_7n2voym2grhjpocfumswh5tooa 315 10 near near IN work_7n2voym2grhjpocfumswh5tooa 315 11 the the DT work_7n2voym2grhjpocfumswh5tooa 315 12 myelin myelin NNP work_7n2voym2grhjpocfumswh5tooa 315 13 basic basic JJ work_7n2voym2grhjpocfumswh5tooa 315 14 protein protein NN work_7n2voym2grhjpocfumswh5tooa 315 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 315 16 MBP MBP NNP work_7n2voym2grhjpocfumswh5tooa 315 17 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 315 18 gene gene NN work_7n2voym2grhjpocfumswh5tooa 315 19 , , , work_7n2voym2grhjpocfumswh5tooa 315 20 demonstrated demonstrate VBD work_7n2voym2grhjpocfumswh5tooa 315 21 suggestive suggestive JJ work_7n2voym2grhjpocfumswh5tooa 315 22 evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 315 23 of of IN work_7n2voym2grhjpocfumswh5tooa 315 24 association association NN work_7n2voym2grhjpocfumswh5tooa 315 25 with with IN work_7n2voym2grhjpocfumswh5tooa 315 26 geo- geo- JJ work_7n2voym2grhjpocfumswh5tooa 315 27 graphic graphic JJ work_7n2voym2grhjpocfumswh5tooa 315 28 atrophy atrophy NN work_7n2voym2grhjpocfumswh5tooa 315 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 315 30 Sobrin Sobrin NNP work_7n2voym2grhjpocfumswh5tooa 315 31 et et NNP work_7n2voym2grhjpocfumswh5tooa 315 32   _SP work_7n2voym2grhjpocfumswh5tooa 315 33 al al NNP work_7n2voym2grhjpocfumswh5tooa 315 34 . . . work_7n2voym2grhjpocfumswh5tooa 316 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 316 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 316 3 . . . work_7n2voym2grhjpocfumswh5tooa 317 1 The the DT work_7n2voym2grhjpocfumswh5tooa 317 2 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 317 3 support support NN work_7n2voym2grhjpocfumswh5tooa 317 4 interval interval NN work_7n2voym2grhjpocfumswh5tooa 317 5 of of IN work_7n2voym2grhjpocfumswh5tooa 317 6 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 317 7 significant significant JJ work_7n2voym2grhjpocfumswh5tooa 317 8 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 317 9 region region NN work_7n2voym2grhjpocfumswh5tooa 317 10 on on IN work_7n2voym2grhjpocfumswh5tooa 317 11 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 317 12 18q21.2–21.32 18q21.2–21.32 CD work_7n2voym2grhjpocfumswh5tooa 317 13 contains contain VBZ work_7n2voym2grhjpocfumswh5tooa 317 14 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 317 15 that that WDT work_7n2voym2grhjpocfumswh5tooa 317 16 have have VBP work_7n2voym2grhjpocfumswh5tooa 317 17 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 317 18 annotations annotation NNS work_7n2voym2grhjpocfumswh5tooa 317 19 in in IN work_7n2voym2grhjpocfumswh5tooa 317 20 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 317 21 processes process VBZ work_7n2voym2grhjpocfumswh5tooa 317 22 such such JJ work_7n2voym2grhjpocfumswh5tooa 317 23 as as IN work_7n2voym2grhjpocfumswh5tooa 317 24 positive positive JJ work_7n2voym2grhjpocfumswh5tooa 317 25 regulation regulation NN work_7n2voym2grhjpocfumswh5tooa 317 26 of of IN work_7n2voym2grhjpocfumswh5tooa 317 27 epithelial epithelial NN work_7n2voym2grhjpocfumswh5tooa 317 28 to to IN work_7n2voym2grhjpocfumswh5tooa 317 29 mesenchymal mesenchymal JJ work_7n2voym2grhjpocfumswh5tooa 317 30 transition transition NN work_7n2voym2grhjpocfumswh5tooa 317 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 317 32 EMT EMT NNP work_7n2voym2grhjpocfumswh5tooa 317 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 317 34 and and CC work_7n2voym2grhjpocfumswh5tooa 317 35 serine serine JJ work_7n2voym2grhjpocfumswh5tooa 317 36 - - HYPH work_7n2voym2grhjpocfumswh5tooa 317 37 type type NN work_7n2voym2grhjpocfumswh5tooa 317 38 endopeptidase endopeptidase NN work_7n2voym2grhjpocfumswh5tooa 317 39 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 317 40 activity activity NN work_7n2voym2grhjpocfumswh5tooa 317 41 . . . work_7n2voym2grhjpocfumswh5tooa 318 1 Another another DT work_7n2voym2grhjpocfumswh5tooa 318 2 known known JJ work_7n2voym2grhjpocfumswh5tooa 318 3 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 318 4 risk risk NN work_7n2voym2grhjpocfumswh5tooa 318 5 gene gene NN work_7n2voym2grhjpocfumswh5tooa 318 6 , , , work_7n2voym2grhjpocfumswh5tooa 318 7 TGFBR1 TGFBR1 NNS work_7n2voym2grhjpocfumswh5tooa 318 8 , , , work_7n2voym2grhjpocfumswh5tooa 318 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 318 10 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 318 11 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 318 12 , , , work_7n2voym2grhjpocfumswh5tooa 318 13 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 318 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 318 15 has have VBZ work_7n2voym2grhjpocfumswh5tooa 318 16 been be VBN work_7n2voym2grhjpocfumswh5tooa 318 17 previously previously RB work_7n2voym2grhjpocfumswh5tooa 318 18 described describe VBN work_7n2voym2grhjpocfumswh5tooa 318 19 as as IN work_7n2voym2grhjpocfumswh5tooa 318 20 a a DT work_7n2voym2grhjpocfumswh5tooa 318 21 part part NN work_7n2voym2grhjpocfumswh5tooa 318 22 of of IN work_7n2voym2grhjpocfumswh5tooa 318 23 the the DT work_7n2voym2grhjpocfumswh5tooa 318 24 positive positive JJ work_7n2voym2grhjpocfumswh5tooa 318 25 regula- regula- JJ work_7n2voym2grhjpocfumswh5tooa 318 26 tion tion NN work_7n2voym2grhjpocfumswh5tooa 318 27 of of IN work_7n2voym2grhjpocfumswh5tooa 318 28 EMT EMT NNP work_7n2voym2grhjpocfumswh5tooa 318 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 318 30 GO:0010718 GO:0010718 NNP work_7n2voym2grhjpocfumswh5tooa 318 31 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 318 32 . . . work_7n2voym2grhjpocfumswh5tooa 319 1 The the DT work_7n2voym2grhjpocfumswh5tooa 319 2 EMT EMT NNP work_7n2voym2grhjpocfumswh5tooa 319 3 of of IN work_7n2voym2grhjpocfumswh5tooa 319 4 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 319 5 pigment pigment NN work_7n2voym2grhjpocfumswh5tooa 319 6 epithelial epithelial NN work_7n2voym2grhjpocfumswh5tooa 319 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 319 8 RPE RPE NNP work_7n2voym2grhjpocfumswh5tooa 319 9 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 319 10 cells cell NNS work_7n2voym2grhjpocfumswh5tooa 319 11 is be VBZ work_7n2voym2grhjpocfumswh5tooa 319 12 considered consider VBN work_7n2voym2grhjpocfumswh5tooa 319 13 one one CD work_7n2voym2grhjpocfumswh5tooa 319 14 of of IN work_7n2voym2grhjpocfumswh5tooa 319 15 several several JJ work_7n2voym2grhjpocfumswh5tooa 319 16 biological biological JJ work_7n2voym2grhjpocfumswh5tooa 319 17 processes process NNS work_7n2voym2grhjpocfumswh5tooa 319 18 that that WDT work_7n2voym2grhjpocfumswh5tooa 319 19 are be VBP work_7n2voym2grhjpocfumswh5tooa 319 20 responsible responsible JJ work_7n2voym2grhjpocfumswh5tooa 319 21 for for IN work_7n2voym2grhjpocfumswh5tooa 319 22 the the DT work_7n2voym2grhjpocfumswh5tooa 319 23 formation formation NN work_7n2voym2grhjpocfumswh5tooa 319 24 of of IN work_7n2voym2grhjpocfumswh5tooa 319 25 subretinal subretinal JJ work_7n2voym2grhjpocfumswh5tooa 319 26 fibrosis fibrosis NN work_7n2voym2grhjpocfumswh5tooa 319 27 in in IN work_7n2voym2grhjpocfumswh5tooa 319 28 the the DT work_7n2voym2grhjpocfumswh5tooa 319 29 macula macula NNP work_7n2voym2grhjpocfumswh5tooa 319 30 following follow VBG work_7n2voym2grhjpocfumswh5tooa 319 31 choroidal choroidal NN work_7n2voym2grhjpocfumswh5tooa 319 32 neovasculariza- neovasculariza- JJ work_7n2voym2grhjpocfumswh5tooa 319 33 tion tion NN work_7n2voym2grhjpocfumswh5tooa 319 34 in in IN work_7n2voym2grhjpocfumswh5tooa 319 35 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 319 36 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 319 37 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 319 38 Ishikawa Ishikawa NNP work_7n2voym2grhjpocfumswh5tooa 319 39 et et NNP work_7n2voym2grhjpocfumswh5tooa 319 40   _SP work_7n2voym2grhjpocfumswh5tooa 319 41 al al NNP work_7n2voym2grhjpocfumswh5tooa 319 42 . . . work_7n2voym2grhjpocfumswh5tooa 320 1 2016a 2016a LS work_7n2voym2grhjpocfumswh5tooa 320 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 320 3 . . . work_7n2voym2grhjpocfumswh5tooa 321 1 EMT EMT NNP work_7n2voym2grhjpocfumswh5tooa 321 2 has have VBZ work_7n2voym2grhjpocfumswh5tooa 321 3 also also RB work_7n2voym2grhjpocfumswh5tooa 321 4 been be VBN work_7n2voym2grhjpocfumswh5tooa 321 5 proposed propose VBN work_7n2voym2grhjpocfumswh5tooa 321 6 as as IN work_7n2voym2grhjpocfumswh5tooa 321 7 a a DT work_7n2voym2grhjpocfumswh5tooa 321 8 mechanism mechanism NN work_7n2voym2grhjpocfumswh5tooa 321 9 employed employ VBN work_7n2voym2grhjpocfumswh5tooa 321 10 by by IN work_7n2voym2grhjpocfumswh5tooa 321 11 RPE RPE NNP work_7n2voym2grhjpocfumswh5tooa 321 12 cells cell NNS work_7n2voym2grhjpocfumswh5tooa 321 13 to to TO work_7n2voym2grhjpocfumswh5tooa 321 14 survive survive VB work_7n2voym2grhjpocfumswh5tooa 321 15 in in IN work_7n2voym2grhjpocfumswh5tooa 321 16 the the DT work_7n2voym2grhjpocfumswh5tooa 321 17 stressful stressful JJ work_7n2voym2grhjpocfumswh5tooa 321 18 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 321 19 microenvironment microenvironment NN work_7n2voym2grhjpocfumswh5tooa 321 20 dur- dur- VBZ work_7n2voym2grhjpocfumswh5tooa 321 21 ing e VBG work_7n2voym2grhjpocfumswh5tooa 321 22 dry dry JJ work_7n2voym2grhjpocfumswh5tooa 321 23 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 321 24 progression progression NN work_7n2voym2grhjpocfumswh5tooa 321 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 321 26 Ghosh Ghosh NNP work_7n2voym2grhjpocfumswh5tooa 321 27 et et NNP work_7n2voym2grhjpocfumswh5tooa 321 28   _SP work_7n2voym2grhjpocfumswh5tooa 321 29 al al NNP work_7n2voym2grhjpocfumswh5tooa 321 30 . . . work_7n2voym2grhjpocfumswh5tooa 322 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 322 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 322 3 . . . work_7n2voym2grhjpocfumswh5tooa 323 1 Therefore therefore RB work_7n2voym2grhjpocfumswh5tooa 323 2 , , , work_7n2voym2grhjpocfumswh5tooa 323 3 it -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 323 4 has have VBZ work_7n2voym2grhjpocfumswh5tooa 323 5 been be VBN work_7n2voym2grhjpocfumswh5tooa 323 6 suggested suggest VBN work_7n2voym2grhjpocfumswh5tooa 323 7 that that IN work_7n2voym2grhjpocfumswh5tooa 323 8 therapeutically therapeutically RB work_7n2voym2grhjpocfumswh5tooa 323 9 targeting target VBG work_7n2voym2grhjpocfumswh5tooa 323 10 RPE RPE NNP work_7n2voym2grhjpocfumswh5tooa 323 11 cells cell NNS work_7n2voym2grhjpocfumswh5tooa 323 12 in in IN work_7n2voym2grhjpocfumswh5tooa 323 13 EMT EMT NNP work_7n2voym2grhjpocfumswh5tooa 323 14 may may MD work_7n2voym2grhjpocfumswh5tooa 323 15 help help VB work_7n2voym2grhjpocfumswh5tooa 323 16 treat treat VB work_7n2voym2grhjpocfumswh5tooa 323 17 patients patient NNS work_7n2voym2grhjpocfumswh5tooa 323 18 with with IN work_7n2voym2grhjpocfumswh5tooa 323 19 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 323 20 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 323 21 and and CC work_7n2voym2grhjpocfumswh5tooa 323 22 subretinal subretinal JJ work_7n2voym2grhjpocfumswh5tooa 323 23 fibrosis fibrosis NN work_7n2voym2grhjpocfumswh5tooa 323 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 323 25 Ghosh Ghosh NNP work_7n2voym2grhjpocfumswh5tooa 323 26 et et NNP work_7n2voym2grhjpocfumswh5tooa 323 27   _SP work_7n2voym2grhjpocfumswh5tooa 323 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 323 29 . . . work_7n2voym2grhjpocfumswh5tooa 324 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 324 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 324 3 Ishikawa Ishikawa NNP work_7n2voym2grhjpocfumswh5tooa 324 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 324 5   _SP work_7n2voym2grhjpocfumswh5tooa 324 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 324 7 . . . work_7n2voym2grhjpocfumswh5tooa 325 1 2016b 2016b LS work_7n2voym2grhjpocfumswh5tooa 325 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 325 3 Kobayashi Kobayashi NNP work_7n2voym2grhjpocfumswh5tooa 325 4 et et FW work_7n2voym2grhjpocfumswh5tooa 325 5     _SP work_7n2voym2grhjpocfumswh5tooa 325 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 325 7 . . . work_7n2voym2grhjpocfumswh5tooa 326 1 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 326 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 326 3 . . . work_7n2voym2grhjpocfumswh5tooa 327 1 Several several JJ work_7n2voym2grhjpocfumswh5tooa 327 2 of of IN work_7n2voym2grhjpocfumswh5tooa 327 3 the the DT work_7n2voym2grhjpocfumswh5tooa 327 4 serine serine JJ work_7n2voym2grhjpocfumswh5tooa 327 5 proteinase proteinase NN work_7n2voym2grhjpocfumswh5tooa 327 6 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 327 7 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 327 8 serpin serpin NNP work_7n2voym2grhjpocfumswh5tooa 327 9 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 327 10 family family NN work_7n2voym2grhjpocfumswh5tooa 327 11 members member NNS work_7n2voym2grhjpocfumswh5tooa 327 12 from from IN work_7n2voym2grhjpocfumswh5tooa 327 13 the the DT work_7n2voym2grhjpocfumswh5tooa 327 14 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 327 15 support support NN work_7n2voym2grhjpocfumswh5tooa 327 16 interval interval NN work_7n2voym2grhjpocfumswh5tooa 327 17 have have VBP work_7n2voym2grhjpocfumswh5tooa 327 18 also also RB work_7n2voym2grhjpocfumswh5tooa 327 19 been be VBN work_7n2voym2grhjpocfumswh5tooa 327 20 described describe VBN work_7n2voym2grhjpocfumswh5tooa 327 21 in in IN work_7n2voym2grhjpocfumswh5tooa 327 22 the the DT work_7n2voym2grhjpocfumswh5tooa 327 23 context context NN work_7n2voym2grhjpocfumswh5tooa 327 24 of of IN work_7n2voym2grhjpocfumswh5tooa 327 25 AMD- AMD- NNP work_7n2voym2grhjpocfumswh5tooa 327 26 related related JJ work_7n2voym2grhjpocfumswh5tooa 327 27 pathologies pathology NNS work_7n2voym2grhjpocfumswh5tooa 327 28 . . . work_7n2voym2grhjpocfumswh5tooa 328 1 The the DT work_7n2voym2grhjpocfumswh5tooa 328 2 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 328 3 encoded encode VBN work_7n2voym2grhjpocfumswh5tooa 328 4 by by IN work_7n2voym2grhjpocfumswh5tooa 328 5 SERPINB5 SERPINB5 NNP work_7n2voym2grhjpocfumswh5tooa 328 6 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 328 7 maspin maspin NNP work_7n2voym2grhjpocfumswh5tooa 328 8 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 328 9 and and CC work_7n2voym2grhjpocfumswh5tooa 328 10 SERPINB13 SERPINB13 NNP work_7n2voym2grhjpocfumswh5tooa 328 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 328 12 headpin headpin NNP work_7n2voym2grhjpocfumswh5tooa 328 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 328 14 are be VBP work_7n2voym2grhjpocfumswh5tooa 328 15 known know VBN work_7n2voym2grhjpocfumswh5tooa 328 16 for for IN work_7n2voym2grhjpocfumswh5tooa 328 17 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 328 18 anti anti JJ work_7n2voym2grhjpocfumswh5tooa 328 19 - - JJ work_7n2voym2grhjpocfumswh5tooa 328 20 angiogenic angiogenic JJ work_7n2voym2grhjpocfumswh5tooa 328 21 properties property NNS work_7n2voym2grhjpocfumswh5tooa 328 22 , , , work_7n2voym2grhjpocfumswh5tooa 328 23 which which WDT work_7n2voym2grhjpocfumswh5tooa 328 24 may may MD work_7n2voym2grhjpocfumswh5tooa 328 25 have have VB work_7n2voym2grhjpocfumswh5tooa 328 26 implications implication NNS work_7n2voym2grhjpocfumswh5tooa 328 27 for for IN work_7n2voym2grhjpocfumswh5tooa 328 28 the the DT work_7n2voym2grhjpocfumswh5tooa 328 29 choroidal choroidal NN work_7n2voym2grhjpocfumswh5tooa 328 30 neovascularization neovascularization NN work_7n2voym2grhjpocfumswh5tooa 328 31 subtype subtype NN work_7n2voym2grhjpocfumswh5tooa 328 32 of of IN work_7n2voym2grhjpocfumswh5tooa 328 33 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 328 34 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 328 35 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 328 36 Pescosolido Pescosolido NNP work_7n2voym2grhjpocfumswh5tooa 328 37 et et NNP work_7n2voym2grhjpocfumswh5tooa 328 38   _SP work_7n2voym2grhjpocfumswh5tooa 328 39 al al NNP work_7n2voym2grhjpocfumswh5tooa 328 40 . . . work_7n2voym2grhjpocfumswh5tooa 329 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 329 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 329 3 Shellenberger Shellenberger NNP work_7n2voym2grhjpocfumswh5tooa 329 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 329 5   _SP work_7n2voym2grhjpocfumswh5tooa 329 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 329 7 . . . work_7n2voym2grhjpocfumswh5tooa 330 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 330 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 330 3 Zhang Zhang NNP work_7n2voym2grhjpocfumswh5tooa 330 4 et et FW work_7n2voym2grhjpocfumswh5tooa 330 5   _SP work_7n2voym2grhjpocfumswh5tooa 330 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 330 7 . . . work_7n2voym2grhjpocfumswh5tooa 331 1 2000 2000 CD work_7n2voym2grhjpocfumswh5tooa 331 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 331 3 . . . work_7n2voym2grhjpocfumswh5tooa 332 1 A a DT work_7n2voym2grhjpocfumswh5tooa 332 2 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 332 3 variant variant NN work_7n2voym2grhjpocfumswh5tooa 332 4 near near IN work_7n2voym2grhjpocfumswh5tooa 332 5 SERPINB2 serpinb2 NN work_7n2voym2grhjpocfumswh5tooa 332 6 was be VBD work_7n2voym2grhjpocfumswh5tooa 332 7 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 332 8 as as IN work_7n2voym2grhjpocfumswh5tooa 332 9 a a DT work_7n2voym2grhjpocfumswh5tooa 332 10 risk risk NN work_7n2voym2grhjpocfumswh5tooa 332 11 factor factor NN work_7n2voym2grhjpocfumswh5tooa 332 12 for for IN work_7n2voym2grhjpocfumswh5tooa 332 13 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 332 14 in in IN work_7n2voym2grhjpocfumswh5tooa 332 15 smokers smoker NNS work_7n2voym2grhjpocfumswh5tooa 332 16 and and CC work_7n2voym2grhjpocfumswh5tooa 332 17 a a DT work_7n2voym2grhjpocfumswh5tooa 332 18 protec- protec- NN work_7n2voym2grhjpocfumswh5tooa 332 19 tive tive JJ work_7n2voym2grhjpocfumswh5tooa 332 20 factor factor NN work_7n2voym2grhjpocfumswh5tooa 332 21 in in IN work_7n2voym2grhjpocfumswh5tooa 332 22 nonsmokers nonsmoker NNS work_7n2voym2grhjpocfumswh5tooa 332 23 in in IN work_7n2voym2grhjpocfumswh5tooa 332 24 gene gene NN work_7n2voym2grhjpocfumswh5tooa 332 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 332 26 environment environment NN work_7n2voym2grhjpocfumswh5tooa 332 27 interaction interaction NN work_7n2voym2grhjpocfumswh5tooa 332 28 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 332 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 332 30 Naj Naj NNP work_7n2voym2grhjpocfumswh5tooa 332 31 et et NN work_7n2voym2grhjpocfumswh5tooa 332 32   _SP work_7n2voym2grhjpocfumswh5tooa 332 33 al al NNP work_7n2voym2grhjpocfumswh5tooa 332 34 . . . work_7n2voym2grhjpocfumswh5tooa 333 1 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 333 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 333 3 . . . work_7n2voym2grhjpocfumswh5tooa 334 1 Another another DT work_7n2voym2grhjpocfumswh5tooa 334 2 gene gene NN work_7n2voym2grhjpocfumswh5tooa 334 3 from from IN work_7n2voym2grhjpocfumswh5tooa 334 4 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 334 5 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 334 6 support support NN work_7n2voym2grhjpocfumswh5tooa 334 7 interval interval NN work_7n2voym2grhjpocfumswh5tooa 334 8 , , , work_7n2voym2grhjpocfumswh5tooa 334 9 TCF4 TCF4 NNP work_7n2voym2grhjpocfumswh5tooa 334 10 , , , work_7n2voym2grhjpocfumswh5tooa 334 11 has have VBZ work_7n2voym2grhjpocfumswh5tooa 334 12 repeatedly repeatedly RB work_7n2voym2grhjpocfumswh5tooa 334 13 been be VBN work_7n2voym2grhjpocfumswh5tooa 334 14 association association NN work_7n2voym2grhjpocfumswh5tooa 334 15 with with IN work_7n2voym2grhjpocfumswh5tooa 334 16 Fuchs Fuchs NNP work_7n2voym2grhjpocfumswh5tooa 334 17 endothelial endothelial JJ work_7n2voym2grhjpocfumswh5tooa 334 18 dystrophy dystrophy NN work_7n2voym2grhjpocfumswh5tooa 334 19 , , , work_7n2voym2grhjpocfumswh5tooa 334 20 which which WDT work_7n2voym2grhjpocfumswh5tooa 334 21 is be VBZ work_7n2voym2grhjpocfumswh5tooa 334 22 characterized characterize VBN work_7n2voym2grhjpocfumswh5tooa 334 23 by by IN work_7n2voym2grhjpocfumswh5tooa 334 24 the the DT work_7n2voym2grhjpocfumswh5tooa 334 25 deterioration deterioration NN work_7n2voym2grhjpocfumswh5tooa 334 26 of of IN work_7n2voym2grhjpocfumswh5tooa 334 27 the the DT work_7n2voym2grhjpocfumswh5tooa 334 28 corneal corneal JJ work_7n2voym2grhjpocfumswh5tooa 334 29 epithelium epithelium NN work_7n2voym2grhjpocfumswh5tooa 334 30 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 334 31 Baratz Baratz NNP work_7n2voym2grhjpocfumswh5tooa 334 32 et et NNP work_7n2voym2grhjpocfumswh5tooa 334 33   _SP work_7n2voym2grhjpocfumswh5tooa 334 34 al al NNP work_7n2voym2grhjpocfumswh5tooa 334 35 . . . work_7n2voym2grhjpocfumswh5tooa 335 1 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 335 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 335 3 Kuot Kuot NNP work_7n2voym2grhjpocfumswh5tooa 335 4 et et FW work_7n2voym2grhjpocfumswh5tooa 335 5   _SP work_7n2voym2grhjpocfumswh5tooa 335 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 335 7 . . . work_7n2voym2grhjpocfumswh5tooa 336 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 336 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 336 3 Li Li NNP work_7n2voym2grhjpocfumswh5tooa 336 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 336 5   _SP work_7n2voym2grhjpocfumswh5tooa 336 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 336 7 . . . work_7n2voym2grhjpocfumswh5tooa 337 1 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 337 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 337 3 Riazuddin Riazuddin NNP work_7n2voym2grhjpocfumswh5tooa 337 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 337 5   _SP work_7n2voym2grhjpocfumswh5tooa 337 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 337 7 . . . work_7n2voym2grhjpocfumswh5tooa 338 1 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 338 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 338 3 Thala- Thala- NNP work_7n2voym2grhjpocfumswh5tooa 338 4 muthu muthu RB work_7n2voym2grhjpocfumswh5tooa 338 5 et et NN work_7n2voym2grhjpocfumswh5tooa 338 6   _SP work_7n2voym2grhjpocfumswh5tooa 338 7 al al NNP work_7n2voym2grhjpocfumswh5tooa 338 8 . . . work_7n2voym2grhjpocfumswh5tooa 339 1 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 339 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 339 3 . . . work_7n2voym2grhjpocfumswh5tooa 340 1 C3 c3 VB work_7n2voym2grhjpocfumswh5tooa 340 2 and and CC work_7n2voym2grhjpocfumswh5tooa 340 3 TIMP3 timp3 JJ work_7n2voym2grhjpocfumswh5tooa 340 4 are be VBP work_7n2voym2grhjpocfumswh5tooa 340 5 known know VBN work_7n2voym2grhjpocfumswh5tooa 340 6 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 340 7 - - HYPH work_7n2voym2grhjpocfumswh5tooa 340 8 associ- associ- NNP work_7n2voym2grhjpocfumswh5tooa 340 9 ated ate VBN work_7n2voym2grhjpocfumswh5tooa 340 10 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 340 11 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 340 12 by by IN work_7n2voym2grhjpocfumswh5tooa 340 13 the the DT work_7n2voym2grhjpocfumswh5tooa 340 14 IAMDGC IAMDGC NNP work_7n2voym2grhjpocfumswh5tooa 340 15 that that WDT work_7n2voym2grhjpocfumswh5tooa 340 16 are be VBP work_7n2voym2grhjpocfumswh5tooa 340 17 also also RB work_7n2voym2grhjpocfumswh5tooa 340 18 described describe VBN work_7n2voym2grhjpocfumswh5tooa 340 19 in in IN work_7n2voym2grhjpocfumswh5tooa 340 20 the the DT work_7n2voym2grhjpocfumswh5tooa 340 21 following following JJ work_7n2voym2grhjpocfumswh5tooa 340 22 GO GO NNP work_7n2voym2grhjpocfumswh5tooa 340 23 terms term NNS work_7n2voym2grhjpocfumswh5tooa 340 24 from from IN work_7n2voym2grhjpocfumswh5tooa 340 25 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 340 26 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 340 27 : : : work_7n2voym2grhjpocfumswh5tooa 340 28 endopepti- endopepti- NNP work_7n2voym2grhjpocfumswh5tooa 340 29 dase dase NNP work_7n2voym2grhjpocfumswh5tooa 340 30 regulator regulator NNP work_7n2voym2grhjpocfumswh5tooa 340 31 activity activity NN work_7n2voym2grhjpocfumswh5tooa 340 32 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 340 33 GO:0061135 GO:0061135 NNP work_7n2voym2grhjpocfumswh5tooa 340 34 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 340 35 , , , work_7n2voym2grhjpocfumswh5tooa 340 36 peptidase peptidase NN work_7n2voym2grhjpocfumswh5tooa 340 37 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 340 38 activity activity NN work_7n2voym2grhjpocfumswh5tooa 340 39 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 340 40 GO:0030414 GO:0030414 NNP work_7n2voym2grhjpocfumswh5tooa 340 41 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 340 42 , , , work_7n2voym2grhjpocfumswh5tooa 340 43 and and CC work_7n2voym2grhjpocfumswh5tooa 340 44 endopeptidase endopeptidase NN work_7n2voym2grhjpocfumswh5tooa 340 45 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 340 46 activity activity NN work_7n2voym2grhjpocfumswh5tooa 340 47 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 340 48 GO:0004866 GO:0004866 NNP work_7n2voym2grhjpocfumswh5tooa 340 49 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 340 50 . . . work_7n2voym2grhjpocfumswh5tooa 341 1 Additionally additionally RB work_7n2voym2grhjpocfumswh5tooa 341 2 , , , work_7n2voym2grhjpocfumswh5tooa 341 3 the the DT work_7n2voym2grhjpocfumswh5tooa 341 4 only only JJ work_7n2voym2grhjpocfumswh5tooa 341 5 subtype subtype NN work_7n2voym2grhjpocfumswh5tooa 341 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 341 7 specific specific JJ work_7n2voym2grhjpocfumswh5tooa 341 8 vari- vari- JJ work_7n2voym2grhjpocfumswh5tooa 341 9 ant ant NN work_7n2voym2grhjpocfumswh5tooa 341 10 identified identify VBN work_7n2voym2grhjpocfumswh5tooa 341 11 for for IN work_7n2voym2grhjpocfumswh5tooa 341 12 the the DT work_7n2voym2grhjpocfumswh5tooa 341 13 CNV CNV NNP work_7n2voym2grhjpocfumswh5tooa 341 14 subtype subtype NN work_7n2voym2grhjpocfumswh5tooa 341 15 of of IN work_7n2voym2grhjpocfumswh5tooa 341 16 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 341 17 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 341 18 was be VBD work_7n2voym2grhjpocfumswh5tooa 341 19 located locate VBN work_7n2voym2grhjpocfumswh5tooa 341 20 near near IN work_7n2voym2grhjpocfumswh5tooa 341 21 the the DT work_7n2voym2grhjpocfumswh5tooa 341 22 MMP9 MMP9 NNP work_7n2voym2grhjpocfumswh5tooa 341 23 gene gene NN work_7n2voym2grhjpocfumswh5tooa 341 24 on on IN work_7n2voym2grhjpocfumswh5tooa 341 25 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 341 26 20 20 CD work_7n2voym2grhjpocfumswh5tooa 341 27 , , , work_7n2voym2grhjpocfumswh5tooa 341 28 which which WDT work_7n2voym2grhjpocfumswh5tooa 341 29 is be VBZ work_7n2voym2grhjpocfumswh5tooa 341 30 a a DT work_7n2voym2grhjpocfumswh5tooa 341 31 member member NN work_7n2voym2grhjpocfumswh5tooa 341 32 of of IN work_7n2voym2grhjpocfumswh5tooa 341 33 the the DT work_7n2voym2grhjpocfumswh5tooa 341 34 endopeptidase endopeptidase NN work_7n2voym2grhjpocfumswh5tooa 341 35 family family NN work_7n2voym2grhjpocfumswh5tooa 341 36 that that WDT work_7n2voym2grhjpocfumswh5tooa 341 37 participates participate VBZ work_7n2voym2grhjpocfumswh5tooa 341 38 in in IN work_7n2voym2grhjpocfumswh5tooa 341 39 extracellular extracellular NNP work_7n2voym2grhjpocfumswh5tooa 341 40 matrix matrix NN work_7n2voym2grhjpocfumswh5tooa 341 41 degradation degradation NN work_7n2voym2grhjpocfumswh5tooa 341 42 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 341 43 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 341 44 et et NNP work_7n2voym2grhjpocfumswh5tooa 341 45   _SP work_7n2voym2grhjpocfumswh5tooa 341 46 al al NNP work_7n2voym2grhjpocfumswh5tooa 341 47 . . . work_7n2voym2grhjpocfumswh5tooa 342 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 342 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 342 3 . . . work_7n2voym2grhjpocfumswh5tooa 343 1 Although although IN work_7n2voym2grhjpocfumswh5tooa 343 2 the the DT work_7n2voym2grhjpocfumswh5tooa 343 3 major major JJ work_7n2voym2grhjpocfumswh5tooa 343 4 peak peak NN work_7n2voym2grhjpocfumswh5tooa 343 5 in in IN work_7n2voym2grhjpocfumswh5tooa 343 6 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 343 7 initial initial JJ work_7n2voym2grhjpocfumswh5tooa 343 8 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 343 9 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 343 10 on on IN work_7n2voym2grhjpocfumswh5tooa 343 11 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 343 12 1 1 CD work_7n2voym2grhjpocfumswh5tooa 343 13 was be VBD work_7n2voym2grhjpocfumswh5tooa 343 14 diminished diminish VBN work_7n2voym2grhjpocfumswh5tooa 343 15 in in IN work_7n2voym2grhjpocfumswh5tooa 343 16 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 343 17 conditional conditional JJ work_7n2voym2grhjpocfumswh5tooa 343 18 link- link- NN work_7n2voym2grhjpocfumswh5tooa 343 19 age age NN work_7n2voym2grhjpocfumswh5tooa 343 20 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 343 21 , , , work_7n2voym2grhjpocfumswh5tooa 343 22 a a DT work_7n2voym2grhjpocfumswh5tooa 343 23 suggestive suggestive JJ work_7n2voym2grhjpocfumswh5tooa 343 24 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 343 25 peak peak NN work_7n2voym2grhjpocfumswh5tooa 343 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 343 27 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 343 28 ~ ~ NFP work_7n2voym2grhjpocfumswh5tooa 343 29 2 2 LS work_7n2voym2grhjpocfumswh5tooa 343 30 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 343 31 remained remain VBD work_7n2voym2grhjpocfumswh5tooa 343 32 around around IN work_7n2voym2grhjpocfumswh5tooa 343 33 213–217 213–217 CD work_7n2voym2grhjpocfumswh5tooa 343 34   _SP work_7n2voym2grhjpocfumswh5tooa 343 35 cM. cM. NNP work_7n2voym2grhjpocfumswh5tooa 344 1 This this DT work_7n2voym2grhjpocfumswh5tooa 344 2 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 344 3 region region NN work_7n2voym2grhjpocfumswh5tooa 344 4 corresponds correspond VBZ work_7n2voym2grhjpocfumswh5tooa 344 5 to to IN work_7n2voym2grhjpocfumswh5tooa 344 6 a a DT work_7n2voym2grhjpocfumswh5tooa 344 7 locus locus NN work_7n2voym2grhjpocfumswh5tooa 344 8 of of IN work_7n2voym2grhjpocfumswh5tooa 344 9 approximately approximately RB work_7n2voym2grhjpocfumswh5tooa 344 10 5 5 CD work_7n2voym2grhjpocfumswh5tooa 344 11   _SP work_7n2voym2grhjpocfumswh5tooa 344 12 MB mb NN work_7n2voym2grhjpocfumswh5tooa 344 13 that that WDT work_7n2voym2grhjpocfumswh5tooa 344 14 contains contain VBZ work_7n2voym2grhjpocfumswh5tooa 344 15 multiple multiple JJ work_7n2voym2grhjpocfumswh5tooa 344 16 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 344 17 including include VBG work_7n2voym2grhjpocfumswh5tooa 344 18 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 344 19 and and CC work_7n2voym2grhjpocfumswh5tooa 344 20 CFHR1 CFHR1 NNPS work_7n2voym2grhjpocfumswh5tooa 344 21 - - SYM work_7n2voym2grhjpocfumswh5tooa 344 22 5 5 CD work_7n2voym2grhjpocfumswh5tooa 344 23 . . . work_7n2voym2grhjpocfumswh5tooa 345 1 These these DT work_7n2voym2grhjpocfumswh5tooa 345 2 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 345 3 are be VBP work_7n2voym2grhjpocfumswh5tooa 345 4 located locate VBN work_7n2voym2grhjpocfumswh5tooa 345 5 within within IN work_7n2voym2grhjpocfumswh5tooa 345 6 the the DT work_7n2voym2grhjpocfumswh5tooa 345 7 regulation regulation NN work_7n2voym2grhjpocfumswh5tooa 345 8 of of IN work_7n2voym2grhjpocfumswh5tooa 345 9 complement complement JJ work_7n2voym2grhjpocfumswh5tooa 345 10 activation activation NN work_7n2voym2grhjpocfumswh5tooa 345 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 345 12 RCA RCA NNP work_7n2voym2grhjpocfumswh5tooa 345 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 345 14 gene gene NN work_7n2voym2grhjpocfumswh5tooa 345 15 clus- clus- NNP work_7n2voym2grhjpocfumswh5tooa 345 16 ter ter NN work_7n2voym2grhjpocfumswh5tooa 345 17 on on IN work_7n2voym2grhjpocfumswh5tooa 345 18 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 345 19 1 1 CD work_7n2voym2grhjpocfumswh5tooa 345 20 and and CC work_7n2voym2grhjpocfumswh5tooa 345 21 encode encode VB work_7n2voym2grhjpocfumswh5tooa 345 22 members member NNS work_7n2voym2grhjpocfumswh5tooa 345 23 of of IN work_7n2voym2grhjpocfumswh5tooa 345 24 the the DT work_7n2voym2grhjpocfumswh5tooa 345 25 factor factor NN work_7n2voym2grhjpocfumswh5tooa 345 26 H/ H/ NNP work_7n2voym2grhjpocfumswh5tooa 345 27 CFHR cfhr NN work_7n2voym2grhjpocfumswh5tooa 345 28 family family NN work_7n2voym2grhjpocfumswh5tooa 345 29 of of IN work_7n2voym2grhjpocfumswh5tooa 345 30 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 345 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 345 32 Male Male NNP work_7n2voym2grhjpocfumswh5tooa 345 33 et et NNP work_7n2voym2grhjpocfumswh5tooa 345 34   _SP work_7n2voym2grhjpocfumswh5tooa 345 35 al al NNP work_7n2voym2grhjpocfumswh5tooa 345 36 . . . work_7n2voym2grhjpocfumswh5tooa 346 1 2000 2000 CD work_7n2voym2grhjpocfumswh5tooa 346 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 346 3 . . . work_7n2voym2grhjpocfumswh5tooa 347 1 Polymorphisms Polymorphisms NNP work_7n2voym2grhjpocfumswh5tooa 347 2 1180 1180 CD work_7n2voym2grhjpocfumswh5tooa 347 3 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 347 4 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 347 5 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 347 6 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 347 7 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 347 8 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 347 9 1 1 CD work_7n2voym2grhjpocfumswh5tooa 347 10 3 3 CD work_7n2voym2grhjpocfumswh5tooa 347 11 and and CC work_7n2voym2grhjpocfumswh5tooa 347 12 deletions deletion NNS work_7n2voym2grhjpocfumswh5tooa 347 13 in in IN work_7n2voym2grhjpocfumswh5tooa 347 14 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 347 15 and and CC work_7n2voym2grhjpocfumswh5tooa 347 16 CFHRs CFHRs NNP work_7n2voym2grhjpocfumswh5tooa 347 17 have have VBP work_7n2voym2grhjpocfumswh5tooa 347 18 been be VBN work_7n2voym2grhjpocfumswh5tooa 347 19 previously previously RB work_7n2voym2grhjpocfumswh5tooa 347 20 asso- asso- RB work_7n2voym2grhjpocfumswh5tooa 347 21 ciated ciate VBN work_7n2voym2grhjpocfumswh5tooa 347 22 with with IN work_7n2voym2grhjpocfumswh5tooa 347 23 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 347 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 347 25 Edwards Edwards NNP work_7n2voym2grhjpocfumswh5tooa 347 26 et et FW work_7n2voym2grhjpocfumswh5tooa 347 27   _SP work_7n2voym2grhjpocfumswh5tooa 347 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 347 29 . . . work_7n2voym2grhjpocfumswh5tooa 348 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 348 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 348 3 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 348 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 348 5   _SP work_7n2voym2grhjpocfumswh5tooa 348 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 348 7 . . . work_7n2voym2grhjpocfumswh5tooa 349 1 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 349 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 349 3 Hageman Hageman NNP work_7n2voym2grhjpocfumswh5tooa 349 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 349 5   _SP work_7n2voym2grhjpocfumswh5tooa 349 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 349 7 . . . work_7n2voym2grhjpocfumswh5tooa 350 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 350 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 350 3 Haines Haines NNP work_7n2voym2grhjpocfumswh5tooa 350 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 350 5   _SP work_7n2voym2grhjpocfumswh5tooa 350 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 350 7 . . . work_7n2voym2grhjpocfumswh5tooa 351 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 351 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 351 3 Klein Klein NNP work_7n2voym2grhjpocfumswh5tooa 351 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 351 5   _SP work_7n2voym2grhjpocfumswh5tooa 351 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 351 7 . . . work_7n2voym2grhjpocfumswh5tooa 352 1 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 352 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 352 3 Lores Lores NNP work_7n2voym2grhjpocfumswh5tooa 352 4 - - HYPH work_7n2voym2grhjpocfumswh5tooa 352 5 Motta Motta NNP work_7n2voym2grhjpocfumswh5tooa 352 6 et et NNP work_7n2voym2grhjpocfumswh5tooa 352 7   _SP work_7n2voym2grhjpocfumswh5tooa 352 8 al al NNP work_7n2voym2grhjpocfumswh5tooa 352 9 . . . work_7n2voym2grhjpocfumswh5tooa 353 1 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 353 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 353 3 Martinez Martinez NNP work_7n2voym2grhjpocfumswh5tooa 353 4 - - HYPH work_7n2voym2grhjpocfumswh5tooa 353 5 Barricarte Barricarte NNP work_7n2voym2grhjpocfumswh5tooa 353 6 et et NNP work_7n2voym2grhjpocfumswh5tooa 353 7   _SP work_7n2voym2grhjpocfumswh5tooa 353 8 al al NNP work_7n2voym2grhjpocfumswh5tooa 353 9 . . . work_7n2voym2grhjpocfumswh5tooa 354 1 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 354 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 354 3 , , , work_7n2voym2grhjpocfumswh5tooa 354 4 including include VBG work_7n2voym2grhjpocfumswh5tooa 354 5 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 354 6 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 354 7 in in IN work_7n2voym2grhjpocfumswh5tooa 354 8 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 354 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 354 10 Hoffman Hoffman NNP work_7n2voym2grhjpocfumswh5tooa 354 11 et et NNP work_7n2voym2grhjpocfumswh5tooa 354 12   _SP work_7n2voym2grhjpocfumswh5tooa 354 13 al al NNP work_7n2voym2grhjpocfumswh5tooa 354 14 . . . work_7n2voym2grhjpocfumswh5tooa 355 1 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 355 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 355 3 Ray- Ray- NNP work_7n2voym2grhjpocfumswh5tooa 355 4 chaudhuri chaudhuri NNP work_7n2voym2grhjpocfumswh5tooa 355 5 et et NNP work_7n2voym2grhjpocfumswh5tooa 355 6   _SP work_7n2voym2grhjpocfumswh5tooa 355 7 al al NNP work_7n2voym2grhjpocfumswh5tooa 355 8 . . . work_7n2voym2grhjpocfumswh5tooa 356 1 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 356 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 356 3 and and CC work_7n2voym2grhjpocfumswh5tooa 356 4 a a DT work_7n2voym2grhjpocfumswh5tooa 356 5 protective protective JJ work_7n2voym2grhjpocfumswh5tooa 356 6 deletion deletion NN work_7n2voym2grhjpocfumswh5tooa 356 7 of of IN work_7n2voym2grhjpocfumswh5tooa 356 8 CFHR1 cfhr1 NN work_7n2voym2grhjpocfumswh5tooa 356 9 and and CC work_7n2voym2grhjpocfumswh5tooa 356 10 CFHR3 cfhr3 NN work_7n2voym2grhjpocfumswh5tooa 356 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 356 12 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 356 13 et et NNP work_7n2voym2grhjpocfumswh5tooa 356 14     _SP work_7n2voym2grhjpocfumswh5tooa 356 15 al al NNP work_7n2voym2grhjpocfumswh5tooa 356 16 . . . work_7n2voym2grhjpocfumswh5tooa 357 1 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 357 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 357 3 Hageman Hageman NNP work_7n2voym2grhjpocfumswh5tooa 357 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 357 5     _SP work_7n2voym2grhjpocfumswh5tooa 357 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 357 7 . . . work_7n2voym2grhjpocfumswh5tooa 358 1 2006 2006 CD work_7n2voym2grhjpocfumswh5tooa 358 2 ; ; : work_7n2voym2grhjpocfumswh5tooa 358 3 Hughes Hughes NNP work_7n2voym2grhjpocfumswh5tooa 358 4 et et NNP work_7n2voym2grhjpocfumswh5tooa 358 5   _SP work_7n2voym2grhjpocfumswh5tooa 358 6 al al NNP work_7n2voym2grhjpocfumswh5tooa 358 7 . . . work_7n2voym2grhjpocfumswh5tooa 359 1 2006 2006 CD work_7n2voym2grhjpocfumswh5tooa 359 2 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 359 3 . . . work_7n2voym2grhjpocfumswh5tooa 360 1 More more RBR work_7n2voym2grhjpocfumswh5tooa 360 2 detailed detailed JJ work_7n2voym2grhjpocfumswh5tooa 360 3 mapping mapping NN work_7n2voym2grhjpocfumswh5tooa 360 4 of of IN work_7n2voym2grhjpocfumswh5tooa 360 5 this this DT work_7n2voym2grhjpocfumswh5tooa 360 6 region region NN work_7n2voym2grhjpocfumswh5tooa 360 7 in in IN work_7n2voym2grhjpocfumswh5tooa 360 8 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 360 9 cohort cohort NN work_7n2voym2grhjpocfumswh5tooa 360 10 will will MD work_7n2voym2grhjpocfumswh5tooa 360 11 be be VB work_7n2voym2grhjpocfumswh5tooa 360 12 necessary necessary JJ work_7n2voym2grhjpocfumswh5tooa 360 13 to to TO work_7n2voym2grhjpocfumswh5tooa 360 14 determine determine VB work_7n2voym2grhjpocfumswh5tooa 360 15 which which WDT work_7n2voym2grhjpocfumswh5tooa 360 16 polymor- polymor- NN work_7n2voym2grhjpocfumswh5tooa 360 17 phisms phism NNS work_7n2voym2grhjpocfumswh5tooa 360 18 in in IN work_7n2voym2grhjpocfumswh5tooa 360 19 these these DT work_7n2voym2grhjpocfumswh5tooa 360 20 gene(s gene(s NNP work_7n2voym2grhjpocfumswh5tooa 360 21 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 360 22 are be VBP work_7n2voym2grhjpocfumswh5tooa 360 23 contributing contribute VBG work_7n2voym2grhjpocfumswh5tooa 360 24 to to IN work_7n2voym2grhjpocfumswh5tooa 360 25 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 360 26 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 360 27 signal signal NN work_7n2voym2grhjpocfumswh5tooa 360 28 . . . work_7n2voym2grhjpocfumswh5tooa 361 1 In in IN work_7n2voym2grhjpocfumswh5tooa 361 2 this this DT work_7n2voym2grhjpocfumswh5tooa 361 3 study study NN work_7n2voym2grhjpocfumswh5tooa 361 4 , , , work_7n2voym2grhjpocfumswh5tooa 361 5 we -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 361 6 performed perform VBD work_7n2voym2grhjpocfumswh5tooa 361 7 association association NN work_7n2voym2grhjpocfumswh5tooa 361 8 and and CC work_7n2voym2grhjpocfumswh5tooa 361 9 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 361 10 screens screen NNS work_7n2voym2grhjpocfumswh5tooa 361 11 in in IN work_7n2voym2grhjpocfumswh5tooa 361 12 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 361 13 families family NNS work_7n2voym2grhjpocfumswh5tooa 361 14 from from IN work_7n2voym2grhjpocfumswh5tooa 361 15 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 361 16 and and CC work_7n2voym2grhjpocfumswh5tooa 361 17 Indiana Indiana NNP work_7n2voym2grhjpocfumswh5tooa 361 18 . . . work_7n2voym2grhjpocfumswh5tooa 362 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 362 2 identified identify VBD work_7n2voym2grhjpocfumswh5tooa 362 3 four four CD work_7n2voym2grhjpocfumswh5tooa 362 4 novel novel NN work_7n2voym2grhjpocfumswh5tooa 362 5 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 362 6 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 362 7 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 362 8 with with IN work_7n2voym2grhjpocfumswh5tooa 362 9 increased increase VBN work_7n2voym2grhjpocfumswh5tooa 362 10 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 362 11 risk risk NN work_7n2voym2grhjpocfumswh5tooa 362 12 in in IN work_7n2voym2grhjpocfumswh5tooa 362 13 the the DT work_7n2voym2grhjpocfumswh5tooa 362 14 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 362 15 and and CC work_7n2voym2grhjpocfumswh5tooa 362 16 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 362 17 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 362 18 loci loci NN work_7n2voym2grhjpocfumswh5tooa 362 19 on on IN work_7n2voym2grhjpocfumswh5tooa 362 20 chromosomes chromosome NNS work_7n2voym2grhjpocfumswh5tooa 362 21 8q21.11–q21.13 8q21.11–q21.13 NNP work_7n2voym2grhjpocfumswh5tooa 362 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 362 23 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 362 24 recessive recessive JJ work_7n2voym2grhjpocfumswh5tooa 362 25 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 362 26 = = SYM work_7n2voym2grhjpocfumswh5tooa 362 27 4.03 4.03 CD work_7n2voym2grhjpocfumswh5tooa 362 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 362 29 and and CC work_7n2voym2grhjpocfumswh5tooa 362 30 18q21 18q21 CD work_7n2voym2grhjpocfumswh5tooa 362 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 362 32 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 362 33 dominant dominant JJ work_7n2voym2grhjpocfumswh5tooa 362 34 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 362 35 = = SYM work_7n2voym2grhjpocfumswh5tooa 362 36 3.87 3.87 CD work_7n2voym2grhjpocfumswh5tooa 362 37 ; ; : work_7n2voym2grhjpocfumswh5tooa 362 38 maximum maximum JJ work_7n2voym2grhjpocfumswh5tooa 362 39 reces- reces- VBZ work_7n2voym2grhjpocfumswh5tooa 362 40 sive sive JJ work_7n2voym2grhjpocfumswh5tooa 362 41 HLOD HLOD NNP work_7n2voym2grhjpocfumswh5tooa 362 42 = = SYM work_7n2voym2grhjpocfumswh5tooa 362 43 4.27 4.27 CD work_7n2voym2grhjpocfumswh5tooa 362 44 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 362 45 . . . work_7n2voym2grhjpocfumswh5tooa 363 1 These these DT work_7n2voym2grhjpocfumswh5tooa 363 2 findings finding NNS work_7n2voym2grhjpocfumswh5tooa 363 3 suggest suggest VBP work_7n2voym2grhjpocfumswh5tooa 363 4 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 363 5 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 363 6 factors factor NNS work_7n2voym2grhjpocfumswh5tooa 363 7 for for IN work_7n2voym2grhjpocfumswh5tooa 363 8 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 363 9 in in IN work_7n2voym2grhjpocfumswh5tooa 363 10 the the DT work_7n2voym2grhjpocfumswh5tooa 363 11 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 363 12 and and CC work_7n2voym2grhjpocfumswh5tooa 363 13 demonstrate demonstrate VB work_7n2voym2grhjpocfumswh5tooa 363 14 the the DT work_7n2voym2grhjpocfumswh5tooa 363 15 benefits benefit NNS work_7n2voym2grhjpocfumswh5tooa 363 16 of of IN work_7n2voym2grhjpocfumswh5tooa 363 17 analyzing analyze VBG work_7n2voym2grhjpocfumswh5tooa 363 18 the the DT work_7n2voym2grhjpocfumswh5tooa 363 19 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 363 20 architecture architecture NN work_7n2voym2grhjpocfumswh5tooa 363 21 of of IN work_7n2voym2grhjpocfumswh5tooa 363 22 a a DT work_7n2voym2grhjpocfumswh5tooa 363 23 complex complex JJ work_7n2voym2grhjpocfumswh5tooa 363 24 trait trait NN work_7n2voym2grhjpocfumswh5tooa 363 25 , , , work_7n2voym2grhjpocfumswh5tooa 363 26 like like IN work_7n2voym2grhjpocfumswh5tooa 363 27 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 363 28 , , , work_7n2voym2grhjpocfumswh5tooa 363 29 in in IN work_7n2voym2grhjpocfumswh5tooa 363 30 closely closely RB work_7n2voym2grhjpocfumswh5tooa 363 31 related related JJ work_7n2voym2grhjpocfumswh5tooa 363 32 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 363 33 from from IN work_7n2voym2grhjpocfumswh5tooa 363 34 an an DT work_7n2voym2grhjpocfumswh5tooa 363 35 isolated isolated JJ work_7n2voym2grhjpocfumswh5tooa 363 36 popula- popula- NN work_7n2voym2grhjpocfumswh5tooa 363 37 tion tion NN work_7n2voym2grhjpocfumswh5tooa 363 38 . . . work_7n2voym2grhjpocfumswh5tooa 364 1 While while IN work_7n2voym2grhjpocfumswh5tooa 364 2 family family NN work_7n2voym2grhjpocfumswh5tooa 364 3 - - HYPH work_7n2voym2grhjpocfumswh5tooa 364 4 based base VBN work_7n2voym2grhjpocfumswh5tooa 364 5 studies study NNS work_7n2voym2grhjpocfumswh5tooa 364 6 do do VBP work_7n2voym2grhjpocfumswh5tooa 364 7 not not RB work_7n2voym2grhjpocfumswh5tooa 364 8 require require VB work_7n2voym2grhjpocfumswh5tooa 364 9 sample sample NN work_7n2voym2grhjpocfumswh5tooa 364 10 sizes size NNS work_7n2voym2grhjpocfumswh5tooa 364 11 as as RB work_7n2voym2grhjpocfumswh5tooa 364 12 large large JJ work_7n2voym2grhjpocfumswh5tooa 364 13 as as IN work_7n2voym2grhjpocfumswh5tooa 364 14 traditional traditional JJ work_7n2voym2grhjpocfumswh5tooa 364 15 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 364 16 , , , work_7n2voym2grhjpocfumswh5tooa 364 17 the the DT work_7n2voym2grhjpocfumswh5tooa 364 18 sample sample NN work_7n2voym2grhjpocfumswh5tooa 364 19 size size NN work_7n2voym2grhjpocfumswh5tooa 364 20 for for IN work_7n2voym2grhjpocfumswh5tooa 364 21 this this DT work_7n2voym2grhjpocfumswh5tooa 364 22 study study NN work_7n2voym2grhjpocfumswh5tooa 364 23 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 364 24 n n NN work_7n2voym2grhjpocfumswh5tooa 364 25 = = SYM work_7n2voym2grhjpocfumswh5tooa 364 26 175 175 CD work_7n2voym2grhjpocfumswh5tooa 364 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 364 28 limited limit VBD work_7n2voym2grhjpocfumswh5tooa 364 29 its -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 364 30 power power NN work_7n2voym2grhjpocfumswh5tooa 364 31 to to TO work_7n2voym2grhjpocfumswh5tooa 364 32 detect detect VB work_7n2voym2grhjpocfumswh5tooa 364 33 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 364 34 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 364 35 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 364 36 and and CC work_7n2voym2grhjpocfumswh5tooa 364 37 loci loci NN work_7n2voym2grhjpocfumswh5tooa 364 38 . . . work_7n2voym2grhjpocfumswh5tooa 365 1 This this DT work_7n2voym2grhjpocfumswh5tooa 365 2 could could MD work_7n2voym2grhjpocfumswh5tooa 365 3 be be VB work_7n2voym2grhjpocfumswh5tooa 365 4 remedied remedie VBN work_7n2voym2grhjpocfumswh5tooa 365 5 with with IN work_7n2voym2grhjpocfumswh5tooa 365 6 the the DT work_7n2voym2grhjpocfumswh5tooa 365 7 ascertainment ascertainment NN work_7n2voym2grhjpocfumswh5tooa 365 8 of of IN work_7n2voym2grhjpocfumswh5tooa 365 9 additional additional JJ work_7n2voym2grhjpocfumswh5tooa 365 10 members member NNS work_7n2voym2grhjpocfumswh5tooa 365 11 of of IN work_7n2voym2grhjpocfumswh5tooa 365 12 many many JJ work_7n2voym2grhjpocfumswh5tooa 365 13 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 365 14 communities community NNS work_7n2voym2grhjpocfumswh5tooa 365 15 . . . work_7n2voym2grhjpocfumswh5tooa 366 1 Addition- Addition- NNP work_7n2voym2grhjpocfumswh5tooa 366 2 ally ally NN work_7n2voym2grhjpocfumswh5tooa 366 3 , , , work_7n2voym2grhjpocfumswh5tooa 366 4 more more RBR work_7n2voym2grhjpocfumswh5tooa 366 5 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 366 6 data datum NNS work_7n2voym2grhjpocfumswh5tooa 366 7 could could MD work_7n2voym2grhjpocfumswh5tooa 366 8 be be VB work_7n2voym2grhjpocfumswh5tooa 366 9 obtained obtain VBN work_7n2voym2grhjpocfumswh5tooa 366 10 from from IN work_7n2voym2grhjpocfumswh5tooa 366 11 whole whole JJ work_7n2voym2grhjpocfumswh5tooa 366 12 exome exome JJ work_7n2voym2grhjpocfumswh5tooa 366 13 sequencing sequencing NN work_7n2voym2grhjpocfumswh5tooa 366 14 or or CC work_7n2voym2grhjpocfumswh5tooa 366 15 dense dense JJ work_7n2voym2grhjpocfumswh5tooa 366 16 genotyping genotyping NN work_7n2voym2grhjpocfumswh5tooa 366 17 for for IN work_7n2voym2grhjpocfumswh5tooa 366 18 a a DT work_7n2voym2grhjpocfumswh5tooa 366 19 panel panel NN work_7n2voym2grhjpocfumswh5tooa 366 20 such such JJ work_7n2voym2grhjpocfumswh5tooa 366 21 as as IN work_7n2voym2grhjpocfumswh5tooa 366 22 the the DT work_7n2voym2grhjpocfumswh5tooa 366 23 Multi- Multi- NNP work_7n2voym2grhjpocfumswh5tooa 366 24 Ethnic Ethnic NNP work_7n2voym2grhjpocfumswh5tooa 366 25 Genotyping Genotyping NNP work_7n2voym2grhjpocfumswh5tooa 366 26 Array Array NNP work_7n2voym2grhjpocfumswh5tooa 366 27 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 366 28 MEGA MEGA NNP work_7n2voym2grhjpocfumswh5tooa 366 29 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 366 30 of of IN work_7n2voym2grhjpocfumswh5tooa 366 31 about about RB work_7n2voym2grhjpocfumswh5tooa 366 32 2 2 CD work_7n2voym2grhjpocfumswh5tooa 366 33 million million CD work_7n2voym2grhjpocfumswh5tooa 366 34 exonic exonic JJ work_7n2voym2grhjpocfumswh5tooa 366 35 markers marker NNS work_7n2voym2grhjpocfumswh5tooa 366 36 for for IN work_7n2voym2grhjpocfumswh5tooa 366 37 GWAS GWAS NNP work_7n2voym2grhjpocfumswh5tooa 366 38 and and CC work_7n2voym2grhjpocfumswh5tooa 366 39 ancestry ancestry NN work_7n2voym2grhjpocfumswh5tooa 366 40 - - HYPH work_7n2voym2grhjpocfumswh5tooa 366 41 specific specific JJ work_7n2voym2grhjpocfumswh5tooa 366 42 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 366 43 . . . work_7n2voym2grhjpocfumswh5tooa 367 1 Additional additional JJ work_7n2voym2grhjpocfumswh5tooa 367 2 studies study NNS work_7n2voym2grhjpocfumswh5tooa 367 3 are be VBP work_7n2voym2grhjpocfumswh5tooa 367 4 needed need VBN work_7n2voym2grhjpocfumswh5tooa 367 5 to to TO work_7n2voym2grhjpocfumswh5tooa 367 6 replicate replicate VB work_7n2voym2grhjpocfumswh5tooa 367 7 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 367 8 associations association NNS work_7n2voym2grhjpocfumswh5tooa 367 9 and and CC work_7n2voym2grhjpocfumswh5tooa 367 10 validate validate VB work_7n2voym2grhjpocfumswh5tooa 367 11 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 367 12 roles role NNS work_7n2voym2grhjpocfumswh5tooa 367 13 in in IN work_7n2voym2grhjpocfumswh5tooa 367 14 the the DT work_7n2voym2grhjpocfumswh5tooa 367 15 development development NN work_7n2voym2grhjpocfumswh5tooa 367 16 or or CC work_7n2voym2grhjpocfumswh5tooa 367 17 progression progression NN work_7n2voym2grhjpocfumswh5tooa 367 18 of of IN work_7n2voym2grhjpocfumswh5tooa 367 19 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 367 20 in in IN work_7n2voym2grhjpocfumswh5tooa 367 21 out- out- JJ work_7n2voym2grhjpocfumswh5tooa 367 22 bred bred JJ work_7n2voym2grhjpocfumswh5tooa 367 23 populations population NNS work_7n2voym2grhjpocfumswh5tooa 367 24 . . . work_7n2voym2grhjpocfumswh5tooa 368 1 Analyses Analyses NNP work_7n2voym2grhjpocfumswh5tooa 368 2 could could MD work_7n2voym2grhjpocfumswh5tooa 368 3 also also RB work_7n2voym2grhjpocfumswh5tooa 368 4 be be VB work_7n2voym2grhjpocfumswh5tooa 368 5 performed perform VBN work_7n2voym2grhjpocfumswh5tooa 368 6 for for IN work_7n2voym2grhjpocfumswh5tooa 368 7 the the DT work_7n2voym2grhjpocfumswh5tooa 368 8 subtypes subtype NNS work_7n2voym2grhjpocfumswh5tooa 368 9 or or CC work_7n2voym2grhjpocfumswh5tooa 368 10 endophenotypes endophenotype NNS work_7n2voym2grhjpocfumswh5tooa 368 11 of of IN work_7n2voym2grhjpocfumswh5tooa 368 12 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 368 13 to to TO work_7n2voym2grhjpocfumswh5tooa 368 14 identify identify VB work_7n2voym2grhjpocfumswh5tooa 368 15 subtype subtype NN work_7n2voym2grhjpocfumswh5tooa 368 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 368 17 spe- spe- NN work_7n2voym2grhjpocfumswh5tooa 368 18 cific cific JJ work_7n2voym2grhjpocfumswh5tooa 368 19 trends trend NNS work_7n2voym2grhjpocfumswh5tooa 368 20 or or CC work_7n2voym2grhjpocfumswh5tooa 368 21 associations association NNS work_7n2voym2grhjpocfumswh5tooa 368 22 with with IN work_7n2voym2grhjpocfumswh5tooa 368 23 other other JJ work_7n2voym2grhjpocfumswh5tooa 368 24 binary binary JJ work_7n2voym2grhjpocfumswh5tooa 368 25 and and CC work_7n2voym2grhjpocfumswh5tooa 368 26 quantitative quantitative JJ work_7n2voym2grhjpocfumswh5tooa 368 27 traits trait NNS work_7n2voym2grhjpocfumswh5tooa 368 28 that that WDT work_7n2voym2grhjpocfumswh5tooa 368 29 may may MD work_7n2voym2grhjpocfumswh5tooa 368 30 be be VB work_7n2voym2grhjpocfumswh5tooa 368 31 pertinent pertinent JJ work_7n2voym2grhjpocfumswh5tooa 368 32 for for IN work_7n2voym2grhjpocfumswh5tooa 368 33 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 368 34 etiology etiology NN work_7n2voym2grhjpocfumswh5tooa 368 35 . . . work_7n2voym2grhjpocfumswh5tooa 369 1 Such such JJ work_7n2voym2grhjpocfumswh5tooa 369 2 studies study NNS work_7n2voym2grhjpocfumswh5tooa 369 3 may may MD work_7n2voym2grhjpocfumswh5tooa 369 4 help help VB work_7n2voym2grhjpocfumswh5tooa 369 5 resolve resolve VB work_7n2voym2grhjpocfumswh5tooa 369 6 the the DT work_7n2voym2grhjpocfumswh5tooa 369 7 missing miss VBG work_7n2voym2grhjpocfumswh5tooa 369 8 heritability heritability NN work_7n2voym2grhjpocfumswh5tooa 369 9 of of IN work_7n2voym2grhjpocfumswh5tooa 369 10 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 369 11 and and CC work_7n2voym2grhjpocfumswh5tooa 369 12 provide provide VB work_7n2voym2grhjpocfumswh5tooa 369 13 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 369 14 insights insight NNS work_7n2voym2grhjpocfumswh5tooa 369 15 to to IN work_7n2voym2grhjpocfumswh5tooa 369 16 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 369 17 pathophysiology pathophysiology NN work_7n2voym2grhjpocfumswh5tooa 369 18 . . . work_7n2voym2grhjpocfumswh5tooa 370 1 Acknowledgements acknowledgement NNS work_7n2voym2grhjpocfumswh5tooa 370 2 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 370 3 thank thank VBP work_7n2voym2grhjpocfumswh5tooa 370 4 the the DT work_7n2voym2grhjpocfumswh5tooa 370 5 Amish amish JJ work_7n2voym2grhjpocfumswh5tooa 370 6 families family NNS work_7n2voym2grhjpocfumswh5tooa 370 7 for for IN work_7n2voym2grhjpocfumswh5tooa 370 8 allowing allow VBG work_7n2voym2grhjpocfumswh5tooa 370 9 us -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 370 10 into into IN work_7n2voym2grhjpocfumswh5tooa 370 11 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 370 12 communities community NNS work_7n2voym2grhjpocfumswh5tooa 370 13 and and CC work_7n2voym2grhjpocfumswh5tooa 370 14 for for IN work_7n2voym2grhjpocfumswh5tooa 370 15 participating participate VBG work_7n2voym2grhjpocfumswh5tooa 370 16 in in IN work_7n2voym2grhjpocfumswh5tooa 370 17 our -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 370 18 study study NN work_7n2voym2grhjpocfumswh5tooa 370 19 . . . work_7n2voym2grhjpocfumswh5tooa 371 1 We -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 371 2 also also RB work_7n2voym2grhjpocfumswh5tooa 371 3 acknowl- acknowl- VBP work_7n2voym2grhjpocfumswh5tooa 371 4 edge edge NN work_7n2voym2grhjpocfumswh5tooa 371 5 the the DT work_7n2voym2grhjpocfumswh5tooa 371 6 contributions contribution NNS work_7n2voym2grhjpocfumswh5tooa 371 7 of of IN work_7n2voym2grhjpocfumswh5tooa 371 8 the the DT work_7n2voym2grhjpocfumswh5tooa 371 9 Anabaptist Anabaptist NNP work_7n2voym2grhjpocfumswh5tooa 371 10 Genealogy Genealogy NNP work_7n2voym2grhjpocfumswh5tooa 371 11 Database Database NNP work_7n2voym2grhjpocfumswh5tooa 371 12 and and CC work_7n2voym2grhjpocfumswh5tooa 371 13 Swiss Swiss NNP work_7n2voym2grhjpocfumswh5tooa 371 14 Anabaptist Anabaptist NNP work_7n2voym2grhjpocfumswh5tooa 371 15 Genealogy Genealogy NNP work_7n2voym2grhjpocfumswh5tooa 371 16 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 371 17 . . . work_7n2voym2grhjpocfumswh5tooa 372 1 The the DT work_7n2voym2grhjpocfumswh5tooa 372 2 authors author NNS work_7n2voym2grhjpocfumswh5tooa 372 3 acknowledge acknowledge VBP work_7n2voym2grhjpocfumswh5tooa 372 4 the the DT work_7n2voym2grhjpocfumswh5tooa 372 5 contri- contri- JJ work_7n2voym2grhjpocfumswh5tooa 372 6 butions bution NNS work_7n2voym2grhjpocfumswh5tooa 372 7 of of IN work_7n2voym2grhjpocfumswh5tooa 372 8 the the DT work_7n2voym2grhjpocfumswh5tooa 372 9 Vanderbilt Vanderbilt NNP work_7n2voym2grhjpocfumswh5tooa 372 10 Technologies Technologies NNP work_7n2voym2grhjpocfumswh5tooa 372 11 for for IN work_7n2voym2grhjpocfumswh5tooa 372 12 Advanced Advanced NNP work_7n2voym2grhjpocfumswh5tooa 372 13 Genomics Genomics NNP work_7n2voym2grhjpocfumswh5tooa 372 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 372 15 VAN- VAN- NNP work_7n2voym2grhjpocfumswh5tooa 372 16 TAGE TAGE NNP work_7n2voym2grhjpocfumswh5tooa 372 17 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 372 18 DNA dna NN work_7n2voym2grhjpocfumswh5tooa 372 19 Resources resource NNS work_7n2voym2grhjpocfumswh5tooa 372 20 Core Core NNP work_7n2voym2grhjpocfumswh5tooa 372 21 . . . work_7n2voym2grhjpocfumswh5tooa 373 1 This this DT work_7n2voym2grhjpocfumswh5tooa 373 2 work work NN work_7n2voym2grhjpocfumswh5tooa 373 3 was be VBD work_7n2voym2grhjpocfumswh5tooa 373 4 supported support VBN work_7n2voym2grhjpocfumswh5tooa 373 5 by by IN work_7n2voym2grhjpocfumswh5tooa 373 6 the the DT work_7n2voym2grhjpocfumswh5tooa 373 7 National National NNP work_7n2voym2grhjpocfumswh5tooa 373 8 Institutes Institutes NNPS work_7n2voym2grhjpocfumswh5tooa 373 9 of of IN work_7n2voym2grhjpocfumswh5tooa 373 10 Health Health NNP work_7n2voym2grhjpocfumswh5tooa 373 11 [ [ -LRB- work_7n2voym2grhjpocfumswh5tooa 373 12 EY023164 EY023164 NNP work_7n2voym2grhjpocfumswh5tooa 373 13 ] ] -RRB- work_7n2voym2grhjpocfumswh5tooa 373 14 . . . work_7n2voym2grhjpocfumswh5tooa 374 1 J.N.C.B. J.N.C.B. NNP work_7n2voym2grhjpocfumswh5tooa 375 1 was be VBD work_7n2voym2grhjpocfumswh5tooa 375 2 supported support VBN work_7n2voym2grhjpocfumswh5tooa 375 3 in in IN work_7n2voym2grhjpocfumswh5tooa 375 4 part part NN work_7n2voym2grhjpocfumswh5tooa 375 5 by by IN work_7n2voym2grhjpocfumswh5tooa 375 6 a a DT work_7n2voym2grhjpocfumswh5tooa 375 7 PhRMA PhRMA NNP work_7n2voym2grhjpocfumswh5tooa 375 8 Informatics Informatics NNP work_7n2voym2grhjpocfumswh5tooa 375 9 Postdoctoral Postdoctoral NNP work_7n2voym2grhjpocfumswh5tooa 375 10 Fellowship Fellowship NNP work_7n2voym2grhjpocfumswh5tooa 375 11 . . . work_7n2voym2grhjpocfumswh5tooa 376 1 This this DT work_7n2voym2grhjpocfumswh5tooa 376 2 work work NN work_7n2voym2grhjpocfumswh5tooa 376 3 made make VBD work_7n2voym2grhjpocfumswh5tooa 376 4 use use NN work_7n2voym2grhjpocfumswh5tooa 376 5 of of IN work_7n2voym2grhjpocfumswh5tooa 376 6 the the DT work_7n2voym2grhjpocfumswh5tooa 376 7 High High NNP work_7n2voym2grhjpocfumswh5tooa 376 8 Performance Performance NNP work_7n2voym2grhjpocfumswh5tooa 376 9 Computing Computing NNP work_7n2voym2grhjpocfumswh5tooa 376 10 Resource Resource NNP work_7n2voym2grhjpocfumswh5tooa 376 11 in in IN work_7n2voym2grhjpocfumswh5tooa 376 12 the the DT work_7n2voym2grhjpocfumswh5tooa 376 13 Core Core NNP work_7n2voym2grhjpocfumswh5tooa 376 14 Facility Facility NNP work_7n2voym2grhjpocfumswh5tooa 376 15 for for IN work_7n2voym2grhjpocfumswh5tooa 376 16 Advanced Advanced NNP work_7n2voym2grhjpocfumswh5tooa 376 17 Research Research NNP work_7n2voym2grhjpocfumswh5tooa 376 18 Computing Computing NNP work_7n2voym2grhjpocfumswh5tooa 376 19 at at IN work_7n2voym2grhjpocfumswh5tooa 376 20 Case Case NNP work_7n2voym2grhjpocfumswh5tooa 376 21 Western Western NNP work_7n2voym2grhjpocfumswh5tooa 376 22 Reserve Reserve NNP work_7n2voym2grhjpocfumswh5tooa 376 23 University University NNP work_7n2voym2grhjpocfumswh5tooa 376 24 . . . work_7n2voym2grhjpocfumswh5tooa 377 1 Compliance compliance NN work_7n2voym2grhjpocfumswh5tooa 377 2 with with IN work_7n2voym2grhjpocfumswh5tooa 377 3 ethical ethical JJ work_7n2voym2grhjpocfumswh5tooa 377 4 standards standard NNS work_7n2voym2grhjpocfumswh5tooa 377 5 Conflict conflict NN work_7n2voym2grhjpocfumswh5tooa 377 6 of of IN work_7n2voym2grhjpocfumswh5tooa 377 7 interest interest NN work_7n2voym2grhjpocfumswh5tooa 377 8 The the DT work_7n2voym2grhjpocfumswh5tooa 377 9 authors author NNS work_7n2voym2grhjpocfumswh5tooa 377 10 have have VBP work_7n2voym2grhjpocfumswh5tooa 377 11 no no DT work_7n2voym2grhjpocfumswh5tooa 377 12 conflicts conflict NNS work_7n2voym2grhjpocfumswh5tooa 377 13 of of IN work_7n2voym2grhjpocfumswh5tooa 377 14 interest interest NN work_7n2voym2grhjpocfumswh5tooa 377 15 to to TO work_7n2voym2grhjpocfumswh5tooa 377 16 declare declare VB work_7n2voym2grhjpocfumswh5tooa 377 17 . . . work_7n2voym2grhjpocfumswh5tooa 378 1 Open open JJ work_7n2voym2grhjpocfumswh5tooa 378 2 Access access NN work_7n2voym2grhjpocfumswh5tooa 378 3 This this DT work_7n2voym2grhjpocfumswh5tooa 378 4 article article NN work_7n2voym2grhjpocfumswh5tooa 378 5 is be VBZ work_7n2voym2grhjpocfumswh5tooa 378 6 distributed distribute VBN work_7n2voym2grhjpocfumswh5tooa 378 7 under under IN work_7n2voym2grhjpocfumswh5tooa 378 8 the the DT work_7n2voym2grhjpocfumswh5tooa 378 9 terms term NNS work_7n2voym2grhjpocfumswh5tooa 378 10 of of IN work_7n2voym2grhjpocfumswh5tooa 378 11 the the DT work_7n2voym2grhjpocfumswh5tooa 378 12 Crea- Crea- NNPS work_7n2voym2grhjpocfumswh5tooa 378 13 tive tive JJ work_7n2voym2grhjpocfumswh5tooa 378 14 Commons Commons NNP work_7n2voym2grhjpocfumswh5tooa 378 15 Attribution Attribution NNP work_7n2voym2grhjpocfumswh5tooa 378 16 4.0 4.0 CD work_7n2voym2grhjpocfumswh5tooa 378 17 International International NNP work_7n2voym2grhjpocfumswh5tooa 378 18 License License NNP work_7n2voym2grhjpocfumswh5tooa 378 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 378 20 http://creat http://creat VB work_7n2voym2grhjpocfumswh5tooa 378 21 iveco iveco NNP work_7n2voym2grhjpocfumswh5tooa 378 22 mmons mmon NNS work_7n2voym2grhjpocfumswh5tooa 378 23 .org .org . work_7n2voym2grhjpocfumswh5tooa 378 24 / / SYM work_7n2voym2grhjpocfumswh5tooa 378 25 licen licen NNP work_7n2voym2grhjpocfumswh5tooa 378 26 ses ses NNP work_7n2voym2grhjpocfumswh5tooa 378 27 / / SYM work_7n2voym2grhjpocfumswh5tooa 378 28 by/4.0/ by/4.0/ NNP work_7n2voym2grhjpocfumswh5tooa 378 29 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 378 30 , , , work_7n2voym2grhjpocfumswh5tooa 378 31 which which WDT work_7n2voym2grhjpocfumswh5tooa 378 32 permits permit VBZ work_7n2voym2grhjpocfumswh5tooa 378 33 unrestricted unrestricted JJ work_7n2voym2grhjpocfumswh5tooa 378 34 use use NN work_7n2voym2grhjpocfumswh5tooa 378 35 , , , work_7n2voym2grhjpocfumswh5tooa 378 36 distribution distribution NN work_7n2voym2grhjpocfumswh5tooa 378 37 , , , work_7n2voym2grhjpocfumswh5tooa 378 38 and and CC work_7n2voym2grhjpocfumswh5tooa 378 39 reproduction reproduction NN work_7n2voym2grhjpocfumswh5tooa 378 40 in in IN work_7n2voym2grhjpocfumswh5tooa 378 41 any any DT work_7n2voym2grhjpocfumswh5tooa 378 42 medium medium NN work_7n2voym2grhjpocfumswh5tooa 378 43 , , , work_7n2voym2grhjpocfumswh5tooa 378 44 provided provide VBN work_7n2voym2grhjpocfumswh5tooa 378 45 you -PRON- PRP work_7n2voym2grhjpocfumswh5tooa 378 46 give give VBP work_7n2voym2grhjpocfumswh5tooa 378 47 appro- appro- NNP work_7n2voym2grhjpocfumswh5tooa 378 48 priate priate NN work_7n2voym2grhjpocfumswh5tooa 378 49 credit credit NN work_7n2voym2grhjpocfumswh5tooa 378 50 to to IN work_7n2voym2grhjpocfumswh5tooa 378 51 the the DT work_7n2voym2grhjpocfumswh5tooa 378 52 original original JJ work_7n2voym2grhjpocfumswh5tooa 378 53 author(s author(s NN work_7n2voym2grhjpocfumswh5tooa 378 54 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 378 55 and and CC work_7n2voym2grhjpocfumswh5tooa 378 56 the the DT work_7n2voym2grhjpocfumswh5tooa 378 57 source source NN work_7n2voym2grhjpocfumswh5tooa 378 58 , , , work_7n2voym2grhjpocfumswh5tooa 378 59 provide provide VB work_7n2voym2grhjpocfumswh5tooa 378 60 a a DT work_7n2voym2grhjpocfumswh5tooa 378 61 link link NN work_7n2voym2grhjpocfumswh5tooa 378 62 to to IN work_7n2voym2grhjpocfumswh5tooa 378 63 the the DT work_7n2voym2grhjpocfumswh5tooa 378 64 Creative Creative NNP work_7n2voym2grhjpocfumswh5tooa 378 65 Commons Commons NNP work_7n2voym2grhjpocfumswh5tooa 378 66 license license NN work_7n2voym2grhjpocfumswh5tooa 378 67 , , , work_7n2voym2grhjpocfumswh5tooa 378 68 and and CC work_7n2voym2grhjpocfumswh5tooa 378 69 indicate indicate VBP work_7n2voym2grhjpocfumswh5tooa 378 70 if if IN work_7n2voym2grhjpocfumswh5tooa 378 71 changes change NNS work_7n2voym2grhjpocfumswh5tooa 378 72 were be VBD work_7n2voym2grhjpocfumswh5tooa 378 73 made make VBN work_7n2voym2grhjpocfumswh5tooa 378 74 . . . work_7n2voym2grhjpocfumswh5tooa 379 1 References reference VBZ work_7n2voym2grhjpocfumswh5tooa 379 2 Abecasis Abecasis NNP work_7n2voym2grhjpocfumswh5tooa 379 3 Lab lab NN work_7n2voym2grhjpocfumswh5tooa 379 4 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 379 5 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 379 6 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 379 7 Exome exome JJ work_7n2voym2grhjpocfumswh5tooa 379 8 chip chip NN work_7n2voym2grhjpocfumswh5tooa 379 9 design design NN work_7n2voym2grhjpocfumswh5tooa 379 10 wiki wiki NN work_7n2voym2grhjpocfumswh5tooa 379 11 site site NN work_7n2voym2grhjpocfumswh5tooa 379 12 . . . work_7n2voym2grhjpocfumswh5tooa 380 1 https https NN work_7n2voym2grhjpocfumswh5tooa 380 2 : : : work_7n2voym2grhjpocfumswh5tooa 380 3 //genom //genom . work_7n2voym2grhjpocfumswh5tooa 380 4 e.sph e.sph RB work_7n2voym2grhjpocfumswh5tooa 380 5 . . . work_7n2voym2grhjpocfumswh5tooa 381 1 umich umich NNP work_7n2voym2grhjpocfumswh5tooa 381 2 .edu .edu . work_7n2voym2grhjpocfumswh5tooa 381 3 / / SYM work_7n2voym2grhjpocfumswh5tooa 381 4 wiki wiki JJ work_7n2voym2grhjpocfumswh5tooa 381 5 / / SYM work_7n2voym2grhjpocfumswh5tooa 381 6 Exome Exome NNP work_7n2voym2grhjpocfumswh5tooa 381 7 _ _ NNP work_7n2voym2grhjpocfumswh5tooa 381 8 Chip_Desig Chip_Desig NNP work_7n2voym2grhjpocfumswh5tooa 381 9 n. n. NN work_7n2voym2grhjpocfumswh5tooa 381 10 Accessed access VBD work_7n2voym2grhjpocfumswh5tooa 381 11 9 9 CD work_7n2voym2grhjpocfumswh5tooa 381 12 May May NNP work_7n2voym2grhjpocfumswh5tooa 381 13 2017 2017 CD work_7n2voym2grhjpocfumswh5tooa 381 14 Abecasis Abecasis NNP work_7n2voym2grhjpocfumswh5tooa 381 15 GR GR NNP work_7n2voym2grhjpocfumswh5tooa 381 16 , , , work_7n2voym2grhjpocfumswh5tooa 381 17 Cherny Cherny NNP work_7n2voym2grhjpocfumswh5tooa 381 18 SS SS NNP work_7n2voym2grhjpocfumswh5tooa 381 19 , , , work_7n2voym2grhjpocfumswh5tooa 381 20 Cookson Cookson NNP work_7n2voym2grhjpocfumswh5tooa 381 21 WO WO NNP work_7n2voym2grhjpocfumswh5tooa 381 22 , , , work_7n2voym2grhjpocfumswh5tooa 381 23 Cardon Cardon NNP work_7n2voym2grhjpocfumswh5tooa 381 24 LR LR NNP work_7n2voym2grhjpocfumswh5tooa 381 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 381 26 2002 2002 CD work_7n2voym2grhjpocfumswh5tooa 381 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 381 28 Merlin Merlin NNP work_7n2voym2grhjpocfumswh5tooa 381 29 – – : work_7n2voym2grhjpocfumswh5tooa 381 30 rapid rapid JJ work_7n2voym2grhjpocfumswh5tooa 381 31 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 381 32 of of IN work_7n2voym2grhjpocfumswh5tooa 381 33 dense dense JJ work_7n2voym2grhjpocfumswh5tooa 381 34 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 381 35 maps map NNS work_7n2voym2grhjpocfumswh5tooa 381 36 using use VBG work_7n2voym2grhjpocfumswh5tooa 381 37 sparse sparse JJ work_7n2voym2grhjpocfumswh5tooa 381 38 gene gene NN work_7n2voym2grhjpocfumswh5tooa 381 39 flow flow NN work_7n2voym2grhjpocfumswh5tooa 381 40 trees tree NNS work_7n2voym2grhjpocfumswh5tooa 381 41 . . . work_7n2voym2grhjpocfumswh5tooa 382 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 382 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 382 3 30:97–101 30:97–101 CD work_7n2voym2grhjpocfumswh5tooa 382 4 . . . work_7n2voym2grhjpocfumswh5tooa 383 1 https https NN work_7n2voym2grhjpocfumswh5tooa 383 2 : : : work_7n2voym2grhjpocfumswh5tooa 383 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 383 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 383 5 ng786 ng786 NNP work_7n2voym2grhjpocfumswh5tooa 383 6 Agarwala Agarwala NNP work_7n2voym2grhjpocfumswh5tooa 383 7 R R NNP work_7n2voym2grhjpocfumswh5tooa 383 8 , , , work_7n2voym2grhjpocfumswh5tooa 383 9 Biesecker Biesecker NNP work_7n2voym2grhjpocfumswh5tooa 383 10 LG LG NNP work_7n2voym2grhjpocfumswh5tooa 383 11 , , , work_7n2voym2grhjpocfumswh5tooa 383 12 Schaffer Schaffer NNP work_7n2voym2grhjpocfumswh5tooa 383 13 AA AA NNP work_7n2voym2grhjpocfumswh5tooa 383 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 383 15 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 383 16 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 383 17 Anabaptist anabaptist JJ work_7n2voym2grhjpocfumswh5tooa 383 18 genealogy genealogy NN work_7n2voym2grhjpocfumswh5tooa 383 19 database database NN work_7n2voym2grhjpocfumswh5tooa 383 20 . . . work_7n2voym2grhjpocfumswh5tooa 384 1 Am be VBP work_7n2voym2grhjpocfumswh5tooa 384 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 384 3 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 384 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 384 5 C c NN work_7n2voym2grhjpocfumswh5tooa 384 6 Semin semin NN work_7n2voym2grhjpocfumswh5tooa 384 7 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 384 8 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 384 9 121C:32–37 121c:32–37 NN work_7n2voym2grhjpocfumswh5tooa 384 10 . . . work_7n2voym2grhjpocfumswh5tooa 385 1 https https NN work_7n2voym2grhjpocfumswh5tooa 385 2 : : : work_7n2voym2grhjpocfumswh5tooa 385 3 //doi.org/10.1002 //doi.org/10.1002 . work_7n2voym2grhjpocfumswh5tooa 385 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 385 5 ajmg.c.20004 ajmg.c.20004 NNP work_7n2voym2grhjpocfumswh5tooa 385 6 Auer Auer NNP work_7n2voym2grhjpocfumswh5tooa 385 7 PL PL NNP work_7n2voym2grhjpocfumswh5tooa 385 8 , , , work_7n2voym2grhjpocfumswh5tooa 385 9 Lettre Lettre NNP work_7n2voym2grhjpocfumswh5tooa 385 10 G G NNP work_7n2voym2grhjpocfumswh5tooa 385 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 385 12 2015 2015 CD work_7n2voym2grhjpocfumswh5tooa 385 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 385 14 Rare rare JJ work_7n2voym2grhjpocfumswh5tooa 385 15 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 385 16 association association NN work_7n2voym2grhjpocfumswh5tooa 385 17 studies study NNS work_7n2voym2grhjpocfumswh5tooa 385 18 : : : work_7n2voym2grhjpocfumswh5tooa 385 19 considera- considera- NNP work_7n2voym2grhjpocfumswh5tooa 385 20 tions tion NNS work_7n2voym2grhjpocfumswh5tooa 385 21 , , , work_7n2voym2grhjpocfumswh5tooa 385 22 challenges challenge NNS work_7n2voym2grhjpocfumswh5tooa 385 23 and and CC work_7n2voym2grhjpocfumswh5tooa 385 24 opportunities opportunity NNS work_7n2voym2grhjpocfumswh5tooa 385 25 . . . work_7n2voym2grhjpocfumswh5tooa 386 1 Genome Genome NNP work_7n2voym2grhjpocfumswh5tooa 386 2 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 386 3 7:16 7:16 CD work_7n2voym2grhjpocfumswh5tooa 386 4 . . . work_7n2voym2grhjpocfumswh5tooa 386 5 https https NN work_7n2voym2grhjpocfumswh5tooa 386 6 : : : work_7n2voym2grhjpocfumswh5tooa 386 7 // // SYM work_7n2voym2grhjpocfumswh5tooa 386 8 doi.org/10.1186/s1307 doi.org/10.1186/s1307 NNP work_7n2voym2grhjpocfumswh5tooa 386 9 3 3 CD work_7n2voym2grhjpocfumswh5tooa 386 10 - - HYPH work_7n2voym2grhjpocfumswh5tooa 386 11 015 015 CD work_7n2voym2grhjpocfumswh5tooa 386 12 - - HYPH work_7n2voym2grhjpocfumswh5tooa 386 13 0138 0138 CD work_7n2voym2grhjpocfumswh5tooa 386 14 - - HYPH work_7n2voym2grhjpocfumswh5tooa 386 15 2 2 CD work_7n2voym2grhjpocfumswh5tooa 386 16 Ayoub Ayoub NNP work_7n2voym2grhjpocfumswh5tooa 386 17 T T NNP work_7n2voym2grhjpocfumswh5tooa 386 18 , , , work_7n2voym2grhjpocfumswh5tooa 386 19 Patel Patel NNP work_7n2voym2grhjpocfumswh5tooa 386 20 N N NNP work_7n2voym2grhjpocfumswh5tooa 386 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 386 22 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 386 23 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 386 24 Age age NN work_7n2voym2grhjpocfumswh5tooa 386 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 386 26 related relate VBN work_7n2voym2grhjpocfumswh5tooa 386 27 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 386 28 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 386 29 . . . work_7n2voym2grhjpocfumswh5tooa 387 1 J J NNP work_7n2voym2grhjpocfumswh5tooa 387 2 R R NNP work_7n2voym2grhjpocfumswh5tooa 387 3 Soc Soc NNP work_7n2voym2grhjpocfumswh5tooa 387 4 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 387 5 102:56–61 102:56–61 CD work_7n2voym2grhjpocfumswh5tooa 387 6 . . . work_7n2voym2grhjpocfumswh5tooa 388 1 https https NN work_7n2voym2grhjpocfumswh5tooa 388 2 : : : work_7n2voym2grhjpocfumswh5tooa 388 3 //doi.org/10.1258 //doi.org/10.1258 NNP work_7n2voym2grhjpocfumswh5tooa 388 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 388 5 jrsm.2009.08029 jrsm.2009.08029 NNP work_7n2voym2grhjpocfumswh5tooa 388 6 8 8 CD work_7n2voym2grhjpocfumswh5tooa 388 7 Baratz Baratz NNP work_7n2voym2grhjpocfumswh5tooa 388 8 KH KH NNP work_7n2voym2grhjpocfumswh5tooa 388 9 et et NN work_7n2voym2grhjpocfumswh5tooa 388 10   _SP work_7n2voym2grhjpocfumswh5tooa 388 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 388 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 388 13 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 388 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 388 15 E2 e2 CD work_7n2voym2grhjpocfumswh5tooa 388 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 388 17 2 2 CD work_7n2voym2grhjpocfumswh5tooa 388 18 protein protein NN work_7n2voym2grhjpocfumswh5tooa 388 19 and and CC work_7n2voym2grhjpocfumswh5tooa 388 20 Fuchs Fuchs NNP work_7n2voym2grhjpocfumswh5tooa 388 21 ’s ’s POS work_7n2voym2grhjpocfumswh5tooa 388 22 corneal corneal JJ work_7n2voym2grhjpocfumswh5tooa 388 23 dystrophy dystrophy NN work_7n2voym2grhjpocfumswh5tooa 388 24 . . . work_7n2voym2grhjpocfumswh5tooa 389 1 N N NNP work_7n2voym2grhjpocfumswh5tooa 389 2 Engl Engl NNP work_7n2voym2grhjpocfumswh5tooa 389 3 J J NNP work_7n2voym2grhjpocfumswh5tooa 389 4 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 389 5 363:1016–1024 363:1016–1024 NNP work_7n2voym2grhjpocfumswh5tooa 389 6 . . . work_7n2voym2grhjpocfumswh5tooa 390 1 https https NN work_7n2voym2grhjpocfumswh5tooa 390 2 : : : work_7n2voym2grhjpocfumswh5tooa 390 3 //doi.org/10.1056 //doi.org/10.1056 NNP work_7n2voym2grhjpocfumswh5tooa 390 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 390 5 NEJMo NEJMo NNPS work_7n2voym2grhjpocfumswh5tooa 390 6 a1007 a1007 DT work_7n2voym2grhjpocfumswh5tooa 390 7 064 064 CD work_7n2voym2grhjpocfumswh5tooa 390 8 Barber Barber NNP work_7n2voym2grhjpocfumswh5tooa 390 9 LJ LJ NNP work_7n2voym2grhjpocfumswh5tooa 390 10 et et NNP work_7n2voym2grhjpocfumswh5tooa 390 11   _SP work_7n2voym2grhjpocfumswh5tooa 390 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 390 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 390 14 2008 2008 CD work_7n2voym2grhjpocfumswh5tooa 390 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 390 16 RTEL1 RTEL1 NNP work_7n2voym2grhjpocfumswh5tooa 390 17 maintains maintain VBZ work_7n2voym2grhjpocfumswh5tooa 390 18 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 390 19 stability stability NN work_7n2voym2grhjpocfumswh5tooa 390 20 by by IN work_7n2voym2grhjpocfumswh5tooa 390 21 sup- sup- RB work_7n2voym2grhjpocfumswh5tooa 390 22 pressing press VBG work_7n2voym2grhjpocfumswh5tooa 390 23 homologous homologous JJ work_7n2voym2grhjpocfumswh5tooa 390 24 recombination recombination NN work_7n2voym2grhjpocfumswh5tooa 390 25 . . . work_7n2voym2grhjpocfumswh5tooa 391 1 Cell cell NN work_7n2voym2grhjpocfumswh5tooa 391 2 135:261–271 135:261–271 CD work_7n2voym2grhjpocfumswh5tooa 391 3 . . . work_7n2voym2grhjpocfumswh5tooa 392 1 https https NN work_7n2voym2grhjpocfumswh5tooa 392 2 : : : work_7n2voym2grhjpocfumswh5tooa 392 3 // // SYM work_7n2voym2grhjpocfumswh5tooa 392 4 doi.org/10.1016/j.cell.2008.08.016 doi.org/10.1016/j.cell.2008.08.016 RB work_7n2voym2grhjpocfumswh5tooa 392 5 Bindea Bindea NNP work_7n2voym2grhjpocfumswh5tooa 392 6 G G NNP work_7n2voym2grhjpocfumswh5tooa 392 7 et et NN work_7n2voym2grhjpocfumswh5tooa 392 8   _SP work_7n2voym2grhjpocfumswh5tooa 392 9 al al NNP work_7n2voym2grhjpocfumswh5tooa 392 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 392 11 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 392 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 392 13 ClueGO ClueGO NNP work_7n2voym2grhjpocfumswh5tooa 392 14 : : : work_7n2voym2grhjpocfumswh5tooa 392 15 a a DT work_7n2voym2grhjpocfumswh5tooa 392 16 Cytoscape Cytoscape NNP work_7n2voym2grhjpocfumswh5tooa 392 17 plug plug NN work_7n2voym2grhjpocfumswh5tooa 392 18 - - HYPH work_7n2voym2grhjpocfumswh5tooa 392 19 into into IN work_7n2voym2grhjpocfumswh5tooa 392 20 decipher decipher NNP work_7n2voym2grhjpocfumswh5tooa 392 21 func- func- NN work_7n2voym2grhjpocfumswh5tooa 392 22 tionally tionally NNP work_7n2voym2grhjpocfumswh5tooa 392 23 grouped group VBD work_7n2voym2grhjpocfumswh5tooa 392 24 gene gene NN work_7n2voym2grhjpocfumswh5tooa 392 25 ontology ontology NN work_7n2voym2grhjpocfumswh5tooa 392 26 and and CC work_7n2voym2grhjpocfumswh5tooa 392 27 pathway pathway JJ work_7n2voym2grhjpocfumswh5tooa 392 28 annotation annotation NN work_7n2voym2grhjpocfumswh5tooa 392 29 networks network NNS work_7n2voym2grhjpocfumswh5tooa 392 30 . . . work_7n2voym2grhjpocfumswh5tooa 393 1 Bioinformatics Bioinformatics NNP work_7n2voym2grhjpocfumswh5tooa 393 2 25:1091–1093 25:1091–1093 CD work_7n2voym2grhjpocfumswh5tooa 393 3 . . . work_7n2voym2grhjpocfumswh5tooa 394 1 https https NN work_7n2voym2grhjpocfumswh5tooa 394 2 : : : work_7n2voym2grhjpocfumswh5tooa 394 3 //doi.org/10.1093 //doi.org/10.1093 NNP work_7n2voym2grhjpocfumswh5tooa 394 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 394 5 bioin bioin NN work_7n2voym2grhjpocfumswh5tooa 394 6 forma forma NNP work_7n2voym2grhjpocfumswh5tooa 394 7 tics tic NNS work_7n2voym2grhjpocfumswh5tooa 394 8 / / SYM work_7n2voym2grhjpocfumswh5tooa 394 9 btp10 btp10 NNP work_7n2voym2grhjpocfumswh5tooa 394 10 1 1 CD work_7n2voym2grhjpocfumswh5tooa 394 11 Bourgain Bourgain NNP work_7n2voym2grhjpocfumswh5tooa 394 12 C C NNP work_7n2voym2grhjpocfumswh5tooa 394 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 394 14 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 394 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 394 16 KinInbcoef KinInbcoef NNP work_7n2voym2grhjpocfumswh5tooa 394 17 : : : work_7n2voym2grhjpocfumswh5tooa 394 18 calculation calculation NN work_7n2voym2grhjpocfumswh5tooa 394 19 of of IN work_7n2voym2grhjpocfumswh5tooa 394 20 kinship kinship NN work_7n2voym2grhjpocfumswh5tooa 394 21 and and CC work_7n2voym2grhjpocfumswh5tooa 394 22 inbreeding inbreeding NN work_7n2voym2grhjpocfumswh5tooa 394 23 coefficients coefficient NNS work_7n2voym2grhjpocfumswh5tooa 394 24 Codd Codd NNP work_7n2voym2grhjpocfumswh5tooa 394 25 V V NNP work_7n2voym2grhjpocfumswh5tooa 394 26 et et NN work_7n2voym2grhjpocfumswh5tooa 394 27   _SP work_7n2voym2grhjpocfumswh5tooa 394 28 al al NNP work_7n2voym2grhjpocfumswh5tooa 394 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 394 30 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 394 31 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 394 32 Identification identification NN work_7n2voym2grhjpocfumswh5tooa 394 33 of of IN work_7n2voym2grhjpocfumswh5tooa 394 34 seven seven CD work_7n2voym2grhjpocfumswh5tooa 394 35 loci loci NN work_7n2voym2grhjpocfumswh5tooa 394 36 affecting affect VBG work_7n2voym2grhjpocfumswh5tooa 394 37 mean mean NNP work_7n2voym2grhjpocfumswh5tooa 394 38 telomere telomere JJ work_7n2voym2grhjpocfumswh5tooa 394 39 length length NN work_7n2voym2grhjpocfumswh5tooa 394 40 and and CC work_7n2voym2grhjpocfumswh5tooa 394 41 their -PRON- PRP$ work_7n2voym2grhjpocfumswh5tooa 394 42 association association NN work_7n2voym2grhjpocfumswh5tooa 394 43 with with IN work_7n2voym2grhjpocfumswh5tooa 394 44 disease disease NN work_7n2voym2grhjpocfumswh5tooa 394 45 . . . work_7n2voym2grhjpocfumswh5tooa 395 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 395 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 395 3 45:422–427 45:422–427 VBZ work_7n2voym2grhjpocfumswh5tooa 395 4 . . . work_7n2voym2grhjpocfumswh5tooa 396 1 https https NN work_7n2voym2grhjpocfumswh5tooa 396 2 : : : work_7n2voym2grhjpocfumswh5tooa 396 3 //doi.org/10.1038 //doi.org/10.1038 . work_7n2voym2grhjpocfumswh5tooa 396 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 396 5 ng.2528 ng.2528 NNP work_7n2voym2grhjpocfumswh5tooa 396 6 Colijn Colijn NNP work_7n2voym2grhjpocfumswh5tooa 396 7 JM JM NNP work_7n2voym2grhjpocfumswh5tooa 396 8 et et NNP work_7n2voym2grhjpocfumswh5tooa 396 9   _SP work_7n2voym2grhjpocfumswh5tooa 396 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 396 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 396 12 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 396 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 396 14 Increased increase VBN work_7n2voym2grhjpocfumswh5tooa 396 15 high high JJ work_7n2voym2grhjpocfumswh5tooa 396 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 396 17 density density NN work_7n2voym2grhjpocfumswh5tooa 396 18 lipoprotein lipoprotein NN work_7n2voym2grhjpocfumswh5tooa 396 19 levels level NNS work_7n2voym2grhjpocfumswh5tooa 396 20 asso- asso- RB work_7n2voym2grhjpocfumswh5tooa 396 21 ciated ciate VBN work_7n2voym2grhjpocfumswh5tooa 396 22 with with IN work_7n2voym2grhjpocfumswh5tooa 396 23 age age NN work_7n2voym2grhjpocfumswh5tooa 396 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 396 25 related relate VBN work_7n2voym2grhjpocfumswh5tooa 396 26 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 396 27 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 396 28 : : : work_7n2voym2grhjpocfumswh5tooa 396 29 evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 396 30 from from IN work_7n2voym2grhjpocfumswh5tooa 396 31 the the DT work_7n2voym2grhjpocfumswh5tooa 396 32 EYE EYE NNP work_7n2voym2grhjpocfumswh5tooa 396 33 - - HYPH work_7n2voym2grhjpocfumswh5tooa 396 34 RISK RISK NNP work_7n2voym2grhjpocfumswh5tooa 396 35 and and CC work_7n2voym2grhjpocfumswh5tooa 396 36 European European NNP work_7n2voym2grhjpocfumswh5tooa 396 37 Eye Eye NNP work_7n2voym2grhjpocfumswh5tooa 396 38 Epidemiology Epidemiology NNP work_7n2voym2grhjpocfumswh5tooa 396 39 Consortia Consortia NNP work_7n2voym2grhjpocfumswh5tooa 396 40 . . . work_7n2voym2grhjpocfumswh5tooa 397 1 Ophthal- Ophthal- NNP work_7n2voym2grhjpocfumswh5tooa 397 2 mology mology NN work_7n2voym2grhjpocfumswh5tooa 397 3 . . . work_7n2voym2grhjpocfumswh5tooa 398 1 https https NN work_7n2voym2grhjpocfumswh5tooa 398 2 : : : work_7n2voym2grhjpocfumswh5tooa 398 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 398 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 398 5 j.ophth j.ophth NNP work_7n2voym2grhjpocfumswh5tooa 398 6 a.2018.09.045 a.2018.09.045 NNP work_7n2voym2grhjpocfumswh5tooa 398 7 Delcourt Delcourt NNP work_7n2voym2grhjpocfumswh5tooa 398 8 C c NN work_7n2voym2grhjpocfumswh5tooa 398 9 , , , work_7n2voym2grhjpocfumswh5tooa 398 10 Carriere Carriere NNP work_7n2voym2grhjpocfumswh5tooa 398 11 I I NNP work_7n2voym2grhjpocfumswh5tooa 398 12 , , , work_7n2voym2grhjpocfumswh5tooa 398 13 Cristol Cristol NNP work_7n2voym2grhjpocfumswh5tooa 398 14 JP JP NNP work_7n2voym2grhjpocfumswh5tooa 398 15 , , , work_7n2voym2grhjpocfumswh5tooa 398 16 Lacroux Lacroux NNP work_7n2voym2grhjpocfumswh5tooa 398 17 A A NNP work_7n2voym2grhjpocfumswh5tooa 398 18 , , , work_7n2voym2grhjpocfumswh5tooa 398 19 Gerber Gerber NNP work_7n2voym2grhjpocfumswh5tooa 398 20 M M NNP work_7n2voym2grhjpocfumswh5tooa 398 21 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 398 22 2007 2007 CD work_7n2voym2grhjpocfumswh5tooa 398 23 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 398 24 Die- Die- NNP work_7n2voym2grhjpocfumswh5tooa 398 25 tary tary JJ work_7n2voym2grhjpocfumswh5tooa 398 26 fat fat NN work_7n2voym2grhjpocfumswh5tooa 398 27 and and CC work_7n2voym2grhjpocfumswh5tooa 398 28 the the DT work_7n2voym2grhjpocfumswh5tooa 398 29 risk risk NN work_7n2voym2grhjpocfumswh5tooa 398 30 of of IN work_7n2voym2grhjpocfumswh5tooa 398 31 age age NN work_7n2voym2grhjpocfumswh5tooa 398 32 - - HYPH work_7n2voym2grhjpocfumswh5tooa 398 33 related relate VBN work_7n2voym2grhjpocfumswh5tooa 398 34 maculopathy maculopathy NNS work_7n2voym2grhjpocfumswh5tooa 398 35 : : : work_7n2voym2grhjpocfumswh5tooa 398 36 the the DT work_7n2voym2grhjpocfumswh5tooa 398 37 POLANUT POLANUT NNP work_7n2voym2grhjpocfumswh5tooa 398 38 study study NN work_7n2voym2grhjpocfumswh5tooa 398 39 . . . work_7n2voym2grhjpocfumswh5tooa 399 1 Eur Eur NNP work_7n2voym2grhjpocfumswh5tooa 399 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 399 3 Clin Clin NNP work_7n2voym2grhjpocfumswh5tooa 399 4 Nutr Nutr NNP work_7n2voym2grhjpocfumswh5tooa 399 5 61:1341–1344 61:1341–1344 NNP work_7n2voym2grhjpocfumswh5tooa 399 6 . . . work_7n2voym2grhjpocfumswh5tooa 400 1 https https NN work_7n2voym2grhjpocfumswh5tooa 400 2 : : : work_7n2voym2grhjpocfumswh5tooa 400 3 //doi.org/10.1038/ //doi.org/10.1038/ . work_7n2voym2grhjpocfumswh5tooa 400 4 sj.ejcn.16026 sj.ejcn.16026 IN work_7n2voym2grhjpocfumswh5tooa 400 5 85 85 CD work_7n2voym2grhjpocfumswh5tooa 400 6 Ding Ding NNP work_7n2voym2grhjpocfumswh5tooa 400 7 H H NNP work_7n2voym2grhjpocfumswh5tooa 400 8 et et NN work_7n2voym2grhjpocfumswh5tooa 400 9   _SP work_7n2voym2grhjpocfumswh5tooa 400 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 400 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 400 12 2004 2004 CD work_7n2voym2grhjpocfumswh5tooa 400 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 400 14 Regulation Regulation NNP work_7n2voym2grhjpocfumswh5tooa 400 15 of of IN work_7n2voym2grhjpocfumswh5tooa 400 16 murine murine NN work_7n2voym2grhjpocfumswh5tooa 400 17 telomere telomere RB work_7n2voym2grhjpocfumswh5tooa 400 18 length length NN work_7n2voym2grhjpocfumswh5tooa 400 19 by by IN work_7n2voym2grhjpocfumswh5tooa 400 20 Rtel Rtel NNP work_7n2voym2grhjpocfumswh5tooa 400 21 : : : work_7n2voym2grhjpocfumswh5tooa 400 22 an an DT work_7n2voym2grhjpocfumswh5tooa 400 23 essential essential JJ work_7n2voym2grhjpocfumswh5tooa 400 24 gene gene NN work_7n2voym2grhjpocfumswh5tooa 400 25 encoding encode VBG work_7n2voym2grhjpocfumswh5tooa 400 26 a a DT work_7n2voym2grhjpocfumswh5tooa 400 27 helicase helicase NN work_7n2voym2grhjpocfumswh5tooa 400 28 - - HYPH work_7n2voym2grhjpocfumswh5tooa 400 29 like like JJ work_7n2voym2grhjpocfumswh5tooa 400 30 protein protein NN work_7n2voym2grhjpocfumswh5tooa 400 31 . . . work_7n2voym2grhjpocfumswh5tooa 401 1 Cell cell NN work_7n2voym2grhjpocfumswh5tooa 401 2 117:873–886 117:873–886 CD work_7n2voym2grhjpocfumswh5tooa 401 3 . . . work_7n2voym2grhjpocfumswh5tooa 402 1 https https NN work_7n2voym2grhjpocfumswh5tooa 402 2 : : : work_7n2voym2grhjpocfumswh5tooa 402 3 //doi.org/10.1016 //doi.org/10.1016 , work_7n2voym2grhjpocfumswh5tooa 402 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 402 5 j.cell.2004.05.026 j.cell.2004.05.026 NN work_7n2voym2grhjpocfumswh5tooa 402 6 Edwards Edwards NNP work_7n2voym2grhjpocfumswh5tooa 402 7 AO AO NNP work_7n2voym2grhjpocfumswh5tooa 402 8 , , , work_7n2voym2grhjpocfumswh5tooa 402 9 Ritter Ritter NNP work_7n2voym2grhjpocfumswh5tooa 402 10 R R NNP work_7n2voym2grhjpocfumswh5tooa 402 11 3rd 3rd NN work_7n2voym2grhjpocfumswh5tooa 402 12 , , , work_7n2voym2grhjpocfumswh5tooa 402 13 Abel Abel NNP work_7n2voym2grhjpocfumswh5tooa 402 14 KJ KJ NNP work_7n2voym2grhjpocfumswh5tooa 402 15 , , , work_7n2voym2grhjpocfumswh5tooa 402 16 Manning Manning NNP work_7n2voym2grhjpocfumswh5tooa 402 17 A A NNP work_7n2voym2grhjpocfumswh5tooa 402 18 , , , work_7n2voym2grhjpocfumswh5tooa 402 19 Panhuysen Panhuysen NNP work_7n2voym2grhjpocfumswh5tooa 402 20 C C NNP work_7n2voym2grhjpocfumswh5tooa 402 21 , , , work_7n2voym2grhjpocfumswh5tooa 402 22 Far- Far- NNP work_7n2voym2grhjpocfumswh5tooa 402 23 rer rer NNP work_7n2voym2grhjpocfumswh5tooa 402 24 LA LA NNP work_7n2voym2grhjpocfumswh5tooa 402 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 402 26 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 402 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 402 28 Complement Complement NNP work_7n2voym2grhjpocfumswh5tooa 402 29 factor factor NN work_7n2voym2grhjpocfumswh5tooa 402 30 H h NN work_7n2voym2grhjpocfumswh5tooa 402 31 polymorphism polymorphism NN work_7n2voym2grhjpocfumswh5tooa 402 32 and and CC work_7n2voym2grhjpocfumswh5tooa 402 33 age- age- RB work_7n2voym2grhjpocfumswh5tooa 402 34 related related JJ work_7n2voym2grhjpocfumswh5tooa 402 35 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 402 36 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 402 37 . . . work_7n2voym2grhjpocfumswh5tooa 403 1 Science science NN work_7n2voym2grhjpocfumswh5tooa 403 2 308:421–424 308:421–424 CD work_7n2voym2grhjpocfumswh5tooa 403 3 . . . work_7n2voym2grhjpocfumswh5tooa 404 1 https https NN work_7n2voym2grhjpocfumswh5tooa 404 2 : : : work_7n2voym2grhjpocfumswh5tooa 404 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 404 4 . . . work_7n2voym2grhjpocfumswh5tooa 405 1 org/10.1126 org/10.1126 NNP work_7n2voym2grhjpocfumswh5tooa 405 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 405 3 scien scien NNP work_7n2voym2grhjpocfumswh5tooa 405 4 ce.11101 ce.11101 NNP work_7n2voym2grhjpocfumswh5tooa 405 5 89 89 CD work_7n2voym2grhjpocfumswh5tooa 405 6 Feng Feng NNP work_7n2voym2grhjpocfumswh5tooa 405 7 W W NNP work_7n2voym2grhjpocfumswh5tooa 405 8 , , , work_7n2voym2grhjpocfumswh5tooa 405 9 Zhang Zhang NNP work_7n2voym2grhjpocfumswh5tooa 405 10 M M NNP work_7n2voym2grhjpocfumswh5tooa 405 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 405 12 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 405 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 405 14 Organization Organization NNP work_7n2voym2grhjpocfumswh5tooa 405 15 and and CC work_7n2voym2grhjpocfumswh5tooa 405 16 dynamics dynamic NNS work_7n2voym2grhjpocfumswh5tooa 405 17 of of IN work_7n2voym2grhjpocfumswh5tooa 405 18 PDZ PDZ NNP work_7n2voym2grhjpocfumswh5tooa 405 19 - - HYPH work_7n2voym2grhjpocfumswh5tooa 405 20 domain- domain- JJ work_7n2voym2grhjpocfumswh5tooa 405 21 related related JJ work_7n2voym2grhjpocfumswh5tooa 405 22 supramodules supramodule NNS work_7n2voym2grhjpocfumswh5tooa 405 23 in in IN work_7n2voym2grhjpocfumswh5tooa 405 24 the the DT work_7n2voym2grhjpocfumswh5tooa 405 25 postsynaptic postsynaptic JJ work_7n2voym2grhjpocfumswh5tooa 405 26 density density NN work_7n2voym2grhjpocfumswh5tooa 405 27 . . . work_7n2voym2grhjpocfumswh5tooa 406 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 406 2 Rev Rev NNP work_7n2voym2grhjpocfumswh5tooa 406 3 Neuro- Neuro- NNP work_7n2voym2grhjpocfumswh5tooa 406 4 sci sci NNP work_7n2voym2grhjpocfumswh5tooa 406 5 10:87–99 10:87–99 CD work_7n2voym2grhjpocfumswh5tooa 406 6 . . . work_7n2voym2grhjpocfumswh5tooa 407 1 https https NN work_7n2voym2grhjpocfumswh5tooa 407 2 : : : work_7n2voym2grhjpocfumswh5tooa 407 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 407 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 407 5 nrn25 nrn25 NNP work_7n2voym2grhjpocfumswh5tooa 407 6 40 40 CD work_7n2voym2grhjpocfumswh5tooa 407 7 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 407 8 LG LG NNP work_7n2voym2grhjpocfumswh5tooa 407 9 et et NNP work_7n2voym2grhjpocfumswh5tooa 407 10   _SP work_7n2voym2grhjpocfumswh5tooa 407 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 407 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 407 13 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 407 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 407 15 An an DT work_7n2voym2grhjpocfumswh5tooa 407 16 imbalance imbalance NN work_7n2voym2grhjpocfumswh5tooa 407 17 of of IN work_7n2voym2grhjpocfumswh5tooa 407 18 human human JJ work_7n2voym2grhjpocfumswh5tooa 407 19 complement complement NN work_7n2voym2grhjpocfumswh5tooa 407 20 regu- regu- NN work_7n2voym2grhjpocfumswh5tooa 407 21 latory latory NN work_7n2voym2grhjpocfumswh5tooa 407 22 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 407 23 CFHR1 CFHR1 NNS work_7n2voym2grhjpocfumswh5tooa 407 24 , , , work_7n2voym2grhjpocfumswh5tooa 407 25 CFHR3 cfhr3 NN work_7n2voym2grhjpocfumswh5tooa 407 26 and and CC work_7n2voym2grhjpocfumswh5tooa 407 27 factor factor NN work_7n2voym2grhjpocfumswh5tooa 407 28 H h NN work_7n2voym2grhjpocfumswh5tooa 407 29 influences influence NNS work_7n2voym2grhjpocfumswh5tooa 407 30 risk risk NN work_7n2voym2grhjpocfumswh5tooa 407 31 for for IN work_7n2voym2grhjpocfumswh5tooa 407 32 age age NN work_7n2voym2grhjpocfumswh5tooa 407 33 - - HYPH work_7n2voym2grhjpocfumswh5tooa 407 34 related relate VBN work_7n2voym2grhjpocfumswh5tooa 407 35 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 407 36 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 407 37 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 407 38 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 407 39 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 407 40 . . . work_7n2voym2grhjpocfumswh5tooa 408 1 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 408 2 Mol Mol NNP work_7n2voym2grhjpocfumswh5tooa 408 3 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 408 4 19:4694–4704 19:4694–4704 CD work_7n2voym2grhjpocfumswh5tooa 408 5 . . . work_7n2voym2grhjpocfumswh5tooa 409 1 https https NN work_7n2voym2grhjpocfumswh5tooa 409 2 : : : work_7n2voym2grhjpocfumswh5tooa 409 3 //doi.org/10.1093 //doi.org/10.1093 NNP work_7n2voym2grhjpocfumswh5tooa 409 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 409 5 hmg hmg NNP work_7n2voym2grhjpocfumswh5tooa 409 6 / / SYM work_7n2voym2grhjpocfumswh5tooa 409 7 ddq39 ddq39 NNP work_7n2voym2grhjpocfumswh5tooa 409 8 9 9 CD work_7n2voym2grhjpocfumswh5tooa 409 9 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 409 10 LG LG NNP work_7n2voym2grhjpocfumswh5tooa 409 11 et et NNP work_7n2voym2grhjpocfumswh5tooa 409 12   _SP work_7n2voym2grhjpocfumswh5tooa 409 13 al al NNP work_7n2voym2grhjpocfumswh5tooa 409 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 409 15 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 409 16 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 409 17 Seven seven CD work_7n2voym2grhjpocfumswh5tooa 409 18 new new JJ work_7n2voym2grhjpocfumswh5tooa 409 19 loci loci NN work_7n2voym2grhjpocfumswh5tooa 409 20 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 409 21 with with IN work_7n2voym2grhjpocfumswh5tooa 409 22 age age NN work_7n2voym2grhjpocfumswh5tooa 409 23 - - HYPH work_7n2voym2grhjpocfumswh5tooa 409 24 related relate VBN work_7n2voym2grhjpocfumswh5tooa 409 25 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 409 26 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 409 27 . . . work_7n2voym2grhjpocfumswh5tooa 410 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 410 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 410 3 45:433–439 45:433–439 CD work_7n2voym2grhjpocfumswh5tooa 410 4 , , , work_7n2voym2grhjpocfumswh5tooa 410 5 439e431–432 439e431–432 CD work_7n2voym2grhjpocfumswh5tooa 410 6 . . . work_7n2voym2grhjpocfumswh5tooa 411 1 https https NN work_7n2voym2grhjpocfumswh5tooa 411 2 : : : work_7n2voym2grhjpocfumswh5tooa 411 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 411 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 411 5 ng.2578 ng.2578 NNP work_7n2voym2grhjpocfumswh5tooa 411 6 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 411 7 LG LG NNP work_7n2voym2grhjpocfumswh5tooa 411 8 , , , work_7n2voym2grhjpocfumswh5tooa 411 9 Fariss Fariss NNP work_7n2voym2grhjpocfumswh5tooa 411 10 RN RN NNP work_7n2voym2grhjpocfumswh5tooa 411 11 , , , work_7n2voym2grhjpocfumswh5tooa 411 12 Stambolian stambolian JJ work_7n2voym2grhjpocfumswh5tooa 411 13 D d NN work_7n2voym2grhjpocfumswh5tooa 411 14 , , , work_7n2voym2grhjpocfumswh5tooa 411 15 Abecasis Abecasis NNP work_7n2voym2grhjpocfumswh5tooa 411 16 GR GR NNP work_7n2voym2grhjpocfumswh5tooa 411 17 , , , work_7n2voym2grhjpocfumswh5tooa 411 18 Curcio Curcio NNP work_7n2voym2grhjpocfumswh5tooa 411 19 CA CA NNP work_7n2voym2grhjpocfumswh5tooa 411 20 , , , work_7n2voym2grhjpocfumswh5tooa 411 21 Swa- Swa- NNP work_7n2voym2grhjpocfumswh5tooa 411 22 roop roop NN work_7n2voym2grhjpocfumswh5tooa 411 23 A a NN work_7n2voym2grhjpocfumswh5tooa 411 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 411 25 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 411 26 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 411 27 Age age NN work_7n2voym2grhjpocfumswh5tooa 411 28 - - HYPH work_7n2voym2grhjpocfumswh5tooa 411 29 related relate VBN work_7n2voym2grhjpocfumswh5tooa 411 30 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 411 31 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 411 32 : : : work_7n2voym2grhjpocfumswh5tooa 411 33 genetics genetics NN work_7n2voym2grhjpocfumswh5tooa 411 34 and and CC work_7n2voym2grhjpocfumswh5tooa 411 35 biology biology NN work_7n2voym2grhjpocfumswh5tooa 411 36 coming come VBG work_7n2voym2grhjpocfumswh5tooa 411 37 together together RB work_7n2voym2grhjpocfumswh5tooa 411 38 . . . work_7n2voym2grhjpocfumswh5tooa 412 1 Annu Annu NNP work_7n2voym2grhjpocfumswh5tooa 412 2 Rev Rev NNP work_7n2voym2grhjpocfumswh5tooa 412 3 Genom Genom NNP work_7n2voym2grhjpocfumswh5tooa 412 4 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 412 5 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 412 6 15:151 15:151 CD work_7n2voym2grhjpocfumswh5tooa 412 7 – – : work_7n2voym2grhjpocfumswh5tooa 412 8 171 171 CD work_7n2voym2grhjpocfumswh5tooa 412 9 . . . work_7n2voym2grhjpocfumswh5tooa 412 10 https https NNP work_7n2voym2grhjpocfumswh5tooa 412 11 : : : work_7n2voym2grhjpocfumswh5tooa 412 12 //doi.org/10.1146 //doi.org/10.1146 NNP work_7n2voym2grhjpocfumswh5tooa 412 13 / / SYM work_7n2voym2grhjpocfumswh5tooa 412 14 annur annur NNP work_7n2voym2grhjpocfumswh5tooa 412 15 ev ev NNP work_7n2voym2grhjpocfumswh5tooa 412 16 - - HYPH work_7n2voym2grhjpocfumswh5tooa 412 17 genom genom NNP work_7n2voym2grhjpocfumswh5tooa 412 18 -09041 -09041 NNP work_7n2voym2grhjpocfumswh5tooa 412 19 3 3 CD work_7n2voym2grhjpocfumswh5tooa 412 20 - - HYPH work_7n2voym2grhjpocfumswh5tooa 412 21 02561 02561 CD work_7n2voym2grhjpocfumswh5tooa 412 22 0 0 CD work_7n2voym2grhjpocfumswh5tooa 412 23 http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/ FW work_7n2voym2grhjpocfumswh5tooa 412 24 http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/ ADD work_7n2voym2grhjpocfumswh5tooa 412 25 https://genome.sph.umich.edu/wiki/Exome_Chip_Design https://genome.sph.umich.edu/wiki/exome_chip_design VB work_7n2voym2grhjpocfumswh5tooa 412 26 https://genome.sph.umich.edu/wiki/Exome_Chip_Design https://genome.sph.umich.edu/wiki/Exome_Chip_Design NNP work_7n2voym2grhjpocfumswh5tooa 412 27 https://doi.org/10.1038/ng786 https://doi.org/10.1038/ng786 NNP work_7n2voym2grhjpocfumswh5tooa 412 28 https://doi.org/10.1002/ajmg.c.20004 https://doi.org/10.1002/ajmg.c.20004 NNP work_7n2voym2grhjpocfumswh5tooa 412 29 https://doi.org/10.1186/s13073-015-0138-2 https://doi.org/10.1186/s13073-015-0138-2 CD work_7n2voym2grhjpocfumswh5tooa 412 30 https://doi.org/10.1186/s13073-015-0138-2 https://doi.org/10.1186/s13073-015-0138-2 CD work_7n2voym2grhjpocfumswh5tooa 412 31 https://doi.org/10.1258/jrsm.2009.080298 https://doi.org/10.1258/jrsm.2009.080298 NNP work_7n2voym2grhjpocfumswh5tooa 412 32 https://doi.org/10.1056/NEJMoa1007064 https://doi.org/10.1056/NEJMoa1007064 NNP work_7n2voym2grhjpocfumswh5tooa 412 33 https://doi.org/10.1056/NEJMoa1007064 https://doi.org/10.1056/NEJMoa1007064 NNP work_7n2voym2grhjpocfumswh5tooa 412 34 https://doi.org/10.1016/j.cell.2008.08.016 https://doi.org/10.1016/j.cell.2008.08.016 NFP work_7n2voym2grhjpocfumswh5tooa 412 35 https://doi.org/10.1016/j.cell.2008.08.016 https://doi.org/10.1016/j.cell.2008.08.016 NFP work_7n2voym2grhjpocfumswh5tooa 412 36 https://doi.org/10.1093/bioinformatics/btp101 https://doi.org/10.1093/bioinformatics/btp101 ADD work_7n2voym2grhjpocfumswh5tooa 412 37 https://doi.org/10.1093/bioinformatics/btp101 https://doi.org/10.1093/bioinformatics/btp101 ADD work_7n2voym2grhjpocfumswh5tooa 412 38 https://doi.org/10.1038/ng.2528 https://doi.org/10.1038/ng.2528 NN work_7n2voym2grhjpocfumswh5tooa 412 39 https://doi.org/10.1016/j.ophtha.2018.09.045 https://doi.org/10.1016/j.ophtha.2018.09.045 NN work_7n2voym2grhjpocfumswh5tooa 412 40 https://doi.org/10.1038/sj.ejcn.1602685 https://doi.org/10.1038/sj.ejcn.1602685 NNP work_7n2voym2grhjpocfumswh5tooa 412 41 https://doi.org/10.1038/sj.ejcn.1602685 https://doi.org/10.1038/sj.ejcn.1602685 NNP work_7n2voym2grhjpocfumswh5tooa 412 42 https://doi.org/10.1016/j.cell.2004.05.026 https://doi.org/10.1016/j.cell.2004.05.026 NN work_7n2voym2grhjpocfumswh5tooa 412 43 https://doi.org/10.1126/science.1110189 https://doi.org/10.1126/science.1110189 PRP work_7n2voym2grhjpocfumswh5tooa 412 44 https://doi.org/10.1126/science.1110189 https://doi.org/10.1126/science.1110189 NN work_7n2voym2grhjpocfumswh5tooa 412 45 https://doi.org/10.1038/nrn2540 https://doi.org/10.1038/nrn2540 NNP work_7n2voym2grhjpocfumswh5tooa 412 46 https://doi.org/10.1093/hmg/ddq399 https://doi.org/10.1093/hmg/ddq399 NNP work_7n2voym2grhjpocfumswh5tooa 412 47 https://doi.org/10.1038/ng.2578 https://doi.org/10.1038/ng.2578 NNP work_7n2voym2grhjpocfumswh5tooa 412 48 https://doi.org/10.1038/ng.2578 https://doi.org/10.1038/ng.2578 NNP work_7n2voym2grhjpocfumswh5tooa 412 49 https://doi.org/10.1146/annurev-genom-090413-025610 https://doi.org/10.1146/annurev-genom-090413-025610 NNP work_7n2voym2grhjpocfumswh5tooa 412 50 1181Human 1181human CD work_7n2voym2grhjpocfumswh5tooa 412 51 Genetics Genetics NNP work_7n2voym2grhjpocfumswh5tooa 412 52 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 412 53 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 412 54 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 412 55 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 412 56 1 1 CD work_7n2voym2grhjpocfumswh5tooa 412 57 3 3 CD work_7n2voym2grhjpocfumswh5tooa 412 58 Fritsche Fritsche NNP work_7n2voym2grhjpocfumswh5tooa 412 59 LG LG NNP work_7n2voym2grhjpocfumswh5tooa 412 60 et et NNP work_7n2voym2grhjpocfumswh5tooa 412 61   _SP work_7n2voym2grhjpocfumswh5tooa 412 62 al al NNP work_7n2voym2grhjpocfumswh5tooa 412 63 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 412 64 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 412 65 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 412 66 A a DT work_7n2voym2grhjpocfumswh5tooa 412 67 large large JJ work_7n2voym2grhjpocfumswh5tooa 412 68 genome genome NN work_7n2voym2grhjpocfumswh5tooa 412 69 - - HYPH work_7n2voym2grhjpocfumswh5tooa 412 70 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 412 71 association association NN work_7n2voym2grhjpocfumswh5tooa 412 72 study study NN work_7n2voym2grhjpocfumswh5tooa 412 73 of of IN work_7n2voym2grhjpocfumswh5tooa 412 74 age- age- RB work_7n2voym2grhjpocfumswh5tooa 412 75 related relate VBN work_7n2voym2grhjpocfumswh5tooa 412 76 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 412 77 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 412 78 highlights highlight NNS work_7n2voym2grhjpocfumswh5tooa 412 79 contributions contribution NNS work_7n2voym2grhjpocfumswh5tooa 412 80 of of IN work_7n2voym2grhjpocfumswh5tooa 412 81 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 412 82 and and CC work_7n2voym2grhjpocfumswh5tooa 412 83 common common JJ work_7n2voym2grhjpocfumswh5tooa 412 84 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 412 85 . . . work_7n2voym2grhjpocfumswh5tooa 413 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 413 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 413 3 48:134–143 48:134–143 CD work_7n2voym2grhjpocfumswh5tooa 413 4 . . . work_7n2voym2grhjpocfumswh5tooa 414 1 https https NN work_7n2voym2grhjpocfumswh5tooa 414 2 : : : work_7n2voym2grhjpocfumswh5tooa 414 3 //doi.org/10.1038/ //doi.org/10.1038/ . work_7n2voym2grhjpocfumswh5tooa 414 4 ng.3448 ng.3448 NNP work_7n2voym2grhjpocfumswh5tooa 414 5 Ghosh Ghosh NNP work_7n2voym2grhjpocfumswh5tooa 414 6 S S NNP work_7n2voym2grhjpocfumswh5tooa 414 7 et et FW work_7n2voym2grhjpocfumswh5tooa 414 8   _SP work_7n2voym2grhjpocfumswh5tooa 414 9 al al NNP work_7n2voym2grhjpocfumswh5tooa 414 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 414 11 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 414 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 414 13 A a DT work_7n2voym2grhjpocfumswh5tooa 414 14 role role NN work_7n2voym2grhjpocfumswh5tooa 414 15 for for IN work_7n2voym2grhjpocfumswh5tooa 414 16 betaA3 betaA3 NNP work_7n2voym2grhjpocfumswh5tooa 414 17 / / SYM work_7n2voym2grhjpocfumswh5tooa 414 18 A1-crystallin A1-crystallin NNP work_7n2voym2grhjpocfumswh5tooa 414 19 in in IN work_7n2voym2grhjpocfumswh5tooa 414 20 type type NN work_7n2voym2grhjpocfumswh5tooa 414 21 2 2 CD work_7n2voym2grhjpocfumswh5tooa 414 22 EMT EMT NNP work_7n2voym2grhjpocfumswh5tooa 414 23 of of IN work_7n2voym2grhjpocfumswh5tooa 414 24 RPE RPE NNP work_7n2voym2grhjpocfumswh5tooa 414 25 cells cell NNS work_7n2voym2grhjpocfumswh5tooa 414 26 occurring occur VBG work_7n2voym2grhjpocfumswh5tooa 414 27 in in IN work_7n2voym2grhjpocfumswh5tooa 414 28 dry dry JJ work_7n2voym2grhjpocfumswh5tooa 414 29 age age NN work_7n2voym2grhjpocfumswh5tooa 414 30 - - HYPH work_7n2voym2grhjpocfumswh5tooa 414 31 related relate VBN work_7n2voym2grhjpocfumswh5tooa 414 32 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 414 33 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 414 34 . . . work_7n2voym2grhjpocfumswh5tooa 415 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 415 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 415 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 415 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 415 5 59 59 CD work_7n2voym2grhjpocfumswh5tooa 415 6 : : : work_7n2voym2grhjpocfumswh5tooa 415 7 AMD104–AMD113 AMD104–AMD113 NNS work_7n2voym2grhjpocfumswh5tooa 415 8 . . . work_7n2voym2grhjpocfumswh5tooa 416 1 https https NN work_7n2voym2grhjpocfumswh5tooa 416 2 : : : work_7n2voym2grhjpocfumswh5tooa 416 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 416 4 . . . work_7n2voym2grhjpocfumswh5tooa 417 1 org/10.1167 org/10.1167 NNP work_7n2voym2grhjpocfumswh5tooa 417 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 417 3 iovs.18 iovs.18 NNP work_7n2voym2grhjpocfumswh5tooa 417 4 - - HYPH work_7n2voym2grhjpocfumswh5tooa 417 5 24132 24132 CD work_7n2voym2grhjpocfumswh5tooa 417 6 Glaeser Glaeser NNP work_7n2voym2grhjpocfumswh5tooa 417 7 K K NNP work_7n2voym2grhjpocfumswh5tooa 417 8 et et NNP work_7n2voym2grhjpocfumswh5tooa 417 9   _SP work_7n2voym2grhjpocfumswh5tooa 417 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 417 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 417 12 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 417 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 417 14 ERAD erad NN work_7n2voym2grhjpocfumswh5tooa 417 15 - - HYPH work_7n2voym2grhjpocfumswh5tooa 417 16 dependent dependent JJ work_7n2voym2grhjpocfumswh5tooa 417 17 control control NN work_7n2voym2grhjpocfumswh5tooa 417 18 of of IN work_7n2voym2grhjpocfumswh5tooa 417 19 the the DT work_7n2voym2grhjpocfumswh5tooa 417 20 Wnt Wnt NNP work_7n2voym2grhjpocfumswh5tooa 417 21 secretory secretory NN work_7n2voym2grhjpocfumswh5tooa 417 22 factor factor NN work_7n2voym2grhjpocfumswh5tooa 417 23 Evi Evi NNP work_7n2voym2grhjpocfumswh5tooa 417 24 . . . work_7n2voym2grhjpocfumswh5tooa 418 1 EMBO EMBO NNP work_7n2voym2grhjpocfumswh5tooa 418 2 J. J. NNP work_7n2voym2grhjpocfumswh5tooa 418 3 https https NN work_7n2voym2grhjpocfumswh5tooa 418 4 : : : work_7n2voym2grhjpocfumswh5tooa 418 5 //doi.org/10.15252 //doi.org/10.15252 . work_7n2voym2grhjpocfumswh5tooa 418 6 /embj.20179 /embj.20179 XX work_7n2voym2grhjpocfumswh5tooa 418 7 7311 7311 CD work_7n2voym2grhjpocfumswh5tooa 418 8 Goldstein Goldstein NNP work_7n2voym2grhjpocfumswh5tooa 418 9 JI JI NNP work_7n2voym2grhjpocfumswh5tooa 418 10 et et NNP work_7n2voym2grhjpocfumswh5tooa 418 11   _SP work_7n2voym2grhjpocfumswh5tooa 418 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 418 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 418 14 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 418 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 418 16 zCall zcall NN work_7n2voym2grhjpocfumswh5tooa 418 17 : : : work_7n2voym2grhjpocfumswh5tooa 418 18 a a DT work_7n2voym2grhjpocfumswh5tooa 418 19 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 418 20 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 418 21 caller caller NN work_7n2voym2grhjpocfumswh5tooa 418 22 for for IN work_7n2voym2grhjpocfumswh5tooa 418 23 array array NN work_7n2voym2grhjpocfumswh5tooa 418 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 418 25 based base VBN work_7n2voym2grhjpocfumswh5tooa 418 26 genotyping genotyping NN work_7n2voym2grhjpocfumswh5tooa 418 27 : : : work_7n2voym2grhjpocfumswh5tooa 418 28 genetics genetics NN work_7n2voym2grhjpocfumswh5tooa 418 29 and and CC work_7n2voym2grhjpocfumswh5tooa 418 30 population population NN work_7n2voym2grhjpocfumswh5tooa 418 31 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 418 32 . . . work_7n2voym2grhjpocfumswh5tooa 419 1 Bioinformatics Bioinformatics NNP work_7n2voym2grhjpocfumswh5tooa 419 2 28:2543–2545 28:2543–2545 NNP work_7n2voym2grhjpocfumswh5tooa 419 3 . . . work_7n2voym2grhjpocfumswh5tooa 420 1 https https NN work_7n2voym2grhjpocfumswh5tooa 420 2 : : : work_7n2voym2grhjpocfumswh5tooa 420 3 //doi.org/10.1093 //doi.org/10.1093 NNP work_7n2voym2grhjpocfumswh5tooa 420 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 420 5 bioin bioin NN work_7n2voym2grhjpocfumswh5tooa 420 6 forma forma NNP work_7n2voym2grhjpocfumswh5tooa 420 7 tics tic NNS work_7n2voym2grhjpocfumswh5tooa 420 8 / / SYM work_7n2voym2grhjpocfumswh5tooa 420 9 bts47 bts47 NNP work_7n2voym2grhjpocfumswh5tooa 420 10 9 9 CD work_7n2voym2grhjpocfumswh5tooa 420 11 Grove Grove NNP work_7n2voym2grhjpocfumswh5tooa 420 12 ML ML NNP work_7n2voym2grhjpocfumswh5tooa 420 13 et et NNP work_7n2voym2grhjpocfumswh5tooa 420 14     _SP work_7n2voym2grhjpocfumswh5tooa 420 15 al al NNP work_7n2voym2grhjpocfumswh5tooa 420 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 420 17 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 420 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 420 19 Best good JJS work_7n2voym2grhjpocfumswh5tooa 420 20 practices practice NNS work_7n2voym2grhjpocfumswh5tooa 420 21 and and CC work_7n2voym2grhjpocfumswh5tooa 420 22 joint joint JJ work_7n2voym2grhjpocfumswh5tooa 420 23 calling calling NN work_7n2voym2grhjpocfumswh5tooa 420 24 of of IN work_7n2voym2grhjpocfumswh5tooa 420 25 the the DT work_7n2voym2grhjpocfumswh5tooa 420 26 HumanExome HumanExome NNP work_7n2voym2grhjpocfumswh5tooa 420 27 BeadChip BeadChip NNP work_7n2voym2grhjpocfumswh5tooa 420 28 : : : work_7n2voym2grhjpocfumswh5tooa 420 29 the the DT work_7n2voym2grhjpocfumswh5tooa 420 30 CHARGE CHARGE NNP work_7n2voym2grhjpocfumswh5tooa 420 31 Consortium Consortium NNP work_7n2voym2grhjpocfumswh5tooa 420 32 . . . work_7n2voym2grhjpocfumswh5tooa 421 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 421 2 One one CD work_7n2voym2grhjpocfumswh5tooa 421 3 8 8 CD work_7n2voym2grhjpocfumswh5tooa 421 4 : : : work_7n2voym2grhjpocfumswh5tooa 421 5 e68095 e68095 NNP work_7n2voym2grhjpocfumswh5tooa 421 6 . . . work_7n2voym2grhjpocfumswh5tooa 422 1 https https NN work_7n2voym2grhjpocfumswh5tooa 422 2 : : : work_7n2voym2grhjpocfumswh5tooa 422 3 //doi.org/10.1371 //doi.org/10.1371 JJ work_7n2voym2grhjpocfumswh5tooa 422 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 422 5 journ journ NN work_7n2voym2grhjpocfumswh5tooa 422 6 al.pone.00680 al.pone.00680 . work_7n2voym2grhjpocfumswh5tooa 422 7 95 95 CD work_7n2voym2grhjpocfumswh5tooa 422 8 Guo Guo NNP work_7n2voym2grhjpocfumswh5tooa 422 9 Y Y NNP work_7n2voym2grhjpocfumswh5tooa 422 10 et et NN work_7n2voym2grhjpocfumswh5tooa 422 11   _SP work_7n2voym2grhjpocfumswh5tooa 422 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 422 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 422 14 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 422 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 422 16 Illumina Illumina NNP work_7n2voym2grhjpocfumswh5tooa 422 17 human human JJ work_7n2voym2grhjpocfumswh5tooa 422 18 exome exome JJ work_7n2voym2grhjpocfumswh5tooa 422 19 genotyping genotyping NN work_7n2voym2grhjpocfumswh5tooa 422 20 array array NN work_7n2voym2grhjpocfumswh5tooa 422 21 cluster- cluster- NNP work_7n2voym2grhjpocfumswh5tooa 422 22 ing ing NN work_7n2voym2grhjpocfumswh5tooa 422 23 and and CC work_7n2voym2grhjpocfumswh5tooa 422 24 quality quality NN work_7n2voym2grhjpocfumswh5tooa 422 25 control control NN work_7n2voym2grhjpocfumswh5tooa 422 26 . . . work_7n2voym2grhjpocfumswh5tooa 423 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 423 2 Protoc Protoc NNP work_7n2voym2grhjpocfumswh5tooa 423 3 9:2643–2662 9:2643–2662 CD work_7n2voym2grhjpocfumswh5tooa 423 4 . . . work_7n2voym2grhjpocfumswh5tooa 424 1 https https NN work_7n2voym2grhjpocfumswh5tooa 424 2 : : : work_7n2voym2grhjpocfumswh5tooa 424 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 424 4 . . . work_7n2voym2grhjpocfumswh5tooa 425 1 org/10.1038 org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 425 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 425 3 nprot nprot NNS work_7n2voym2grhjpocfumswh5tooa 425 4 .2014.174 .2014.174 . work_7n2voym2grhjpocfumswh5tooa 425 5 Hageman Hageman NNP work_7n2voym2grhjpocfumswh5tooa 425 6 GS GS NNP work_7n2voym2grhjpocfumswh5tooa 425 7 et et NNP work_7n2voym2grhjpocfumswh5tooa 425 8   _SP work_7n2voym2grhjpocfumswh5tooa 425 9 al al NNP work_7n2voym2grhjpocfumswh5tooa 425 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 425 11 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 425 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 425 13 A a DT work_7n2voym2grhjpocfumswh5tooa 425 14 common common JJ work_7n2voym2grhjpocfumswh5tooa 425 15 haplotype haplotype NN work_7n2voym2grhjpocfumswh5tooa 425 16 in in IN work_7n2voym2grhjpocfumswh5tooa 425 17 the the DT work_7n2voym2grhjpocfumswh5tooa 425 18 complement complement JJ work_7n2voym2grhjpocfumswh5tooa 425 19 regulatory regulatory JJ work_7n2voym2grhjpocfumswh5tooa 425 20 gene gene NN work_7n2voym2grhjpocfumswh5tooa 425 21 factor factor NN work_7n2voym2grhjpocfumswh5tooa 425 22 H h NN work_7n2voym2grhjpocfumswh5tooa 425 23 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 425 24 HF1 HF1 NNP work_7n2voym2grhjpocfumswh5tooa 425 25 / / SYM work_7n2voym2grhjpocfumswh5tooa 425 26 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 425 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 425 28 predisposes predispose VBZ work_7n2voym2grhjpocfumswh5tooa 425 29 individuals individual NNS work_7n2voym2grhjpocfumswh5tooa 425 30 to to IN work_7n2voym2grhjpocfumswh5tooa 425 31 age age NN work_7n2voym2grhjpocfumswh5tooa 425 32 - - HYPH work_7n2voym2grhjpocfumswh5tooa 425 33 related relate VBN work_7n2voym2grhjpocfumswh5tooa 425 34 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 425 35 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 425 36 . . . work_7n2voym2grhjpocfumswh5tooa 426 1 Proc Proc NNP work_7n2voym2grhjpocfumswh5tooa 426 2 Natl Natl NNP work_7n2voym2grhjpocfumswh5tooa 426 3 Acad Acad NNP work_7n2voym2grhjpocfumswh5tooa 426 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 426 5 USA USA NNP work_7n2voym2grhjpocfumswh5tooa 426 6 102:7227–7232 102:7227–7232 CD work_7n2voym2grhjpocfumswh5tooa 426 7 . . . work_7n2voym2grhjpocfumswh5tooa 427 1 https https NN work_7n2voym2grhjpocfumswh5tooa 427 2 : : : work_7n2voym2grhjpocfumswh5tooa 427 3 //doi.org/10.1073 //doi.org/10.1073 NNP work_7n2voym2grhjpocfumswh5tooa 427 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 427 5 pnas.05015 pnas.05015 NNP work_7n2voym2grhjpocfumswh5tooa 427 6 36102 36102 CD work_7n2voym2grhjpocfumswh5tooa 427 7 Hageman Hageman NNP work_7n2voym2grhjpocfumswh5tooa 427 8 GS GS NNP work_7n2voym2grhjpocfumswh5tooa 427 9 et et NNP work_7n2voym2grhjpocfumswh5tooa 427 10   _SP work_7n2voym2grhjpocfumswh5tooa 427 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 427 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 427 13 2006 2006 CD work_7n2voym2grhjpocfumswh5tooa 427 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 427 15 Extended extended JJ work_7n2voym2grhjpocfumswh5tooa 427 16 haplotypes haplotype NNS work_7n2voym2grhjpocfumswh5tooa 427 17 in in IN work_7n2voym2grhjpocfumswh5tooa 427 18 the the DT work_7n2voym2grhjpocfumswh5tooa 427 19 complement complement JJ work_7n2voym2grhjpocfumswh5tooa 427 20 factor factor NN work_7n2voym2grhjpocfumswh5tooa 427 21 H H NNP work_7n2voym2grhjpocfumswh5tooa 427 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 427 23 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 427 24 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 427 25 and and CC work_7n2voym2grhjpocfumswh5tooa 427 26 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 427 27 - - HYPH work_7n2voym2grhjpocfumswh5tooa 427 28 related relate VBN work_7n2voym2grhjpocfumswh5tooa 427 29 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 427 30 CFHR cfhr NN work_7n2voym2grhjpocfumswh5tooa 427 31 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 427 32 family family NN work_7n2voym2grhjpocfumswh5tooa 427 33 of of IN work_7n2voym2grhjpocfumswh5tooa 427 34 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 427 35 pro- pro- NN work_7n2voym2grhjpocfumswh5tooa 427 36 tect tect NN work_7n2voym2grhjpocfumswh5tooa 427 37 against against IN work_7n2voym2grhjpocfumswh5tooa 427 38 age age NN work_7n2voym2grhjpocfumswh5tooa 427 39 - - HYPH work_7n2voym2grhjpocfumswh5tooa 427 40 related relate VBN work_7n2voym2grhjpocfumswh5tooa 427 41 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 427 42 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 427 43 : : : work_7n2voym2grhjpocfumswh5tooa 427 44 characterization characterization NN work_7n2voym2grhjpocfumswh5tooa 427 45 , , , work_7n2voym2grhjpocfumswh5tooa 427 46 ethnic ethnic JJ work_7n2voym2grhjpocfumswh5tooa 427 47 distribution distribution NN work_7n2voym2grhjpocfumswh5tooa 427 48 and and CC work_7n2voym2grhjpocfumswh5tooa 427 49 evolutionary evolutionary JJ work_7n2voym2grhjpocfumswh5tooa 427 50 implications implication NNS work_7n2voym2grhjpocfumswh5tooa 427 51 . . . work_7n2voym2grhjpocfumswh5tooa 428 1 Ann Ann NNP work_7n2voym2grhjpocfumswh5tooa 428 2 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 428 3 38:592–604 38:592–604 CD work_7n2voym2grhjpocfumswh5tooa 428 4 . . . work_7n2voym2grhjpocfumswh5tooa 429 1 https https NN work_7n2voym2grhjpocfumswh5tooa 429 2 : : : work_7n2voym2grhjpocfumswh5tooa 429 3 //doi.org/10.1080/07853 //doi.org/10.1080/07853 NNS work_7n2voym2grhjpocfumswh5tooa 429 4 89060 89060 CD work_7n2voym2grhjpocfumswh5tooa 429 5 10970 10970 CD work_7n2voym2grhjpocfumswh5tooa 429 6 30 30 CD work_7n2voym2grhjpocfumswh5tooa 429 7 Haines Haines NNP work_7n2voym2grhjpocfumswh5tooa 429 8 JL JL NNP work_7n2voym2grhjpocfumswh5tooa 429 9 et et NN work_7n2voym2grhjpocfumswh5tooa 429 10   _SP work_7n2voym2grhjpocfumswh5tooa 429 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 429 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 429 13 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 429 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 429 15 Complement Complement NNP work_7n2voym2grhjpocfumswh5tooa 429 16 factor factor NN work_7n2voym2grhjpocfumswh5tooa 429 17 H h NN work_7n2voym2grhjpocfumswh5tooa 429 18 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 429 19 increases increase VBZ work_7n2voym2grhjpocfumswh5tooa 429 20 the the DT work_7n2voym2grhjpocfumswh5tooa 429 21 risk risk NN work_7n2voym2grhjpocfumswh5tooa 429 22 of of IN work_7n2voym2grhjpocfumswh5tooa 429 23 age age NN work_7n2voym2grhjpocfumswh5tooa 429 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 429 25 related relate VBN work_7n2voym2grhjpocfumswh5tooa 429 26 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 429 27 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 429 28 . . . work_7n2voym2grhjpocfumswh5tooa 430 1 Science science NN work_7n2voym2grhjpocfumswh5tooa 430 2 308:419–421 308:419–421 CD work_7n2voym2grhjpocfumswh5tooa 430 3 . . . work_7n2voym2grhjpocfumswh5tooa 431 1 https https NN work_7n2voym2grhjpocfumswh5tooa 431 2 : : : work_7n2voym2grhjpocfumswh5tooa 431 3 //doi.org/10.1126 //doi.org/10.1126 NNP work_7n2voym2grhjpocfumswh5tooa 431 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 431 5 scien scien NNP work_7n2voym2grhjpocfumswh5tooa 431 6 ce.11103 ce.11103 NNP work_7n2voym2grhjpocfumswh5tooa 431 7 59 59 CD work_7n2voym2grhjpocfumswh5tooa 431 8 Hirschhorn Hirschhorn NNP work_7n2voym2grhjpocfumswh5tooa 431 9 JN JN NNP work_7n2voym2grhjpocfumswh5tooa 431 10 , , , work_7n2voym2grhjpocfumswh5tooa 431 11 Daly Daly NNP work_7n2voym2grhjpocfumswh5tooa 431 12 MJ MJ NNP work_7n2voym2grhjpocfumswh5tooa 431 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 431 14 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 431 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 431 16 Genome genome NN work_7n2voym2grhjpocfumswh5tooa 431 17 - - HYPH work_7n2voym2grhjpocfumswh5tooa 431 18 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 431 19 association association NN work_7n2voym2grhjpocfumswh5tooa 431 20 studies study NNS work_7n2voym2grhjpocfumswh5tooa 431 21 for for IN work_7n2voym2grhjpocfumswh5tooa 431 22 common common JJ work_7n2voym2grhjpocfumswh5tooa 431 23 diseases disease NNS work_7n2voym2grhjpocfumswh5tooa 431 24 and and CC work_7n2voym2grhjpocfumswh5tooa 431 25 complex complex JJ work_7n2voym2grhjpocfumswh5tooa 431 26 traits trait NNS work_7n2voym2grhjpocfumswh5tooa 431 27 . . . work_7n2voym2grhjpocfumswh5tooa 432 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 432 2 Rev Rev NNP work_7n2voym2grhjpocfumswh5tooa 432 3 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 432 4 6:95–108 6:95–108 CD work_7n2voym2grhjpocfumswh5tooa 432 5 . . . work_7n2voym2grhjpocfumswh5tooa 433 1 https https NN work_7n2voym2grhjpocfumswh5tooa 433 2 : : : work_7n2voym2grhjpocfumswh5tooa 433 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 433 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 433 5 nrg15 nrg15 NNP work_7n2voym2grhjpocfumswh5tooa 433 6 21 21 CD work_7n2voym2grhjpocfumswh5tooa 433 7 Hoffman Hoffman NNP work_7n2voym2grhjpocfumswh5tooa 433 8 JD JD NNP work_7n2voym2grhjpocfumswh5tooa 433 9 et et NNP work_7n2voym2grhjpocfumswh5tooa 433 10   _SP work_7n2voym2grhjpocfumswh5tooa 433 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 433 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 433 13 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 433 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 433 15 Rare rare JJ work_7n2voym2grhjpocfumswh5tooa 433 16 complement complement NN work_7n2voym2grhjpocfumswh5tooa 433 17 factor factor NN work_7n2voym2grhjpocfumswh5tooa 433 18 H h NN work_7n2voym2grhjpocfumswh5tooa 433 19 variant variant NN work_7n2voym2grhjpocfumswh5tooa 433 20 associ- associ- NN work_7n2voym2grhjpocfumswh5tooa 433 21 ated ate VBN work_7n2voym2grhjpocfumswh5tooa 433 22 with with IN work_7n2voym2grhjpocfumswh5tooa 433 23 age age NN work_7n2voym2grhjpocfumswh5tooa 433 24 - - HYPH work_7n2voym2grhjpocfumswh5tooa 433 25 related relate VBN work_7n2voym2grhjpocfumswh5tooa 433 26 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 433 27 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 433 28 in in IN work_7n2voym2grhjpocfumswh5tooa 433 29 the the DT work_7n2voym2grhjpocfumswh5tooa 433 30 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 433 31 . . . work_7n2voym2grhjpocfumswh5tooa 434 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 434 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 434 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 434 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 434 5 55:4455–4460 55:4455–4460 NNP work_7n2voym2grhjpocfumswh5tooa 434 6 . . . work_7n2voym2grhjpocfumswh5tooa 435 1 https https NN work_7n2voym2grhjpocfumswh5tooa 435 2 : : : work_7n2voym2grhjpocfumswh5tooa 435 3 //doi.org/10.1167/ //doi.org/10.1167/ . work_7n2voym2grhjpocfumswh5tooa 435 4 iovs.13 iovs.13 NNP work_7n2voym2grhjpocfumswh5tooa 435 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 435 6 13684 13684 CD work_7n2voym2grhjpocfumswh5tooa 435 7 Hughes Hughes NNP work_7n2voym2grhjpocfumswh5tooa 435 8 AE AE NNP work_7n2voym2grhjpocfumswh5tooa 435 9 , , , work_7n2voym2grhjpocfumswh5tooa 435 10 Orr orr NN work_7n2voym2grhjpocfumswh5tooa 435 11 N N NNP work_7n2voym2grhjpocfumswh5tooa 435 12 , , , work_7n2voym2grhjpocfumswh5tooa 435 13 Esfandiary Esfandiary NNP work_7n2voym2grhjpocfumswh5tooa 435 14 H H NNP work_7n2voym2grhjpocfumswh5tooa 435 15 , , , work_7n2voym2grhjpocfumswh5tooa 435 16 Diaz Diaz NNP work_7n2voym2grhjpocfumswh5tooa 435 17 - - HYPH work_7n2voym2grhjpocfumswh5tooa 435 18 Torres Torres NNP work_7n2voym2grhjpocfumswh5tooa 435 19 M M NNP work_7n2voym2grhjpocfumswh5tooa 435 20 , , , work_7n2voym2grhjpocfumswh5tooa 435 21 Goodship Goodship NNP work_7n2voym2grhjpocfumswh5tooa 435 22 T T NNP work_7n2voym2grhjpocfumswh5tooa 435 23 , , , work_7n2voym2grhjpocfumswh5tooa 435 24 Chakravarthy Chakravarthy NNP work_7n2voym2grhjpocfumswh5tooa 435 25 U U NNP work_7n2voym2grhjpocfumswh5tooa 435 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 435 27 2006 2006 CD work_7n2voym2grhjpocfumswh5tooa 435 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 435 29 A a DT work_7n2voym2grhjpocfumswh5tooa 435 30 common common JJ work_7n2voym2grhjpocfumswh5tooa 435 31 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 435 32 haplotype haplotype NN work_7n2voym2grhjpocfumswh5tooa 435 33 , , , work_7n2voym2grhjpocfumswh5tooa 435 34 with with IN work_7n2voym2grhjpocfumswh5tooa 435 35 dele- dele- NNP work_7n2voym2grhjpocfumswh5tooa 435 36 tion tion NN work_7n2voym2grhjpocfumswh5tooa 435 37 of of IN work_7n2voym2grhjpocfumswh5tooa 435 38 CFHR1 CFHR1 NNP work_7n2voym2grhjpocfumswh5tooa 435 39 and and CC work_7n2voym2grhjpocfumswh5tooa 435 40 CFHR3 CFHR3 NNP work_7n2voym2grhjpocfumswh5tooa 435 41 , , , work_7n2voym2grhjpocfumswh5tooa 435 42 is be VBZ work_7n2voym2grhjpocfumswh5tooa 435 43 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 435 44 with with IN work_7n2voym2grhjpocfumswh5tooa 435 45 lower low JJR work_7n2voym2grhjpocfumswh5tooa 435 46 risk risk NN work_7n2voym2grhjpocfumswh5tooa 435 47 of of IN work_7n2voym2grhjpocfumswh5tooa 435 48 age age NN work_7n2voym2grhjpocfumswh5tooa 435 49 - - HYPH work_7n2voym2grhjpocfumswh5tooa 435 50 related relate VBN work_7n2voym2grhjpocfumswh5tooa 435 51 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 435 52 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 435 53 . . . work_7n2voym2grhjpocfumswh5tooa 436 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 436 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 436 3 38:1173–1177 38:1173–1177 NNP work_7n2voym2grhjpocfumswh5tooa 436 4 . . . work_7n2voym2grhjpocfumswh5tooa 437 1 https https NN work_7n2voym2grhjpocfumswh5tooa 437 2 : : : work_7n2voym2grhjpocfumswh5tooa 437 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 437 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 437 5 ng189 ng189 CD work_7n2voym2grhjpocfumswh5tooa 437 6 0 0 CD work_7n2voym2grhjpocfumswh5tooa 437 7 Illumina Illumina NNP work_7n2voym2grhjpocfumswh5tooa 437 8 GenomeStudio GenomeStudio NNP work_7n2voym2grhjpocfumswh5tooa 437 9 Software Software NNP work_7n2voym2grhjpocfumswh5tooa 437 10 . . . work_7n2voym2grhjpocfumswh5tooa 438 1 http://www.illum http://www.illum NNP work_7n2voym2grhjpocfumswh5tooa 438 2 ina.com/techn ina.com/techn , work_7n2voym2grhjpocfumswh5tooa 438 3 iques ique NNS work_7n2voym2grhjpocfumswh5tooa 438 4 /micro /micro NFP work_7n2voym2grhjpocfumswh5tooa 438 5 array array NNP work_7n2voym2grhjpocfumswh5tooa 438 6 s s NNP work_7n2voym2grhjpocfumswh5tooa 438 7 / / SYM work_7n2voym2grhjpocfumswh5tooa 438 8 array array NNP work_7n2voym2grhjpocfumswh5tooa 438 9 -data -data NNP work_7n2voym2grhjpocfumswh5tooa 438 10 - - HYPH work_7n2voym2grhjpocfumswh5tooa 438 11 analy analy NNP work_7n2voym2grhjpocfumswh5tooa 438 12 sis sis NN work_7n2voym2grhjpocfumswh5tooa 438 13 - - HYPH work_7n2voym2grhjpocfumswh5tooa 438 14 exper exper NN work_7n2voym2grhjpocfumswh5tooa 438 15 iment iment NN work_7n2voym2grhjpocfumswh5tooa 438 16 al al NNP work_7n2voym2grhjpocfumswh5tooa 438 17 - - HYPH work_7n2voym2grhjpocfumswh5tooa 438 18 desig desig NNP work_7n2voym2grhjpocfumswh5tooa 438 19 n n NNP work_7n2voym2grhjpocfumswh5tooa 438 20 / / SYM work_7n2voym2grhjpocfumswh5tooa 438 21 genom genom NN work_7n2voym2grhjpocfumswh5tooa 438 22 estud estud NNP work_7n2voym2grhjpocfumswh5tooa 438 23 io.html io.html NNP work_7n2voym2grhjpocfumswh5tooa 438 24 . . . work_7n2voym2grhjpocfumswh5tooa 439 1 Accessed access VBN work_7n2voym2grhjpocfumswh5tooa 439 2 22 22 CD work_7n2voym2grhjpocfumswh5tooa 439 3 Jan Jan NNP work_7n2voym2grhjpocfumswh5tooa 439 4 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 439 5 Ishikawa Ishikawa NNP work_7n2voym2grhjpocfumswh5tooa 439 6 K K NNP work_7n2voym2grhjpocfumswh5tooa 439 7 , , , work_7n2voym2grhjpocfumswh5tooa 439 8 Kannan Kannan NNP work_7n2voym2grhjpocfumswh5tooa 439 9 R R NNP work_7n2voym2grhjpocfumswh5tooa 439 10 , , , work_7n2voym2grhjpocfumswh5tooa 439 11 Hinton Hinton NNP work_7n2voym2grhjpocfumswh5tooa 439 12 DR DR NNP work_7n2voym2grhjpocfumswh5tooa 439 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 439 14 2016a 2016a NNS work_7n2voym2grhjpocfumswh5tooa 439 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 439 16 Molecular molecular JJ work_7n2voym2grhjpocfumswh5tooa 439 17 mechanisms mechanism NNS work_7n2voym2grhjpocfumswh5tooa 439 18 of of IN work_7n2voym2grhjpocfumswh5tooa 439 19 subretinal subretinal JJ work_7n2voym2grhjpocfumswh5tooa 439 20 fibrosis fibrosis NN work_7n2voym2grhjpocfumswh5tooa 439 21 in in IN work_7n2voym2grhjpocfumswh5tooa 439 22 age age NN work_7n2voym2grhjpocfumswh5tooa 439 23 - - HYPH work_7n2voym2grhjpocfumswh5tooa 439 24 related relate VBN work_7n2voym2grhjpocfumswh5tooa 439 25 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 439 26 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 439 27 . . . work_7n2voym2grhjpocfumswh5tooa 440 1 Exp Exp NNP work_7n2voym2grhjpocfumswh5tooa 440 2 Eye Eye NNP work_7n2voym2grhjpocfumswh5tooa 440 3 Res Res NNP work_7n2voym2grhjpocfumswh5tooa 440 4 142:19–25 142:19–25 NNP work_7n2voym2grhjpocfumswh5tooa 440 5 . . . work_7n2voym2grhjpocfumswh5tooa 441 1 https https NN work_7n2voym2grhjpocfumswh5tooa 441 2 : : : work_7n2voym2grhjpocfumswh5tooa 441 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 441 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 441 5 j.exer.2015.03.009 j.exer.2015.03.009 FW work_7n2voym2grhjpocfumswh5tooa 441 6 Ishikawa Ishikawa NNP work_7n2voym2grhjpocfumswh5tooa 441 7 K K NNP work_7n2voym2grhjpocfumswh5tooa 441 8 , , , work_7n2voym2grhjpocfumswh5tooa 441 9 Sreekumar Sreekumar NNP work_7n2voym2grhjpocfumswh5tooa 441 10 PG PG NNP work_7n2voym2grhjpocfumswh5tooa 441 11 , , , work_7n2voym2grhjpocfumswh5tooa 441 12 Spee Spee NNP work_7n2voym2grhjpocfumswh5tooa 441 13 C C NNP work_7n2voym2grhjpocfumswh5tooa 441 14 , , , work_7n2voym2grhjpocfumswh5tooa 441 15 Nazari Nazari NNP work_7n2voym2grhjpocfumswh5tooa 441 16 H H NNP work_7n2voym2grhjpocfumswh5tooa 441 17 , , , work_7n2voym2grhjpocfumswh5tooa 441 18 Zhu Zhu NNP work_7n2voym2grhjpocfumswh5tooa 441 19 D D NNP work_7n2voym2grhjpocfumswh5tooa 441 20 , , , work_7n2voym2grhjpocfumswh5tooa 441 21 Kannan Kannan NNP work_7n2voym2grhjpocfumswh5tooa 441 22 R R NNP work_7n2voym2grhjpocfumswh5tooa 441 23 , , , work_7n2voym2grhjpocfumswh5tooa 441 24 Hinton Hinton NNP work_7n2voym2grhjpocfumswh5tooa 441 25 DR DR NNP work_7n2voym2grhjpocfumswh5tooa 441 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 441 27 2016b 2016b NNS work_7n2voym2grhjpocfumswh5tooa 441 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 441 29 AlphaB alphab JJ work_7n2voym2grhjpocfumswh5tooa 441 30 - - HYPH work_7n2voym2grhjpocfumswh5tooa 441 31 crystallin crystallin JJ work_7n2voym2grhjpocfumswh5tooa 441 32 regulates regulate VBZ work_7n2voym2grhjpocfumswh5tooa 441 33 subretinal subretinal JJ work_7n2voym2grhjpocfumswh5tooa 441 34 fibrosis fibrosis NN work_7n2voym2grhjpocfumswh5tooa 441 35 by by IN work_7n2voym2grhjpocfumswh5tooa 441 36 modulation modulation NN work_7n2voym2grhjpocfumswh5tooa 441 37 of of IN work_7n2voym2grhjpocfumswh5tooa 441 38 epithelial epithelial NNP work_7n2voym2grhjpocfumswh5tooa 441 39 – – : work_7n2voym2grhjpocfumswh5tooa 441 40 mesenchymal mesenchymal JJ work_7n2voym2grhjpocfumswh5tooa 441 41 transition transition NN work_7n2voym2grhjpocfumswh5tooa 441 42 . . . work_7n2voym2grhjpocfumswh5tooa 442 1 Am Am NNP work_7n2voym2grhjpocfumswh5tooa 442 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 442 3 Pathol Pathol NNP work_7n2voym2grhjpocfumswh5tooa 442 4 186:859–873 186:859–873 CD work_7n2voym2grhjpocfumswh5tooa 442 5 . . . work_7n2voym2grhjpocfumswh5tooa 443 1 https https NN work_7n2voym2grhjpocfumswh5tooa 443 2 : : : work_7n2voym2grhjpocfumswh5tooa 443 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 443 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 443 5 j.ajpat j.ajpat PRP$ work_7n2voym2grhjpocfumswh5tooa 443 6 h.2015.11.014 h.2015.11.014 NNPS work_7n2voym2grhjpocfumswh5tooa 443 7 Kallo Kallo NNP work_7n2voym2grhjpocfumswh5tooa 443 8 G g NN work_7n2voym2grhjpocfumswh5tooa 443 9 , , , work_7n2voym2grhjpocfumswh5tooa 443 10 Emri Emri NNP work_7n2voym2grhjpocfumswh5tooa 443 11 M M NNP work_7n2voym2grhjpocfumswh5tooa 443 12 , , , work_7n2voym2grhjpocfumswh5tooa 443 13 Varga Varga NNP work_7n2voym2grhjpocfumswh5tooa 443 14 Z Z NNP work_7n2voym2grhjpocfumswh5tooa 443 15 , , , work_7n2voym2grhjpocfumswh5tooa 443 16 Ujhelyi Ujhelyi NNP work_7n2voym2grhjpocfumswh5tooa 443 17 B B NNP work_7n2voym2grhjpocfumswh5tooa 443 18 , , , work_7n2voym2grhjpocfumswh5tooa 443 19 Tozser Tozser NNP work_7n2voym2grhjpocfumswh5tooa 443 20 J J NNP work_7n2voym2grhjpocfumswh5tooa 443 21 , , , work_7n2voym2grhjpocfumswh5tooa 443 22 Csutak Csutak NNP work_7n2voym2grhjpocfumswh5tooa 443 23 A A NNP work_7n2voym2grhjpocfumswh5tooa 443 24 , , , work_7n2voym2grhjpocfumswh5tooa 443 25 Csosz Csosz NNP work_7n2voym2grhjpocfumswh5tooa 443 26 E e NN work_7n2voym2grhjpocfumswh5tooa 443 27 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 443 28 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 443 29 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 443 30 Changes change NNS work_7n2voym2grhjpocfumswh5tooa 443 31 in in IN work_7n2voym2grhjpocfumswh5tooa 443 32 the the DT work_7n2voym2grhjpocfumswh5tooa 443 33 chemical chemical NN work_7n2voym2grhjpocfumswh5tooa 443 34 barrier barrier NN work_7n2voym2grhjpocfumswh5tooa 443 35 composition composition NN work_7n2voym2grhjpocfumswh5tooa 443 36 of of IN work_7n2voym2grhjpocfumswh5tooa 443 37 tears tear NNS work_7n2voym2grhjpocfumswh5tooa 443 38 in in IN work_7n2voym2grhjpocfumswh5tooa 443 39 Alz- Alz- NNP work_7n2voym2grhjpocfumswh5tooa 443 40 heimer heimer NNP work_7n2voym2grhjpocfumswh5tooa 443 41 ’s ’s POS work_7n2voym2grhjpocfumswh5tooa 443 42 disease disease NN work_7n2voym2grhjpocfumswh5tooa 443 43 reveal reveal VB work_7n2voym2grhjpocfumswh5tooa 443 44 potential potential JJ work_7n2voym2grhjpocfumswh5tooa 443 45 tear tear NN work_7n2voym2grhjpocfumswh5tooa 443 46 diagnostic diagnostic JJ work_7n2voym2grhjpocfumswh5tooa 443 47 biomarkers biomarker NNS work_7n2voym2grhjpocfumswh5tooa 443 48 . . . work_7n2voym2grhjpocfumswh5tooa 444 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 444 2 One one CD work_7n2voym2grhjpocfumswh5tooa 444 3 11 11 CD work_7n2voym2grhjpocfumswh5tooa 444 4 : : : work_7n2voym2grhjpocfumswh5tooa 444 5 e0158000 e0158000 NN work_7n2voym2grhjpocfumswh5tooa 444 6 . . . work_7n2voym2grhjpocfumswh5tooa 445 1 https https NN work_7n2voym2grhjpocfumswh5tooa 445 2 : : : work_7n2voym2grhjpocfumswh5tooa 445 3 //doi.org/10.1371 //doi.org/10.1371 JJ work_7n2voym2grhjpocfumswh5tooa 445 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 445 5 journ journ NN work_7n2voym2grhjpocfumswh5tooa 445 6 al.pone.01580 al.pone.01580 NNP work_7n2voym2grhjpocfumswh5tooa 445 7 00 00 NFP work_7n2voym2grhjpocfumswh5tooa 445 8 Klein Klein NNP work_7n2voym2grhjpocfumswh5tooa 445 9 R R NNP work_7n2voym2grhjpocfumswh5tooa 445 10 , , , work_7n2voym2grhjpocfumswh5tooa 445 11 Klein Klein NNP work_7n2voym2grhjpocfumswh5tooa 445 12 BE BE NNP work_7n2voym2grhjpocfumswh5tooa 445 13 , , , work_7n2voym2grhjpocfumswh5tooa 445 14 Marino Marino NNP work_7n2voym2grhjpocfumswh5tooa 445 15 EK EK NNP work_7n2voym2grhjpocfumswh5tooa 445 16 , , , work_7n2voym2grhjpocfumswh5tooa 445 17 Kuller Kuller NNP work_7n2voym2grhjpocfumswh5tooa 445 18 LH LH NNP work_7n2voym2grhjpocfumswh5tooa 445 19 , , , work_7n2voym2grhjpocfumswh5tooa 445 20 Furberg Furberg NNP work_7n2voym2grhjpocfumswh5tooa 445 21 C C NNP work_7n2voym2grhjpocfumswh5tooa 445 22 , , , work_7n2voym2grhjpocfumswh5tooa 445 23 Burke Burke NNP work_7n2voym2grhjpocfumswh5tooa 445 24 GL GL NNP work_7n2voym2grhjpocfumswh5tooa 445 25 , , , work_7n2voym2grhjpocfumswh5tooa 445 26 Hubbard Hubbard NNP work_7n2voym2grhjpocfumswh5tooa 445 27 LD LD NNP work_7n2voym2grhjpocfumswh5tooa 445 28 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 445 29 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 445 30 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 445 31 Early early JJ work_7n2voym2grhjpocfumswh5tooa 445 32 age age NN work_7n2voym2grhjpocfumswh5tooa 445 33 - - HYPH work_7n2voym2grhjpocfumswh5tooa 445 34 related relate VBN work_7n2voym2grhjpocfumswh5tooa 445 35 maculopathy maculopathy NNS work_7n2voym2grhjpocfumswh5tooa 445 36 in in IN work_7n2voym2grhjpocfumswh5tooa 445 37 the the DT work_7n2voym2grhjpocfumswh5tooa 445 38 car- car- NNP work_7n2voym2grhjpocfumswh5tooa 445 39 diovascular diovascular JJ work_7n2voym2grhjpocfumswh5tooa 445 40 health health NN work_7n2voym2grhjpocfumswh5tooa 445 41 study study NN work_7n2voym2grhjpocfumswh5tooa 445 42 . . . work_7n2voym2grhjpocfumswh5tooa 446 1 Ophthalmology ophthalmology NN work_7n2voym2grhjpocfumswh5tooa 446 2 110:25–33 110:25–33 CD work_7n2voym2grhjpocfumswh5tooa 446 3 Klein Klein NNP work_7n2voym2grhjpocfumswh5tooa 446 4 RJ RJ NNP work_7n2voym2grhjpocfumswh5tooa 446 5 et et NNP work_7n2voym2grhjpocfumswh5tooa 446 6   _SP work_7n2voym2grhjpocfumswh5tooa 446 7 al al NNP work_7n2voym2grhjpocfumswh5tooa 446 8 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 446 9 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 446 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 446 11 Complement Complement NNP work_7n2voym2grhjpocfumswh5tooa 446 12 factor factor NN work_7n2voym2grhjpocfumswh5tooa 446 13 H h NN work_7n2voym2grhjpocfumswh5tooa 446 14 polymorphism polymorphism NN work_7n2voym2grhjpocfumswh5tooa 446 15 in in IN work_7n2voym2grhjpocfumswh5tooa 446 16 age- age- RB work_7n2voym2grhjpocfumswh5tooa 446 17 related related JJ work_7n2voym2grhjpocfumswh5tooa 446 18 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 446 19 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 446 20 . . . work_7n2voym2grhjpocfumswh5tooa 447 1 Science science NN work_7n2voym2grhjpocfumswh5tooa 447 2 308:385–389 308:385–389 CD work_7n2voym2grhjpocfumswh5tooa 447 3 . . . work_7n2voym2grhjpocfumswh5tooa 448 1 https https NN work_7n2voym2grhjpocfumswh5tooa 448 2 : : : work_7n2voym2grhjpocfumswh5tooa 448 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 448 4 . . . work_7n2voym2grhjpocfumswh5tooa 449 1 org/10.1126 org/10.1126 NNP work_7n2voym2grhjpocfumswh5tooa 449 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 449 3 scien scien NNP work_7n2voym2grhjpocfumswh5tooa 449 4 ce.11095 ce.11095 NNP work_7n2voym2grhjpocfumswh5tooa 449 5 57 57 CD work_7n2voym2grhjpocfumswh5tooa 449 6 Ko Ko NNP work_7n2voym2grhjpocfumswh5tooa 449 7 b b NNP work_7n2voym2grhjpocfumswh5tooa 449 8 aya aya NNP work_7n2voym2grhjpocfumswh5tooa 449 9 s s NNP work_7n2voym2grhjpocfumswh5tooa 449 10 h h NNP work_7n2voym2grhjpocfumswh5tooa 449 11 i i NN work_7n2voym2grhjpocfumswh5tooa 449 12 M m NN work_7n2voym2grhjpocfumswh5tooa 449 13 , , , work_7n2voym2grhjpocfumswh5tooa 449 14 To to IN work_7n2voym2grhjpocfumswh5tooa 449 15 k k NNP work_7n2voym2grhjpocfumswh5tooa 449 16 u u NNP work_7n2voym2grhjpocfumswh5tooa 449 17 d d NNP work_7n2voym2grhjpocfumswh5tooa 449 18 a a DT work_7n2voym2grhjpocfumswh5tooa 449 19 K K NNP work_7n2voym2grhjpocfumswh5tooa 449 20 , , , work_7n2voym2grhjpocfumswh5tooa 449 21 Ko Ko NNP work_7n2voym2grhjpocfumswh5tooa 449 22 b b NNP work_7n2voym2grhjpocfumswh5tooa 449 23 aya aya NNP work_7n2voym2grhjpocfumswh5tooa 449 24 s s NNP work_7n2voym2grhjpocfumswh5tooa 449 25 h h NN work_7n2voym2grhjpocfumswh5tooa 449 26 i i NN work_7n2voym2grhjpocfumswh5tooa 449 27 Y Y NNP work_7n2voym2grhjpocfumswh5tooa 449 28 , , , work_7n2voym2grhjpocfumswh5tooa 449 29 Ya Ya NNP work_7n2voym2grhjpocfumswh5tooa 449 30 m m NNP work_7n2voym2grhjpocfumswh5tooa 449 31 a a DT work_7n2voym2grhjpocfumswh5tooa 449 32 s s NN work_7n2voym2grhjpocfumswh5tooa 449 33 h h NN work_7n2voym2grhjpocfumswh5tooa 449 34 i i NN work_7n2voym2grhjpocfumswh5tooa 449 35 r r NN work_7n2voym2grhjpocfumswh5tooa 449 36 o o NN work_7n2voym2grhjpocfumswh5tooa 449 37 C c NN work_7n2voym2grhjpocfumswh5tooa 449 38 , , , work_7n2voym2grhjpocfumswh5tooa 449 39 Uchi Uchi NNP work_7n2voym2grhjpocfumswh5tooa 449 40 SH SH NNP work_7n2voym2grhjpocfumswh5tooa 449 41 , , , work_7n2voym2grhjpocfumswh5tooa 449 42 Hatano Hatano NNP work_7n2voym2grhjpocfumswh5tooa 449 43 M M NNP work_7n2voym2grhjpocfumswh5tooa 449 44 , , , work_7n2voym2grhjpocfumswh5tooa 449 45 Kimura Kimura NNP work_7n2voym2grhjpocfumswh5tooa 449 46 K K NNP work_7n2voym2grhjpocfumswh5tooa 449 47 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 449 48 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 449 49 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 449 50 Suppression suppression NN work_7n2voym2grhjpocfumswh5tooa 449 51 of of IN work_7n2voym2grhjpocfumswh5tooa 449 52 epithelial epithelial JJ work_7n2voym2grhjpocfumswh5tooa 449 53 - - HYPH work_7n2voym2grhjpocfumswh5tooa 449 54 mesenchymal mesenchymal JJ work_7n2voym2grhjpocfumswh5tooa 449 55 transition transition NN work_7n2voym2grhjpocfumswh5tooa 449 56 in in IN work_7n2voym2grhjpocfumswh5tooa 449 57 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 449 58 pigment pigment NN work_7n2voym2grhjpocfumswh5tooa 449 59 epithe- epithe- NN work_7n2voym2grhjpocfumswh5tooa 449 60 lial lial JJ work_7n2voym2grhjpocfumswh5tooa 449 61 cells cell NNS work_7n2voym2grhjpocfumswh5tooa 449 62 by by IN work_7n2voym2grhjpocfumswh5tooa 449 63 an an DT work_7n2voym2grhjpocfumswh5tooa 449 64 MRTF MRTF NNP work_7n2voym2grhjpocfumswh5tooa 449 65 — — : work_7n2voym2grhjpocfumswh5tooa 449 66 a a DT work_7n2voym2grhjpocfumswh5tooa 449 67 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 449 68 . . . work_7n2voym2grhjpocfumswh5tooa 450 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 450 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 450 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 450 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 450 5 60:528–537 60:528–537 NNP work_7n2voym2grhjpocfumswh5tooa 450 6 . . . work_7n2voym2grhjpocfumswh5tooa 451 1 https https NN work_7n2voym2grhjpocfumswh5tooa 451 2 : : : work_7n2voym2grhjpocfumswh5tooa 451 3 //doi.org/10.1167 //doi.org/10.1167 , work_7n2voym2grhjpocfumswh5tooa 451 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 451 5 iovs.18 iovs.18 NNP work_7n2voym2grhjpocfumswh5tooa 451 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 451 7 25678 25678 CD work_7n2voym2grhjpocfumswh5tooa 451 8 Kuot Kuot NNP work_7n2voym2grhjpocfumswh5tooa 451 9 A A NNP work_7n2voym2grhjpocfumswh5tooa 451 10 et et NN work_7n2voym2grhjpocfumswh5tooa 451 11   _SP work_7n2voym2grhjpocfumswh5tooa 451 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 451 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 451 14 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 451 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 451 16 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 451 17 of of IN work_7n2voym2grhjpocfumswh5tooa 451 18 TCF4 TCF4 NNP work_7n2voym2grhjpocfumswh5tooa 451 19 and and CC work_7n2voym2grhjpocfumswh5tooa 451 20 CLU CLU NNP work_7n2voym2grhjpocfumswh5tooa 451 21 polymorphisms polymorphism NNS work_7n2voym2grhjpocfumswh5tooa 451 22 with with IN work_7n2voym2grhjpocfumswh5tooa 451 23 Fuchs Fuchs NNP work_7n2voym2grhjpocfumswh5tooa 451 24 ’ ' '' work_7n2voym2grhjpocfumswh5tooa 451 25 endothelial endothelial JJ work_7n2voym2grhjpocfumswh5tooa 451 26 dystrophy dystrophy NN work_7n2voym2grhjpocfumswh5tooa 451 27 and and CC work_7n2voym2grhjpocfumswh5tooa 451 28 implication implication NN work_7n2voym2grhjpocfumswh5tooa 451 29 of of IN work_7n2voym2grhjpocfumswh5tooa 451 30 CLU CLU NNP work_7n2voym2grhjpocfumswh5tooa 451 31 and and CC work_7n2voym2grhjpocfumswh5tooa 451 32 TGFBI TGFBI NNP work_7n2voym2grhjpocfumswh5tooa 451 33 proteins protein NNS work_7n2voym2grhjpocfumswh5tooa 451 34 in in IN work_7n2voym2grhjpocfumswh5tooa 451 35 the the DT work_7n2voym2grhjpocfumswh5tooa 451 36 disease disease NN work_7n2voym2grhjpocfumswh5tooa 451 37 process process NN work_7n2voym2grhjpocfumswh5tooa 451 38 . . . work_7n2voym2grhjpocfumswh5tooa 452 1 Eur Eur NNP work_7n2voym2grhjpocfumswh5tooa 452 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 452 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 452 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 452 5 20:632–638 20:632–638 CD work_7n2voym2grhjpocfumswh5tooa 452 6 . . . work_7n2voym2grhjpocfumswh5tooa 453 1 https https NN work_7n2voym2grhjpocfumswh5tooa 453 2 : : : work_7n2voym2grhjpocfumswh5tooa 453 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 453 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 453 5 ejhg.2011.248 ejhg.2011.248 CD work_7n2voym2grhjpocfumswh5tooa 453 6 Lee Lee NNP work_7n2voym2grhjpocfumswh5tooa 453 7 MK MK NNP work_7n2voym2grhjpocfumswh5tooa 453 8 et et NNP work_7n2voym2grhjpocfumswh5tooa 453 9   _SP work_7n2voym2grhjpocfumswh5tooa 453 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 453 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 453 12 2017 2017 CD work_7n2voym2grhjpocfumswh5tooa 453 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 453 14 Genome genome NN work_7n2voym2grhjpocfumswh5tooa 453 15 - - HYPH work_7n2voym2grhjpocfumswh5tooa 453 16 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 453 17 association association NN work_7n2voym2grhjpocfumswh5tooa 453 18 study study NN work_7n2voym2grhjpocfumswh5tooa 453 19 of of IN work_7n2voym2grhjpocfumswh5tooa 453 20 facial facial JJ work_7n2voym2grhjpocfumswh5tooa 453 21 morphol- morphol- JJ work_7n2voym2grhjpocfumswh5tooa 453 22 ogy ogy NN work_7n2voym2grhjpocfumswh5tooa 453 23 reveals reveal VBZ work_7n2voym2grhjpocfumswh5tooa 453 24 novel novel JJ work_7n2voym2grhjpocfumswh5tooa 453 25 associations association NNS work_7n2voym2grhjpocfumswh5tooa 453 26 with with IN work_7n2voym2grhjpocfumswh5tooa 453 27 FREM1 frem1 NN work_7n2voym2grhjpocfumswh5tooa 453 28 and and CC work_7n2voym2grhjpocfumswh5tooa 453 29 PARK2 PARK2 NNS work_7n2voym2grhjpocfumswh5tooa 453 30 . . . work_7n2voym2grhjpocfumswh5tooa 454 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 454 2 One one CD work_7n2voym2grhjpocfumswh5tooa 454 3 12 12 CD work_7n2voym2grhjpocfumswh5tooa 454 4 : : : work_7n2voym2grhjpocfumswh5tooa 454 5 e0176566 e0176566 CD work_7n2voym2grhjpocfumswh5tooa 454 6 . . . work_7n2voym2grhjpocfumswh5tooa 455 1 https https NN work_7n2voym2grhjpocfumswh5tooa 455 2 : : : work_7n2voym2grhjpocfumswh5tooa 455 3 //doi.org/10.1371 //doi.org/10.1371 JJ work_7n2voym2grhjpocfumswh5tooa 455 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 455 5 journ journ NN work_7n2voym2grhjpocfumswh5tooa 455 6 al.pone.01765 al.pone.01765 NN work_7n2voym2grhjpocfumswh5tooa 455 7 66 66 CD work_7n2voym2grhjpocfumswh5tooa 455 8 Li Li NNP work_7n2voym2grhjpocfumswh5tooa 455 9 YJ YJ NNP work_7n2voym2grhjpocfumswh5tooa 455 10 et et FW work_7n2voym2grhjpocfumswh5tooa 455 11   _SP work_7n2voym2grhjpocfumswh5tooa 455 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 455 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 455 14 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 455 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 455 16 Replication Replication NNP work_7n2voym2grhjpocfumswh5tooa 455 17 of of IN work_7n2voym2grhjpocfumswh5tooa 455 18 TCF4 TCF4 NNP work_7n2voym2grhjpocfumswh5tooa 455 19 through through IN work_7n2voym2grhjpocfumswh5tooa 455 20 association association NN work_7n2voym2grhjpocfumswh5tooa 455 21 and and CC work_7n2voym2grhjpocfumswh5tooa 455 22 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 455 23 studies study NNS work_7n2voym2grhjpocfumswh5tooa 455 24 in in IN work_7n2voym2grhjpocfumswh5tooa 455 25 late late JJ work_7n2voym2grhjpocfumswh5tooa 455 26 - - HYPH work_7n2voym2grhjpocfumswh5tooa 455 27 onset onset NN work_7n2voym2grhjpocfumswh5tooa 455 28 Fuchs Fuchs NNP work_7n2voym2grhjpocfumswh5tooa 455 29 endothelial endothelial JJ work_7n2voym2grhjpocfumswh5tooa 455 30 corneal corneal JJ work_7n2voym2grhjpocfumswh5tooa 455 31 dystrophy dystrophy NN work_7n2voym2grhjpocfumswh5tooa 455 32 . . . work_7n2voym2grhjpocfumswh5tooa 456 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 456 2 One one CD work_7n2voym2grhjpocfumswh5tooa 456 3 6 6 CD work_7n2voym2grhjpocfumswh5tooa 456 4 : : : work_7n2voym2grhjpocfumswh5tooa 456 5 e18044 e18044 UH work_7n2voym2grhjpocfumswh5tooa 456 6 . . . work_7n2voym2grhjpocfumswh5tooa 457 1 https https NN work_7n2voym2grhjpocfumswh5tooa 457 2 : : : work_7n2voym2grhjpocfumswh5tooa 457 3 //doi.org/10.1371 //doi.org/10.1371 JJ work_7n2voym2grhjpocfumswh5tooa 457 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 457 5 journ journ NN work_7n2voym2grhjpocfumswh5tooa 457 6 al.pone.00180 al.pone.00180 : work_7n2voym2grhjpocfumswh5tooa 457 7 44 44 CD work_7n2voym2grhjpocfumswh5tooa 457 8 Li Li NNP work_7n2voym2grhjpocfumswh5tooa 457 9 J J NNP work_7n2voym2grhjpocfumswh5tooa 457 10 , , , work_7n2voym2grhjpocfumswh5tooa 457 11 Wilkinson Wilkinson NNP work_7n2voym2grhjpocfumswh5tooa 457 12 B B NNP work_7n2voym2grhjpocfumswh5tooa 457 13 , , , work_7n2voym2grhjpocfumswh5tooa 457 14 Clementel Clementel NNP work_7n2voym2grhjpocfumswh5tooa 457 15 VA VA NNP work_7n2voym2grhjpocfumswh5tooa 457 16 , , , work_7n2voym2grhjpocfumswh5tooa 457 17 Hou Hou NNP work_7n2voym2grhjpocfumswh5tooa 457 18 J J NNP work_7n2voym2grhjpocfumswh5tooa 457 19 , , , work_7n2voym2grhjpocfumswh5tooa 457 20 O’Dell o’dell FW work_7n2voym2grhjpocfumswh5tooa 457 21 TJ TJ NNP work_7n2voym2grhjpocfumswh5tooa 457 22 , , , work_7n2voym2grhjpocfumswh5tooa 457 23 Coba Coba NNP work_7n2voym2grhjpocfumswh5tooa 457 24 MP MP NNP work_7n2voym2grhjpocfumswh5tooa 457 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 457 26 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 457 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 457 28 Long long JJ work_7n2voym2grhjpocfumswh5tooa 457 29 - - HYPH work_7n2voym2grhjpocfumswh5tooa 457 30 term term NN work_7n2voym2grhjpocfumswh5tooa 457 31 potentiation potentiation NN work_7n2voym2grhjpocfumswh5tooa 457 32 modulates modulate VBZ work_7n2voym2grhjpocfumswh5tooa 457 33 synaptic synaptic JJ work_7n2voym2grhjpocfumswh5tooa 457 34 phosphorylation phosphorylation NN work_7n2voym2grhjpocfumswh5tooa 457 35 net- net- NN work_7n2voym2grhjpocfumswh5tooa 457 36 works work VBZ work_7n2voym2grhjpocfumswh5tooa 457 37 and and CC work_7n2voym2grhjpocfumswh5tooa 457 38 reshapes reshape VBZ work_7n2voym2grhjpocfumswh5tooa 457 39 the the DT work_7n2voym2grhjpocfumswh5tooa 457 40 structure structure NN work_7n2voym2grhjpocfumswh5tooa 457 41 of of IN work_7n2voym2grhjpocfumswh5tooa 457 42 the the DT work_7n2voym2grhjpocfumswh5tooa 457 43 postsynaptic postsynaptic JJ work_7n2voym2grhjpocfumswh5tooa 457 44 interactome interactome NN work_7n2voym2grhjpocfumswh5tooa 457 45 . . . work_7n2voym2grhjpocfumswh5tooa 458 1 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 458 2 Signal Signal NNP work_7n2voym2grhjpocfumswh5tooa 458 3 9 9 CD work_7n2voym2grhjpocfumswh5tooa 458 4 : : : work_7n2voym2grhjpocfumswh5tooa 458 5 rs8 rs8 NNP work_7n2voym2grhjpocfumswh5tooa 458 6 . . . work_7n2voym2grhjpocfumswh5tooa 459 1 https https NN work_7n2voym2grhjpocfumswh5tooa 459 2 : : : work_7n2voym2grhjpocfumswh5tooa 459 3 //doi.org/10.1126 //doi.org/10.1126 NN work_7n2voym2grhjpocfumswh5tooa 459 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 459 5 scisi scisi NN work_7n2voym2grhjpocfumswh5tooa 459 6 gnal.aaf67 gnal.aaf67 CD work_7n2voym2grhjpocfumswh5tooa 459 7 16 16 CD work_7n2voym2grhjpocfumswh5tooa 459 8 Liu Liu NNP work_7n2voym2grhjpocfumswh5tooa 459 9 F F NNP work_7n2voym2grhjpocfumswh5tooa 459 10 , , , work_7n2voym2grhjpocfumswh5tooa 459 11 Kirichenko Kirichenko NNP work_7n2voym2grhjpocfumswh5tooa 459 12 A A NNP work_7n2voym2grhjpocfumswh5tooa 459 13 , , , work_7n2voym2grhjpocfumswh5tooa 459 14 Axenovich Axenovich NNP work_7n2voym2grhjpocfumswh5tooa 459 15 TI TI NNP work_7n2voym2grhjpocfumswh5tooa 459 16 , , , work_7n2voym2grhjpocfumswh5tooa 459 17 van van NNP work_7n2voym2grhjpocfumswh5tooa 459 18 Duijn Duijn NNP work_7n2voym2grhjpocfumswh5tooa 459 19 CM CM NNP work_7n2voym2grhjpocfumswh5tooa 459 20 , , , work_7n2voym2grhjpocfumswh5tooa 459 21 Aulchenko Aulchenko NNP work_7n2voym2grhjpocfumswh5tooa 459 22 YS YS NNP work_7n2voym2grhjpocfumswh5tooa 459 23 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 459 24 2008 2008 CD work_7n2voym2grhjpocfumswh5tooa 459 25 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 459 26 An an DT work_7n2voym2grhjpocfumswh5tooa 459 27 approach approach NN work_7n2voym2grhjpocfumswh5tooa 459 28 for for IN work_7n2voym2grhjpocfumswh5tooa 459 29 cutting cut VBG work_7n2voym2grhjpocfumswh5tooa 459 30 large large JJ work_7n2voym2grhjpocfumswh5tooa 459 31 and and CC work_7n2voym2grhjpocfumswh5tooa 459 32 complex complex JJ work_7n2voym2grhjpocfumswh5tooa 459 33 pedigrees pedigree NNS work_7n2voym2grhjpocfumswh5tooa 459 34 for for IN work_7n2voym2grhjpocfumswh5tooa 459 35 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 459 36 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 459 37 . . . work_7n2voym2grhjpocfumswh5tooa 460 1 Eur Eur NNP work_7n2voym2grhjpocfumswh5tooa 460 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 460 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 460 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 460 5 16:854–860 16:854–860 CD work_7n2voym2grhjpocfumswh5tooa 460 6 . . . work_7n2voym2grhjpocfumswh5tooa 461 1 https https NN work_7n2voym2grhjpocfumswh5tooa 461 2 : : : work_7n2voym2grhjpocfumswh5tooa 461 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 461 4 . . . work_7n2voym2grhjpocfumswh5tooa 462 1 org/10.1038 org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 462 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 462 3 ejhg.2008.24 ejhg.2008.24 NNP work_7n2voym2grhjpocfumswh5tooa 462 4 Lores Lores NNP work_7n2voym2grhjpocfumswh5tooa 462 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 462 6 Motta Motta NNP work_7n2voym2grhjpocfumswh5tooa 462 7 L L NNP work_7n2voym2grhjpocfumswh5tooa 462 8 et et NNP work_7n2voym2grhjpocfumswh5tooa 462 9   _SP work_7n2voym2grhjpocfumswh5tooa 462 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 462 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 462 12 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 462 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 462 14 Genome genome NN work_7n2voym2grhjpocfumswh5tooa 462 15 - - HYPH work_7n2voym2grhjpocfumswh5tooa 462 16 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 462 17 association association NN work_7n2voym2grhjpocfumswh5tooa 462 18 study study NN work_7n2voym2grhjpocfumswh5tooa 462 19 reveals reveal VBZ work_7n2voym2grhjpocfumswh5tooa 462 20 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 462 21 in in IN work_7n2voym2grhjpocfumswh5tooa 462 22 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 462 23 and and CC work_7n2voym2grhjpocfumswh5tooa 462 24 CFHR4 cfhr4 NN work_7n2voym2grhjpocfumswh5tooa 462 25 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 462 26 with with IN work_7n2voym2grhjpocfumswh5tooa 462 27 systemic systemic JJ work_7n2voym2grhjpocfumswh5tooa 462 28 comple- comple- NNP work_7n2voym2grhjpocfumswh5tooa 462 29 ment ment JJ work_7n2voym2grhjpocfumswh5tooa 462 30 activation activation NN work_7n2voym2grhjpocfumswh5tooa 462 31 : : : work_7n2voym2grhjpocfumswh5tooa 462 32 implications implication NNS work_7n2voym2grhjpocfumswh5tooa 462 33 in in IN work_7n2voym2grhjpocfumswh5tooa 462 34 age age NN work_7n2voym2grhjpocfumswh5tooa 462 35 - - HYPH work_7n2voym2grhjpocfumswh5tooa 462 36 related relate VBN work_7n2voym2grhjpocfumswh5tooa 462 37 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 462 38 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 462 39 . . . work_7n2voym2grhjpocfumswh5tooa 463 1 Ophthalmology ophthalmology NN work_7n2voym2grhjpocfumswh5tooa 463 2 125:1064–1074 125:1064–1074 CD work_7n2voym2grhjpocfumswh5tooa 463 3 . . . work_7n2voym2grhjpocfumswh5tooa 464 1 https https NN work_7n2voym2grhjpocfumswh5tooa 464 2 : : : work_7n2voym2grhjpocfumswh5tooa 464 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 464 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 464 5 j.ophth j.ophth NNP work_7n2voym2grhjpocfumswh5tooa 464 6 a.2017.12.023 a.2017.12.023 NNP work_7n2voym2grhjpocfumswh5tooa 464 7 Machiela Machiela NNP work_7n2voym2grhjpocfumswh5tooa 464 8 MJ MJ NNP work_7n2voym2grhjpocfumswh5tooa 464 9 , , , work_7n2voym2grhjpocfumswh5tooa 464 10 Chanock Chanock NNP work_7n2voym2grhjpocfumswh5tooa 464 11 SJ SJ NNP work_7n2voym2grhjpocfumswh5tooa 464 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 464 13 2015 2015 CD work_7n2voym2grhjpocfumswh5tooa 464 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 464 15 LDlink ldlink NN work_7n2voym2grhjpocfumswh5tooa 464 16 : : : work_7n2voym2grhjpocfumswh5tooa 464 17 a a DT work_7n2voym2grhjpocfumswh5tooa 464 18 web web NN work_7n2voym2grhjpocfumswh5tooa 464 19 - - HYPH work_7n2voym2grhjpocfumswh5tooa 464 20 based base VBN work_7n2voym2grhjpocfumswh5tooa 464 21 application application NN work_7n2voym2grhjpocfumswh5tooa 464 22 for for IN work_7n2voym2grhjpocfumswh5tooa 464 23 exploring explore VBG work_7n2voym2grhjpocfumswh5tooa 464 24 population population NN work_7n2voym2grhjpocfumswh5tooa 464 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 464 26 specific specific JJ work_7n2voym2grhjpocfumswh5tooa 464 27 haplotype haplotype NN work_7n2voym2grhjpocfumswh5tooa 464 28 structure structure NN work_7n2voym2grhjpocfumswh5tooa 464 29 and and CC work_7n2voym2grhjpocfumswh5tooa 464 30 linking linking NN work_7n2voym2grhjpocfumswh5tooa 464 31 correlated correlate VBN work_7n2voym2grhjpocfumswh5tooa 464 32 alleles allele NNS work_7n2voym2grhjpocfumswh5tooa 464 33 of of IN work_7n2voym2grhjpocfumswh5tooa 464 34 possible possible JJ work_7n2voym2grhjpocfumswh5tooa 464 35 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 464 36 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 464 37 . . . work_7n2voym2grhjpocfumswh5tooa 465 1 Bioinformat- Bioinformat- NNP work_7n2voym2grhjpocfumswh5tooa 465 2 ics ics NNP work_7n2voym2grhjpocfumswh5tooa 465 3 31:3555–3557 31:3555–3557 CD work_7n2voym2grhjpocfumswh5tooa 465 4 . . . work_7n2voym2grhjpocfumswh5tooa 466 1 https https NN work_7n2voym2grhjpocfumswh5tooa 466 2 : : : work_7n2voym2grhjpocfumswh5tooa 466 3 //doi.org/10.1093 //doi.org/10.1093 NNP work_7n2voym2grhjpocfumswh5tooa 466 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 466 5 bioin bioin NN work_7n2voym2grhjpocfumswh5tooa 466 6 forma forma NNP work_7n2voym2grhjpocfumswh5tooa 466 7 tics tic NNS work_7n2voym2grhjpocfumswh5tooa 466 8 / / SYM work_7n2voym2grhjpocfumswh5tooa 466 9 btv40 btv40 NNP work_7n2voym2grhjpocfumswh5tooa 466 10 2 2 CD work_7n2voym2grhjpocfumswh5tooa 466 11 Male Male NNP work_7n2voym2grhjpocfumswh5tooa 466 12 DA DA NNP work_7n2voym2grhjpocfumswh5tooa 466 13 , , , work_7n2voym2grhjpocfumswh5tooa 466 14 Ormsby Ormsby NNP work_7n2voym2grhjpocfumswh5tooa 466 15 RJ RJ NNP work_7n2voym2grhjpocfumswh5tooa 466 16 , , , work_7n2voym2grhjpocfumswh5tooa 466 17 Ranganathan Ranganathan NNP work_7n2voym2grhjpocfumswh5tooa 466 18 S S NNP work_7n2voym2grhjpocfumswh5tooa 466 19 , , , work_7n2voym2grhjpocfumswh5tooa 466 20 Giannakis Giannakis NNP work_7n2voym2grhjpocfumswh5tooa 466 21 E E NNP work_7n2voym2grhjpocfumswh5tooa 466 22 , , , work_7n2voym2grhjpocfumswh5tooa 466 23 Gordon Gordon NNP work_7n2voym2grhjpocfumswh5tooa 466 24 DL DL NNP work_7n2voym2grhjpocfumswh5tooa 466 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 466 26 2000 2000 CD work_7n2voym2grhjpocfumswh5tooa 466 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 466 28 Complement Complement NNP work_7n2voym2grhjpocfumswh5tooa 466 29 factor factor NN work_7n2voym2grhjpocfumswh5tooa 466 30 H h NN work_7n2voym2grhjpocfumswh5tooa 466 31 : : : work_7n2voym2grhjpocfumswh5tooa 466 32 sequence sequence NN work_7n2voym2grhjpocfumswh5tooa 466 33 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 466 34 of of IN work_7n2voym2grhjpocfumswh5tooa 466 35 221 221 CD work_7n2voym2grhjpocfumswh5tooa 466 36     _SP work_7n2voym2grhjpocfumswh5tooa 466 37 kb kb NN work_7n2voym2grhjpocfumswh5tooa 466 38 of of IN work_7n2voym2grhjpocfumswh5tooa 466 39 human human JJ work_7n2voym2grhjpocfumswh5tooa 466 40 genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 466 41 DNA DNA NNP work_7n2voym2grhjpocfumswh5tooa 466 42 containing contain VBG work_7n2voym2grhjpocfumswh5tooa 466 43 the the DT work_7n2voym2grhjpocfumswh5tooa 466 44 entire entire JJ work_7n2voym2grhjpocfumswh5tooa 466 45 fH fH NNP work_7n2voym2grhjpocfumswh5tooa 466 46 , , , work_7n2voym2grhjpocfumswh5tooa 466 47 fHR-1 fHR-1 NNP work_7n2voym2grhjpocfumswh5tooa 466 48 and and CC work_7n2voym2grhjpocfumswh5tooa 466 49 fHR-3 fHR-3 NNP work_7n2voym2grhjpocfumswh5tooa 466 50 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 466 51 . . . work_7n2voym2grhjpocfumswh5tooa 467 1 Mol Mol NNP work_7n2voym2grhjpocfumswh5tooa 467 2 Immunol Immunol NNP work_7n2voym2grhjpocfumswh5tooa 467 3 37:41–52 37:41–52 NNP work_7n2voym2grhjpocfumswh5tooa 467 4 Manolio Manolio NNP work_7n2voym2grhjpocfumswh5tooa 467 5 TA TA NNP work_7n2voym2grhjpocfumswh5tooa 467 6 et et NN work_7n2voym2grhjpocfumswh5tooa 467 7   _SP work_7n2voym2grhjpocfumswh5tooa 467 8 al al NNP work_7n2voym2grhjpocfumswh5tooa 467 9 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 467 10 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 467 11 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 467 12 Finding find VBG work_7n2voym2grhjpocfumswh5tooa 467 13 the the DT work_7n2voym2grhjpocfumswh5tooa 467 14 missing missing JJ work_7n2voym2grhjpocfumswh5tooa 467 15 heritability heritability NN work_7n2voym2grhjpocfumswh5tooa 467 16 of of IN work_7n2voym2grhjpocfumswh5tooa 467 17 complex complex JJ work_7n2voym2grhjpocfumswh5tooa 467 18 diseases disease NNS work_7n2voym2grhjpocfumswh5tooa 467 19 . . . work_7n2voym2grhjpocfumswh5tooa 468 1 Nature nature NN work_7n2voym2grhjpocfumswh5tooa 468 2 461:747–753 461:747–753 CD work_7n2voym2grhjpocfumswh5tooa 468 3 . . . work_7n2voym2grhjpocfumswh5tooa 469 1 https https NN work_7n2voym2grhjpocfumswh5tooa 469 2 : : : work_7n2voym2grhjpocfumswh5tooa 469 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 469 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 469 5 natur natur NNP work_7n2voym2grhjpocfumswh5tooa 469 6 e0849 e0849 NNP work_7n2voym2grhjpocfumswh5tooa 469 7 4 4 CD work_7n2voym2grhjpocfumswh5tooa 469 8 Martinez Martinez NNP work_7n2voym2grhjpocfumswh5tooa 469 9 - - HYPH work_7n2voym2grhjpocfumswh5tooa 469 10 Barricarte Barricarte NNP work_7n2voym2grhjpocfumswh5tooa 469 11 R R NNP work_7n2voym2grhjpocfumswh5tooa 469 12 et et NNP work_7n2voym2grhjpocfumswh5tooa 469 13   _SP work_7n2voym2grhjpocfumswh5tooa 469 14 al al NNP work_7n2voym2grhjpocfumswh5tooa 469 15 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 469 16 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 469 17 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 469 18 Relevance Relevance NNP work_7n2voym2grhjpocfumswh5tooa 469 19 of of IN work_7n2voym2grhjpocfumswh5tooa 469 20 complement complement NN work_7n2voym2grhjpocfumswh5tooa 469 21 factor factor NN work_7n2voym2grhjpocfumswh5tooa 469 22 H h NN work_7n2voym2grhjpocfumswh5tooa 469 23 - - HYPH work_7n2voym2grhjpocfumswh5tooa 469 24 related relate VBN work_7n2voym2grhjpocfumswh5tooa 469 25 1 1 CD work_7n2voym2grhjpocfumswh5tooa 469 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 469 27 CFHR1 cfhr1 NN work_7n2voym2grhjpocfumswh5tooa 469 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 469 29 genotypes genotype NNS work_7n2voym2grhjpocfumswh5tooa 469 30 in in IN work_7n2voym2grhjpocfumswh5tooa 469 31 age age NN work_7n2voym2grhjpocfumswh5tooa 469 32 - - HYPH work_7n2voym2grhjpocfumswh5tooa 469 33 related relate VBN work_7n2voym2grhjpocfumswh5tooa 469 34 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 469 35 degen- degen- NN work_7n2voym2grhjpocfumswh5tooa 469 36 eration eration NN work_7n2voym2grhjpocfumswh5tooa 469 37 . . . work_7n2voym2grhjpocfumswh5tooa 470 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 470 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 470 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 470 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 470 5 53:1087–1094 53:1087–1094 NNP work_7n2voym2grhjpocfumswh5tooa 470 6 . . . work_7n2voym2grhjpocfumswh5tooa 471 1 https https NN work_7n2voym2grhjpocfumswh5tooa 471 2 : : : work_7n2voym2grhjpocfumswh5tooa 471 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 471 4 . . . work_7n2voym2grhjpocfumswh5tooa 472 1 org/10.1167 org/10.1167 NNP work_7n2voym2grhjpocfumswh5tooa 472 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 472 3 iovs.11 iovs.11 NNP work_7n2voym2grhjpocfumswh5tooa 472 4 - - HYPH work_7n2voym2grhjpocfumswh5tooa 472 5 8709 8709 CD work_7n2voym2grhjpocfumswh5tooa 472 6 McKusick McKusick NNP work_7n2voym2grhjpocfumswh5tooa 472 7 VA VA NNP work_7n2voym2grhjpocfumswh5tooa 472 8 , , , work_7n2voym2grhjpocfumswh5tooa 472 9 Hostetler Hostetler NNP work_7n2voym2grhjpocfumswh5tooa 472 10 JA JA NNP work_7n2voym2grhjpocfumswh5tooa 472 11 , , , work_7n2voym2grhjpocfumswh5tooa 472 12 Egeland Egeland NNP work_7n2voym2grhjpocfumswh5tooa 472 13 JA JA NNP work_7n2voym2grhjpocfumswh5tooa 472 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 472 15 1964 1964 CD work_7n2voym2grhjpocfumswh5tooa 472 16 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 472 17 Genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 472 18 studies study NNS work_7n2voym2grhjpocfumswh5tooa 472 19 of of IN work_7n2voym2grhjpocfumswh5tooa 472 20 the the DT work_7n2voym2grhjpocfumswh5tooa 472 21 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 472 22 , , , work_7n2voym2grhjpocfumswh5tooa 472 23 background background NN work_7n2voym2grhjpocfumswh5tooa 472 24 and and CC work_7n2voym2grhjpocfumswh5tooa 472 25 potentialities potentiality NNS work_7n2voym2grhjpocfumswh5tooa 472 26 . . . work_7n2voym2grhjpocfumswh5tooa 473 1 Bull Bull NNP work_7n2voym2grhjpocfumswh5tooa 473 2 Johns Johns NNP work_7n2voym2grhjpocfumswh5tooa 473 3 Hopkins Hopkins NNP work_7n2voym2grhjpocfumswh5tooa 473 4 Hosp Hosp NNP work_7n2voym2grhjpocfumswh5tooa 473 5 115:203–222 115:203–222 CD work_7n2voym2grhjpocfumswh5tooa 473 6 Merle Merle NNP work_7n2voym2grhjpocfumswh5tooa 473 7 BM BM NNP work_7n2voym2grhjpocfumswh5tooa 473 8 , , , work_7n2voym2grhjpocfumswh5tooa 473 9 Benlian Benlian NNP work_7n2voym2grhjpocfumswh5tooa 473 10 P P NNP work_7n2voym2grhjpocfumswh5tooa 473 11 , , , work_7n2voym2grhjpocfumswh5tooa 473 12 Puche Puche NNP work_7n2voym2grhjpocfumswh5tooa 473 13 N N NNP work_7n2voym2grhjpocfumswh5tooa 473 14 , , , work_7n2voym2grhjpocfumswh5tooa 473 15 Bassols Bassols NNP work_7n2voym2grhjpocfumswh5tooa 473 16 A A NNP work_7n2voym2grhjpocfumswh5tooa 473 17 , , , work_7n2voym2grhjpocfumswh5tooa 473 18 Delcourt Delcourt NNP work_7n2voym2grhjpocfumswh5tooa 473 19 C C NNP work_7n2voym2grhjpocfumswh5tooa 473 20 , , , work_7n2voym2grhjpocfumswh5tooa 473 21 Souied Souied NNP work_7n2voym2grhjpocfumswh5tooa 473 22 EH EH NNP work_7n2voym2grhjpocfumswh5tooa 473 23 , , , work_7n2voym2grhjpocfumswh5tooa 473 24 Nutritional Nutritional NNP work_7n2voym2grhjpocfumswh5tooa 473 25 AMDTSG AMDTSG NNP work_7n2voym2grhjpocfumswh5tooa 473 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 473 27 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 473 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 473 29 Circulating Circulating NNP work_7n2voym2grhjpocfumswh5tooa 473 30 omega-3 omega-3 NNP work_7n2voym2grhjpocfumswh5tooa 473 31 Fatty Fatty NNP work_7n2voym2grhjpocfumswh5tooa 473 32 acids acid NNS work_7n2voym2grhjpocfumswh5tooa 473 33 and and CC work_7n2voym2grhjpocfumswh5tooa 473 34 neovascular neovascular JJ work_7n2voym2grhjpocfumswh5tooa 473 35 age age NN work_7n2voym2grhjpocfumswh5tooa 473 36 - - HYPH work_7n2voym2grhjpocfumswh5tooa 473 37 related relate VBN work_7n2voym2grhjpocfumswh5tooa 473 38 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 473 39 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 473 40 . . . work_7n2voym2grhjpocfumswh5tooa 474 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 474 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 474 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 474 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 474 5 55:2010–2019 55:2010–2019 NNP work_7n2voym2grhjpocfumswh5tooa 474 6 . . . work_7n2voym2grhjpocfumswh5tooa 475 1 https https NN work_7n2voym2grhjpocfumswh5tooa 475 2 : : : work_7n2voym2grhjpocfumswh5tooa 475 3 //doi.org/10.1167 //doi.org/10.1167 , work_7n2voym2grhjpocfumswh5tooa 475 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 475 5 iovs.14 iovs.14 NNP work_7n2voym2grhjpocfumswh5tooa 475 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 475 7 13916 13916 CD work_7n2voym2grhjpocfumswh5tooa 475 8 Morton Morton NNP work_7n2voym2grhjpocfumswh5tooa 475 9 NE NE NNP work_7n2voym2grhjpocfumswh5tooa 475 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 475 11 1955 1955 CD work_7n2voym2grhjpocfumswh5tooa 475 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 475 13 Sequential sequential JJ work_7n2voym2grhjpocfumswh5tooa 475 14 tests test NNS work_7n2voym2grhjpocfumswh5tooa 475 15 for for IN work_7n2voym2grhjpocfumswh5tooa 475 16 the the DT work_7n2voym2grhjpocfumswh5tooa 475 17 detection detection NN work_7n2voym2grhjpocfumswh5tooa 475 18 of of IN work_7n2voym2grhjpocfumswh5tooa 475 19 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 475 20 . . . work_7n2voym2grhjpocfumswh5tooa 476 1 Am be VBP work_7n2voym2grhjpocfumswh5tooa 476 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 476 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 476 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 476 5 7:277–318 7:277–318 CD work_7n2voym2grhjpocfumswh5tooa 476 6 Munch Munch NNP work_7n2voym2grhjpocfumswh5tooa 476 7 IC IC NNP work_7n2voym2grhjpocfumswh5tooa 476 8 , , , work_7n2voym2grhjpocfumswh5tooa 476 9 Linneberg Linneberg NNP work_7n2voym2grhjpocfumswh5tooa 476 10 A A NNP work_7n2voym2grhjpocfumswh5tooa 476 11 , , , work_7n2voym2grhjpocfumswh5tooa 476 12 Larsen Larsen NNP work_7n2voym2grhjpocfumswh5tooa 476 13 M M NNP work_7n2voym2grhjpocfumswh5tooa 476 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 476 15 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 476 16 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 476 17 Precursors precursor NNS work_7n2voym2grhjpocfumswh5tooa 476 18 of of IN work_7n2voym2grhjpocfumswh5tooa 476 19 age age NN work_7n2voym2grhjpocfumswh5tooa 476 20 - - HYPH work_7n2voym2grhjpocfumswh5tooa 476 21 related relate VBN work_7n2voym2grhjpocfumswh5tooa 476 22 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 476 23 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 476 24 : : : work_7n2voym2grhjpocfumswh5tooa 476 25 associations association NNS work_7n2voym2grhjpocfumswh5tooa 476 26 with with IN work_7n2voym2grhjpocfumswh5tooa 476 27 physical physical JJ work_7n2voym2grhjpocfumswh5tooa 476 28 activity activity NN work_7n2voym2grhjpocfumswh5tooa 476 29 , , , work_7n2voym2grhjpocfumswh5tooa 476 30 obesity obesity NN work_7n2voym2grhjpocfumswh5tooa 476 31 , , , work_7n2voym2grhjpocfumswh5tooa 476 32 and and CC work_7n2voym2grhjpocfumswh5tooa 476 33 serum serum NN work_7n2voym2grhjpocfumswh5tooa 476 34 lipids lipid NNS work_7n2voym2grhjpocfumswh5tooa 476 35 in in IN work_7n2voym2grhjpocfumswh5tooa 476 36 the the DT work_7n2voym2grhjpocfumswh5tooa 476 37 inter99 inter99 NNP work_7n2voym2grhjpocfumswh5tooa 476 38 eye eye NN work_7n2voym2grhjpocfumswh5tooa 476 39 study study NN work_7n2voym2grhjpocfumswh5tooa 476 40 . . . work_7n2voym2grhjpocfumswh5tooa 477 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 477 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 477 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 477 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 477 5 54:3932–3940 54:3932–3940 NNP work_7n2voym2grhjpocfumswh5tooa 477 6 . . . work_7n2voym2grhjpocfumswh5tooa 478 1 https https NN work_7n2voym2grhjpocfumswh5tooa 478 2 : : : work_7n2voym2grhjpocfumswh5tooa 478 3 //doi.org/10.1167 //doi.org/10.1167 , work_7n2voym2grhjpocfumswh5tooa 478 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 478 5 iovs.12 iovs.12 NNP work_7n2voym2grhjpocfumswh5tooa 478 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 478 7 10785 10785 CD work_7n2voym2grhjpocfumswh5tooa 478 8 Naj Naj NNP work_7n2voym2grhjpocfumswh5tooa 478 9 AC AC NNP work_7n2voym2grhjpocfumswh5tooa 478 10 et et NN work_7n2voym2grhjpocfumswh5tooa 478 11   _SP work_7n2voym2grhjpocfumswh5tooa 478 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 478 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 478 14 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 478 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 478 16 Genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 478 17 factors factor NNS work_7n2voym2grhjpocfumswh5tooa 478 18 in in IN work_7n2voym2grhjpocfumswh5tooa 478 19 nonsmokers nonsmoker NNS work_7n2voym2grhjpocfumswh5tooa 478 20 with with IN work_7n2voym2grhjpocfumswh5tooa 478 21 age age NN work_7n2voym2grhjpocfumswh5tooa 478 22 - - HYPH work_7n2voym2grhjpocfumswh5tooa 478 23 related relate VBN work_7n2voym2grhjpocfumswh5tooa 478 24 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 478 25 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 478 26 revealed reveal VBD work_7n2voym2grhjpocfumswh5tooa 478 27 through through IN work_7n2voym2grhjpocfumswh5tooa 478 28 genome genome NN work_7n2voym2grhjpocfumswh5tooa 478 29 - - HYPH work_7n2voym2grhjpocfumswh5tooa 478 30 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 478 31 gene gene NN work_7n2voym2grhjpocfumswh5tooa 478 32 - - HYPH work_7n2voym2grhjpocfumswh5tooa 478 33 envi- envi- NN work_7n2voym2grhjpocfumswh5tooa 478 34 ronment ronment NNP work_7n2voym2grhjpocfumswh5tooa 478 35 interaction interaction NN work_7n2voym2grhjpocfumswh5tooa 478 36 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 478 37 . . . work_7n2voym2grhjpocfumswh5tooa 479 1 Ann Ann NNP work_7n2voym2grhjpocfumswh5tooa 479 2 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 479 3 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 479 4 77:215–231 77:215–231 ADD work_7n2voym2grhjpocfumswh5tooa 479 5 . . . work_7n2voym2grhjpocfumswh5tooa 480 1 https https NN work_7n2voym2grhjpocfumswh5tooa 480 2 : : : work_7n2voym2grhjpocfumswh5tooa 480 3 //doi.org/10.1111 //doi.org/10.1111 NNP work_7n2voym2grhjpocfumswh5tooa 480 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 480 5 ahg.12011 ahg.12011 NNP work_7n2voym2grhjpocfumswh5tooa 480 6 Nowak Nowak NNP work_7n2voym2grhjpocfumswh5tooa 480 7 M M NNP work_7n2voym2grhjpocfumswh5tooa 480 8 et et NN work_7n2voym2grhjpocfumswh5tooa 480 9   _SP work_7n2voym2grhjpocfumswh5tooa 480 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 480 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 480 12 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 480 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 480 14 Changes change NNS work_7n2voym2grhjpocfumswh5tooa 480 15 in in IN work_7n2voym2grhjpocfumswh5tooa 480 16 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 480 17 metabolism metabolism NN work_7n2voym2grhjpocfumswh5tooa 480 18 in in IN work_7n2voym2grhjpocfumswh5tooa 480 19 women woman NNS work_7n2voym2grhjpocfumswh5tooa 480 20 with with IN work_7n2voym2grhjpocfumswh5tooa 480 21 age age NN work_7n2voym2grhjpocfumswh5tooa 480 22 - - HYPH work_7n2voym2grhjpocfumswh5tooa 480 23 related relate VBN work_7n2voym2grhjpocfumswh5tooa 480 24 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 480 25 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 480 26 . . . work_7n2voym2grhjpocfumswh5tooa 481 1 Clin Clin NNP work_7n2voym2grhjpocfumswh5tooa 481 2 Exp Exp NNP work_7n2voym2grhjpocfumswh5tooa 481 3 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 481 4 4:183–187 4:183–187 CD work_7n2voym2grhjpocfumswh5tooa 481 5 . . . work_7n2voym2grhjpocfumswh5tooa 482 1 https https NN work_7n2voym2grhjpocfumswh5tooa 482 2 : : : work_7n2voym2grhjpocfumswh5tooa 482 3 //doi.org/10.1007 //doi.org/10.1007 NNP work_7n2voym2grhjpocfumswh5tooa 482 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 482 5 s1023 s1023 NNP work_7n2voym2grhjpocfumswh5tooa 482 6 8 8 CD work_7n2voym2grhjpocfumswh5tooa 482 7 - - SYM work_7n2voym2grhjpocfumswh5tooa 482 8 004 004 CD work_7n2voym2grhjpocfumswh5tooa 482 9 - - HYPH work_7n2voym2grhjpocfumswh5tooa 482 10 0054-z 0054-z NN work_7n2voym2grhjpocfumswh5tooa 482 11 Parmar Parmar NNP work_7n2voym2grhjpocfumswh5tooa 482 12 T T NNP work_7n2voym2grhjpocfumswh5tooa 482 13 , , , work_7n2voym2grhjpocfumswh5tooa 482 14 Parmar Parmar NNP work_7n2voym2grhjpocfumswh5tooa 482 15 VM VM NNP work_7n2voym2grhjpocfumswh5tooa 482 16 , , , work_7n2voym2grhjpocfumswh5tooa 482 17 Perusek Perusek NNP work_7n2voym2grhjpocfumswh5tooa 482 18 L L NNP work_7n2voym2grhjpocfumswh5tooa 482 19 , , , work_7n2voym2grhjpocfumswh5tooa 482 20 Georges Georges NNP work_7n2voym2grhjpocfumswh5tooa 482 21 A A NNP work_7n2voym2grhjpocfumswh5tooa 482 22 , , , work_7n2voym2grhjpocfumswh5tooa 482 23 Takahashi Takahashi NNP work_7n2voym2grhjpocfumswh5tooa 482 24 M M NNP work_7n2voym2grhjpocfumswh5tooa 482 25 , , , work_7n2voym2grhjpocfumswh5tooa 482 26 Crabb Crabb NNP work_7n2voym2grhjpocfumswh5tooa 482 27 JW JW NNP work_7n2voym2grhjpocfumswh5tooa 482 28 , , , work_7n2voym2grhjpocfumswh5tooa 482 29 Maeda Maeda NNP work_7n2voym2grhjpocfumswh5tooa 482 30 A A NNP work_7n2voym2grhjpocfumswh5tooa 482 31 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 482 32 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 482 33 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 482 34 Lipocalin Lipocalin NNP work_7n2voym2grhjpocfumswh5tooa 482 35 2 2 CD work_7n2voym2grhjpocfumswh5tooa 482 36 plays play VBZ work_7n2voym2grhjpocfumswh5tooa 482 37 an an DT work_7n2voym2grhjpocfumswh5tooa 482 38 important important JJ work_7n2voym2grhjpocfumswh5tooa 482 39 role role NN work_7n2voym2grhjpocfumswh5tooa 482 40 in in IN work_7n2voym2grhjpocfumswh5tooa 482 41 regulating regulate VBG work_7n2voym2grhjpocfumswh5tooa 482 42 inflammation inflammation NN work_7n2voym2grhjpocfumswh5tooa 482 43 in in IN work_7n2voym2grhjpocfumswh5tooa 482 44 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 482 45 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 482 46 . . . work_7n2voym2grhjpocfumswh5tooa 483 1 J J NNP work_7n2voym2grhjpocfumswh5tooa 483 2 Immunol Immunol NNP work_7n2voym2grhjpocfumswh5tooa 483 3 200:3128–3141 200:3128–3141 CD work_7n2voym2grhjpocfumswh5tooa 483 4 . . . work_7n2voym2grhjpocfumswh5tooa 484 1 https https NN work_7n2voym2grhjpocfumswh5tooa 484 2 : : : work_7n2voym2grhjpocfumswh5tooa 484 3 //doi.org/10.4049 //doi.org/10.4049 NNP work_7n2voym2grhjpocfumswh5tooa 484 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 484 5 jimmu jimmu NNP work_7n2voym2grhjpocfumswh5tooa 484 6 nol.17015 nol.17015 NNP work_7n2voym2grhjpocfumswh5tooa 484 7 73 73 CD work_7n2voym2grhjpocfumswh5tooa 484 8 https://doi.org/10.1038/ng.3448 https://doi.org/10.1038/ng.3448 CD work_7n2voym2grhjpocfumswh5tooa 484 9 https://doi.org/10.1038/ng.3448 https://doi.org/10.1038/ng.3448 NNS work_7n2voym2grhjpocfumswh5tooa 484 10 https://doi.org/10.1167/iovs.18-24132 https://doi.org/10.1167/iovs.18-24132 NNS work_7n2voym2grhjpocfumswh5tooa 484 11 https://doi.org/10.1167/iovs.18-24132 https://doi.org/10.1167/iovs.18-24132 NNS work_7n2voym2grhjpocfumswh5tooa 484 12 https://doi.org/10.15252/embj.201797311 https://doi.org/10.15252/embj.201797311 NNP work_7n2voym2grhjpocfumswh5tooa 484 13 https://doi.org/10.1093/bioinformatics/bts479 https://doi.org/10.1093/bioinformatics/bts479 ADD work_7n2voym2grhjpocfumswh5tooa 484 14 https://doi.org/10.1371/journal.pone.0068095 https://doi.org/10.1371/journal.pone.0068095 NNP work_7n2voym2grhjpocfumswh5tooa 484 15 https://doi.org/10.1038/nprot.2014.174 https://doi.org/10.1038/nprot.2014.174 NNP work_7n2voym2grhjpocfumswh5tooa 484 16 https://doi.org/10.1038/nprot.2014.174 https://doi.org/10.1038/nprot.2014.174 NNP work_7n2voym2grhjpocfumswh5tooa 484 17 https://doi.org/10.1073/pnas.0501536102 https://doi.org/10.1073/pnas.0501536102 NNP work_7n2voym2grhjpocfumswh5tooa 484 18 https://doi.org/10.1080/07853890601097030 https://doi.org/10.1080/07853890601097030 NNP work_7n2voym2grhjpocfumswh5tooa 484 19 https://doi.org/10.1126/science.1110359 https://doi.org/10.1126/science.1110359 FW work_7n2voym2grhjpocfumswh5tooa 484 20 https://doi.org/10.1038/nrg1521 https://doi.org/10.1038/nrg1521 NNS work_7n2voym2grhjpocfumswh5tooa 484 21 https://doi.org/10.1167/iovs.13-13684 https://doi.org/10.1167/iovs.13-13684 NNS work_7n2voym2grhjpocfumswh5tooa 484 22 https://doi.org/10.1167/iovs.13-13684 https://doi.org/10.1167/iovs.13-13684 VBZ work_7n2voym2grhjpocfumswh5tooa 484 23 https://doi.org/10.1038/ng1890 https://doi.org/10.1038/ng1890 NNP work_7n2voym2grhjpocfumswh5tooa 484 24 http://www.illumina.com/techniques/microarrays/array-data-analysis-experimental-design/genomestudio.html http://www.illumina.com/techniques/microarrays/array-data-analysis-experimental-design/genomestudio.html NNP work_7n2voym2grhjpocfumswh5tooa 484 25 http://www.illumina.com/techniques/microarrays/array-data-analysis-experimental-design/genomestudio.html http://www.illumina.com/techniques/microarrays/array-data-analysis-experimental-design/genomestudio.html NNP work_7n2voym2grhjpocfumswh5tooa 484 26 http://www.illumina.com/techniques/microarrays/array-data-analysis-experimental-design/genomestudio.html http://www.illumina.com/techniques/microarrays/array-data-analysis-experimental-design/genomestudio.html NNP work_7n2voym2grhjpocfumswh5tooa 484 27 https://doi.org/10.1016/j.exer.2015.03.009 https://doi.org/10.1016/j.exer.2015.03.009 XX work_7n2voym2grhjpocfumswh5tooa 484 28 https://doi.org/10.1016/j.ajpath.2015.11.014 https://doi.org/10.1016/j.ajpath.2015.11.014 XX work_7n2voym2grhjpocfumswh5tooa 484 29 https://doi.org/10.1016/j.ajpath.2015.11.014 https://doi.org/10.1016/j.ajpath.2015.11.014 XX work_7n2voym2grhjpocfumswh5tooa 484 30 https://doi.org/10.1371/journal.pone.0158000 https://doi.org/10.1371/journal.pone.0158000 NNP work_7n2voym2grhjpocfumswh5tooa 484 31 https://doi.org/10.1126/science.1109557 https://doi.org/10.1126/science.1109557 NNP work_7n2voym2grhjpocfumswh5tooa 484 32 https://doi.org/10.1126/science.1109557 https://doi.org/10.1126/science.1109557 NNP work_7n2voym2grhjpocfumswh5tooa 484 33 https://doi.org/10.1167/iovs.18-25678 https://doi.org/10.1167/iovs.18-25678 ADD work_7n2voym2grhjpocfumswh5tooa 484 34 https://doi.org/10.1038/ejhg.2011.248 https://doi.org/10.1038/ejhg.2011.248 NNP work_7n2voym2grhjpocfumswh5tooa 484 35 https://doi.org/10.1371/journal.pone.0176566 https://doi.org/10.1371/journal.pone.0176566 NNP work_7n2voym2grhjpocfumswh5tooa 484 36 https://doi.org/10.1371/journal.pone.0018044 https://doi.org/10.1371/journal.pone.0018044 PRP work_7n2voym2grhjpocfumswh5tooa 484 37 https://doi.org/10.1126/scisignal.aaf6716 https://doi.org/10.1126/scisignal.aaf6716 NNP work_7n2voym2grhjpocfumswh5tooa 484 38 https://doi.org/10.1038/ejhg.2008.24 https://doi.org/10.1038/ejhg.2008.24 UH work_7n2voym2grhjpocfumswh5tooa 484 39 https://doi.org/10.1038/ejhg.2008.24 https://doi.org/10.1038/ejhg.2008.24 UH work_7n2voym2grhjpocfumswh5tooa 484 40 https://doi.org/10.1016/j.ophtha.2017.12.023 https://doi.org/10.1016/j.ophtha.2017.12.023 NNP work_7n2voym2grhjpocfumswh5tooa 484 41 https://doi.org/10.1016/j.ophtha.2017.12.023 https://doi.org/10.1016/j.ophtha.2017.12.023 NNP work_7n2voym2grhjpocfumswh5tooa 484 42 https://doi.org/10.1093/bioinformatics/btv402 https://doi.org/10.1093/bioinformatics/btv402 ADD work_7n2voym2grhjpocfumswh5tooa 484 43 https://doi.org/10.1038/nature08494 https://doi.org/10.1038/nature08494 FW work_7n2voym2grhjpocfumswh5tooa 484 44 https://doi.org/10.1038/nature08494 https://doi.org/10.1038/nature08494 FW work_7n2voym2grhjpocfumswh5tooa 484 45 https://doi.org/10.1167/iovs.11-8709 https://doi.org/10.1167/iovs.11-8709 FW work_7n2voym2grhjpocfumswh5tooa 484 46 https://doi.org/10.1167/iovs.11-8709 https://doi.org/10.1167/iovs.11-8709 NNP work_7n2voym2grhjpocfumswh5tooa 484 47 https://doi.org/10.1167/iovs.14-13916 https://doi.org/10.1167/iovs.14-13916 NNP work_7n2voym2grhjpocfumswh5tooa 484 48 https://doi.org/10.1167/iovs.12-10785 https://doi.org/10.1167/iovs.12-10785 NFP work_7n2voym2grhjpocfumswh5tooa 484 49 https://doi.org/10.1111/ahg.12011 https://doi.org/10.1111/ahg.12011 JJ work_7n2voym2grhjpocfumswh5tooa 484 50 https://doi.org/10.1111/ahg.12011 https://doi.org/10.1111/ahg.12011 NNP work_7n2voym2grhjpocfumswh5tooa 484 51 https://doi.org/10.1007/s10238-004-0054-z https://doi.org/10.1007/s10238-004-0054-z NNP work_7n2voym2grhjpocfumswh5tooa 484 52 https://doi.org/10.1007/s10238-004-0054-z https://doi.org/10.1007/s10238-004-0054-z NNP work_7n2voym2grhjpocfumswh5tooa 484 53 https://doi.org/10.4049/jimmunol.1701573 https://doi.org/10.4049/jimmunol.1701573 NNP work_7n2voym2grhjpocfumswh5tooa 484 54 1182 1182 CD work_7n2voym2grhjpocfumswh5tooa 484 55 Human Human NNP work_7n2voym2grhjpocfumswh5tooa 484 56 Genetics Genetics NNPS work_7n2voym2grhjpocfumswh5tooa 484 57 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 484 58 2019 2019 CD work_7n2voym2grhjpocfumswh5tooa 484 59 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 484 60 138:1171–1182 138:1171–1182 CD work_7n2voym2grhjpocfumswh5tooa 484 61 1 1 CD work_7n2voym2grhjpocfumswh5tooa 484 62 3 3 CD work_7n2voym2grhjpocfumswh5tooa 484 63 Paun Paun NNP work_7n2voym2grhjpocfumswh5tooa 484 64 CC CC NNP work_7n2voym2grhjpocfumswh5tooa 484 65 et et NN work_7n2voym2grhjpocfumswh5tooa 484 66     _SP work_7n2voym2grhjpocfumswh5tooa 484 67 al al NNP work_7n2voym2grhjpocfumswh5tooa 484 68 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 484 69 2015 2015 CD work_7n2voym2grhjpocfumswh5tooa 484 70 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 484 71 Genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 484 72 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 484 73 and and CC work_7n2voym2grhjpocfumswh5tooa 484 74 systemic systemic JJ work_7n2voym2grhjpocfumswh5tooa 484 75 complement complement NN work_7n2voym2grhjpocfumswh5tooa 484 76 activation activation NN work_7n2voym2grhjpocfumswh5tooa 484 77 levels level NNS work_7n2voym2grhjpocfumswh5tooa 484 78 are be VBP work_7n2voym2grhjpocfumswh5tooa 484 79 associated associate VBN work_7n2voym2grhjpocfumswh5tooa 484 80 with with IN work_7n2voym2grhjpocfumswh5tooa 484 81 serum serum NNP work_7n2voym2grhjpocfumswh5tooa 484 82 lipoprotein lipoprotein NN work_7n2voym2grhjpocfumswh5tooa 484 83 levels level NNS work_7n2voym2grhjpocfumswh5tooa 484 84 in in IN work_7n2voym2grhjpocfumswh5tooa 484 85 age age NN work_7n2voym2grhjpocfumswh5tooa 484 86 - - HYPH work_7n2voym2grhjpocfumswh5tooa 484 87 related relate VBN work_7n2voym2grhjpocfumswh5tooa 484 88 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 484 89 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 484 90 . . . work_7n2voym2grhjpocfumswh5tooa 485 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 485 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 485 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 485 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 485 5 56:7766–7773 56:7766–7773 CD work_7n2voym2grhjpocfumswh5tooa 485 6 . . . work_7n2voym2grhjpocfumswh5tooa 486 1 https https NN work_7n2voym2grhjpocfumswh5tooa 486 2 : : : work_7n2voym2grhjpocfumswh5tooa 486 3 //doi.org/10.1167 //doi.org/10.1167 , work_7n2voym2grhjpocfumswh5tooa 486 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 486 5 iovs.15 iovs.15 NNP work_7n2voym2grhjpocfumswh5tooa 486 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 486 7 17035 17035 CD work_7n2voym2grhjpocfumswh5tooa 486 8 Pescosolido Pescosolido NNP work_7n2voym2grhjpocfumswh5tooa 486 9 N N NNP work_7n2voym2grhjpocfumswh5tooa 486 10 , , , work_7n2voym2grhjpocfumswh5tooa 486 11 Barbato Barbato NNP work_7n2voym2grhjpocfumswh5tooa 486 12 A A NNP work_7n2voym2grhjpocfumswh5tooa 486 13 , , , work_7n2voym2grhjpocfumswh5tooa 486 14 Pascarella pascarella NN work_7n2voym2grhjpocfumswh5tooa 486 15 A a NN work_7n2voym2grhjpocfumswh5tooa 486 16 , , , work_7n2voym2grhjpocfumswh5tooa 486 17 Giannotti Giannotti NNP work_7n2voym2grhjpocfumswh5tooa 486 18 R R NNP work_7n2voym2grhjpocfumswh5tooa 486 19 , , , work_7n2voym2grhjpocfumswh5tooa 486 20 Genzano Genzano NNP work_7n2voym2grhjpocfumswh5tooa 486 21 M M NNP work_7n2voym2grhjpocfumswh5tooa 486 22 , , , work_7n2voym2grhjpocfumswh5tooa 486 23 Neb- Neb- NNP work_7n2voym2grhjpocfumswh5tooa 486 24 bioso bioso NN work_7n2voym2grhjpocfumswh5tooa 486 25 M M NNP work_7n2voym2grhjpocfumswh5tooa 486 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 486 27 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 486 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 486 29 Role role NN work_7n2voym2grhjpocfumswh5tooa 486 30 of of IN work_7n2voym2grhjpocfumswh5tooa 486 31 protease protease NN work_7n2voym2grhjpocfumswh5tooa 486 32 - - HYPH work_7n2voym2grhjpocfumswh5tooa 486 33 inhibitors inhibitor NNS work_7n2voym2grhjpocfumswh5tooa 486 34 in in IN work_7n2voym2grhjpocfumswh5tooa 486 35 ocular ocular JJ work_7n2voym2grhjpocfumswh5tooa 486 36 diseases disease NNS work_7n2voym2grhjpocfumswh5tooa 486 37 . . . work_7n2voym2grhjpocfumswh5tooa 487 1 Mole- Mole- NNP work_7n2voym2grhjpocfumswh5tooa 487 2 cules cule VBZ work_7n2voym2grhjpocfumswh5tooa 487 3 19:20557–20569 19:20557–20569 CD work_7n2voym2grhjpocfumswh5tooa 487 4 . . . work_7n2voym2grhjpocfumswh5tooa 488 1 https https NNP work_7n2voym2grhjpocfumswh5tooa 488 2 : : : work_7n2voym2grhjpocfumswh5tooa 488 3 //doi.org/10.3390 //doi.org/10.3390 NNP work_7n2voym2grhjpocfumswh5tooa 488 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 488 5 molec molec JJ work_7n2voym2grhjpocfumswh5tooa 488 6 ules1 ules1 NN work_7n2voym2grhjpocfumswh5tooa 488 7 91220 91220 CD work_7n2voym2grhjpocfumswh5tooa 488 8 557 557 CD work_7n2voym2grhjpocfumswh5tooa 488 9 Price Price NNP work_7n2voym2grhjpocfumswh5tooa 488 10 AL AL NNP work_7n2voym2grhjpocfumswh5tooa 488 11 , , , work_7n2voym2grhjpocfumswh5tooa 488 12 Patterson Patterson NNP work_7n2voym2grhjpocfumswh5tooa 488 13 NJ NJ NNP work_7n2voym2grhjpocfumswh5tooa 488 14 , , , work_7n2voym2grhjpocfumswh5tooa 488 15 Plenge Plenge NNP work_7n2voym2grhjpocfumswh5tooa 488 16 RM RM NNP work_7n2voym2grhjpocfumswh5tooa 488 17 , , , work_7n2voym2grhjpocfumswh5tooa 488 18 Weinblatt Weinblatt NNP work_7n2voym2grhjpocfumswh5tooa 488 19 ME ME NNP work_7n2voym2grhjpocfumswh5tooa 488 20 , , , work_7n2voym2grhjpocfumswh5tooa 488 21 Shadick Shadick NNP work_7n2voym2grhjpocfumswh5tooa 488 22 NA NA NNP work_7n2voym2grhjpocfumswh5tooa 488 23 , , , work_7n2voym2grhjpocfumswh5tooa 488 24 Reich Reich NNP work_7n2voym2grhjpocfumswh5tooa 488 25 D D NNP work_7n2voym2grhjpocfumswh5tooa 488 26 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 488 27 2006 2006 CD work_7n2voym2grhjpocfumswh5tooa 488 28 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 488 29 Principal principal JJ work_7n2voym2grhjpocfumswh5tooa 488 30 components component NNS work_7n2voym2grhjpocfumswh5tooa 488 31 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 488 32 corrects correct VBZ work_7n2voym2grhjpocfumswh5tooa 488 33 for for IN work_7n2voym2grhjpocfumswh5tooa 488 34 stratification stratification NN work_7n2voym2grhjpocfumswh5tooa 488 35 in in IN work_7n2voym2grhjpocfumswh5tooa 488 36 genome genome NN work_7n2voym2grhjpocfumswh5tooa 488 37 - - HYPH work_7n2voym2grhjpocfumswh5tooa 488 38 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 488 39 association association NN work_7n2voym2grhjpocfumswh5tooa 488 40 studies study NNS work_7n2voym2grhjpocfumswh5tooa 488 41 . . . work_7n2voym2grhjpocfumswh5tooa 489 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 489 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 489 3 38:904–909 38:904–909 CD work_7n2voym2grhjpocfumswh5tooa 489 4 . . . work_7n2voym2grhjpocfumswh5tooa 490 1 https https NN work_7n2voym2grhjpocfumswh5tooa 490 2 : : : work_7n2voym2grhjpocfumswh5tooa 490 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 490 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 490 5 ng184 ng184 NNP work_7n2voym2grhjpocfumswh5tooa 490 6 7 7 CD work_7n2voym2grhjpocfumswh5tooa 490 7 Purcell Purcell NNP work_7n2voym2grhjpocfumswh5tooa 490 8 S S NNP work_7n2voym2grhjpocfumswh5tooa 490 9 et et FW work_7n2voym2grhjpocfumswh5tooa 490 10   _SP work_7n2voym2grhjpocfumswh5tooa 490 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 490 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 490 13 2007 2007 CD work_7n2voym2grhjpocfumswh5tooa 490 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 490 15 PLINK PLINK NNP work_7n2voym2grhjpocfumswh5tooa 490 16 : : : work_7n2voym2grhjpocfumswh5tooa 490 17 a a DT work_7n2voym2grhjpocfumswh5tooa 490 18 tool tool NN work_7n2voym2grhjpocfumswh5tooa 490 19 set set VBN work_7n2voym2grhjpocfumswh5tooa 490 20 for for IN work_7n2voym2grhjpocfumswh5tooa 490 21 whole whole RB work_7n2voym2grhjpocfumswh5tooa 490 22 - - HYPH work_7n2voym2grhjpocfumswh5tooa 490 23 genome genome JJ work_7n2voym2grhjpocfumswh5tooa 490 24 associa- associa- NN work_7n2voym2grhjpocfumswh5tooa 490 25 tion tion NN work_7n2voym2grhjpocfumswh5tooa 490 26 and and CC work_7n2voym2grhjpocfumswh5tooa 490 27 population population NN work_7n2voym2grhjpocfumswh5tooa 490 28 - - HYPH work_7n2voym2grhjpocfumswh5tooa 490 29 based base VBN work_7n2voym2grhjpocfumswh5tooa 490 30 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 490 31 analyses analysis NNS work_7n2voym2grhjpocfumswh5tooa 490 32 . . . work_7n2voym2grhjpocfumswh5tooa 491 1 Am be VBP work_7n2voym2grhjpocfumswh5tooa 491 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 491 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 491 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 491 5 81:559–575 81:559–575 CD work_7n2voym2grhjpocfumswh5tooa 491 6 . . . work_7n2voym2grhjpocfumswh5tooa 492 1 https https NN work_7n2voym2grhjpocfumswh5tooa 492 2 : : : work_7n2voym2grhjpocfumswh5tooa 492 3 //doi.org/10.1086/51979 //doi.org/10.1086/51979 NFP work_7n2voym2grhjpocfumswh5tooa 492 4 5 5 CD work_7n2voym2grhjpocfumswh5tooa 492 5 Raychaudhuri Raychaudhuri NNP work_7n2voym2grhjpocfumswh5tooa 492 6 S S NNP work_7n2voym2grhjpocfumswh5tooa 492 7 et et NN work_7n2voym2grhjpocfumswh5tooa 492 8   _SP work_7n2voym2grhjpocfumswh5tooa 492 9 al al NNP work_7n2voym2grhjpocfumswh5tooa 492 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 492 11 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 492 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 492 13 A a DT work_7n2voym2grhjpocfumswh5tooa 492 14 rare rare JJ work_7n2voym2grhjpocfumswh5tooa 492 15 penetrant penetrant JJ work_7n2voym2grhjpocfumswh5tooa 492 16 mutation mutation NN work_7n2voym2grhjpocfumswh5tooa 492 17 in in IN work_7n2voym2grhjpocfumswh5tooa 492 18 CFH CFH NNP work_7n2voym2grhjpocfumswh5tooa 492 19 con- con- NN work_7n2voym2grhjpocfumswh5tooa 492 20 fers fer VBZ work_7n2voym2grhjpocfumswh5tooa 492 21 high high JJ work_7n2voym2grhjpocfumswh5tooa 492 22 risk risk NN work_7n2voym2grhjpocfumswh5tooa 492 23 of of IN work_7n2voym2grhjpocfumswh5tooa 492 24 age age NN work_7n2voym2grhjpocfumswh5tooa 492 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 492 26 related relate VBN work_7n2voym2grhjpocfumswh5tooa 492 27 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 492 28 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 492 29 . . . work_7n2voym2grhjpocfumswh5tooa 493 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 493 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 493 3 43:1232–1236 43:1232–1236 CD work_7n2voym2grhjpocfumswh5tooa 493 4 . . . work_7n2voym2grhjpocfumswh5tooa 494 1 https https NN work_7n2voym2grhjpocfumswh5tooa 494 2 : : : work_7n2voym2grhjpocfumswh5tooa 494 3 //doi.org/10.1038 //doi.org/10.1038 NNP work_7n2voym2grhjpocfumswh5tooa 494 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 494 5 ng.976 ng.976 NNP work_7n2voym2grhjpocfumswh5tooa 494 6 Riazuddin Riazuddin NNP work_7n2voym2grhjpocfumswh5tooa 494 7 SA SA NNP work_7n2voym2grhjpocfumswh5tooa 494 8 , , , work_7n2voym2grhjpocfumswh5tooa 494 9 McGlumphy McGlumphy NNP work_7n2voym2grhjpocfumswh5tooa 494 10 EJ EJ NNP work_7n2voym2grhjpocfumswh5tooa 494 11 , , , work_7n2voym2grhjpocfumswh5tooa 494 12 Yeo Yeo NNP work_7n2voym2grhjpocfumswh5tooa 494 13 WS WS NNP work_7n2voym2grhjpocfumswh5tooa 494 14 , , , work_7n2voym2grhjpocfumswh5tooa 494 15 Wang Wang NNP work_7n2voym2grhjpocfumswh5tooa 494 16 J J NNP work_7n2voym2grhjpocfumswh5tooa 494 17 , , , work_7n2voym2grhjpocfumswh5tooa 494 18 Katsanis Katsanis NNP work_7n2voym2grhjpocfumswh5tooa 494 19 N N NNP work_7n2voym2grhjpocfumswh5tooa 494 20 , , , work_7n2voym2grhjpocfumswh5tooa 494 21 Gottsch Gottsch NNP work_7n2voym2grhjpocfumswh5tooa 494 22 JD JD NNP work_7n2voym2grhjpocfumswh5tooa 494 23 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 494 24 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 494 25 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 494 26 Replication Replication NNP work_7n2voym2grhjpocfumswh5tooa 494 27 of of IN work_7n2voym2grhjpocfumswh5tooa 494 28 the the DT work_7n2voym2grhjpocfumswh5tooa 494 29 TCF4 TCF4 NNP work_7n2voym2grhjpocfumswh5tooa 494 30 intronic intronic JJ work_7n2voym2grhjpocfumswh5tooa 494 31 variant variant NN work_7n2voym2grhjpocfumswh5tooa 494 32 in in IN work_7n2voym2grhjpocfumswh5tooa 494 33 late late JJ work_7n2voym2grhjpocfumswh5tooa 494 34 - - HYPH work_7n2voym2grhjpocfumswh5tooa 494 35 onset onset NN work_7n2voym2grhjpocfumswh5tooa 494 36 Fuchs Fuchs NNP work_7n2voym2grhjpocfumswh5tooa 494 37 corneal corneal JJ work_7n2voym2grhjpocfumswh5tooa 494 38 dystrophy dystrophy NN work_7n2voym2grhjpocfumswh5tooa 494 39 and and CC work_7n2voym2grhjpocfumswh5tooa 494 40 evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 494 41 of of IN work_7n2voym2grhjpocfumswh5tooa 494 42 independence independence NN work_7n2voym2grhjpocfumswh5tooa 494 43 from from IN work_7n2voym2grhjpocfumswh5tooa 494 44 the the DT work_7n2voym2grhjpocfumswh5tooa 494 45 FCD2 FCD2 NNP work_7n2voym2grhjpocfumswh5tooa 494 46 locus locus NN work_7n2voym2grhjpocfumswh5tooa 494 47 . . . work_7n2voym2grhjpocfumswh5tooa 495 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 495 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 495 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 495 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 495 5 52:2825–2829 52:2825–2829 NNP work_7n2voym2grhjpocfumswh5tooa 495 6 . . . work_7n2voym2grhjpocfumswh5tooa 496 1 https https NN work_7n2voym2grhjpocfumswh5tooa 496 2 : : : work_7n2voym2grhjpocfumswh5tooa 496 3 // // NFP work_7n2voym2grhjpocfumswh5tooa 496 4 doi.org/10.1167/iovs.10-6497 doi.org/10.1167/iovs.10-6497 NNP work_7n2voym2grhjpocfumswh5tooa 496 5 Roh Roh NNP work_7n2voym2grhjpocfumswh5tooa 496 6 MI MI NNP work_7n2voym2grhjpocfumswh5tooa 496 7 , , , work_7n2voym2grhjpocfumswh5tooa 496 8 Kim Kim NNP work_7n2voym2grhjpocfumswh5tooa 496 9 JH JH NNP work_7n2voym2grhjpocfumswh5tooa 496 10 , , , work_7n2voym2grhjpocfumswh5tooa 496 11 Byeon Byeon NNP work_7n2voym2grhjpocfumswh5tooa 496 12 SH SH NNP work_7n2voym2grhjpocfumswh5tooa 496 13 , , , work_7n2voym2grhjpocfumswh5tooa 496 14 Koh Koh NNP work_7n2voym2grhjpocfumswh5tooa 496 15 HJ HJ NNP work_7n2voym2grhjpocfumswh5tooa 496 16 , , , work_7n2voym2grhjpocfumswh5tooa 496 17 Lee Lee NNP work_7n2voym2grhjpocfumswh5tooa 496 18 SC SC NNP work_7n2voym2grhjpocfumswh5tooa 496 19 , , , work_7n2voym2grhjpocfumswh5tooa 496 20 Kwon Kwon NNP work_7n2voym2grhjpocfumswh5tooa 496 21 OW OW NNP work_7n2voym2grhjpocfumswh5tooa 496 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 496 23 2008 2008 CD work_7n2voym2grhjpocfumswh5tooa 496 24 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 496 25 Estimated estimate VBN work_7n2voym2grhjpocfumswh5tooa 496 26 prevalence prevalence NN work_7n2voym2grhjpocfumswh5tooa 496 27 and and CC work_7n2voym2grhjpocfumswh5tooa 496 28 risk risk NN work_7n2voym2grhjpocfumswh5tooa 496 29 factor factor NN work_7n2voym2grhjpocfumswh5tooa 496 30 for for IN work_7n2voym2grhjpocfumswh5tooa 496 31 age age NN work_7n2voym2grhjpocfumswh5tooa 496 32 - - HYPH work_7n2voym2grhjpocfumswh5tooa 496 33 related relate VBN work_7n2voym2grhjpocfumswh5tooa 496 34 macu- macu- NN work_7n2voym2grhjpocfumswh5tooa 496 35 lopathy lopathy NNP work_7n2voym2grhjpocfumswh5tooa 496 36 . . . work_7n2voym2grhjpocfumswh5tooa 497 1 Yonsei Yonsei NNP work_7n2voym2grhjpocfumswh5tooa 497 2 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 497 3 J J NNP work_7n2voym2grhjpocfumswh5tooa 497 4 49:931–941 49:931–941 CD work_7n2voym2grhjpocfumswh5tooa 497 5 . . . work_7n2voym2grhjpocfumswh5tooa 498 1 https https NN work_7n2voym2grhjpocfumswh5tooa 498 2 : : : work_7n2voym2grhjpocfumswh5tooa 498 3 //doi.org/10.3349/ //doi.org/10.3349/ . work_7n2voym2grhjpocfumswh5tooa 498 4 ymj.2008.49.6.931 ymj.2008.49.6.931 NNP work_7n2voym2grhjpocfumswh5tooa 498 5 SanGiovanni SanGiovanni NNP work_7n2voym2grhjpocfumswh5tooa 498 6 JP JP NNP work_7n2voym2grhjpocfumswh5tooa 498 7 , , , work_7n2voym2grhjpocfumswh5tooa 498 8 Chew Chew NNP work_7n2voym2grhjpocfumswh5tooa 498 9 EY EY NNP work_7n2voym2grhjpocfumswh5tooa 498 10 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 498 11 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 498 12 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 498 13 The the DT work_7n2voym2grhjpocfumswh5tooa 498 14 role role NN work_7n2voym2grhjpocfumswh5tooa 498 15 of of IN work_7n2voym2grhjpocfumswh5tooa 498 16 omega-3 omega-3 NNP work_7n2voym2grhjpocfumswh5tooa 498 17 long long JJ work_7n2voym2grhjpocfumswh5tooa 498 18 - - HYPH work_7n2voym2grhjpocfumswh5tooa 498 19 chain chain NN work_7n2voym2grhjpocfumswh5tooa 498 20 polyunsaturated polyunsaturate VBD work_7n2voym2grhjpocfumswh5tooa 498 21 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 498 22 acids acid NNS work_7n2voym2grhjpocfumswh5tooa 498 23 in in IN work_7n2voym2grhjpocfumswh5tooa 498 24 health health NN work_7n2voym2grhjpocfumswh5tooa 498 25 and and CC work_7n2voym2grhjpocfumswh5tooa 498 26 disease disease NN work_7n2voym2grhjpocfumswh5tooa 498 27 of of IN work_7n2voym2grhjpocfumswh5tooa 498 28 the the DT work_7n2voym2grhjpocfumswh5tooa 498 29 retina retina NNP work_7n2voym2grhjpocfumswh5tooa 498 30 . . . work_7n2voym2grhjpocfumswh5tooa 499 1 Prog Prog NNP work_7n2voym2grhjpocfumswh5tooa 499 2 Retin Retin NNP work_7n2voym2grhjpocfumswh5tooa 499 3 Eye Eye NNP work_7n2voym2grhjpocfumswh5tooa 499 4 Res Res NNP work_7n2voym2grhjpocfumswh5tooa 499 5 24:87–138 24:87–138 CD work_7n2voym2grhjpocfumswh5tooa 499 6 . . . work_7n2voym2grhjpocfumswh5tooa 500 1 https https NN work_7n2voym2grhjpocfumswh5tooa 500 2 : : : work_7n2voym2grhjpocfumswh5tooa 500 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 500 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 500 5 j.prete j.prete NNP work_7n2voym2grhjpocfumswh5tooa 500 6 yeres yere NNS work_7n2voym2grhjpocfumswh5tooa 500 7 .2004.06.002 .2004.06.002 . work_7n2voym2grhjpocfumswh5tooa 500 8 SanGiovanni SanGiovanni NNP work_7n2voym2grhjpocfumswh5tooa 500 9 JP JP NNP work_7n2voym2grhjpocfumswh5tooa 500 10 et et NNP work_7n2voym2grhjpocfumswh5tooa 500 11   _SP work_7n2voym2grhjpocfumswh5tooa 500 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 500 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 500 14 2008 2008 CD work_7n2voym2grhjpocfumswh5tooa 500 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 500 16 The the DT work_7n2voym2grhjpocfumswh5tooa 500 17 relationship relationship NN work_7n2voym2grhjpocfumswh5tooa 500 18 of of IN work_7n2voym2grhjpocfumswh5tooa 500 19 dietary dietary JJ work_7n2voym2grhjpocfumswh5tooa 500 20 omega-3 omega-3 NNP work_7n2voym2grhjpocfumswh5tooa 500 21 long- long- NN work_7n2voym2grhjpocfumswh5tooa 500 22 chain chain NN work_7n2voym2grhjpocfumswh5tooa 500 23 polyunsaturated polyunsaturate VBD work_7n2voym2grhjpocfumswh5tooa 500 24 fatty fatty NNP work_7n2voym2grhjpocfumswh5tooa 500 25 acid acid NNP work_7n2voym2grhjpocfumswh5tooa 500 26 intake intake JJ work_7n2voym2grhjpocfumswh5tooa 500 27 with with IN work_7n2voym2grhjpocfumswh5tooa 500 28 incident incident NN work_7n2voym2grhjpocfumswh5tooa 500 29 age age NN work_7n2voym2grhjpocfumswh5tooa 500 30 - - HYPH work_7n2voym2grhjpocfumswh5tooa 500 31 related relate VBN work_7n2voym2grhjpocfumswh5tooa 500 32 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 500 33 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 500 34 — — : work_7n2voym2grhjpocfumswh5tooa 500 35 AREDS AREDS NNP work_7n2voym2grhjpocfumswh5tooa 500 36 report report VBP work_7n2voym2grhjpocfumswh5tooa 500 37 no no UH work_7n2voym2grhjpocfumswh5tooa 500 38 . . . work_7n2voym2grhjpocfumswh5tooa 501 1 23 23 CD work_7n2voym2grhjpocfumswh5tooa 501 2 . . . work_7n2voym2grhjpocfumswh5tooa 502 1 Arch Arch NNP work_7n2voym2grhjpocfumswh5tooa 502 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 502 3 126:1274–1279 126:1274–1279 NNS work_7n2voym2grhjpocfumswh5tooa 502 4 . . . work_7n2voym2grhjpocfumswh5tooa 503 1 https https NN work_7n2voym2grhjpocfumswh5tooa 503 2 : : : work_7n2voym2grhjpocfumswh5tooa 503 3 //doi.org/10.1001 //doi.org/10.1001 NNP work_7n2voym2grhjpocfumswh5tooa 503 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 503 5 archo archo NNP work_7n2voym2grhjpocfumswh5tooa 503 6 pht.126.9.1274 pht.126.9.1274 VBD work_7n2voym2grhjpocfumswh5tooa 503 7 Sardell Sardell NNP work_7n2voym2grhjpocfumswh5tooa 503 8 RJ RJ NNP work_7n2voym2grhjpocfumswh5tooa 503 9 et et NN work_7n2voym2grhjpocfumswh5tooa 503 10   _SP work_7n2voym2grhjpocfumswh5tooa 503 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 503 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 503 13 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 503 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 503 15 Heritability Heritability NNP work_7n2voym2grhjpocfumswh5tooa 503 16 of of IN work_7n2voym2grhjpocfumswh5tooa 503 17 choroidal choroidal NN work_7n2voym2grhjpocfumswh5tooa 503 18 thickness thickness NN work_7n2voym2grhjpocfumswh5tooa 503 19 in in IN work_7n2voym2grhjpocfumswh5tooa 503 20 the the DT work_7n2voym2grhjpocfumswh5tooa 503 21 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 503 22 . . . work_7n2voym2grhjpocfumswh5tooa 504 1 Ophthalmology ophthalmology NN work_7n2voym2grhjpocfumswh5tooa 504 2 123:2537–2544 123:2537–2544 CD work_7n2voym2grhjpocfumswh5tooa 504 3 . . . work_7n2voym2grhjpocfumswh5tooa 505 1 https https NN work_7n2voym2grhjpocfumswh5tooa 505 2 : : : work_7n2voym2grhjpocfumswh5tooa 505 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 505 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 505 5 j.ophth j.ophth NNP work_7n2voym2grhjpocfumswh5tooa 505 6 a.2016.09.001 a.2016.09.001 NNP work_7n2voym2grhjpocfumswh5tooa 505 7 Scavello Scavello NNP work_7n2voym2grhjpocfumswh5tooa 505 8 GS GS NNP work_7n2voym2grhjpocfumswh5tooa 505 9 Jr Jr NNP work_7n2voym2grhjpocfumswh5tooa 505 10 , , , work_7n2voym2grhjpocfumswh5tooa 505 11 Paluru Paluru NNP work_7n2voym2grhjpocfumswh5tooa 505 12 PC PC NNP work_7n2voym2grhjpocfumswh5tooa 505 13 , , , work_7n2voym2grhjpocfumswh5tooa 505 14 Zhou Zhou NNP work_7n2voym2grhjpocfumswh5tooa 505 15 J J NNP work_7n2voym2grhjpocfumswh5tooa 505 16 , , , work_7n2voym2grhjpocfumswh5tooa 505 17 White White NNP work_7n2voym2grhjpocfumswh5tooa 505 18 PS PS NNP work_7n2voym2grhjpocfumswh5tooa 505 19 , , , work_7n2voym2grhjpocfumswh5tooa 505 20 Rappaport Rappaport NNP work_7n2voym2grhjpocfumswh5tooa 505 21 EF EF NNP work_7n2voym2grhjpocfumswh5tooa 505 22 , , , work_7n2voym2grhjpocfumswh5tooa 505 23 Young young JJ work_7n2voym2grhjpocfumswh5tooa 505 24 TL TL NNP work_7n2voym2grhjpocfumswh5tooa 505 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 505 26 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 505 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 505 28 Genomic genomic JJ work_7n2voym2grhjpocfumswh5tooa 505 29 structure structure NN work_7n2voym2grhjpocfumswh5tooa 505 30 and and CC work_7n2voym2grhjpocfumswh5tooa 505 31 organization organization NN work_7n2voym2grhjpocfumswh5tooa 505 32 of of IN work_7n2voym2grhjpocfumswh5tooa 505 33 the the DT work_7n2voym2grhjpocfumswh5tooa 505 34 high high JJ work_7n2voym2grhjpocfumswh5tooa 505 35 grade grade NN work_7n2voym2grhjpocfumswh5tooa 505 36 Myopia-2 Myopia-2 NNP work_7n2voym2grhjpocfumswh5tooa 505 37 locus locus NN work_7n2voym2grhjpocfumswh5tooa 505 38 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 505 39 MYP2 MYP2 NNP work_7n2voym2grhjpocfumswh5tooa 505 40 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 505 41 critical critical JJ work_7n2voym2grhjpocfumswh5tooa 505 42 region region NN work_7n2voym2grhjpocfumswh5tooa 505 43 : : : work_7n2voym2grhjpocfumswh5tooa 505 44 mutation mutation NN work_7n2voym2grhjpocfumswh5tooa 505 45 screening screening NN work_7n2voym2grhjpocfumswh5tooa 505 46 of of IN work_7n2voym2grhjpocfumswh5tooa 505 47 9 9 CD work_7n2voym2grhjpocfumswh5tooa 505 48 positional positional JJ work_7n2voym2grhjpocfumswh5tooa 505 49 candidate candidate NN work_7n2voym2grhjpocfumswh5tooa 505 50 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 505 51 . . . work_7n2voym2grhjpocfumswh5tooa 506 1 Mol Mol NNP work_7n2voym2grhjpocfumswh5tooa 506 2 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 506 3 11:97–110 11:97–110 CD work_7n2voym2grhjpocfumswh5tooa 506 4 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 506 5 JM JM NNP work_7n2voym2grhjpocfumswh5tooa 506 6 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 506 7 2013 2013 CD work_7n2voym2grhjpocfumswh5tooa 506 8 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 506 9 Genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 506 10 and and CC work_7n2voym2grhjpocfumswh5tooa 506 11 environmental environmental JJ work_7n2voym2grhjpocfumswh5tooa 506 12 underpinnings underpinning NNS work_7n2voym2grhjpocfumswh5tooa 506 13 to to TO work_7n2voym2grhjpocfumswh5tooa 506 14 age- age- RB work_7n2voym2grhjpocfumswh5tooa 506 15 related related JJ work_7n2voym2grhjpocfumswh5tooa 506 16 ocular ocular JJ work_7n2voym2grhjpocfumswh5tooa 506 17 diseases disease NNS work_7n2voym2grhjpocfumswh5tooa 506 18 . . . work_7n2voym2grhjpocfumswh5tooa 507 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 507 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 507 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 507 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 507 5 54 54 CD work_7n2voym2grhjpocfumswh5tooa 507 6 : : : work_7n2voym2grhjpocfumswh5tooa 507 7 ORSF28 orsf28 NN work_7n2voym2grhjpocfumswh5tooa 507 8 – – : work_7n2voym2grhjpocfumswh5tooa 507 9 ORSF30 orsf30 NN work_7n2voym2grhjpocfumswh5tooa 507 10 . . . work_7n2voym2grhjpocfumswh5tooa 508 1 https https NN work_7n2voym2grhjpocfumswh5tooa 508 2 : : : work_7n2voym2grhjpocfumswh5tooa 508 3 //doi.org/10.1167 //doi.org/10.1167 , work_7n2voym2grhjpocfumswh5tooa 508 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 508 5 iovs.13 iovs.13 NNP work_7n2voym2grhjpocfumswh5tooa 508 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 508 7 13234 13234 CD work_7n2voym2grhjpocfumswh5tooa 508 8 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 508 9 JM JM NNP work_7n2voym2grhjpocfumswh5tooa 508 10 , , , work_7n2voym2grhjpocfumswh5tooa 508 11 Santangelo Santangelo NNP work_7n2voym2grhjpocfumswh5tooa 508 12 SL SL NNP work_7n2voym2grhjpocfumswh5tooa 508 13 , , , work_7n2voym2grhjpocfumswh5tooa 508 14 Book Book NNP work_7n2voym2grhjpocfumswh5tooa 508 15 K K NNP work_7n2voym2grhjpocfumswh5tooa 508 16 , , , work_7n2voym2grhjpocfumswh5tooa 508 17 Chong Chong NNP work_7n2voym2grhjpocfumswh5tooa 508 18 S S NNP work_7n2voym2grhjpocfumswh5tooa 508 19 , , , work_7n2voym2grhjpocfumswh5tooa 508 20 Cote Cote NNP work_7n2voym2grhjpocfumswh5tooa 508 21 J J NNP work_7n2voym2grhjpocfumswh5tooa 508 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 508 23 2003 2003 CD work_7n2voym2grhjpocfumswh5tooa 508 24 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 508 25 A a DT work_7n2voym2grhjpocfumswh5tooa 508 26 genom- genom- JJ work_7n2voym2grhjpocfumswh5tooa 508 27 ewide ewide JJ work_7n2voym2grhjpocfumswh5tooa 508 28 scan scan JJ work_7n2voym2grhjpocfumswh5tooa 508 29 for for IN work_7n2voym2grhjpocfumswh5tooa 508 30 age age NN work_7n2voym2grhjpocfumswh5tooa 508 31 - - HYPH work_7n2voym2grhjpocfumswh5tooa 508 32 related relate VBN work_7n2voym2grhjpocfumswh5tooa 508 33 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 508 34 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 508 35 provides provide VBZ work_7n2voym2grhjpocfumswh5tooa 508 36 evi- evi- CC work_7n2voym2grhjpocfumswh5tooa 508 37 dence dence NN work_7n2voym2grhjpocfumswh5tooa 508 38 for for IN work_7n2voym2grhjpocfumswh5tooa 508 39 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 508 40 to to IN work_7n2voym2grhjpocfumswh5tooa 508 41 several several JJ work_7n2voym2grhjpocfumswh5tooa 508 42 chromosomal chromosomal JJ work_7n2voym2grhjpocfumswh5tooa 508 43 regions region NNS work_7n2voym2grhjpocfumswh5tooa 508 44 . . . work_7n2voym2grhjpocfumswh5tooa 509 1 Am be VBP work_7n2voym2grhjpocfumswh5tooa 509 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 509 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 509 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 509 5 73:780–790 73:780–790 CD work_7n2voym2grhjpocfumswh5tooa 509 6 . . . work_7n2voym2grhjpocfumswh5tooa 510 1 https https NN work_7n2voym2grhjpocfumswh5tooa 510 2 : : : work_7n2voym2grhjpocfumswh5tooa 510 3 //doi.org/10.1086/37850 //doi.org/10.1086/37850 NFP work_7n2voym2grhjpocfumswh5tooa 510 4 5 5 CD work_7n2voym2grhjpocfumswh5tooa 510 5 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 510 6 JM JM NNP work_7n2voym2grhjpocfumswh5tooa 510 7 , , , work_7n2voym2grhjpocfumswh5tooa 510 8 George George NNP work_7n2voym2grhjpocfumswh5tooa 510 9 S S NNP work_7n2voym2grhjpocfumswh5tooa 510 10 , , , work_7n2voym2grhjpocfumswh5tooa 510 11 Rosner Rosner NNP work_7n2voym2grhjpocfumswh5tooa 510 12 B B NNP work_7n2voym2grhjpocfumswh5tooa 510 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 510 14 2006a 2006a LS work_7n2voym2grhjpocfumswh5tooa 510 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 510 16 Cigarette cigarette NN work_7n2voym2grhjpocfumswh5tooa 510 17 smoking smoking NN work_7n2voym2grhjpocfumswh5tooa 510 18 , , , work_7n2voym2grhjpocfumswh5tooa 510 19 fish fish NN work_7n2voym2grhjpocfumswh5tooa 510 20 con- con- NN work_7n2voym2grhjpocfumswh5tooa 510 21 sumption sumption NN work_7n2voym2grhjpocfumswh5tooa 510 22 , , , work_7n2voym2grhjpocfumswh5tooa 510 23 omega-3 omega-3 NNP work_7n2voym2grhjpocfumswh5tooa 510 24 fatty fatty NN work_7n2voym2grhjpocfumswh5tooa 510 25 acid acid VBP work_7n2voym2grhjpocfumswh5tooa 510 26 intake intake NN work_7n2voym2grhjpocfumswh5tooa 510 27 , , , work_7n2voym2grhjpocfumswh5tooa 510 28 and and CC work_7n2voym2grhjpocfumswh5tooa 510 29 associations association NNS work_7n2voym2grhjpocfumswh5tooa 510 30 with with IN work_7n2voym2grhjpocfumswh5tooa 510 31 age- age- RB work_7n2voym2grhjpocfumswh5tooa 510 32 related related JJ work_7n2voym2grhjpocfumswh5tooa 510 33 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 510 34 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 510 35 : : : work_7n2voym2grhjpocfumswh5tooa 510 36 the the DT work_7n2voym2grhjpocfumswh5tooa 510 37 US US NNP work_7n2voym2grhjpocfumswh5tooa 510 38 Twin Twin NNP work_7n2voym2grhjpocfumswh5tooa 510 39 Study Study NNP work_7n2voym2grhjpocfumswh5tooa 510 40 of of IN work_7n2voym2grhjpocfumswh5tooa 510 41 Age Age NNP work_7n2voym2grhjpocfumswh5tooa 510 42 - - HYPH work_7n2voym2grhjpocfumswh5tooa 510 43 Related relate VBN work_7n2voym2grhjpocfumswh5tooa 510 44 Macular Macular NNP work_7n2voym2grhjpocfumswh5tooa 510 45 Degeneration Degeneration NNP work_7n2voym2grhjpocfumswh5tooa 510 46 . . . work_7n2voym2grhjpocfumswh5tooa 511 1 Arch Arch NNP work_7n2voym2grhjpocfumswh5tooa 511 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 511 3 124:995–1001 124:995–1001 CD work_7n2voym2grhjpocfumswh5tooa 511 4 . . . work_7n2voym2grhjpocfumswh5tooa 512 1 https https NN work_7n2voym2grhjpocfumswh5tooa 512 2 : : : work_7n2voym2grhjpocfumswh5tooa 512 3 // // NN work_7n2voym2grhjpocfumswh5tooa 512 4 doi.org/10.1001/archo doi.org/10.1001/archo ADD work_7n2voym2grhjpocfumswh5tooa 512 5 pht.124.7.995 pht.124.7.995 CD work_7n2voym2grhjpocfumswh5tooa 512 6 Seddon Seddon NNP work_7n2voym2grhjpocfumswh5tooa 512 7 JM JM NNP work_7n2voym2grhjpocfumswh5tooa 512 8 , , , work_7n2voym2grhjpocfumswh5tooa 512 9 Sharma Sharma NNP work_7n2voym2grhjpocfumswh5tooa 512 10 S S NNP work_7n2voym2grhjpocfumswh5tooa 512 11 , , , work_7n2voym2grhjpocfumswh5tooa 512 12 Adelman Adelman NNP work_7n2voym2grhjpocfumswh5tooa 512 13 RA RA NNP work_7n2voym2grhjpocfumswh5tooa 512 14 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 512 15 2006b 2006b LS work_7n2voym2grhjpocfumswh5tooa 512 16 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 512 17 Evaluation evaluation NN work_7n2voym2grhjpocfumswh5tooa 512 18 of of IN work_7n2voym2grhjpocfumswh5tooa 512 19 the the DT work_7n2voym2grhjpocfumswh5tooa 512 20 clini- clini- NN work_7n2voym2grhjpocfumswh5tooa 512 21 cal cal NNP work_7n2voym2grhjpocfumswh5tooa 512 22 age age NN work_7n2voym2grhjpocfumswh5tooa 512 23 - - HYPH work_7n2voym2grhjpocfumswh5tooa 512 24 related relate VBN work_7n2voym2grhjpocfumswh5tooa 512 25 maculopathy maculopathy JJ work_7n2voym2grhjpocfumswh5tooa 512 26 staging staging NN work_7n2voym2grhjpocfumswh5tooa 512 27 system system NN work_7n2voym2grhjpocfumswh5tooa 512 28 . . . work_7n2voym2grhjpocfumswh5tooa 513 1 Ophthalmology ophthalmology NN work_7n2voym2grhjpocfumswh5tooa 513 2 113:260–266 113:260–266 CD work_7n2voym2grhjpocfumswh5tooa 513 3 . . . work_7n2voym2grhjpocfumswh5tooa 514 1 https https NN work_7n2voym2grhjpocfumswh5tooa 514 2 : : : work_7n2voym2grhjpocfumswh5tooa 514 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 514 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 514 5 j.ophth j.ophth . work_7n2voym2grhjpocfumswh5tooa 514 6 a.2005.11.001 a.2005.11.001 NNP work_7n2voym2grhjpocfumswh5tooa 514 7 Semba Semba NNP work_7n2voym2grhjpocfumswh5tooa 514 8 RD RD NNP work_7n2voym2grhjpocfumswh5tooa 514 9 et et NNP work_7n2voym2grhjpocfumswh5tooa 514 10   _SP work_7n2voym2grhjpocfumswh5tooa 514 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 514 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 514 13 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 514 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 514 15 Serum Serum NNP work_7n2voym2grhjpocfumswh5tooa 514 16 carboxymethyllysine carboxymethyllysine NN work_7n2voym2grhjpocfumswh5tooa 514 17 , , , work_7n2voym2grhjpocfumswh5tooa 514 18 an an DT work_7n2voym2grhjpocfumswh5tooa 514 19 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 514 20 glycation glycation NN work_7n2voym2grhjpocfumswh5tooa 514 21 end end NN work_7n2voym2grhjpocfumswh5tooa 514 22 product product NN work_7n2voym2grhjpocfumswh5tooa 514 23 , , , work_7n2voym2grhjpocfumswh5tooa 514 24 and and CC work_7n2voym2grhjpocfumswh5tooa 514 25 age age NN work_7n2voym2grhjpocfumswh5tooa 514 26 - - HYPH work_7n2voym2grhjpocfumswh5tooa 514 27 related relate VBN work_7n2voym2grhjpocfumswh5tooa 514 28 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 514 29 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 514 30 : : : work_7n2voym2grhjpocfumswh5tooa 514 31 the the DT work_7n2voym2grhjpocfumswh5tooa 514 32 Age Age NNP work_7n2voym2grhjpocfumswh5tooa 514 33 , , , work_7n2voym2grhjpocfumswh5tooa 514 34 Gene/ gene/ ADD work_7n2voym2grhjpocfumswh5tooa 514 35 Environment Environment NNP work_7n2voym2grhjpocfumswh5tooa 514 36 Susceptibility Susceptibility NNP work_7n2voym2grhjpocfumswh5tooa 514 37 - - HYPH work_7n2voym2grhjpocfumswh5tooa 514 38 Reykjavik Reykjavik NNP work_7n2voym2grhjpocfumswh5tooa 514 39 Study Study NNP work_7n2voym2grhjpocfumswh5tooa 514 40 . . . work_7n2voym2grhjpocfumswh5tooa 515 1 JAMA JAMA NNP work_7n2voym2grhjpocfumswh5tooa 515 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 515 3 132:464–470 132:464–470 CD work_7n2voym2grhjpocfumswh5tooa 515 4 . . . work_7n2voym2grhjpocfumswh5tooa 516 1 https https NN work_7n2voym2grhjpocfumswh5tooa 516 2 : : : work_7n2voym2grhjpocfumswh5tooa 516 3 //doi.org/10.1001 //doi.org/10.1001 NNP work_7n2voym2grhjpocfumswh5tooa 516 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 516 5 jamao jamao NNP work_7n2voym2grhjpocfumswh5tooa 516 6 phtha phtha NN work_7n2voym2grhjpocfumswh5tooa 516 7 lmol.2013.7664 lmol.2013.7664 . work_7n2voym2grhjpocfumswh5tooa 516 8 Shalev Shalev NNP work_7n2voym2grhjpocfumswh5tooa 516 9 V V NNP work_7n2voym2grhjpocfumswh5tooa 516 10 , , , work_7n2voym2grhjpocfumswh5tooa 516 11 Sror Sror NNP work_7n2voym2grhjpocfumswh5tooa 516 12 M M NNP work_7n2voym2grhjpocfumswh5tooa 516 13 , , , work_7n2voym2grhjpocfumswh5tooa 516 14 Goldshtein Goldshtein NNP work_7n2voym2grhjpocfumswh5tooa 516 15 I I NNP work_7n2voym2grhjpocfumswh5tooa 516 16 , , , work_7n2voym2grhjpocfumswh5tooa 516 17 Kokia Kokia NNP work_7n2voym2grhjpocfumswh5tooa 516 18 E E NNP work_7n2voym2grhjpocfumswh5tooa 516 19 , , , work_7n2voym2grhjpocfumswh5tooa 516 20 Chodick Chodick NNP work_7n2voym2grhjpocfumswh5tooa 516 21 G G NNP work_7n2voym2grhjpocfumswh5tooa 516 22 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 516 23 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 516 24 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 516 25 Statin statin NN work_7n2voym2grhjpocfumswh5tooa 516 26 use use NN work_7n2voym2grhjpocfumswh5tooa 516 27 and and CC work_7n2voym2grhjpocfumswh5tooa 516 28 the the DT work_7n2voym2grhjpocfumswh5tooa 516 29 risk risk NN work_7n2voym2grhjpocfumswh5tooa 516 30 of of IN work_7n2voym2grhjpocfumswh5tooa 516 31 age age NN work_7n2voym2grhjpocfumswh5tooa 516 32 related relate VBN work_7n2voym2grhjpocfumswh5tooa 516 33 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 516 34 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 516 35 in in IN work_7n2voym2grhjpocfumswh5tooa 516 36 a a DT work_7n2voym2grhjpocfumswh5tooa 516 37 large large JJ work_7n2voym2grhjpocfumswh5tooa 516 38 health health NN work_7n2voym2grhjpocfumswh5tooa 516 39 organization organization NN work_7n2voym2grhjpocfumswh5tooa 516 40 in in IN work_7n2voym2grhjpocfumswh5tooa 516 41 Israel Israel NNP work_7n2voym2grhjpocfumswh5tooa 516 42 . . . work_7n2voym2grhjpocfumswh5tooa 517 1 Ophthal Ophthal NNP work_7n2voym2grhjpocfumswh5tooa 517 2 Epidemiol Epidemiol NNP work_7n2voym2grhjpocfumswh5tooa 517 3 18:83–90 18:83–90 NNP work_7n2voym2grhjpocfumswh5tooa 517 4 . . . work_7n2voym2grhjpocfumswh5tooa 518 1 https https NN work_7n2voym2grhjpocfumswh5tooa 518 2 : : : work_7n2voym2grhjpocfumswh5tooa 518 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 518 4 . . . work_7n2voym2grhjpocfumswh5tooa 519 1 org/10.3109/09286 org/10.3109/09286 NNS work_7n2voym2grhjpocfumswh5tooa 519 2 586.2011.56074 586.2011.56074 CD work_7n2voym2grhjpocfumswh5tooa 519 3 6 6 CD work_7n2voym2grhjpocfumswh5tooa 519 4 Shaw Shaw NNP work_7n2voym2grhjpocfumswh5tooa 519 5 PX PX NNP work_7n2voym2grhjpocfumswh5tooa 519 6 , , , work_7n2voym2grhjpocfumswh5tooa 519 7 Stiles Stiles NNP work_7n2voym2grhjpocfumswh5tooa 519 8 T T NNP work_7n2voym2grhjpocfumswh5tooa 519 9 , , , work_7n2voym2grhjpocfumswh5tooa 519 10 Douglas Douglas NNP work_7n2voym2grhjpocfumswh5tooa 519 11 C C NNP work_7n2voym2grhjpocfumswh5tooa 519 12 , , , work_7n2voym2grhjpocfumswh5tooa 519 13 Ho Ho NNP work_7n2voym2grhjpocfumswh5tooa 519 14 D D NNP work_7n2voym2grhjpocfumswh5tooa 519 15 , , , work_7n2voym2grhjpocfumswh5tooa 519 16 Fan Fan NNP work_7n2voym2grhjpocfumswh5tooa 519 17 W W NNP work_7n2voym2grhjpocfumswh5tooa 519 18 , , , work_7n2voym2grhjpocfumswh5tooa 519 19 Du Du NNP work_7n2voym2grhjpocfumswh5tooa 519 20 H H NNP work_7n2voym2grhjpocfumswh5tooa 519 21 , , , work_7n2voym2grhjpocfumswh5tooa 519 22 Xiao Xiao NNP work_7n2voym2grhjpocfumswh5tooa 519 23 X X NNP work_7n2voym2grhjpocfumswh5tooa 519 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 519 25 2016 2016 CD work_7n2voym2grhjpocfumswh5tooa 519 26 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 519 27 Oxidative oxidative JJ work_7n2voym2grhjpocfumswh5tooa 519 28 stress stress NN work_7n2voym2grhjpocfumswh5tooa 519 29 , , , work_7n2voym2grhjpocfumswh5tooa 519 30 innate innate VBP work_7n2voym2grhjpocfumswh5tooa 519 31 immunity immunity NN work_7n2voym2grhjpocfumswh5tooa 519 32 , , , work_7n2voym2grhjpocfumswh5tooa 519 33 and and CC work_7n2voym2grhjpocfumswh5tooa 519 34 age age NN work_7n2voym2grhjpocfumswh5tooa 519 35 - - HYPH work_7n2voym2grhjpocfumswh5tooa 519 36 related relate VBN work_7n2voym2grhjpocfumswh5tooa 519 37 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 519 38 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 519 39 . . . work_7n2voym2grhjpocfumswh5tooa 520 1 AIMS AIMS NNP work_7n2voym2grhjpocfumswh5tooa 520 2 Mol Mol NNP work_7n2voym2grhjpocfumswh5tooa 520 3 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 520 4 3:196–221 3:196–221 CD work_7n2voym2grhjpocfumswh5tooa 520 5 . . . work_7n2voym2grhjpocfumswh5tooa 521 1 https https NN work_7n2voym2grhjpocfumswh5tooa 521 2 : : : work_7n2voym2grhjpocfumswh5tooa 521 3 //doi.org/10.3934/ //doi.org/10.3934/ . work_7n2voym2grhjpocfumswh5tooa 521 4 molsc molsc NNP work_7n2voym2grhjpocfumswh5tooa 521 5 i.2016.2.196 i.2016.2.196 NNP work_7n2voym2grhjpocfumswh5tooa 521 6 Shellenberger Shellenberger NNP work_7n2voym2grhjpocfumswh5tooa 521 7 TD TD NNP work_7n2voym2grhjpocfumswh5tooa 521 8 et et FW work_7n2voym2grhjpocfumswh5tooa 521 9   _SP work_7n2voym2grhjpocfumswh5tooa 521 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 521 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 521 12 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 521 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 521 14 Headpin Headpin NNP work_7n2voym2grhjpocfumswh5tooa 521 15 : : : work_7n2voym2grhjpocfumswh5tooa 521 16 a a DT work_7n2voym2grhjpocfumswh5tooa 521 17 serpin serpin NN work_7n2voym2grhjpocfumswh5tooa 521 18 with with IN work_7n2voym2grhjpocfumswh5tooa 521 19 endogenous endogenous JJ work_7n2voym2grhjpocfumswh5tooa 521 20 and and CC work_7n2voym2grhjpocfumswh5tooa 521 21 exogenous exogenous JJ work_7n2voym2grhjpocfumswh5tooa 521 22 suppression suppression NN work_7n2voym2grhjpocfumswh5tooa 521 23 of of IN work_7n2voym2grhjpocfumswh5tooa 521 24 angiogenesis angiogenesis NN work_7n2voym2grhjpocfumswh5tooa 521 25 . . . work_7n2voym2grhjpocfumswh5tooa 522 1 Cancer cancer NN work_7n2voym2grhjpocfumswh5tooa 522 2 Res Res NNP work_7n2voym2grhjpocfumswh5tooa 522 3 65:11501 65:11501 CD work_7n2voym2grhjpocfumswh5tooa 522 4 – – : work_7n2voym2grhjpocfumswh5tooa 522 5 11509 11509 CD work_7n2voym2grhjpocfumswh5tooa 522 6 . . . work_7n2voym2grhjpocfumswh5tooa 522 7 https https NN work_7n2voym2grhjpocfumswh5tooa 522 8 : : : work_7n2voym2grhjpocfumswh5tooa 522 9 //doi.org/10.1158/0008 //doi.org/10.1158/0008 NNP work_7n2voym2grhjpocfumswh5tooa 522 10 - - HYPH work_7n2voym2grhjpocfumswh5tooa 522 11 5472.CAN-05 5472.can-05 CD work_7n2voym2grhjpocfumswh5tooa 522 12 - - HYPH work_7n2voym2grhjpocfumswh5tooa 522 13 2262 2262 CD work_7n2voym2grhjpocfumswh5tooa 522 14 Skeie Skeie NNP work_7n2voym2grhjpocfumswh5tooa 522 15 JM JM NNP work_7n2voym2grhjpocfumswh5tooa 522 16 , , , work_7n2voym2grhjpocfumswh5tooa 522 17 Mahajan Mahajan NNP work_7n2voym2grhjpocfumswh5tooa 522 18 VB VB NNP work_7n2voym2grhjpocfumswh5tooa 522 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 522 20 2014 2014 CD work_7n2voym2grhjpocfumswh5tooa 522 21 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 522 22 Proteomic proteomic JJ work_7n2voym2grhjpocfumswh5tooa 522 23 landscape landscape NN work_7n2voym2grhjpocfumswh5tooa 522 24 of of IN work_7n2voym2grhjpocfumswh5tooa 522 25 the the DT work_7n2voym2grhjpocfumswh5tooa 522 26 human human JJ work_7n2voym2grhjpocfumswh5tooa 522 27 choroid choroid JJ work_7n2voym2grhjpocfumswh5tooa 522 28 - - HYPH work_7n2voym2grhjpocfumswh5tooa 522 29 retinal retinal JJ work_7n2voym2grhjpocfumswh5tooa 522 30 pigment pigment NN work_7n2voym2grhjpocfumswh5tooa 522 31 epithelial epithelial JJ work_7n2voym2grhjpocfumswh5tooa 522 32 complex complex NN work_7n2voym2grhjpocfumswh5tooa 522 33 . . . work_7n2voym2grhjpocfumswh5tooa 523 1 JAMA JAMA NNP work_7n2voym2grhjpocfumswh5tooa 523 2 Ophthal- Ophthal- NNP work_7n2voym2grhjpocfumswh5tooa 523 3 mol mol NN work_7n2voym2grhjpocfumswh5tooa 523 4 132:1271–1281 132:1271–1281 CD work_7n2voym2grhjpocfumswh5tooa 523 5 . . . work_7n2voym2grhjpocfumswh5tooa 524 1 https https NN work_7n2voym2grhjpocfumswh5tooa 524 2 : : : work_7n2voym2grhjpocfumswh5tooa 524 3 //doi.org/10.1001 //doi.org/10.1001 NNP work_7n2voym2grhjpocfumswh5tooa 524 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 524 5 jamao jamao NNP work_7n2voym2grhjpocfumswh5tooa 524 6 phtha phtha NNP work_7n2voym2grhjpocfumswh5tooa 524 7 lmol.2014.2065 lmol.2014.2065 NNP work_7n2voym2grhjpocfumswh5tooa 524 8 Smith Smith NNP work_7n2voym2grhjpocfumswh5tooa 524 9 W W NNP work_7n2voym2grhjpocfumswh5tooa 524 10 et et NNP work_7n2voym2grhjpocfumswh5tooa 524 11     _SP work_7n2voym2grhjpocfumswh5tooa 524 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 524 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 524 14 2001 2001 CD work_7n2voym2grhjpocfumswh5tooa 524 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 524 16 Risk risk NN work_7n2voym2grhjpocfumswh5tooa 524 17 factors factor NNS work_7n2voym2grhjpocfumswh5tooa 524 18 for for IN work_7n2voym2grhjpocfumswh5tooa 524 19 age age NN work_7n2voym2grhjpocfumswh5tooa 524 20 - - HYPH work_7n2voym2grhjpocfumswh5tooa 524 21 related relate VBN work_7n2voym2grhjpocfumswh5tooa 524 22 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 524 23 degen- degen- NN work_7n2voym2grhjpocfumswh5tooa 524 24 eration eration NN work_7n2voym2grhjpocfumswh5tooa 524 25 : : : work_7n2voym2grhjpocfumswh5tooa 524 26 pooled pool VBN work_7n2voym2grhjpocfumswh5tooa 524 27 findings finding NNS work_7n2voym2grhjpocfumswh5tooa 524 28 from from IN work_7n2voym2grhjpocfumswh5tooa 524 29 three three CD work_7n2voym2grhjpocfumswh5tooa 524 30 continents continent NNS work_7n2voym2grhjpocfumswh5tooa 524 31 . . . work_7n2voym2grhjpocfumswh5tooa 525 1 Ophthalmology ophthalmology NN work_7n2voym2grhjpocfumswh5tooa 525 2 108:697–704 108:697–704 CD work_7n2voym2grhjpocfumswh5tooa 525 3 Sobrin Sobrin NNP work_7n2voym2grhjpocfumswh5tooa 525 4 L L NNP work_7n2voym2grhjpocfumswh5tooa 525 5 et et NNP work_7n2voym2grhjpocfumswh5tooa 525 6   _SP work_7n2voym2grhjpocfumswh5tooa 525 7 al al NNP work_7n2voym2grhjpocfumswh5tooa 525 8 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 525 9 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 525 10 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 525 11 Heritability Heritability NNP work_7n2voym2grhjpocfumswh5tooa 525 12 and and CC work_7n2voym2grhjpocfumswh5tooa 525 13 genome genome NN work_7n2voym2grhjpocfumswh5tooa 525 14 - - HYPH work_7n2voym2grhjpocfumswh5tooa 525 15 wide wide JJ work_7n2voym2grhjpocfumswh5tooa 525 16 association association NN work_7n2voym2grhjpocfumswh5tooa 525 17 study study NN work_7n2voym2grhjpocfumswh5tooa 525 18 to to TO work_7n2voym2grhjpocfumswh5tooa 525 19 assess assess VB work_7n2voym2grhjpocfumswh5tooa 525 20 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 525 21 differences difference NNS work_7n2voym2grhjpocfumswh5tooa 525 22 between between IN work_7n2voym2grhjpocfumswh5tooa 525 23 advanced advanced JJ work_7n2voym2grhjpocfumswh5tooa 525 24 age age NN work_7n2voym2grhjpocfumswh5tooa 525 25 - - HYPH work_7n2voym2grhjpocfumswh5tooa 525 26 related relate VBN work_7n2voym2grhjpocfumswh5tooa 525 27 macu- macu- NN work_7n2voym2grhjpocfumswh5tooa 525 28 lar lar NNP work_7n2voym2grhjpocfumswh5tooa 525 29 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 525 30 subtypes subtype NNS work_7n2voym2grhjpocfumswh5tooa 525 31 . . . work_7n2voym2grhjpocfumswh5tooa 526 1 Ophthalmology ophthalmology NN work_7n2voym2grhjpocfumswh5tooa 526 2 119:1874–1885 119:1874–1885 CD work_7n2voym2grhjpocfumswh5tooa 526 3 . . . work_7n2voym2grhjpocfumswh5tooa 527 1 https https NN work_7n2voym2grhjpocfumswh5tooa 527 2 : : : work_7n2voym2grhjpocfumswh5tooa 527 3 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 527 4 / / NFP work_7n2voym2grhjpocfumswh5tooa 527 5 j.ophth j.ophth NNP work_7n2voym2grhjpocfumswh5tooa 527 6 a.2012.03.014 a.2012.03.014 NNP work_7n2voym2grhjpocfumswh5tooa 527 7 Sofat Sofat NNP work_7n2voym2grhjpocfumswh5tooa 527 8 R R NNP work_7n2voym2grhjpocfumswh5tooa 527 9 et et NNP work_7n2voym2grhjpocfumswh5tooa 527 10   _SP work_7n2voym2grhjpocfumswh5tooa 527 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 527 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 527 13 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 527 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 527 15 Complement Complement NNP work_7n2voym2grhjpocfumswh5tooa 527 16 factor factor NN work_7n2voym2grhjpocfumswh5tooa 527 17 H h NN work_7n2voym2grhjpocfumswh5tooa 527 18 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 527 19 variant variant JJ work_7n2voym2grhjpocfumswh5tooa 527 20 and and CC work_7n2voym2grhjpocfumswh5tooa 527 21 age- age- RB work_7n2voym2grhjpocfumswh5tooa 527 22 related related JJ work_7n2voym2grhjpocfumswh5tooa 527 23 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 527 24 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 527 25 : : : work_7n2voym2grhjpocfumswh5tooa 527 26 effect effect NN work_7n2voym2grhjpocfumswh5tooa 527 27 size size NN work_7n2voym2grhjpocfumswh5tooa 527 28 , , , work_7n2voym2grhjpocfumswh5tooa 527 29 modifiers modifier NNS work_7n2voym2grhjpocfumswh5tooa 527 30 and and CC work_7n2voym2grhjpocfumswh5tooa 527 31 relation- relation- NNP work_7n2voym2grhjpocfumswh5tooa 527 32 ship ship NN work_7n2voym2grhjpocfumswh5tooa 527 33 to to IN work_7n2voym2grhjpocfumswh5tooa 527 34 disease disease NNP work_7n2voym2grhjpocfumswh5tooa 527 35 subtype subtype NN work_7n2voym2grhjpocfumswh5tooa 527 36 . . . work_7n2voym2grhjpocfumswh5tooa 528 1 Int Int NNP work_7n2voym2grhjpocfumswh5tooa 528 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 528 3 Epidemiol Epidemiol NNP work_7n2voym2grhjpocfumswh5tooa 528 4 41:250–262 41:250–262 CD work_7n2voym2grhjpocfumswh5tooa 528 5 . . . work_7n2voym2grhjpocfumswh5tooa 529 1 https https NN work_7n2voym2grhjpocfumswh5tooa 529 2 : : : work_7n2voym2grhjpocfumswh5tooa 529 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 529 4 . . . work_7n2voym2grhjpocfumswh5tooa 530 1 org/10.1093 org/10.1093 NNP work_7n2voym2grhjpocfumswh5tooa 530 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 530 3 ije ije NN work_7n2voym2grhjpocfumswh5tooa 530 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 530 5 dyr20 dyr20 NNP work_7n2voym2grhjpocfumswh5tooa 530 6 4 4 CD work_7n2voym2grhjpocfumswh5tooa 530 7 Strauss Strauss NNP work_7n2voym2grhjpocfumswh5tooa 530 8 KA KA NNP work_7n2voym2grhjpocfumswh5tooa 530 9 , , , work_7n2voym2grhjpocfumswh5tooa 530 10 Puffenberger Puffenberger NNP work_7n2voym2grhjpocfumswh5tooa 530 11 EG EG NNP work_7n2voym2grhjpocfumswh5tooa 530 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 530 13 2009 2009 CD work_7n2voym2grhjpocfumswh5tooa 530 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 530 15 Genetics Genetics NNP work_7n2voym2grhjpocfumswh5tooa 530 16 , , , work_7n2voym2grhjpocfumswh5tooa 530 17 medicine medicine NN work_7n2voym2grhjpocfumswh5tooa 530 18 , , , work_7n2voym2grhjpocfumswh5tooa 530 19 and and CC work_7n2voym2grhjpocfumswh5tooa 530 20 the the DT work_7n2voym2grhjpocfumswh5tooa 530 21 Plain plain JJ work_7n2voym2grhjpocfumswh5tooa 530 22 people people NNS work_7n2voym2grhjpocfumswh5tooa 530 23 . . . work_7n2voym2grhjpocfumswh5tooa 531 1 Annu Annu NNP work_7n2voym2grhjpocfumswh5tooa 531 2 Rev Rev NNP work_7n2voym2grhjpocfumswh5tooa 531 3 Genom Genom NNP work_7n2voym2grhjpocfumswh5tooa 531 4 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 531 5 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 531 6 10:513–536 10:513–536 CD work_7n2voym2grhjpocfumswh5tooa 531 7 . . . work_7n2voym2grhjpocfumswh5tooa 532 1 https https NN work_7n2voym2grhjpocfumswh5tooa 532 2 : : : work_7n2voym2grhjpocfumswh5tooa 532 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 532 4 . . . work_7n2voym2grhjpocfumswh5tooa 533 1 org/10.1146 org/10.1146 NNP work_7n2voym2grhjpocfumswh5tooa 533 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 533 3 annur annur NNP work_7n2voym2grhjpocfumswh5tooa 533 4 ev ev NNP work_7n2voym2grhjpocfumswh5tooa 533 5 - - HYPH work_7n2voym2grhjpocfumswh5tooa 533 6 genom genom NNP work_7n2voym2grhjpocfumswh5tooa 533 7 -08290 -08290 : work_7n2voym2grhjpocfumswh5tooa 533 8 8 8 CD work_7n2voym2grhjpocfumswh5tooa 533 9 - - SYM work_7n2voym2grhjpocfumswh5tooa 533 10 15004 15004 CD work_7n2voym2grhjpocfumswh5tooa 533 11 0 0 CD work_7n2voym2grhjpocfumswh5tooa 533 12 Suzuki Suzuki NNP work_7n2voym2grhjpocfumswh5tooa 533 13 K K NNP work_7n2voym2grhjpocfumswh5tooa 533 14 , , , work_7n2voym2grhjpocfumswh5tooa 533 15 Lareyre Lareyre NNP work_7n2voym2grhjpocfumswh5tooa 533 16 JJ JJ NNP work_7n2voym2grhjpocfumswh5tooa 533 17 , , , work_7n2voym2grhjpocfumswh5tooa 533 18 Sanchez Sanchez NNP work_7n2voym2grhjpocfumswh5tooa 533 19 D D NNP work_7n2voym2grhjpocfumswh5tooa 533 20 , , , work_7n2voym2grhjpocfumswh5tooa 533 21 Gutierrez Gutierrez NNP work_7n2voym2grhjpocfumswh5tooa 533 22 G G NNP work_7n2voym2grhjpocfumswh5tooa 533 23 , , , work_7n2voym2grhjpocfumswh5tooa 533 24 Araki Araki NNP work_7n2voym2grhjpocfumswh5tooa 533 25 Y Y NNP work_7n2voym2grhjpocfumswh5tooa 533 26 , , , work_7n2voym2grhjpocfumswh5tooa 533 27 Matusik Matusik NNP work_7n2voym2grhjpocfumswh5tooa 533 28 RJ RJ NNP work_7n2voym2grhjpocfumswh5tooa 533 29 , , , work_7n2voym2grhjpocfumswh5tooa 533 30 Orgebin Orgebin NNP work_7n2voym2grhjpocfumswh5tooa 533 31 - - HYPH work_7n2voym2grhjpocfumswh5tooa 533 32 Crist Crist NNP work_7n2voym2grhjpocfumswh5tooa 533 33 MC MC NNP work_7n2voym2grhjpocfumswh5tooa 533 34 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 533 35 2004 2004 CD work_7n2voym2grhjpocfumswh5tooa 533 36 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 533 37 Molecular molecular JJ work_7n2voym2grhjpocfumswh5tooa 533 38 evolution evolution NN work_7n2voym2grhjpocfumswh5tooa 533 39 of of IN work_7n2voym2grhjpocfumswh5tooa 533 40 epididymal epididymal NNP work_7n2voym2grhjpocfumswh5tooa 533 41 lipocalin lipocalin NNP work_7n2voym2grhjpocfumswh5tooa 533 42 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 533 43 localized localize VBN work_7n2voym2grhjpocfumswh5tooa 533 44 on on IN work_7n2voym2grhjpocfumswh5tooa 533 45 mouse mouse NN work_7n2voym2grhjpocfumswh5tooa 533 46 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 533 47 2 2 CD work_7n2voym2grhjpocfumswh5tooa 533 48 . . . work_7n2voym2grhjpocfumswh5tooa 534 1 Gene Gene NNP work_7n2voym2grhjpocfumswh5tooa 534 2 339:49 339:49 CD work_7n2voym2grhjpocfumswh5tooa 534 3 – – : work_7n2voym2grhjpocfumswh5tooa 534 4 59 59 CD work_7n2voym2grhjpocfumswh5tooa 534 5 . . . work_7n2voym2grhjpocfumswh5tooa 534 6 https https NN work_7n2voym2grhjpocfumswh5tooa 534 7 : : : work_7n2voym2grhjpocfumswh5tooa 534 8 //doi.org/10.1016 //doi.org/10.1016 . work_7n2voym2grhjpocfumswh5tooa 534 9 / / NFP work_7n2voym2grhjpocfumswh5tooa 534 10 j.gene.2004.06.027 j.gene.2004.06.027 NFP work_7n2voym2grhjpocfumswh5tooa 534 11 Thalamuthu Thalamuthu NNP work_7n2voym2grhjpocfumswh5tooa 534 12 A a NN work_7n2voym2grhjpocfumswh5tooa 534 13 et et NN work_7n2voym2grhjpocfumswh5tooa 534 14   _SP work_7n2voym2grhjpocfumswh5tooa 534 15 al al NNP work_7n2voym2grhjpocfumswh5tooa 534 16 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 534 17 2011 2011 CD work_7n2voym2grhjpocfumswh5tooa 534 18 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 534 19 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 534 20 of of IN work_7n2voym2grhjpocfumswh5tooa 534 21 TCF4 TCF4 NNP work_7n2voym2grhjpocfumswh5tooa 534 22 gene gene NN work_7n2voym2grhjpocfumswh5tooa 534 23 polymorphisms polymorphism NNS work_7n2voym2grhjpocfumswh5tooa 534 24 with with IN work_7n2voym2grhjpocfumswh5tooa 534 25 Fuchs Fuchs NNP work_7n2voym2grhjpocfumswh5tooa 534 26 ’ ' '' work_7n2voym2grhjpocfumswh5tooa 534 27 corneal corneal JJ work_7n2voym2grhjpocfumswh5tooa 534 28 dystrophy dystrophy NN work_7n2voym2grhjpocfumswh5tooa 534 29 in in IN work_7n2voym2grhjpocfumswh5tooa 534 30 the the DT work_7n2voym2grhjpocfumswh5tooa 534 31 Chinese Chinese NNPS work_7n2voym2grhjpocfumswh5tooa 534 32 . . . work_7n2voym2grhjpocfumswh5tooa 535 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 535 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 535 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 535 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 535 5 52:5573–5578 52:5573–5578 NNP work_7n2voym2grhjpocfumswh5tooa 535 6 . . . work_7n2voym2grhjpocfumswh5tooa 536 1 https https NNP work_7n2voym2grhjpocfumswh5tooa 536 2 : : : work_7n2voym2grhjpocfumswh5tooa 536 3 //doi.org/10.1167 //doi.org/10.1167 NNP work_7n2voym2grhjpocfumswh5tooa 536 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 536 5 iovs.11 iovs.11 NNP work_7n2voym2grhjpocfumswh5tooa 536 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 536 7 7568 7568 CD work_7n2voym2grhjpocfumswh5tooa 536 8 Thornton Thornton NNP work_7n2voym2grhjpocfumswh5tooa 536 9 T T NNP work_7n2voym2grhjpocfumswh5tooa 536 10 , , , work_7n2voym2grhjpocfumswh5tooa 536 11 McPeek McPeek NNP work_7n2voym2grhjpocfumswh5tooa 536 12 MS MS NNP work_7n2voym2grhjpocfumswh5tooa 536 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 536 14 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 536 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 536 16 ROADTRIPS ROADTRIPS NNP work_7n2voym2grhjpocfumswh5tooa 536 17 : : : work_7n2voym2grhjpocfumswh5tooa 536 18 case case NN work_7n2voym2grhjpocfumswh5tooa 536 19 – – : work_7n2voym2grhjpocfumswh5tooa 536 20 control control NN work_7n2voym2grhjpocfumswh5tooa 536 21 associa- associa- NNP work_7n2voym2grhjpocfumswh5tooa 536 22 tion tion NN work_7n2voym2grhjpocfumswh5tooa 536 23 testing test VBG work_7n2voym2grhjpocfumswh5tooa 536 24 with with IN work_7n2voym2grhjpocfumswh5tooa 536 25 partially partially RB work_7n2voym2grhjpocfumswh5tooa 536 26 or or CC work_7n2voym2grhjpocfumswh5tooa 536 27 completely completely RB work_7n2voym2grhjpocfumswh5tooa 536 28 unknown unknown JJ work_7n2voym2grhjpocfumswh5tooa 536 29 population population NN work_7n2voym2grhjpocfumswh5tooa 536 30 and and CC work_7n2voym2grhjpocfumswh5tooa 536 31 pedigree pedigree JJ work_7n2voym2grhjpocfumswh5tooa 536 32 structure structure NN work_7n2voym2grhjpocfumswh5tooa 536 33 . . . work_7n2voym2grhjpocfumswh5tooa 537 1 Am be VBP work_7n2voym2grhjpocfumswh5tooa 537 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 537 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 537 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 537 5 86:172–184 86:172–184 CD work_7n2voym2grhjpocfumswh5tooa 537 6 . . . work_7n2voym2grhjpocfumswh5tooa 538 1 https https NN work_7n2voym2grhjpocfumswh5tooa 538 2 : : : work_7n2voym2grhjpocfumswh5tooa 538 3 //doi //doi . work_7n2voym2grhjpocfumswh5tooa 538 4 . . . work_7n2voym2grhjpocfumswh5tooa 539 1 org/10.1016 org/10.1016 NNP work_7n2voym2grhjpocfumswh5tooa 539 2 / / SYM work_7n2voym2grhjpocfumswh5tooa 539 3 j.ajhg.2010.01.001 j.ajhg.2010.01.001 NNP work_7n2voym2grhjpocfumswh5tooa 539 4 von von NNP work_7n2voym2grhjpocfumswh5tooa 539 5 Zglinicki Zglinicki NNP work_7n2voym2grhjpocfumswh5tooa 539 6 T T NNP work_7n2voym2grhjpocfumswh5tooa 539 7 , , , work_7n2voym2grhjpocfumswh5tooa 539 8 Martin Martin NNP work_7n2voym2grhjpocfumswh5tooa 539 9 - - HYPH work_7n2voym2grhjpocfumswh5tooa 539 10 Ruiz Ruiz NNP work_7n2voym2grhjpocfumswh5tooa 539 11 CM CM NNP work_7n2voym2grhjpocfumswh5tooa 539 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 539 13 2005 2005 CD work_7n2voym2grhjpocfumswh5tooa 539 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 539 15 Telomeres telomere NNS work_7n2voym2grhjpocfumswh5tooa 539 16 as as IN work_7n2voym2grhjpocfumswh5tooa 539 17 biomarkers biomarker NNS work_7n2voym2grhjpocfumswh5tooa 539 18 for for IN work_7n2voym2grhjpocfumswh5tooa 539 19 ageing ageing NN work_7n2voym2grhjpocfumswh5tooa 539 20 and and CC work_7n2voym2grhjpocfumswh5tooa 539 21 age age NN work_7n2voym2grhjpocfumswh5tooa 539 22 - - HYPH work_7n2voym2grhjpocfumswh5tooa 539 23 related relate VBN work_7n2voym2grhjpocfumswh5tooa 539 24 diseases disease NNS work_7n2voym2grhjpocfumswh5tooa 539 25 . . . work_7n2voym2grhjpocfumswh5tooa 540 1 Curr Curr NNP work_7n2voym2grhjpocfumswh5tooa 540 2 Mol Mol NNP work_7n2voym2grhjpocfumswh5tooa 540 3 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 540 4 5:197–203 5:197–203 CD work_7n2voym2grhjpocfumswh5tooa 540 5 Wang Wang NNP work_7n2voym2grhjpocfumswh5tooa 540 6 L L NNP work_7n2voym2grhjpocfumswh5tooa 540 7 , , , work_7n2voym2grhjpocfumswh5tooa 540 8 Clark Clark NNP work_7n2voym2grhjpocfumswh5tooa 540 9 ME ME NNP work_7n2voym2grhjpocfumswh5tooa 540 10 , , , work_7n2voym2grhjpocfumswh5tooa 540 11 Crossman Crossman NNP work_7n2voym2grhjpocfumswh5tooa 540 12 DK DK NNP work_7n2voym2grhjpocfumswh5tooa 540 13 , , , work_7n2voym2grhjpocfumswh5tooa 540 14 Kojima Kojima NNP work_7n2voym2grhjpocfumswh5tooa 540 15 K K NNP work_7n2voym2grhjpocfumswh5tooa 540 16 , , , work_7n2voym2grhjpocfumswh5tooa 540 17 Messinger Messinger NNP work_7n2voym2grhjpocfumswh5tooa 540 18 JD JD NNP work_7n2voym2grhjpocfumswh5tooa 540 19 , , , work_7n2voym2grhjpocfumswh5tooa 540 20 Mobley Mobley NNP work_7n2voym2grhjpocfumswh5tooa 540 21 JA JA NNP work_7n2voym2grhjpocfumswh5tooa 540 22 , , , work_7n2voym2grhjpocfumswh5tooa 540 23 Curcio Curcio NNP work_7n2voym2grhjpocfumswh5tooa 540 24 CA CA NNP work_7n2voym2grhjpocfumswh5tooa 540 25 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 540 26 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 540 27 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 540 28 Abundant abundant JJ work_7n2voym2grhjpocfumswh5tooa 540 29 lipid lipid NN work_7n2voym2grhjpocfumswh5tooa 540 30 and and CC work_7n2voym2grhjpocfumswh5tooa 540 31 protein protein NN work_7n2voym2grhjpocfumswh5tooa 540 32 components component NNS work_7n2voym2grhjpocfumswh5tooa 540 33 of of IN work_7n2voym2grhjpocfumswh5tooa 540 34 drusen drusen NNP work_7n2voym2grhjpocfumswh5tooa 540 35 . . . work_7n2voym2grhjpocfumswh5tooa 541 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 541 2 One one CD work_7n2voym2grhjpocfumswh5tooa 541 3 5 5 CD work_7n2voym2grhjpocfumswh5tooa 541 4 : : : work_7n2voym2grhjpocfumswh5tooa 541 5 e10329 e10329 NNP work_7n2voym2grhjpocfumswh5tooa 541 6 . . . work_7n2voym2grhjpocfumswh5tooa 542 1 https https NN work_7n2voym2grhjpocfumswh5tooa 542 2 : : : work_7n2voym2grhjpocfumswh5tooa 542 3 //doi.org/10.1371 //doi.org/10.1371 NNP work_7n2voym2grhjpocfumswh5tooa 542 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 542 5 journ journ NN work_7n2voym2grhjpocfumswh5tooa 542 6 al.pone.00103 al.pone.00103 VBG work_7n2voym2grhjpocfumswh5tooa 542 7 29 29 CD work_7n2voym2grhjpocfumswh5tooa 542 8 Wang Wang NNP work_7n2voym2grhjpocfumswh5tooa 542 9 JC JC NNP work_7n2voym2grhjpocfumswh5tooa 542 10 , , , work_7n2voym2grhjpocfumswh5tooa 542 11 Ku Ku NNP work_7n2voym2grhjpocfumswh5tooa 542 12 HY HY NNP work_7n2voym2grhjpocfumswh5tooa 542 13 , , , work_7n2voym2grhjpocfumswh5tooa 542 14 Chen Chen NNP work_7n2voym2grhjpocfumswh5tooa 542 15 TS TS NNP work_7n2voym2grhjpocfumswh5tooa 542 16 , , , work_7n2voym2grhjpocfumswh5tooa 542 17 Chuang Chuang NNP work_7n2voym2grhjpocfumswh5tooa 542 18 HS HS NNP work_7n2voym2grhjpocfumswh5tooa 542 19 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 542 20 2017 2017 CD work_7n2voym2grhjpocfumswh5tooa 542 21 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 542 22 Detection detection NN work_7n2voym2grhjpocfumswh5tooa 542 23 of of IN work_7n2voym2grhjpocfumswh5tooa 542 24 low- low- NN work_7n2voym2grhjpocfumswh5tooa 542 25 abundance abundance NN work_7n2voym2grhjpocfumswh5tooa 542 26 biomarker biomarker NNP work_7n2voym2grhjpocfumswh5tooa 542 27 lipocalin lipocalin NNP work_7n2voym2grhjpocfumswh5tooa 542 28 1 1 CD work_7n2voym2grhjpocfumswh5tooa 542 29 for for IN work_7n2voym2grhjpocfumswh5tooa 542 30 diabetic diabetic JJ work_7n2voym2grhjpocfumswh5tooa 542 31 retinopathy retinopathy NNP work_7n2voym2grhjpocfumswh5tooa 542 32 using use VBG work_7n2voym2grhjpocfumswh5tooa 542 33 optoelectrokinetic optoelectrokinetic JJ work_7n2voym2grhjpocfumswh5tooa 542 34 bead bead NN work_7n2voym2grhjpocfumswh5tooa 542 35 - - HYPH work_7n2voym2grhjpocfumswh5tooa 542 36 based base VBN work_7n2voym2grhjpocfumswh5tooa 542 37 immunosensing immunosensing JJ work_7n2voym2grhjpocfumswh5tooa 542 38 . . . work_7n2voym2grhjpocfumswh5tooa 543 1 Biosens Biosens NNP work_7n2voym2grhjpocfumswh5tooa 543 2 Bioelec- Bioelec- NNP work_7n2voym2grhjpocfumswh5tooa 543 3 tron tron NN work_7n2voym2grhjpocfumswh5tooa 543 4 89:701–709 89:701–709 CD work_7n2voym2grhjpocfumswh5tooa 543 5 . . . work_7n2voym2grhjpocfumswh5tooa 544 1 https https NN work_7n2voym2grhjpocfumswh5tooa 544 2 : : : work_7n2voym2grhjpocfumswh5tooa 544 3 //doi.org/10.1016 //doi.org/10.1016 , work_7n2voym2grhjpocfumswh5tooa 544 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 544 5 j.bios.2016.11.014 j.bios.2016.11.014 NN work_7n2voym2grhjpocfumswh5tooa 544 6 Wiggs Wiggs NNP work_7n2voym2grhjpocfumswh5tooa 544 7 JL JL NNP work_7n2voym2grhjpocfumswh5tooa 544 8 et et NN work_7n2voym2grhjpocfumswh5tooa 544 9   _SP work_7n2voym2grhjpocfumswh5tooa 544 10 al al NNP work_7n2voym2grhjpocfumswh5tooa 544 11 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 544 12 2012 2012 CD work_7n2voym2grhjpocfumswh5tooa 544 13 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 544 14 Common common JJ work_7n2voym2grhjpocfumswh5tooa 544 15 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 544 16 at at IN work_7n2voym2grhjpocfumswh5tooa 544 17 9p21 9p21 CD work_7n2voym2grhjpocfumswh5tooa 544 18 and and CC work_7n2voym2grhjpocfumswh5tooa 544 19 8q22 8q22 CD work_7n2voym2grhjpocfumswh5tooa 544 20 are be VBP work_7n2voym2grhjpocfumswh5tooa 544 21 associ- associ- RB work_7n2voym2grhjpocfumswh5tooa 544 22 ated ate VBN work_7n2voym2grhjpocfumswh5tooa 544 23 with with IN work_7n2voym2grhjpocfumswh5tooa 544 24 increased increase VBN work_7n2voym2grhjpocfumswh5tooa 544 25 susceptibility susceptibility NN work_7n2voym2grhjpocfumswh5tooa 544 26 to to IN work_7n2voym2grhjpocfumswh5tooa 544 27 optic optic JJ work_7n2voym2grhjpocfumswh5tooa 544 28 nerve nerve NN work_7n2voym2grhjpocfumswh5tooa 544 29 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 544 30 in in IN work_7n2voym2grhjpocfumswh5tooa 544 31 glaucoma glaucoma NN work_7n2voym2grhjpocfumswh5tooa 544 32 . . . work_7n2voym2grhjpocfumswh5tooa 545 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 545 2 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 545 3 8 8 CD work_7n2voym2grhjpocfumswh5tooa 545 4 : : : work_7n2voym2grhjpocfumswh5tooa 545 5 e1002654 e1002654 NNP work_7n2voym2grhjpocfumswh5tooa 545 6 . . . work_7n2voym2grhjpocfumswh5tooa 546 1 https https NN work_7n2voym2grhjpocfumswh5tooa 546 2 : : : work_7n2voym2grhjpocfumswh5tooa 546 3 //doi.org/10.1371 //doi.org/10.1371 JJ work_7n2voym2grhjpocfumswh5tooa 546 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 546 5 journ journ NN work_7n2voym2grhjpocfumswh5tooa 546 6 al.pgen.10026 al.pgen.10026 NN work_7n2voym2grhjpocfumswh5tooa 546 7 54 54 CD work_7n2voym2grhjpocfumswh5tooa 546 8 Winkler Winkler NNP work_7n2voym2grhjpocfumswh5tooa 546 9 TW TW NNP work_7n2voym2grhjpocfumswh5tooa 546 10 et et FW work_7n2voym2grhjpocfumswh5tooa 546 11     _SP work_7n2voym2grhjpocfumswh5tooa 546 12 al al NNP work_7n2voym2grhjpocfumswh5tooa 546 13 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 546 14 2018 2018 CD work_7n2voym2grhjpocfumswh5tooa 546 15 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 546 16 Investigating investigate VBG work_7n2voym2grhjpocfumswh5tooa 546 17 the the DT work_7n2voym2grhjpocfumswh5tooa 546 18 modulation modulation NN work_7n2voym2grhjpocfumswh5tooa 546 19 of of IN work_7n2voym2grhjpocfumswh5tooa 546 20 genetic genetic JJ work_7n2voym2grhjpocfumswh5tooa 546 21 effects effect NNS work_7n2voym2grhjpocfumswh5tooa 546 22 on on IN work_7n2voym2grhjpocfumswh5tooa 546 23 late late JJ work_7n2voym2grhjpocfumswh5tooa 546 24 AMD AMD NNP work_7n2voym2grhjpocfumswh5tooa 546 25 by by IN work_7n2voym2grhjpocfumswh5tooa 546 26 age age NN work_7n2voym2grhjpocfumswh5tooa 546 27 and and CC work_7n2voym2grhjpocfumswh5tooa 546 28 sex sex NN work_7n2voym2grhjpocfumswh5tooa 546 29 : : : work_7n2voym2grhjpocfumswh5tooa 546 30 lessons lesson NNS work_7n2voym2grhjpocfumswh5tooa 546 31 learned learn VBD work_7n2voym2grhjpocfumswh5tooa 546 32 and and CC work_7n2voym2grhjpocfumswh5tooa 546 33 two two CD work_7n2voym2grhjpocfumswh5tooa 546 34 additional additional JJ work_7n2voym2grhjpocfumswh5tooa 546 35 loci loci NN work_7n2voym2grhjpocfumswh5tooa 546 36 . . . work_7n2voym2grhjpocfumswh5tooa 547 1 PLoS plos ADD work_7n2voym2grhjpocfumswh5tooa 547 2 One one CD work_7n2voym2grhjpocfumswh5tooa 547 3 13 13 CD work_7n2voym2grhjpocfumswh5tooa 547 4 : : : work_7n2voym2grhjpocfumswh5tooa 547 5 e0194321 e0194321 NN work_7n2voym2grhjpocfumswh5tooa 547 6 . . . work_7n2voym2grhjpocfumswh5tooa 548 1 https https NNP work_7n2voym2grhjpocfumswh5tooa 548 2 : : : work_7n2voym2grhjpocfumswh5tooa 548 3 //doi.org/10.1371/ //doi.org/10.1371/ . work_7n2voym2grhjpocfumswh5tooa 548 4 journ journ NNP work_7n2voym2grhjpocfumswh5tooa 548 5 al.pone.01943 al.pone.01943 NNP work_7n2voym2grhjpocfumswh5tooa 548 6 21 21 CD work_7n2voym2grhjpocfumswh5tooa 548 7 Young Young NNP work_7n2voym2grhjpocfumswh5tooa 548 8 TL TL NNP work_7n2voym2grhjpocfumswh5tooa 548 9 et et FW work_7n2voym2grhjpocfumswh5tooa 548 10   _SP work_7n2voym2grhjpocfumswh5tooa 548 11 al al NNP work_7n2voym2grhjpocfumswh5tooa 548 12 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 548 13 1998 1998 CD work_7n2voym2grhjpocfumswh5tooa 548 14 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 548 15 Evidence evidence NN work_7n2voym2grhjpocfumswh5tooa 548 16 that that IN work_7n2voym2grhjpocfumswh5tooa 548 17 a a DT work_7n2voym2grhjpocfumswh5tooa 548 18 locus locus NN work_7n2voym2grhjpocfumswh5tooa 548 19 for for IN work_7n2voym2grhjpocfumswh5tooa 548 20 familial familial JJ work_7n2voym2grhjpocfumswh5tooa 548 21 high high JJ work_7n2voym2grhjpocfumswh5tooa 548 22 myopia myopia JJ work_7n2voym2grhjpocfumswh5tooa 548 23 maps map NNS work_7n2voym2grhjpocfumswh5tooa 548 24 to to IN work_7n2voym2grhjpocfumswh5tooa 548 25 chromosome chromosome NN work_7n2voym2grhjpocfumswh5tooa 548 26 18p 18p NNS work_7n2voym2grhjpocfumswh5tooa 548 27 . . . work_7n2voym2grhjpocfumswh5tooa 549 1 Am be VBP work_7n2voym2grhjpocfumswh5tooa 549 2 J J NNP work_7n2voym2grhjpocfumswh5tooa 549 3 Hum Hum NNP work_7n2voym2grhjpocfumswh5tooa 549 4 Genet Genet NNP work_7n2voym2grhjpocfumswh5tooa 549 5 63:109–119 63:109–119 NNP work_7n2voym2grhjpocfumswh5tooa 549 6 . . . work_7n2voym2grhjpocfumswh5tooa 550 1 https https NN work_7n2voym2grhjpocfumswh5tooa 550 2 : : : work_7n2voym2grhjpocfumswh5tooa 550 3 // // NFP work_7n2voym2grhjpocfumswh5tooa 550 4 doi.org/10.1086/30190 doi.org/10.1086/30190 NNP work_7n2voym2grhjpocfumswh5tooa 550 5 7 7 CD work_7n2voym2grhjpocfumswh5tooa 550 6 Zhang Zhang NNP work_7n2voym2grhjpocfumswh5tooa 550 7 M M NNP work_7n2voym2grhjpocfumswh5tooa 550 8 , , , work_7n2voym2grhjpocfumswh5tooa 550 9 Volpert Volpert NNP work_7n2voym2grhjpocfumswh5tooa 550 10 O O NNP work_7n2voym2grhjpocfumswh5tooa 550 11 , , , work_7n2voym2grhjpocfumswh5tooa 550 12 Shi Shi NNP work_7n2voym2grhjpocfumswh5tooa 550 13 YH YH NNP work_7n2voym2grhjpocfumswh5tooa 550 14 , , , work_7n2voym2grhjpocfumswh5tooa 550 15 Bouck Bouck NNP work_7n2voym2grhjpocfumswh5tooa 550 16 N N NNP work_7n2voym2grhjpocfumswh5tooa 550 17 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 550 18 2000 2000 CD work_7n2voym2grhjpocfumswh5tooa 550 19 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 550 20 Maspin Maspin NNP work_7n2voym2grhjpocfumswh5tooa 550 21 is be VBZ work_7n2voym2grhjpocfumswh5tooa 550 22 an an DT work_7n2voym2grhjpocfumswh5tooa 550 23 angiogen- angiogen- JJ work_7n2voym2grhjpocfumswh5tooa 550 24 esis esis NN work_7n2voym2grhjpocfumswh5tooa 550 25 inhibitor inhibitor NN work_7n2voym2grhjpocfumswh5tooa 550 26 . . . work_7n2voym2grhjpocfumswh5tooa 551 1 Nat Nat NNP work_7n2voym2grhjpocfumswh5tooa 551 2 Med Med NNP work_7n2voym2grhjpocfumswh5tooa 551 3 6:196–199 6:196–199 XX work_7n2voym2grhjpocfumswh5tooa 551 4 . . . work_7n2voym2grhjpocfumswh5tooa 552 1 https https NN work_7n2voym2grhjpocfumswh5tooa 552 2 : : : work_7n2voym2grhjpocfumswh5tooa 552 3 //doi.org/10.1038/72303 //doi.org/10.1038/72303 NFP work_7n2voym2grhjpocfumswh5tooa 552 4 Zhou Zhou NNP work_7n2voym2grhjpocfumswh5tooa 552 5 T T NNP work_7n2voym2grhjpocfumswh5tooa 552 6 , , , work_7n2voym2grhjpocfumswh5tooa 552 7 Hu Hu NNP work_7n2voym2grhjpocfumswh5tooa 552 8 Y Y NNP work_7n2voym2grhjpocfumswh5tooa 552 9 , , , work_7n2voym2grhjpocfumswh5tooa 552 10 Chen Chen NNP work_7n2voym2grhjpocfumswh5tooa 552 11 Y Y NNP work_7n2voym2grhjpocfumswh5tooa 552 12 , , , work_7n2voym2grhjpocfumswh5tooa 552 13 Zhou Zhou NNP work_7n2voym2grhjpocfumswh5tooa 552 14 KK KK NNP work_7n2voym2grhjpocfumswh5tooa 552 15 , , , work_7n2voym2grhjpocfumswh5tooa 552 16 Zhang Zhang NNP work_7n2voym2grhjpocfumswh5tooa 552 17 B B NNP work_7n2voym2grhjpocfumswh5tooa 552 18 , , , work_7n2voym2grhjpocfumswh5tooa 552 19 Gao Gao NNP work_7n2voym2grhjpocfumswh5tooa 552 20 G G NNP work_7n2voym2grhjpocfumswh5tooa 552 21 , , , work_7n2voym2grhjpocfumswh5tooa 552 22 Ma Ma NNP work_7n2voym2grhjpocfumswh5tooa 552 23 JX JX NNP work_7n2voym2grhjpocfumswh5tooa 552 24 ( ( -LRB- work_7n2voym2grhjpocfumswh5tooa 552 25 2010 2010 CD work_7n2voym2grhjpocfumswh5tooa 552 26 ) ) -RRB- work_7n2voym2grhjpocfumswh5tooa 552 27 The the DT work_7n2voym2grhjpocfumswh5tooa 552 28 pathogenic pathogenic JJ work_7n2voym2grhjpocfumswh5tooa 552 29 role role NN work_7n2voym2grhjpocfumswh5tooa 552 30 of of IN work_7n2voym2grhjpocfumswh5tooa 552 31 the the DT work_7n2voym2grhjpocfumswh5tooa 552 32 canonical canonical JJ work_7n2voym2grhjpocfumswh5tooa 552 33 Wnt Wnt NNP work_7n2voym2grhjpocfumswh5tooa 552 34 pathway pathway NN work_7n2voym2grhjpocfumswh5tooa 552 35 in in IN work_7n2voym2grhjpocfumswh5tooa 552 36 age age NN work_7n2voym2grhjpocfumswh5tooa 552 37 - - HYPH work_7n2voym2grhjpocfumswh5tooa 552 38 related relate VBN work_7n2voym2grhjpocfumswh5tooa 552 39 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 552 40 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 552 41 . . . work_7n2voym2grhjpocfumswh5tooa 553 1 Invest invest VB work_7n2voym2grhjpocfumswh5tooa 553 2 Ophthalmol Ophthalmol NNP work_7n2voym2grhjpocfumswh5tooa 553 3 Vis Vis NNP work_7n2voym2grhjpocfumswh5tooa 553 4 Sci Sci NNP work_7n2voym2grhjpocfumswh5tooa 553 5 51:4371–4379 51:4371–4379 NNP work_7n2voym2grhjpocfumswh5tooa 553 6 . . . work_7n2voym2grhjpocfumswh5tooa 554 1 https https NN work_7n2voym2grhjpocfumswh5tooa 554 2 : : : work_7n2voym2grhjpocfumswh5tooa 554 3 //doi.org/10.1167 //doi.org/10.1167 NNP work_7n2voym2grhjpocfumswh5tooa 554 4 / / SYM work_7n2voym2grhjpocfumswh5tooa 554 5 iovs.09 iovs.09 NNP work_7n2voym2grhjpocfumswh5tooa 554 6 - - HYPH work_7n2voym2grhjpocfumswh5tooa 554 7 4278 4278 CD work_7n2voym2grhjpocfumswh5tooa 554 8 Publisher publisher NN work_7n2voym2grhjpocfumswh5tooa 554 9 ’s ’s POS work_7n2voym2grhjpocfumswh5tooa 554 10 Note Note NNP work_7n2voym2grhjpocfumswh5tooa 554 11 Springer Springer NNP work_7n2voym2grhjpocfumswh5tooa 554 12 Nature Nature NNP work_7n2voym2grhjpocfumswh5tooa 554 13 remains remain VBZ work_7n2voym2grhjpocfumswh5tooa 554 14 neutral neutral JJ work_7n2voym2grhjpocfumswh5tooa 554 15 with with IN work_7n2voym2grhjpocfumswh5tooa 554 16 regard regard NN work_7n2voym2grhjpocfumswh5tooa 554 17 to to IN work_7n2voym2grhjpocfumswh5tooa 554 18 jurisdictional jurisdictional JJ work_7n2voym2grhjpocfumswh5tooa 554 19 claims claim NNS work_7n2voym2grhjpocfumswh5tooa 554 20 in in IN work_7n2voym2grhjpocfumswh5tooa 554 21 published publish VBN work_7n2voym2grhjpocfumswh5tooa 554 22 maps map NNS work_7n2voym2grhjpocfumswh5tooa 554 23 and and CC work_7n2voym2grhjpocfumswh5tooa 554 24 institutional institutional JJ work_7n2voym2grhjpocfumswh5tooa 554 25 affiliations affiliation NNS work_7n2voym2grhjpocfumswh5tooa 554 26 . . . work_7n2voym2grhjpocfumswh5tooa 555 1 https://doi.org/10.1167/iovs.15-17035 https://doi.org/10.1167/iovs.15-17035 NFP work_7n2voym2grhjpocfumswh5tooa 555 2 https://doi.org/10.3390/molecules191220557 https://doi.org/10.3390/molecules191220557 ADD work_7n2voym2grhjpocfumswh5tooa 555 3 https://doi.org/10.1038/ng1847 https://doi.org/10.1038/ng1847 NNP work_7n2voym2grhjpocfumswh5tooa 555 4 https://doi.org/10.1038/ng1847 https://doi.org/10.1038/ng1847 NNP work_7n2voym2grhjpocfumswh5tooa 555 5 https://doi.org/10.1086/519795 https://doi.org/10.1086/519795 NNP work_7n2voym2grhjpocfumswh5tooa 555 6 https://doi.org/10.1038/ng.976 https://doi.org/10.1038/ng.976 NNP work_7n2voym2grhjpocfumswh5tooa 555 7 https://doi.org/10.1167/iovs.10-6497 https://doi.org/10.1167/iovs.10-6497 NNP work_7n2voym2grhjpocfumswh5tooa 555 8 https://doi.org/10.1167/iovs.10-6497 https://doi.org/10.1167/iovs.10-6497 NN work_7n2voym2grhjpocfumswh5tooa 555 9 https://doi.org/10.3349/ymj.2008.49.6.931 https://doi.org/10.3349/ymj.2008.49.6.931 NNP work_7n2voym2grhjpocfumswh5tooa 555 10 https://doi.org/10.3349/ymj.2008.49.6.931 https://doi.org/10.3349/ymj.2008.49.6.931 ADD work_7n2voym2grhjpocfumswh5tooa 555 11 https://doi.org/10.1016/j.preteyeres.2004.06.002 https://doi.org/10.1016/j.preteyeres.2004.06.002 ADD work_7n2voym2grhjpocfumswh5tooa 555 12 https://doi.org/10.1016/j.preteyeres.2004.06.002 https://doi.org/10.1016/j.preteyeres.2004.06.002 NNP work_7n2voym2grhjpocfumswh5tooa 555 13 https://doi.org/10.1001/archopht.126.9.1274 https://doi.org/10.1001/archopht.126.9.1274 NNP work_7n2voym2grhjpocfumswh5tooa 555 14 https://doi.org/10.1016/j.ophtha.2016.09.001 https://doi.org/10.1016/j.ophtha.2016.09.001 NNP work_7n2voym2grhjpocfumswh5tooa 555 15 https://doi.org/10.1016/j.ophtha.2016.09.001 https://doi.org/10.1016/j.ophtha.2016.09.001 XX work_7n2voym2grhjpocfumswh5tooa 555 16 https://doi.org/10.1167/iovs.13-13234 https://doi.org/10.1167/iovs.13-13234 NNP work_7n2voym2grhjpocfumswh5tooa 555 17 https://doi.org/10.1086/378505 https://doi.org/10.1086/378505 NNP work_7n2voym2grhjpocfumswh5tooa 555 18 https://doi.org/10.1001/archopht.124.7.995 https://doi.org/10.1001/archopht.124.7.995 NNP work_7n2voym2grhjpocfumswh5tooa 555 19 https://doi.org/10.1001/archopht.124.7.995 https://doi.org/10.1001/archopht.124.7.995 NNP work_7n2voym2grhjpocfumswh5tooa 555 20 https://doi.org/10.1016/j.ophtha.2005.11.001 https://doi.org/10.1016/j.ophtha.2005.11.001 NNP work_7n2voym2grhjpocfumswh5tooa 555 21 https://doi.org/10.1001/jamaophthalmol.2013.7664 https://doi.org/10.1001/jamaophthalmol.2013.7664 NNP work_7n2voym2grhjpocfumswh5tooa 555 22 https://doi.org/10.3109/09286586.2011.560746 https://doi.org/10.3109/09286586.2011.560746 NNP work_7n2voym2grhjpocfumswh5tooa 555 23 https://doi.org/10.3109/09286586.2011.560746 https://doi.org/10.3109/09286586.2011.560746 NNP work_7n2voym2grhjpocfumswh5tooa 555 24 https://doi.org/10.3934/molsci.2016.2.196 https://doi.org/10.3934/molsci.2016.2.196 NN work_7n2voym2grhjpocfumswh5tooa 555 25 https://doi.org/10.3934/molsci.2016.2.196 https://doi.org/10.3934/molsci.2016.2.196 NN work_7n2voym2grhjpocfumswh5tooa 555 26 https://doi.org/10.1158/0008-5472.CAN-05-2262 https://doi.org/10.1158/0008-5472.can-05-2262 NN work_7n2voym2grhjpocfumswh5tooa 555 27 https://doi.org/10.1001/jamaophthalmol.2014.2065 https://doi.org/10.1001/jamaophthalmol.2014.2065 NNP work_7n2voym2grhjpocfumswh5tooa 555 28 https://doi.org/10.1001/jamaophthalmol.2014.2065 https://doi.org/10.1001/jamaophthalmol.2014.2065 NNP work_7n2voym2grhjpocfumswh5tooa 555 29 https://doi.org/10.1016/j.ophtha.2012.03.014 https://doi.org/10.1016/j.ophtha.2012.03.014 FW work_7n2voym2grhjpocfumswh5tooa 555 30 https://doi.org/10.1016/j.ophtha.2012.03.014 https://doi.org/10.1016/j.ophtha.2012.03.014 UH work_7n2voym2grhjpocfumswh5tooa 555 31 https://doi.org/10.1093/ije/dyr204 https://doi.org/10.1093/ije/dyr204 NNP work_7n2voym2grhjpocfumswh5tooa 555 32 https://doi.org/10.1093/ije/dyr204 https://doi.org/10.1093/ije/dyr204 NNP work_7n2voym2grhjpocfumswh5tooa 555 33 https://doi.org/10.1146/annurev-genom-082908-150040 https://doi.org/10.1146/annurev-genom-082908-150040 NNP work_7n2voym2grhjpocfumswh5tooa 555 34 https://doi.org/10.1146/annurev-genom-082908-150040 https://doi.org/10.1146/annurev-genom-082908-150040 NNP work_7n2voym2grhjpocfumswh5tooa 555 35 https://doi.org/10.1016/j.gene.2004.06.027 https://doi.org/10.1016/j.gene.2004.06.027 ADD work_7n2voym2grhjpocfumswh5tooa 555 36 https://doi.org/10.1167/iovs.11-7568 https://doi.org/10.1167/iovs.11-7568 NNS work_7n2voym2grhjpocfumswh5tooa 555 37 https://doi.org/10.1016/j.ajhg.2010.01.001 https://doi.org/10.1016/j.ajhg.2010.01.001 NNP work_7n2voym2grhjpocfumswh5tooa 555 38 https://doi.org/10.1016/j.ajhg.2010.01.001 https://doi.org/10.1016/j.ajhg.2010.01.001 NNP work_7n2voym2grhjpocfumswh5tooa 555 39 https://doi.org/10.1371/journal.pone.0010329 https://doi.org/10.1371/journal.pone.0010329 NNP work_7n2voym2grhjpocfumswh5tooa 555 40 https://doi.org/10.1371/journal.pone.0010329 https://doi.org/10.1371/journal.pone.0010329 NNP work_7n2voym2grhjpocfumswh5tooa 555 41 https://doi.org/10.1016/j.bios.2016.11.014 https://doi.org/10.1016/j.bios.2016.11.014 NNP work_7n2voym2grhjpocfumswh5tooa 555 42 https://doi.org/10.1371/journal.pgen.1002654 https://doi.org/10.1371/journal.pgen.1002654 PRP work_7n2voym2grhjpocfumswh5tooa 555 43 https://doi.org/10.1371/journal.pgen.1002654 https://doi.org/10.1371/journal.pgen.1002654 NNP work_7n2voym2grhjpocfumswh5tooa 555 44 https://doi.org/10.1371/journal.pone.0194321 https://doi.org/10.1371/journal.pone.0194321 NNP work_7n2voym2grhjpocfumswh5tooa 555 45 https://doi.org/10.1371/journal.pone.0194321 https://doi.org/10.1371/journal.pone.0194321 NNP work_7n2voym2grhjpocfumswh5tooa 555 46 https://doi.org/10.1086/301907 https://doi.org/10.1086/301907 NNP work_7n2voym2grhjpocfumswh5tooa 555 47 https://doi.org/10.1086/301907 https://doi.org/10.1086/301907 NNP work_7n2voym2grhjpocfumswh5tooa 555 48 https://doi.org/10.1038/72303 https://doi.org/10.1038/72303 NNP work_7n2voym2grhjpocfumswh5tooa 555 49 https://doi.org/10.1167/iovs.09-4278 https://doi.org/10.1167/iovs.09-4278 : work_7n2voym2grhjpocfumswh5tooa 555 50 Rare rare JJ work_7n2voym2grhjpocfumswh5tooa 555 51 variants variant NNS work_7n2voym2grhjpocfumswh5tooa 555 52 and and CC work_7n2voym2grhjpocfumswh5tooa 555 53   _SP work_7n2voym2grhjpocfumswh5tooa 555 54 loci loci FW work_7n2voym2grhjpocfumswh5tooa 555 55 for for IN work_7n2voym2grhjpocfumswh5tooa 555 56   _SP work_7n2voym2grhjpocfumswh5tooa 555 57 age age NN work_7n2voym2grhjpocfumswh5tooa 555 58 - - HYPH work_7n2voym2grhjpocfumswh5tooa 555 59 related relate VBN work_7n2voym2grhjpocfumswh5tooa 555 60 macular macular JJ work_7n2voym2grhjpocfumswh5tooa 555 61 degeneration degeneration NN work_7n2voym2grhjpocfumswh5tooa 555 62 in in IN work_7n2voym2grhjpocfumswh5tooa 555 63   _SP work_7n2voym2grhjpocfumswh5tooa 555 64 the the DT work_7n2voym2grhjpocfumswh5tooa 555 65   _SP work_7n2voym2grhjpocfumswh5tooa 555 66 Ohio Ohio NNP work_7n2voym2grhjpocfumswh5tooa 555 67 and and CC work_7n2voym2grhjpocfumswh5tooa 555 68   _SP work_7n2voym2grhjpocfumswh5tooa 555 69 Indiana Indiana NNP work_7n2voym2grhjpocfumswh5tooa 555 70 Amish Amish NNP work_7n2voym2grhjpocfumswh5tooa 555 71 Abstract Abstract NNP work_7n2voym2grhjpocfumswh5tooa 555 72 Introduction Introduction NNP work_7n2voym2grhjpocfumswh5tooa 555 73 Materials Materials NNPS work_7n2voym2grhjpocfumswh5tooa 555 74 and and CC work_7n2voym2grhjpocfumswh5tooa 555 75   _SP work_7n2voym2grhjpocfumswh5tooa 555 76 methods method NNS work_7n2voym2grhjpocfumswh5tooa 555 77 Study Study NNP work_7n2voym2grhjpocfumswh5tooa 555 78 participants participant NNS work_7n2voym2grhjpocfumswh5tooa 555 79 Genotyping Genotyping NNP work_7n2voym2grhjpocfumswh5tooa 555 80 and and CC work_7n2voym2grhjpocfumswh5tooa 555 81   _SP work_7n2voym2grhjpocfumswh5tooa 555 82 quality quality NNP work_7n2voym2grhjpocfumswh5tooa 555 83 control control NNP work_7n2voym2grhjpocfumswh5tooa 555 84 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 555 85 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 555 86 Linkage Linkage NNP work_7n2voym2grhjpocfumswh5tooa 555 87 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 555 88 In in IN work_7n2voym2grhjpocfumswh5tooa 555 89 silico silico JJ work_7n2voym2grhjpocfumswh5tooa 555 90 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 555 91 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 555 92 of of IN work_7n2voym2grhjpocfumswh5tooa 555 93   _SP work_7n2voym2grhjpocfumswh5tooa 555 94 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 555 95 from from IN work_7n2voym2grhjpocfumswh5tooa 555 96   _SP work_7n2voym2grhjpocfumswh5tooa 555 97 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 555 98 support support NN work_7n2voym2grhjpocfumswh5tooa 555 99 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 555 100 of of IN work_7n2voym2grhjpocfumswh5tooa 555 101   _SP work_7n2voym2grhjpocfumswh5tooa 555 102 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 555 103 regions region NNS work_7n2voym2grhjpocfumswh5tooa 555 104 Results Results NNP work_7n2voym2grhjpocfumswh5tooa 555 105 Association Association NNP work_7n2voym2grhjpocfumswh5tooa 555 106 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 555 107 Linkage Linkage NNP work_7n2voym2grhjpocfumswh5tooa 555 108 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 555 109 In in IN work_7n2voym2grhjpocfumswh5tooa 555 110 silico silico JJ work_7n2voym2grhjpocfumswh5tooa 555 111 functional functional JJ work_7n2voym2grhjpocfumswh5tooa 555 112 analysis analysis NN work_7n2voym2grhjpocfumswh5tooa 555 113 of of IN work_7n2voym2grhjpocfumswh5tooa 555 114   _SP work_7n2voym2grhjpocfumswh5tooa 555 115 genes gene NNS work_7n2voym2grhjpocfumswh5tooa 555 116 from from IN work_7n2voym2grhjpocfumswh5tooa 555 117   _SP work_7n2voym2grhjpocfumswh5tooa 555 118 1-HLOD 1-HLOD NNP work_7n2voym2grhjpocfumswh5tooa 555 119 support support NN work_7n2voym2grhjpocfumswh5tooa 555 120 intervals interval NNS work_7n2voym2grhjpocfumswh5tooa 555 121 of of IN work_7n2voym2grhjpocfumswh5tooa 555 122   _SP work_7n2voym2grhjpocfumswh5tooa 555 123 linkage linkage NN work_7n2voym2grhjpocfumswh5tooa 555 124 regions region NNS work_7n2voym2grhjpocfumswh5tooa 555 125 Discussion Discussion NNP work_7n2voym2grhjpocfumswh5tooa 555 126 Acknowledgements Acknowledgements NNP work_7n2voym2grhjpocfumswh5tooa 555 127 References References NNPS