id sid tid token lemma pos
work_hxktjt6jyrbxnn45gipdtu7aji 1 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 2 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 4 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 5 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 1 6 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 1 7 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 8 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 9 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 11 Its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 1 12 Unique Unique NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 13 Regulation Regulation NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 14 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 15 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 17 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 18 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 19 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 20 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 21 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 22 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 1 23 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 1 24 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 25 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 26 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 27 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 28 Its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 1 29 Unique Unique NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 30 Regulation Regulation NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 31 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 32 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 33 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 34 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 35 Published publish VBN
work_hxktjt6jyrbxnn45gipdtu7aji 1 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 37 JBC JBC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 38 Papers Papers NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 1 39 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 40 Press Press NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 41 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 42 August August NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 43 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 1 44 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 45 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 1 46 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 47 DOI DOI NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 48 10.1074 10.1074 CD
work_hxktjt6jyrbxnn45gipdtu7aji 1 49 / / SYM
work_hxktjt6jyrbxnn45gipdtu7aji 1 50 jbc jbc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 51 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 1 52 X114.607374 X114.607374 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 53 Myron Myron NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 54 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 55 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 56 From from IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 57 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 58 Molecular Molecular NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 59 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 60 Computational Computational NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 61 Section Section NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 62 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 63 Departments Departments NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 1 64 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 65 Biological Biological NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 66 Sciences Sciences NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 1 67 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 68 Chemistry Chemistry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 69 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 70 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 71 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 72 Southern Southern NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 73 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 74 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 75 Los Los NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 76 Angeles Angeles NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 77 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 78 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 79 90089 90089 CD
work_hxktjt6jyrbxnn45gipdtu7aji 1 80 My -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 1 81 career career NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 82 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 83 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 1 84 taken take VBN
work_hxktjt6jyrbxnn45gipdtu7aji 1 85 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 86 circuitous circuitous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 1 87 route route NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 88 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 89 beginning begin VBG
work_hxktjt6jyrbxnn45gipdtu7aji 1 90 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 91 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 92 Ph.D. ph.d. NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 93 degree degree NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 94 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 95 electrical electrical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 1 96 engineering engineering NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 97 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 98 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 99 Johns Johns NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 100 Hopkins Hopkins NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 101 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 102 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 1 103 followed follow VBN
work_hxktjt6jyrbxnn45gipdtu7aji 1 104 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 105 five five CD
work_hxktjt6jyrbxnn45gipdtu7aji 1 106 postdoc- postdoc- NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 107 toral toral JJ
work_hxktjt6jyrbxnn45gipdtu7aji 1 108 years year NNS
work_hxktjt6jyrbxnn45gipdtu7aji 1 109 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 110 biology biology NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 111 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 112 Hopkins Hopkins NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 113 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 1 114 culminating culminate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 1 115 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 116 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 117 faculty faculty NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 118 position position NN
work_hxktjt6jyrbxnn45gipdtu7aji 1 119 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 120 biological biological JJ
work_hxktjt6jyrbxnn45gipdtu7aji 1 121 sciences science NNS
work_hxktjt6jyrbxnn45gipdtu7aji 1 122 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 123 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 1 124 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 125 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 1 126 Southern Southern NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 127 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 1 128 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 2 1 My -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 2 2 startup startup NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 3 package package NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 4 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 2 5 1973 1973 CD
work_hxktjt6jyrbxnn45gipdtu7aji 2 6 con- con- NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 7 sisted siste VBN
work_hxktjt6jyrbxnn45gipdtu7aji 2 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 2 9 $ $ $
work_hxktjt6jyrbxnn45gipdtu7aji 2 10 2,500 2,500 CD
work_hxktjt6jyrbxnn45gipdtu7aji 2 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 2 12 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 2 13 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 2 14 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 2 15 spent spend VBN
work_hxktjt6jyrbxnn45gipdtu7aji 2 16 all all RB
work_hxktjt6jyrbxnn45gipdtu7aji 2 17 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 2 18 once once RB
work_hxktjt6jyrbxnn45gipdtu7aji 2 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 2 20 plus plus CC
work_hxktjt6jyrbxnn45gipdtu7aji 2 21 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 2 22 ancient ancient JJ
work_hxktjt6jyrbxnn45gipdtu7aji 2 23 Packard packard NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 24 scintillation scintillation NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 25 counter counter NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 26 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 2 27 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 2 28 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 2 29 series series NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 2 31 rapidly rapidly RB
work_hxktjt6jyrbxnn45gipdtu7aji 2 32 flashing flash VBG
work_hxktjt6jyrbxnn45gipdtu7aji 2 33 light light JJ
work_hxktjt6jyrbxnn45gipdtu7aji 2 34 bulbs bulb NNS
work_hxktjt6jyrbxnn45gipdtu7aji 2 35 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 2 36 indicate indicate VB
work_hxktjt6jyrbxnn45gipdtu7aji 2 37 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 2 38 radioactive radioactive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 2 39 read- read- NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 40 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 2 41 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 2 42 counts count NNS
work_hxktjt6jyrbxnn45gipdtu7aji 2 43 / / SYM
work_hxktjt6jyrbxnn45gipdtu7aji 2 44 minute minute NN
work_hxktjt6jyrbxnn45gipdtu7aji 2 45 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 3 1 My -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 3 2 research research NN
work_hxktjt6jyrbxnn45gipdtu7aji 3 3 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 3 4 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 3 5 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 3 6 similarly similarly RB
work_hxktjt6jyrbxnn45gipdtu7aji 3 7 circuitous circuitous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 3 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 4 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 4 2 discov- discov- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 4 3 ery ery NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 4 5 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 4 6 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 4 7 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 8 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 9 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 4 11 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 4 12 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 4 13 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 4 14 began begin VBD
work_hxktjt6jyrbxnn45gipdtu7aji 4 15 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 4 16 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 4 17 attempt attempt NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 18 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 4 19 identify identify VB
work_hxktjt6jyrbxnn45gipdtu7aji 4 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 4 21 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 4 22 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 23 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 24 responsible responsible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 4 25 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 4 26 copying copy VBG
work_hxktjt6jyrbxnn45gipdtu7aji 4 27 damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 4 28 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 29 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 4 30 part part NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 4 32 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 4 33 well well RB
work_hxktjt6jyrbxnn45gipdtu7aji 4 34 known know VBN
work_hxktjt6jyrbxnn45gipdtu7aji 4 35 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 4 36 regulon regulon NN
work_hxktjt6jyrbxnn45gipdtu7aji 4 37 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 5 1 Although although IN
work_hxktjt6jyrbxnn45gipdtu7aji 5 2 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 5 3 succeeded succeed VBD
work_hxktjt6jyrbxnn45gipdtu7aji 5 4 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 5 5 identifying identify VBG
work_hxktjt6jyrbxnn45gipdtu7aji 5 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 5 7 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 8 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 5 10 one one NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 11 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 5 12 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 5 13 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 5 14 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 5 15 part part NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 16 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 5 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 5 18 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 5 19 response response NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 5 21 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 5 22 actually actually RB
work_hxktjt6jyrbxnn45gipdtu7aji 5 23 rediscovered rediscover VBD
work_hxktjt6jyrbxnn45gipdtu7aji 5 24 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 25 poly- poly- NNS
work_hxktjt6jyrbxnn45gipdtu7aji 5 26 merase merase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 5 27 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 5 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 5 29 albeit albeit IN
work_hxktjt6jyrbxnn45gipdtu7aji 5 30 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 5 31 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 5 32 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 5 33 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 5 34 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 6 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 6 2 decade decade NN
work_hxktjt6jyrbxnn45gipdtu7aji 6 3 later later RB
work_hxktjt6jyrbxnn45gipdtu7aji 6 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 6 5 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 6 6 discovered discover VBD
work_hxktjt6jyrbxnn45gipdtu7aji 6 7 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 6 8 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 6 9 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 6 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 6 11 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 6 12 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 6 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 6 14 whose whose WP$
work_hxktjt6jyrbxnn45gipdtu7aji 6 15 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 6 16 turned turn VBD
work_hxktjt6jyrbxnn45gipdtu7aji 6 17 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 6 18 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 6 19 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 6 20 regulated regulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 6 21 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 6 22 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 6 23 molecules molecule NNS
work_hxktjt6jyrbxnn45gipdtu7aji 6 24 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 6 25 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 6 26 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 6 27 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 6 28 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 6 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 7 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 7 2 Reflections Reflections NNP
work_hxktjt6jyrbxnn45gipdtu7aji 7 3 article article NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 4 describes describe VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 7 5 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 7 6 research research NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 7 trajectory trajectory NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 7 9 includes include VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 7 10 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 7 11 review review NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 7 13 key key JJ
work_hxktjt6jyrbxnn45gipdtu7aji 7 14 features feature NNS
work_hxktjt6jyrbxnn45gipdtu7aji 7 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 7 16 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 17 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 18 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 7 19 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 7 20 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 7 21 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 22 leading lead VBG
work_hxktjt6jyrbxnn45gipdtu7aji 7 23 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 7 24 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 7 25 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 7 26 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 7 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 7 28 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 7 29 reflects reflect VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 7 30 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 7 31 some some DT
work_hxktjt6jyrbxnn45gipdtu7aji 7 32 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 7 33 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 7 34 principal principal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 7 35 researchers researcher NNS
work_hxktjt6jyrbxnn45gipdtu7aji 7 36 who who WP
work_hxktjt6jyrbxnn45gipdtu7aji 7 37 have have VBP
work_hxktjt6jyrbxnn45gipdtu7aji 7 38 made make VBN
work_hxktjt6jyrbxnn45gipdtu7aji 7 39 indispensable indispensable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 7 40 contribu- contribu- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 7 41 tions tion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 7 42 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 7 43 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 7 44 efforts effort NNS
work_hxktjt6jyrbxnn45gipdtu7aji 7 45 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 8 1 N n CD
work_hxktjt6jyrbxnn45gipdtu7aji 8 2 ever ever RB
work_hxktjt6jyrbxnn45gipdtu7aji 8 3 having have VBG
work_hxktjt6jyrbxnn45gipdtu7aji 8 4 taken take VBN
work_hxktjt6jyrbxnn45gipdtu7aji 8 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 8 6 college college NN
work_hxktjt6jyrbxnn45gipdtu7aji 8 7 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 8 8 level level NN
work_hxktjt6jyrbxnn45gipdtu7aji 8 9 course course NN
work_hxktjt6jyrbxnn45gipdtu7aji 8 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 8 11 biology biology NN
work_hxktjt6jyrbxnn45gipdtu7aji 8 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 8 13 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 8 14 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 8 15 nonetheless nonetheless RB
work_hxktjt6jyrbxnn45gipdtu7aji 8 16 appointed appoint VBN
work_hxktjt6jyrbxnn45gipdtu7aji 8 17 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 8 18 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 8 19 assistant assistant JJ
work_hxktjt6jyrbxnn45gipdtu7aji 8 20 professor professor NN
work_hxktjt6jyrbxnn45gipdtu7aji 8 21 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 8 22 biological biological JJ
work_hxktjt6jyrbxnn45gipdtu7aji 8 23 sciences science NNS
work_hxktjt6jyrbxnn45gipdtu7aji 8 24 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 8 25 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 8 26 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 8 27 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 8 28 Southern Southern NNP
work_hxktjt6jyrbxnn45gipdtu7aji 8 29 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 8 30 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 8 31 1973 1973 CD
work_hxktjt6jyrbxnn45gipdtu7aji 8 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 9 1 My -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 9 2 undergraduate undergraduate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 9 3 training training NN
work_hxktjt6jyrbxnn45gipdtu7aji 9 4 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 9 5 Queens Queens NNP
work_hxktjt6jyrbxnn45gipdtu7aji 9 6 College College NNP
work_hxktjt6jyrbxnn45gipdtu7aji 9 7 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 9 8 Columbia Columbia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 9 9 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 9 10 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 9 11 primarily primarily RB
work_hxktjt6jyrbxnn45gipdtu7aji 9 12 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 9 13 physics physics NN
work_hxktjt6jyrbxnn45gipdtu7aji 9 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 9 15 electrical electrical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 9 16 engineering engineering NN
work_hxktjt6jyrbxnn45gipdtu7aji 9 17 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 10 1 My -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 10 2 Ph.D. ph.d. NN
work_hxktjt6jyrbxnn45gipdtu7aji 10 3 thesis thesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 10 4 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 5 electrical electrical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 10 6 engineer- engineer- NN
work_hxktjt6jyrbxnn45gipdtu7aji 10 7 ing e VBG
work_hxktjt6jyrbxnn45gipdtu7aji 10 8 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 9 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 10 10 Johns Johns NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 11 Hopkins Hopkins NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 12 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 13 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 10 14 entitled entitle VBN
work_hxktjt6jyrbxnn45gipdtu7aji 10 15 Selective Selective NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 16 Hydrolysis Hydrolysis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 18 Adenosine Adenosine NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 19 Triphos- Triphos- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 20 phate phate NN
work_hxktjt6jyrbxnn45gipdtu7aji 10 21 Resulting result VBG
work_hxktjt6jyrbxnn45gipdtu7aji 10 22 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 23 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 10 24 Absorption Absorption NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 25 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 26 Laser Laser NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 27 Light Light NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 28 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 29 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 10 30 Stretching stretching JJ
work_hxktjt6jyrbxnn45gipdtu7aji 10 31 Mode Mode NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 32 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 33 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 10 34 Terminal Terminal NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 35 Phosphate Phosphate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 36 Group Group NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 10 38 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 10 39 meant mean VBD
work_hxktjt6jyrbxnn45gipdtu7aji 10 40 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 41 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 10 42 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 43 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 10 44 very very RB
work_hxktjt6jyrbxnn45gipdtu7aji 10 45 least least JJS
work_hxktjt6jyrbxnn45gipdtu7aji 10 46 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 10 47 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 10 48 needed need VBD
work_hxktjt6jyrbxnn45gipdtu7aji 10 49 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 10 50 learn learn VB
work_hxktjt6jyrbxnn45gipdtu7aji 10 51 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 10 52 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 10 53 measure measure VB
work_hxktjt6jyrbxnn45gipdtu7aji 10 54 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 10 55 hydrolysis hydrolysis NN
work_hxktjt6jyrbxnn45gipdtu7aji 10 56 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 10 57 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 58 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 10 59 ADP ADP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 10 60 � � ,
work_hxktjt6jyrbxnn45gipdtu7aji 10 61 Pi pi NN
work_hxktjt6jyrbxnn45gipdtu7aji 10 62 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 11 1 Maurice Maurice NNP
work_hxktjt6jyrbxnn45gipdtu7aji 11 2 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 11 3 Moishe Moishe NNP
work_hxktjt6jyrbxnn45gipdtu7aji 11 4 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 11 5 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 11 6 Bessman Bessman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 11 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 11 8 Fig Fig NNP
work_hxktjt6jyrbxnn45gipdtu7aji 11 9 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 12 1 1 1 LS
work_hxktjt6jyrbxnn45gipdtu7aji 12 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 12 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 12 4 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 12 5 professor professor NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 12 7 biology biology NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 8 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 12 9 Hopkins Hopkins NNP
work_hxktjt6jyrbxnn45gipdtu7aji 12 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 12 11 provided provide VBD
work_hxktjt6jyrbxnn45gipdtu7aji 12 12 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 12 13 lab lab NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 14 bench bench NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 15 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 12 16 personalized personalized JJ
work_hxktjt6jyrbxnn45gipdtu7aji 12 17 instruction instruction NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 18 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 12 19 measuring measure VBG
work_hxktjt6jyrbxnn45gipdtu7aji 12 20 inorganic inorganic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 12 21 phosphate phosphate NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 22 release release NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 23 using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 12 24 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 12 25 Lowry Lowry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 12 26 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 12 27 Lopez Lopez NNP
work_hxktjt6jyrbxnn45gipdtu7aji 12 28 colorimetric colorimetric NN
work_hxktjt6jyrbxnn45gipdtu7aji 12 29 assay assay NNP
work_hxktjt6jyrbxnn45gipdtu7aji 12 30 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 13 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 13 2 intellectual intellectual JJ
work_hxktjt6jyrbxnn45gipdtu7aji 13 3 interest interest NN
work_hxktjt6jyrbxnn45gipdtu7aji 13 4 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 13 5 Moishe Moishe NNP
work_hxktjt6jyrbxnn45gipdtu7aji 13 6 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 13 7 lab lab NN
work_hxktjt6jyrbxnn45gipdtu7aji 13 8 focused focus VBD
work_hxktjt6jyrbxnn45gipdtu7aji 13 9 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 13 10 understand- understand- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 13 11 ing e VBG
work_hxktjt6jyrbxnn45gipdtu7aji 13 12 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 13 13 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 13 14 basis basis NN
work_hxktjt6jyrbxnn45gipdtu7aji 13 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 13 16 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 13 17 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 14 1 Their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 14 2 exciting exciting JJ
work_hxktjt6jyrbxnn45gipdtu7aji 14 3 studies study NNS
work_hxktjt6jyrbxnn45gipdtu7aji 14 4 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 5 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 6 synthesis synthesis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 7 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 8 using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 14 9 bacteriophage bacteriophage NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 10 T4 T4 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 11 mutator mutator NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 12 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 14 13 antimutator antimutator NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 14 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 15 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 14 16 proved prove VBD
work_hxktjt6jyrbxnn45gipdtu7aji 14 17 infectious infectious JJ
work_hxktjt6jyrbxnn45gipdtu7aji 14 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 14 19 so so RB
work_hxktjt6jyrbxnn45gipdtu7aji 14 20 much much RB
work_hxktjt6jyrbxnn45gipdtu7aji 14 21 so so IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 22 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 23 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 14 24 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 14 25 received receive VBD
work_hxktjt6jyrbxnn45gipdtu7aji 14 26 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 14 27 Ph.D. ph.d. NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 28 degree degree NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 29 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 30 electrical electrical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 14 31 engineering engineering NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 32 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 33 1968 1968 CD
work_hxktjt6jyrbxnn45gipdtu7aji 14 34 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 35 Hopkins Hopkins NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 14 37 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 38 lieu lieu NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 39 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 40 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 14 41 $ $ $
work_hxktjt6jyrbxnn45gipdtu7aji 14 42 30,000 30,000 CD
work_hxktjt6jyrbxnn45gipdtu7aji 14 43 salary salary NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 44 offer offer NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 45 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 46 Bell Bell NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 47 Labs Labs NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 14 48 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 14 49 Murray Murray NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 50 Hill Hill NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 51 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 14 52 New New NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 53 Jersey Jersey NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 54 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 14 55 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 14 56 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 14 57 chose choose VBD
work_hxktjt6jyrbxnn45gipdtu7aji 14 58 instead instead RB
work_hxktjt6jyrbxnn45gipdtu7aji 14 59 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 14 60 pursue pursue VB
work_hxktjt6jyrbxnn45gipdtu7aji 14 61 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 14 62 opportunity opportunity NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 63 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 14 64 learn learn VB
work_hxktjt6jyrbxnn45gipdtu7aji 14 65 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 14 66 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 14 67 more more RBR
work_hxktjt6jyrbxnn45gipdtu7aji 14 68 importantly importantly RB
work_hxktjt6jyrbxnn45gipdtu7aji 14 69 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 14 70 appreciate appreciate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 14 71 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 14 72 enzymology enzymology NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 73 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 74 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 14 75 postdoctoral postdoctoral JJ
work_hxktjt6jyrbxnn45gipdtu7aji 14 76 fellow fellow NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 77 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 78 Moishe Moishe NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 79 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 80 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 14 81 National National NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 82 Institutes Institutes NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 14 83 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 84 Health Health NNP
work_hxktjt6jyrbxnn45gipdtu7aji 14 85 fellowship fellowship NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 86 stipend stipend NN
work_hxktjt6jyrbxnn45gipdtu7aji 14 87 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 14 88 $ $ $
work_hxktjt6jyrbxnn45gipdtu7aji 14 89 6,500 6,500 CD
work_hxktjt6jyrbxnn45gipdtu7aji 14 90 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 15 1 From from IN
work_hxktjt6jyrbxnn45gipdtu7aji 15 2 1968 1968 CD
work_hxktjt6jyrbxnn45gipdtu7aji 15 3 onward onward RB
work_hxktjt6jyrbxnn45gipdtu7aji 15 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 15 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 15 6 study study NN
work_hxktjt6jyrbxnn45gipdtu7aji 15 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 15 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 15 9 polymerase polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 15 10 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 15 11 became become VBD
work_hxktjt6jyrbxnn45gipdtu7aji 15 12 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 15 13 enduring endure VBG
work_hxktjt6jyrbxnn45gipdtu7aji 15 14 interest interest NN
work_hxktjt6jyrbxnn45gipdtu7aji 15 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 16 1 THE the DT
work_hxktjt6jyrbxnn45gipdtu7aji 16 2 JOURNAL journal NN
work_hxktjt6jyrbxnn45gipdtu7aji 16 3 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 16 4 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 16 5 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 16 6 VOL VOL NNP
work_hxktjt6jyrbxnn45gipdtu7aji 16 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 17 1 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 17 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 17 3 NO no UH
work_hxktjt6jyrbxnn45gipdtu7aji 17 4 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 18 1 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 18 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 18 3 pp pp NNP
work_hxktjt6jyrbxnn45gipdtu7aji 18 4 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 19 1 26772–26782 26772–26782 LS
work_hxktjt6jyrbxnn45gipdtu7aji 19 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 19 3 September September NNP
work_hxktjt6jyrbxnn45gipdtu7aji 19 4 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 19 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 19 6 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 19 7 © © CD
work_hxktjt6jyrbxnn45gipdtu7aji 19 8 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 19 9 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 19 10 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 19 11 American American NNP
work_hxktjt6jyrbxnn45gipdtu7aji 19 12 Society Society NNP
work_hxktjt6jyrbxnn45gipdtu7aji 19 13 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 19 14 Biochemistry Biochemistry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 19 15 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 19 16 Molecular Molecular NNP
work_hxktjt6jyrbxnn45gipdtu7aji 19 17 Biology Biology NNP
work_hxktjt6jyrbxnn45gipdtu7aji 19 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 19 19 Inc. Inc. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 20 1 Published publish VBN
work_hxktjt6jyrbxnn45gipdtu7aji 20 2 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 20 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 20 4 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 20 5 26772 26772 CD
work_hxktjt6jyrbxnn45gipdtu7aji 20 6 JOURNAL JOURNAL NNP
work_hxktjt6jyrbxnn45gipdtu7aji 20 7 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 20 8 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 9 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 20 10 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 11 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 20 12 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 13 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 14 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 20 15 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 16 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 20 17 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 20 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 20 19 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 20 20 REFLECTIONS REFLECTIONS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 20 21 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 20 22 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 20 23 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 20 24 open open JJ
work_hxktjt6jyrbxnn45gipdtu7aji 20 25 access access NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 26 article article NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 27 under under IN
work_hxktjt6jyrbxnn45gipdtu7aji 20 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 20 29 CC cc NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 30 BY by IN
work_hxktjt6jyrbxnn45gipdtu7aji 20 31 license license NN
work_hxktjt6jyrbxnn45gipdtu7aji 20 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 21 1 http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/ ADD
work_hxktjt6jyrbxnn45gipdtu7aji 21 2 Mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 21 3 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 21 4 Worse bad JJR
work_hxktjt6jyrbxnn45gipdtu7aji 21 5 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 21 6 Better well JJR
work_hxktjt6jyrbxnn45gipdtu7aji 21 7 Mutations Mutations NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 21 8 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 21 9 almost almost RB
work_hxktjt6jyrbxnn45gipdtu7aji 21 10 always always RB
work_hxktjt6jyrbxnn45gipdtu7aji 21 11 bad bad JJ
work_hxktjt6jyrbxnn45gipdtu7aji 21 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 21 13 typically typically RB
work_hxktjt6jyrbxnn45gipdtu7aji 21 14 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 21 15 nega- nega- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 21 16 tive tive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 21 17 consequences consequence NNS
work_hxktjt6jyrbxnn45gipdtu7aji 21 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 21 19 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 21 20 all all DT
work_hxktjt6jyrbxnn45gipdtu7aji 21 21 forms form NNS
work_hxktjt6jyrbxnn45gipdtu7aji 21 22 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 21 23 life life NN
work_hxktjt6jyrbxnn45gipdtu7aji 21 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 22 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 22 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 22 3 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 22 4 can can MD
work_hxktjt6jyrbxnn45gipdtu7aji 22 5 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 22 6 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 22 7 good good JJ
work_hxktjt6jyrbxnn45gipdtu7aji 22 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 22 9 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 22 10 fact fact NN
work_hxktjt6jyrbxnn45gipdtu7aji 22 11 essential essential JJ
work_hxktjt6jyrbxnn45gipdtu7aji 22 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 22 13 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 22 14 serving serve VBG
work_hxktjt6jyrbxnn45gipdtu7aji 22 15 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 22 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 22 17 engine engine NN
work_hxktjt6jyrbxnn45gipdtu7aji 22 18 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 22 19 drives drive VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 22 20 evolution evolution NN
work_hxktjt6jyrbxnn45gipdtu7aji 22 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 23 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 23 2 specialized specialized JJ
work_hxktjt6jyrbxnn45gipdtu7aji 23 3 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 23 4 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 23 5 fam- fam- XX
work_hxktjt6jyrbxnn45gipdtu7aji 23 6 ily ily NNP
work_hxktjt6jyrbxnn45gipdtu7aji 23 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 23 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 23 9 Y Y NNP
work_hxktjt6jyrbxnn45gipdtu7aji 23 10 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 23 11 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 23 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 23 13 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 23 14 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 23 15 studied study VBN
work_hxktjt6jyrbxnn45gipdtu7aji 23 16 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 23 17 over over IN
work_hxktjt6jyrbxnn45gipdtu7aji 23 18 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 23 19 decade decade NN
work_hxktjt6jyrbxnn45gipdtu7aji 23 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 24 1 With with IN
work_hxktjt6jyrbxnn45gipdtu7aji 24 2 examples example NNS
work_hxktjt6jyrbxnn45gipdtu7aji 24 3 spanning span VBG
work_hxktjt6jyrbxnn45gipdtu7aji 24 4 bacteria bacteria NNS
work_hxktjt6jyrbxnn45gipdtu7aji 24 5 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 24 6 humans human NNS
work_hxktjt6jyrbxnn45gipdtu7aji 24 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 24 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 24 9 central central JJ
work_hxktjt6jyrbxnn45gipdtu7aji 24 10 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 11 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 24 12 Y y NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 24 14 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 15 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 24 16 appears appear VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 24 17 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 24 18 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 24 19 copying copy VBG
work_hxktjt6jyrbxnn45gipdtu7aji 24 20 past past IN
work_hxktjt6jyrbxnn45gipdtu7aji 24 21 damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 24 22 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 23 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 24 bases basis NNS
work_hxktjt6jyrbxnn45gipdtu7aji 24 25 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 24 26 block block NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 27 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 24 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 25 1 There there EX
work_hxktjt6jyrbxnn45gipdtu7aji 25 2 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 25 3 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 25 4 free free JJ
work_hxktjt6jyrbxnn45gipdtu7aji 25 5 lunch lunch NN
work_hxktjt6jyrbxnn45gipdtu7aji 25 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 25 7 however however RB
work_hxktjt6jyrbxnn45gipdtu7aji 25 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 25 9 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 25 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 25 11 costs cost NNS
work_hxktjt6jyrbxnn45gipdtu7aji 25 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 25 13 fully fully RB
work_hxktjt6jyrbxnn45gipdtu7aji 25 14 replicating replicate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 25 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 25 16 genome genome NN
work_hxktjt6jyrbxnn45gipdtu7aji 25 17 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 25 18 often often RB
work_hxktjt6jyrbxnn45gipdtu7aji 25 19 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 25 20 frequently frequently RB
work_hxktjt6jyrbxnn45gipdtu7aji 25 21 targeted target VBN
work_hxktjt6jyrbxnn45gipdtu7aji 25 22 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 25 23 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 25 24 sites site NNS
work_hxktjt6jyrbxnn45gipdtu7aji 25 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 25 26 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 25 27 occasionally occasionally RB
work_hxktjt6jyrbxnn45gipdtu7aji 25 28 occurring occur VBG
work_hxktjt6jyrbxnn45gipdtu7aji 25 29 within within IN
work_hxktjt6jyrbxnn45gipdtu7aji 25 30 undamaged undamaged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 25 31 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 25 32 regions region NNS
work_hxktjt6jyrbxnn45gipdtu7aji 25 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 26 1 These these DT
work_hxktjt6jyrbxnn45gipdtu7aji 26 2 Y Y NNP
work_hxktjt6jyrbxnn45gipdtu7aji 26 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 26 4 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 26 5 enzymes enzyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 26 6 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 26 7 referred refer VBN
work_hxktjt6jyrbxnn45gipdtu7aji 26 8 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 26 9 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 26 10 translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 26 11 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 26 12 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 26 13 TLS)1 tls)1 NN
work_hxktjt6jyrbxnn45gipdtu7aji 26 14 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 26 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 27 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 27 2 Reflec- Reflec- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 27 3 tions tion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 27 4 article article NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 5 describes describe VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 27 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 27 7 path path NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 8 leading lead VBG
work_hxktjt6jyrbxnn45gipdtu7aji 27 9 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 27 10 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 27 11 discovery discovery NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 27 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 27 14 Y Y NNP
work_hxktjt6jyrbxnn45gipdtu7aji 27 15 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 27 16 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 17 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 27 18 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 27 19 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 20 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 21 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 22 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 27 23 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 27 24 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 25 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 27 26 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 27 27 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 27 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 27 29 further further JJ
work_hxktjt6jyrbxnn45gipdtu7aji 27 30 discovery discovery NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 27 32 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 33 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 34 properties property NNS
work_hxktjt6jyrbxnn45gipdtu7aji 27 35 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 27 36 set set VBD
work_hxktjt6jyrbxnn45gipdtu7aji 27 37 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 27 38 apart apart RB
work_hxktjt6jyrbxnn45gipdtu7aji 27 39 even even RB
work_hxktjt6jyrbxnn45gipdtu7aji 27 40 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 27 41 other other JJ
work_hxktjt6jyrbxnn45gipdtu7aji 27 42 Y Y NNP
work_hxktjt6jyrbxnn45gipdtu7aji 27 43 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 27 44 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 27 45 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 27 46 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 28 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 2 path path NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 3 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 5 discovery discovery NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 7 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 8 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 9 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 28 10 closely closely RB
work_hxktjt6jyrbxnn45gipdtu7aji 28 11 linked link VBN
work_hxktjt6jyrbxnn45gipdtu7aji 28 12 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 13 more more JJR
work_hxktjt6jyrbxnn45gipdtu7aji 28 14 than than IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 15 sixty sixty CD
work_hxktjt6jyrbxnn45gipdtu7aji 28 16 years year NNS
work_hxktjt6jyrbxnn45gipdtu7aji 28 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 18 experiments experiment NNS
work_hxktjt6jyrbxnn45gipdtu7aji 28 19 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 28 20 concepts concept NNS
work_hxktjt6jyrbxnn45gipdtu7aji 28 21 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 22 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 23 area area NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 24 referred refer VBD
work_hxktjt6jyrbxnn45gipdtu7aji 28 25 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 26 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 27 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 28 28 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 29 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 30 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 28 31 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 28 32 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 33 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 34 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 28 35 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 28 36 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 37 logical logical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 28 38 place place NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 39 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 28 40 begin begin VB
work_hxktjt6jyrbxnn45gipdtu7aji 28 41 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 28 42 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 43 reflecting reflect VBG
work_hxktjt6jyrbxnn45gipdtu7aji 28 44 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 45 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 46 insights insight NNS
work_hxktjt6jyrbxnn45gipdtu7aji 28 47 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 28 48 revealed reveal VBD
work_hxktjt6jyrbxnn45gipdtu7aji 28 49 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 50 transcriptionally transcriptionally RB
work_hxktjt6jyrbxnn45gipdtu7aji 28 51 regulated regulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 28 52 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 53 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 28 54 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 28 55 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 56 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 57 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 58 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 59 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 60 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 28 61 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 28 62 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 63 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 64 regulon regulon NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 65 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 28 66 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 28 67 led lead VBD
work_hxktjt6jyrbxnn45gipdtu7aji 28 68 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 28 69 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 28 70 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 28 71 V. V. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 72 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 73 Origin Origin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 74 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 75 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 76 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 77 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 28 78 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 28 79 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 80 Repair Repair NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 81 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 82 year year NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 83 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 84 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 85 discovery discovery NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 86 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 87 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 88 structure structure NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 89 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 90 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 91 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 28 92 1953 1953 CD
work_hxktjt6jyrbxnn45gipdtu7aji 28 93 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 28 94 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 28 95 coincidentally coincidentally RB
work_hxktjt6jyrbxnn45gipdtu7aji 28 96 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 97 year year NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 98 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 28 99 Jean Jean NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 100 Weigle Weigle NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 101 made make VBD
work_hxktjt6jyrbxnn45gipdtu7aji 28 102 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 28 103 seminal seminal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 28 104 observation observation NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 105 showing show VBG
work_hxktjt6jyrbxnn45gipdtu7aji 28 106 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 107 bacteriophage bacteriophage NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 108 � � .
work_hxktjt6jyrbxnn45gipdtu7aji 28 109 can can MD
work_hxktjt6jyrbxnn45gipdtu7aji 28 110 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 28 111 revital- revital- RB
work_hxktjt6jyrbxnn45gipdtu7aji 28 112 ized ize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 28 113 after after IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 114 killing kill VBG
work_hxktjt6jyrbxnn45gipdtu7aji 28 115 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 28 116 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 28 117 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 28 118 light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 28 119 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 28 120 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 28 121 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 28 122 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 29 1 Although although IN
work_hxktjt6jyrbxnn45gipdtu7aji 29 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 29 3 word word NN
work_hxktjt6jyrbxnn45gipdtu7aji 29 4 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 29 5 seminal seminal NN
work_hxktjt6jyrbxnn45gipdtu7aji 29 6 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 29 7 tends tend VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 29 8 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 29 9 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 29 10 overused overuse VBN
work_hxktjt6jyrbxnn45gipdtu7aji 29 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 29 12 especially especially RB
work_hxktjt6jyrbxnn45gipdtu7aji 29 13 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 29 14 viewed view VBN
work_hxktjt6jyrbxnn45gipdtu7aji 29 15 alongside alongside IN
work_hxktjt6jyrbxnn45gipdtu7aji 29 16 Watson Watson NNP
work_hxktjt6jyrbxnn45gipdtu7aji 29 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 29 18 Crick Crick NNP
work_hxktjt6jyrbxnn45gipdtu7aji 29 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 29 20 Weigle Weigle NNP
work_hxktjt6jyrbxnn45gipdtu7aji 29 21 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 29 22 experiment experiment NN
work_hxktjt6jyrbxnn45gipdtu7aji 29 23 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 29 24 nevertheless nevertheless RB
work_hxktjt6jyrbxnn45gipdtu7aji 29 25 remarkable remarkable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 29 26 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 30 1 It -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 30 2 showed show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 30 3 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 30 4 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 30 5 light light JJ
work_hxktjt6jyrbxnn45gipdtu7aji 30 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 30 7 irradi- irradi- NN
work_hxktjt6jyrbxnn45gipdtu7aji 30 8 ated ate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 30 9 bacteriophage bacteriophage NN
work_hxktjt6jyrbxnn45gipdtu7aji 30 10 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 30 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 30 12 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 30 13 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 30 14 unable unable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 30 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 30 16 generate generate VB
work_hxktjt6jyrbxnn45gipdtu7aji 30 17 prog- prog- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 30 18 eny eny NN
work_hxktjt6jyrbxnn45gipdtu7aji 30 19 phage phage NN
work_hxktjt6jyrbxnn45gipdtu7aji 30 20 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 30 21 i.e. i.e. FW
work_hxktjt6jyrbxnn45gipdtu7aji 31 1 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 31 2 plaques plaque NNS
work_hxktjt6jyrbxnn45gipdtu7aji 31 3 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 31 4 infecting infect VBG
work_hxktjt6jyrbxnn45gipdtu7aji 31 5 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 31 6 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 31 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 31 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 31 9 did do VBD
work_hxktjt6jyrbxnn45gipdtu7aji 31 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 31 11 fact fact NN
work_hxktjt6jyrbxnn45gipdtu7aji 31 12 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 31 13 plaques plaque NNS
work_hxktjt6jyrbxnn45gipdtu7aji 31 14 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 31 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 31 16 infected infected JJ
work_hxktjt6jyrbxnn45gipdtu7aji 31 17 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 31 18 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 31 19 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 31 20 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 31 21 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 31 22 exposed expose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 31 23 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 31 24 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 31 25 light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 31 26 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 32 1 Weigle Weigle NNP
work_hxktjt6jyrbxnn45gipdtu7aji 32 2 further further RB
work_hxktjt6jyrbxnn45gipdtu7aji 32 3 found find VBD
work_hxktjt6jyrbxnn45gipdtu7aji 32 4 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 32 5 reactiva- reactiva- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 32 6 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 32 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 32 8 bacteriophage bacteriophage NN
work_hxktjt6jyrbxnn45gipdtu7aji 32 9 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 32 10 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 32 11 accompanied accompany VBN
work_hxktjt6jyrbxnn45gipdtu7aji 32 12 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 32 13 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 32 14 large large JJ
work_hxktjt6jyrbxnn45gipdtu7aji 32 15 increase increase NN
work_hxktjt6jyrbxnn45gipdtu7aji 32 16 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 32 17 phage phage NN
work_hxktjt6jyrbxnn45gipdtu7aji 32 18 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 32 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 32 20 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 32 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 32 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 33 1 During during IN
work_hxktjt6jyrbxnn45gipdtu7aji 33 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 33 3 late late JJ
work_hxktjt6jyrbxnn45gipdtu7aji 33 4 1960s 1960 NNS
work_hxktjt6jyrbxnn45gipdtu7aji 33 5 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 33 6 early early JJ
work_hxktjt6jyrbxnn45gipdtu7aji 33 7 1970s 1970 NNS
work_hxktjt6jyrbxnn45gipdtu7aji 33 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 33 9 genetic genetic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 33 10 studies study NNS
work_hxktjt6jyrbxnn45gipdtu7aji 33 11 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 33 12 Evelyn Evelyn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 33 13 Witkin Witkin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 33 14 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 33 15 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 33 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 34 1 2 2 LS
work_hxktjt6jyrbxnn45gipdtu7aji 34 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 34 3 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 34 4 instrumental instrumental JJ
work_hxktjt6jyrbxnn45gipdtu7aji 34 5 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 34 6 showing show VBG
work_hxktjt6jyrbxnn45gipdtu7aji 34 7 that that DT
work_hxktjt6jyrbxnn45gipdtu7aji 34 8 phage phage NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 9 reactivation reactivation NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 10 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 34 11 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 34 12 attributed attribute VBN
work_hxktjt6jyrbxnn45gipdtu7aji 34 13 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 34 14 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 34 15 presence presence NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 16 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 34 17 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 34 18 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 19 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 20 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 34 21 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 34 22 bacterial bacterial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 34 23 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 24 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 34 25 regulated regulate VBD
work_hxktjt6jyrbxnn45gipdtu7aji 34 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 34 27 transcription transcription NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 34 29 genes gene NNS
work_hxktjt6jyrbxnn45gipdtu7aji 34 30 designed design VBN
work_hxktjt6jyrbxnn45gipdtu7aji 34 31 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 34 32 repair repair VB
work_hxktjt6jyrbxnn45gipdtu7aji 34 33 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 34 34 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 34 35 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 34 36 chromosome chromosome NN
work_hxktjt6jyrbxnn45gipdtu7aji 34 37 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 34 38 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 34 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 34 40 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 34 41 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 34 42 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 35 1 While while IN
work_hxktjt6jyrbxnn45gipdtu7aji 35 2 eliminating eliminate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 35 3 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 4 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 5 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 35 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 35 7 bacterial bacterial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 35 8 chromosome chromosome NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 35 10 newly newly RB
work_hxktjt6jyrbxnn45gipdtu7aji 35 11 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 35 12 bacterial bacterial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 35 13 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 35 15 recombination recombination NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 16 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 35 17 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 35 18 repaired repair VBD
work_hxktjt6jyrbxnn45gipdtu7aji 35 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 35 20 phage phage NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 21 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 35 23 enabling enable VBG
work_hxktjt6jyrbxnn45gipdtu7aji 35 24 bacteriophage bacteriophage NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 25 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 35 26 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 35 27 generate generate VB
work_hxktjt6jyrbxnn45gipdtu7aji 35 28 progeny progeny NNP
work_hxktjt6jyrbxnn45gipdtu7aji 35 29 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 35 30 subse- subse- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 35 31 quently quently RB
work_hxktjt6jyrbxnn45gipdtu7aji 35 32 lyse lyse VB
work_hxktjt6jyrbxnn45gipdtu7aji 35 33 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 35 34 cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 35 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 36 1 Miroslav Miroslav NNP
work_hxktjt6jyrbxnn45gipdtu7aji 36 2 Radman Radman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 36 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 36 4 Fig Fig NNP
work_hxktjt6jyrbxnn45gipdtu7aji 36 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 37 1 2 2 LS
work_hxktjt6jyrbxnn45gipdtu7aji 37 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 37 3 proposed propose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 37 4 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 37 5 1974 1974 CD
work_hxktjt6jyrbxnn45gipdtu7aji 37 6 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 37 7 this this DT
work_hxktjt6jyrbxnn45gipdtu7aji 37 8 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 37 9 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 37 10 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 11 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 37 13 last last JJ
work_hxktjt6jyrbxnn45gipdtu7aji 37 14 resort resort NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 37 16 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 37 17 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 37 18 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 37 19 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 37 20 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 37 21 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 22 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 37 23 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 37 24 repair repair VB
work_hxktjt6jyrbxnn45gipdtu7aji 37 25 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 26 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 37 27 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 37 28 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 29 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 37 30 free free JJ
work_hxktjt6jyrbxnn45gipdtu7aji 37 31 manner manner NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 32 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 37 33 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 37 34 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 37 35 allow allow VB
work_hxktjt6jyrbxnn45gipdtu7aji 37 36 unrepaired unrepaired JJ
work_hxktjt6jyrbxnn45gipdtu7aji 37 37 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 37 38 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 37 39 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 37 40 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 37 41 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 37 42 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 37 43 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 44 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 37 45 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 37 46 process process NN
work_hxktjt6jyrbxnn45gipdtu7aji 37 47 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 37 48 4 4 CD
work_hxktjt6jyrbxnn45gipdtu7aji 37 49 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 37 50 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 38 1 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 38 2 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 38 3 lesions lesion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 38 4 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 38 5 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 38 6 normally normally RB
work_hxktjt6jyrbxnn45gipdtu7aji 38 7 block block VB
work_hxktjt6jyrbxnn45gipdtu7aji 38 8 repli- repli- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 38 9 cation cation NNP
work_hxktjt6jyrbxnn45gipdtu7aji 38 10 fork fork NNP
work_hxktjt6jyrbxnn45gipdtu7aji 38 11 progression progression NNP
work_hxktjt6jyrbxnn45gipdtu7aji 38 12 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 38 13 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 38 14 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 38 15 via via IN
work_hxktjt6jyrbxnn45gipdtu7aji 38 16 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 38 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 38 18 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 38 19 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 38 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 38 21 cost cost NN
work_hxktjt6jyrbxnn45gipdtu7aji 38 22 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 38 23 causing cause VBG
work_hxktjt6jyrbxnn45gipdtu7aji 38 24 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 38 25 targeted target VBN
work_hxktjt6jyrbxnn45gipdtu7aji 38 26 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 38 27 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 38 28 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 38 29 lesions lesion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 38 30 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 38 31 elsewhere elsewhere RB
work_hxktjt6jyrbxnn45gipdtu7aji 38 32 as as RB
work_hxktjt6jyrbxnn45gipdtu7aji 38 33 well well RB
work_hxktjt6jyrbxnn45gipdtu7aji 38 34 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 39 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 39 2 genetic genetic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 39 3 locus locus NN
work_hxktjt6jyrbxnn45gipdtu7aji 39 4 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 39 5 identi- identi- NN
work_hxktjt6jyrbxnn45gipdtu7aji 39 6 fied fie VBN
work_hxktjt6jyrbxnn45gipdtu7aji 39 7 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 39 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 39 9 late late JJ
work_hxktjt6jyrbxnn45gipdtu7aji 39 10 1970s 1970 NNS
work_hxktjt6jyrbxnn45gipdtu7aji 39 11 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 39 12 fit fit VBP
work_hxktjt6jyrbxnn45gipdtu7aji 39 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 39 14 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 39 15 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 39 16 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 39 17 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 39 18 envi- envi- NNS
work_hxktjt6jyrbxnn45gipdtu7aji 39 19 sioned sione VBN
work_hxktjt6jyrbxnn45gipdtu7aji 39 20 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 39 21 Radman Radman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 39 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 39 23 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 39 24 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 39 25 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 39 26 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 39 27 umu umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 39 28 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 39 29 locus locus NN
work_hxktjt6jyrbxnn45gipdtu7aji 39 30 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 39 31 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 39 32 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 39 33 6 6 CD
work_hxktjt6jyrbxnn45gipdtu7aji 39 34 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 39 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 40 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 40 2 locus locus NN
work_hxktjt6jyrbxnn45gipdtu7aji 40 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 40 4 so so RB
work_hxktjt6jyrbxnn45gipdtu7aji 40 5 named name VBN
work_hxktjt6jyrbxnn45gipdtu7aji 40 6 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 40 7 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 40 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 40 9 umu umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 40 10 genes gene NNS
work_hxktjt6jyrbxnn45gipdtu7aji 40 11 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 40 12 mutated mutate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 40 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 40 14 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 40 15 radiation radiation NN
work_hxktjt6jyrbxnn45gipdtu7aji 40 16 did do VBD
work_hxktjt6jyrbxnn45gipdtu7aji 40 17 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 40 18 produce produce VB
work_hxktjt6jyrbxnn45gipdtu7aji 40 19 chromo- chromo- NN
work_hxktjt6jyrbxnn45gipdtu7aji 40 20 somal somal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 40 21 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 40 22 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 40 23 excess excess NN
work_hxktjt6jyrbxnn45gipdtu7aji 40 24 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 40 25 spontaneous spontaneous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 40 26 background background NN
work_hxktjt6jyrbxnn45gipdtu7aji 40 27 levels level NNS
work_hxktjt6jyrbxnn45gipdtu7aji 40 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 41 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 41 2 locus locus NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 41 4 subsequently subsequently RB
work_hxktjt6jyrbxnn45gipdtu7aji 41 5 shown show VBN
work_hxktjt6jyrbxnn45gipdtu7aji 41 6 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 41 7 encode encode VB
work_hxktjt6jyrbxnn45gipdtu7aji 41 8 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 41 9 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 41 10 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 41 11 abbreviations abbreviation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 41 12 used use VBN
work_hxktjt6jyrbxnn45gipdtu7aji 41 13 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 41 14 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 41 15 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 41 17 translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 18 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 19 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 41 20 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 21 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 22 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 41 23 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 24 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 25 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 26 ; ; ,
work_hxktjt6jyrbxnn45gipdtu7aji 41 27 ssDNA ssdna JJ
work_hxktjt6jyrbxnn45gipdtu7aji 41 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 41 29 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 41 30 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 41 31 stranded strand VBN
work_hxktjt6jyrbxnn45gipdtu7aji 41 32 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 33 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 41 34 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 35 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 36 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 41 38 pol pol VBP
work_hxktjt6jyrbxnn45gipdtu7aji 41 39 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 41 40 holoen- holoen- FW
work_hxktjt6jyrbxnn45gipdtu7aji 41 41 zyme zyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 41 42 complex complex JJ
work_hxktjt6jyrbxnn45gipdtu7aji 41 43 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 41 44 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 45 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 46 S S NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 47 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 41 48 adenosine adenosine NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 49 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 41 50 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 51 -O-(thiotriphosphate -o-(thiotriphosphate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 41 52 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 41 53 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 41 54 MALS MALS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 41 55 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 41 56 multiangle multiangle NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 57 light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 41 58 scattering scatter VBG
work_hxktjt6jyrbxnn45gipdtu7aji 41 59 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 42 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 42 2 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 42 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 43 1 Maurice Maurice NNP
work_hxktjt6jyrbxnn45gipdtu7aji 43 2 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 43 3 Bessman Bessman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 43 4 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 43 5 1973 1973 CD
work_hxktjt6jyrbxnn45gipdtu7aji 43 6 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 43 7 shown show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 43 8 brewing brew VBG
work_hxktjt6jyrbxnn45gipdtu7aji 43 9 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 43 10 cup cup NN
work_hxktjt6jyrbxnn45gipdtu7aji 43 11 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 43 12 joe joe NNP
work_hxktjt6jyrbxnn45gipdtu7aji 43 13 bearing bear VBG
work_hxktjt6jyrbxnn45gipdtu7aji 43 14 his -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 43 15 initials initial NNS
work_hxktjt6jyrbxnn45gipdtu7aji 43 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 43 17 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 43 18 MJB MJB NNP
work_hxktjt6jyrbxnn45gipdtu7aji 43 19 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 43 20 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 43 21 see see VB
work_hxktjt6jyrbxnn45gipdtu7aji 43 22 coffee coffee NN
work_hxktjt6jyrbxnn45gipdtu7aji 43 23 label label NN
work_hxktjt6jyrbxnn45gipdtu7aji 43 24 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 43 25 rear rear NNP
work_hxktjt6jyrbxnn45gipdtu7aji 43 26 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 43 27 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 44 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 44 2 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 44 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 45 1 Miroslav Miroslav NNP
work_hxktjt6jyrbxnn45gipdtu7aji 45 2 Radman Radman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 45 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 45 4 left left RB
work_hxktjt6jyrbxnn45gipdtu7aji 45 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 45 6 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 45 7 Evelyn Evelyn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 45 8 Witkin Witkin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 45 9 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 45 10 right right UH
work_hxktjt6jyrbxnn45gipdtu7aji 45 11 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 45 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 45 13 Paris Paris NNP
work_hxktjt6jyrbxnn45gipdtu7aji 45 14 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 45 15 2012 2012 CD
work_hxktjt6jyrbxnn45gipdtu7aji 45 16 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 45 17 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 46 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 46 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 46 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 46 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 46 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 46 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 11 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 12 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 46 14 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 15 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 21 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 46 22 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 46 23 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 24 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 25 26773 26773 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 26 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 46 27 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 46 28 regulated regulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 46 29 genes gene NNS
work_hxktjt6jyrbxnn45gipdtu7aji 46 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 46 31 umuC umuC NNS
work_hxktjt6jyrbxnn45gipdtu7aji 46 32 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 46 33 umuD umud JJ
work_hxktjt6jyrbxnn45gipdtu7aji 46 34 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 46 35 7 7 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 46 37 8) 8) CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 38 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 46 39 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 46 40 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 46 41 used use VBN
work_hxktjt6jyrbxnn45gipdtu7aji 46 42 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 46 43 form form VB
work_hxktjt6jyrbxnn45gipdtu7aji 46 44 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 45 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 46 46 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 46 47 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 46 48 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 46 49 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 47 1 Two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 47 2 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 47 3 regulate regulate VBP
work_hxktjt6jyrbxnn45gipdtu7aji 47 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 47 5 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 47 6 response response NN
work_hxktjt6jyrbxnn45gipdtu7aji 47 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 47 8 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 47 9 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 47 10 RecA. reca. XX
work_hxktjt6jyrbxnn45gipdtu7aji 48 1 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 48 2 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 48 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 48 4 repressor repressor NN
work_hxktjt6jyrbxnn45gipdtu7aji 48 5 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 48 6 binds bind NNS
work_hxktjt6jyrbxnn45gipdtu7aji 48 7 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 48 8 more more JJR
work_hxktjt6jyrbxnn45gipdtu7aji 48 9 than than IN
work_hxktjt6jyrbxnn45gipdtu7aji 48 10 40 40 CD
work_hxktjt6jyrbxnn45gipdtu7aji 48 11 oper- oper- NN
work_hxktjt6jyrbxnn45gipdtu7aji 48 12 ators ator NNS
work_hxktjt6jyrbxnn45gipdtu7aji 48 13 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 48 14 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 48 15 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 48 16 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 48 17 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 48 18 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 48 19 regulon regulon NN
work_hxktjt6jyrbxnn45gipdtu7aji 48 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 49 1 Each each DT
work_hxktjt6jyrbxnn45gipdtu7aji 49 2 opera- opera- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 49 3 tor tor NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 4 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 49 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 49 6 consensus consensus NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 7 LexA lexa NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 8 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 49 9 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 49 10 sequence sequence NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 49 12 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 49 13 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 49 14 different different JJ
work_hxktjt6jyrbxnn45gipdtu7aji 49 15 neighboring neighboring NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 16 sequences sequence NNS
work_hxktjt6jyrbxnn45gipdtu7aji 49 17 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 49 18 determine determine VBP
work_hxktjt6jyrbxnn45gipdtu7aji 49 19 repres- repres- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 49 20 sor sor NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 21 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 49 22 operator operator NN
work_hxktjt6jyrbxnn45gipdtu7aji 49 23 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 49 24 affinities affinity NNS
work_hxktjt6jyrbxnn45gipdtu7aji 49 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 50 1 Early early JJ
work_hxktjt6jyrbxnn45gipdtu7aji 50 2 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 50 3 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 50 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 50 5 e.g. e.g. RB
work_hxktjt6jyrbxnn45gipdtu7aji 51 1 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 2 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 51 3 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 4 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 51 5 min min NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 6 post post NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 7 - - NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 8 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 9 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 51 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 51 11 accompanies accompany VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 51 12 weak weak JJ
work_hxktjt6jyrbxnn45gipdtu7aji 51 13 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 51 14 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 51 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 51 16 whereas whereas IN
work_hxktjt6jyrbxnn45gipdtu7aji 51 17 late late JJ
work_hxktjt6jyrbxnn45gipdtu7aji 51 18 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 51 19 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 51 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 51 21 e.g. e.g. RB
work_hxktjt6jyrbxnn45gipdtu7aji 52 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 52 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 52 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 52 4 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 52 5 45 45 CD
work_hxktjt6jyrbxnn45gipdtu7aji 52 6 min min NNP
work_hxktjt6jyrbxnn45gipdtu7aji 52 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 52 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 52 9 results result NNS
work_hxktjt6jyrbxnn45gipdtu7aji 52 10 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 52 11 strong strong JJ
work_hxktjt6jyrbxnn45gipdtu7aji 52 12 LexA lexa NN
work_hxktjt6jyrbxnn45gipdtu7aji 52 13 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 52 14 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 52 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 52 16 umuDC umudc ADD
work_hxktjt6jyrbxnn45gipdtu7aji 52 17 operon operon NNP
work_hxktjt6jyrbxnn45gipdtu7aji 52 18 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 53 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 53 2 late late JJ
work_hxktjt6jyrbxnn45gipdtu7aji 53 3 appearance appearance NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 53 5 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 53 6 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 53 7 provides provide VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 53 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 53 9 cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 10 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 53 11 early early JJ
work_hxktjt6jyrbxnn45gipdtu7aji 53 12 temporal temporal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 53 13 window window NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 53 15 feature feature NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 16 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 17 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 53 18 free free JJ
work_hxktjt6jyrbxnn45gipdtu7aji 53 19 ways way NNS
work_hxktjt6jyrbxnn45gipdtu7aji 53 20 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 53 21 excise excise VB
work_hxktjt6jyrbxnn45gipdtu7aji 53 22 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 23 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 24 involving involve VBG
work_hxktjt6jyrbxnn45gipdtu7aji 53 25 base base NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 26 excision excision NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 53 28 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 53 29 excision excision NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 53 31 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 53 32 homologous homologous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 53 33 recombination recombination NN
work_hxktjt6jyrbxnn45gipdtu7aji 53 34 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 54 1 At at IN
work_hxktjt6jyrbxnn45gipdtu7aji 54 2 later later JJ
work_hxktjt6jyrbxnn45gipdtu7aji 54 3 times time NNS
work_hxktjt6jyrbxnn45gipdtu7aji 54 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 54 5 chromo- chromo- XX
work_hxktjt6jyrbxnn45gipdtu7aji 54 6 somal somal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 54 7 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 54 8 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 54 9 remains remain VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 54 10 unrepaired unrepaired JJ
work_hxktjt6jyrbxnn45gipdtu7aji 54 11 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 54 12 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 54 13 subjected subject VBN
work_hxktjt6jyrbxnn45gipdtu7aji 54 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 54 15 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 54 16 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 54 17 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 54 18 catalyzed catalyzed JJ
work_hxktjt6jyrbxnn45gipdtu7aji 54 19 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 54 20 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 54 21 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 54 22 last last JJ
work_hxktjt6jyrbxnn45gipdtu7aji 54 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 54 24 ditch ditch NN
work_hxktjt6jyrbxnn45gipdtu7aji 54 25 effort effort NN
work_hxktjt6jyrbxnn45gipdtu7aji 54 26 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 54 27 restart restart VB
work_hxktjt6jyrbxnn45gipdtu7aji 54 28 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 54 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 55 1 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 55 2 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 55 3 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 55 4 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 55 5 rapidly rapidly RB
work_hxktjt6jyrbxnn45gipdtu7aji 55 6 following follow VBG
work_hxktjt6jyrbxnn45gipdtu7aji 55 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 55 8 exposure exposure NN
work_hxktjt6jyrbxnn45gipdtu7aji 55 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 55 10 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 55 11 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 55 12 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 55 13 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 55 14 radiation radiation NN
work_hxktjt6jyrbxnn45gipdtu7aji 55 15 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 55 16 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 55 17 chemicals chemical NNS
work_hxktjt6jyrbxnn45gipdtu7aji 55 18 that that DT
work_hxktjt6jyrbxnn45gipdtu7aji 55 19 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 55 20 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 55 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 56 1 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 56 2 assembles assemble NNS
work_hxktjt6jyrbxnn45gipdtu7aji 56 3 cooperatively cooperatively RB
work_hxktjt6jyrbxnn45gipdtu7aji 56 4 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 56 5 regions region NNS
work_hxktjt6jyrbxnn45gipdtu7aji 56 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 56 7 single- single- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 56 8 stranded strand VBN
work_hxktjt6jyrbxnn45gipdtu7aji 56 9 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 56 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 56 11 ssDNA ssDNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 56 12 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 56 13 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 56 14 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 56 15 presence presence NN
work_hxktjt6jyrbxnn45gipdtu7aji 56 16 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 56 17 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 56 18 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 56 19 form form VB
work_hxktjt6jyrbxnn45gipdtu7aji 56 20 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 56 21 nucleoprotein nucleoprotein JJ
work_hxktjt6jyrbxnn45gipdtu7aji 56 22 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 56 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 56 24 often often RB
work_hxktjt6jyrbxnn45gipdtu7aji 56 25 referred refer VBD
work_hxktjt6jyrbxnn45gipdtu7aji 56 26 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 56 27 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 56 28 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 56 29 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 56 30 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 57 1 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 57 2 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 57 3 plays play VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 57 4 so so RB
work_hxktjt6jyrbxnn45gipdtu7aji 57 5 many many JJ
work_hxktjt6jyrbxnn45gipdtu7aji 57 6 different different JJ
work_hxktjt6jyrbxnn45gipdtu7aji 57 7 roles role NNS
work_hxktjt6jyrbxnn45gipdtu7aji 57 8 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 57 9 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 57 10 so so RB
work_hxktjt6jyrbxnn45gipdtu7aji 57 11 important important JJ
work_hxktjt6jyrbxnn45gipdtu7aji 57 12 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 57 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 57 14 cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 15 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 57 16 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 57 17 sometimes sometimes RB
work_hxktjt6jyrbxnn45gipdtu7aji 57 18 present present VBP
work_hxktjt6jyrbxnn45gipdtu7aji 57 19 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 57 20 tongue tongue NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 21 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 57 22 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 57 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 57 24 cheek cheek NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 25 seminar seminar NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 26 slide slide NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 27 listing list VBG
work_hxktjt6jyrbxnn45gipdtu7aji 57 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 57 29 three three CD
work_hxktjt6jyrbxnn45gipdtu7aji 57 30 most most JJS
work_hxktjt6jyrbxnn45gipdtu7aji 57 31 salient salient NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 32 aspects aspect NNS
work_hxktjt6jyrbxnn45gipdtu7aji 57 33 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 57 34 life life NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 35 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 57 36 death death NN
work_hxktjt6jyrbxnn45gipdtu7aji 57 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 57 38 taxes taxis NNS
work_hxktjt6jyrbxnn45gipdtu7aji 57 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 57 40 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 57 41 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 57 42 nucleoprotein nucleoprotein NNP
work_hxktjt6jyrbxnn45gipdtu7aji 57 43 filaments filament NNS
work_hxktjt6jyrbxnn45gipdtu7aji 57 44 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 58 1 Roles role NNS
work_hxktjt6jyrbxnn45gipdtu7aji 58 2 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 3 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 58 4 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 58 5 include include VBP
work_hxktjt6jyrbxnn45gipdtu7aji 58 6 initiating initiate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 58 7 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 8 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 9 invasion invasion NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 10 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 11 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 58 12 first first JJ
work_hxktjt6jyrbxnn45gipdtu7aji 58 13 step step NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 14 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 15 homologous homologous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 58 16 recombination recombination NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 17 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 58 18 10 10 CD
work_hxktjt6jyrbxnn45gipdtu7aji 58 19 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 58 20 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 58 21 serving serve VBG
work_hxktjt6jyrbxnn45gipdtu7aji 58 22 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 23 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 58 24 copro- copro- NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 25 tease tease NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 26 facilitating facilitate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 58 27 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 58 28 autocatalytic autocatalytic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 58 29 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 31 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 58 32 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 58 33 repressor repressor NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 34 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 58 35 induce induce VB
work_hxktjt6jyrbxnn45gipdtu7aji 58 36 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 58 37 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 58 38 response response NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 39 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 58 40 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 58 41 similarly similarly RB
work_hxktjt6jyrbxnn45gipdtu7aji 58 42 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 58 43 facil- facil- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 58 44 itating itate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 58 45 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 46 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 47 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 58 48 UmuD2 UmuD2 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 58 49 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 50 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 58 51 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 58 52 shorter short JJR
work_hxktjt6jyrbxnn45gipdtu7aji 58 53 muta- muta- NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 54 genically genically RB
work_hxktjt6jyrbxnn45gipdtu7aji 58 55 active active JJ
work_hxktjt6jyrbxnn45gipdtu7aji 58 56 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 58 57 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 58 58 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 58 59 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 58 60 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 58 61 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 58 62 11–13 11–13 CD
work_hxktjt6jyrbxnn45gipdtu7aji 58 63 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 58 64 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 59 1 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 59 2 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 59 3 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 59 4 interacts interact NNS
work_hxktjt6jyrbxnn45gipdtu7aji 59 5 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 59 6 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 59 7 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 59 8 form form VB
work_hxktjt6jyrbxnn45gipdtu7aji 59 9 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 59 10 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 59 11 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 59 12 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 59 13 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 59 14 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 59 15 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 59 16 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 59 17 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 59 18 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 59 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 60 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 3 copies copy NNS
work_hxktjt6jyrbxnn45gipdtu7aji 60 4 undamaged undamaged NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 5 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 60 7 performs perform VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 60 8 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 9 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 60 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 60 11 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 60 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 60 13 any any DT
work_hxktjt6jyrbxnn45gipdtu7aji 60 14 other other JJ
work_hxktjt6jyrbxnn45gipdtu7aji 60 15 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 16 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 60 17 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 18 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 60 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 60 20 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 60 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 60 22 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 60 23 only only RB
work_hxktjt6jyrbxnn45gipdtu7aji 60 24 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 60 25 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 60 26 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 60 27 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 60 28 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 60 29 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 60 30 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 60 31 reaction reaction NN
work_hxktjt6jyrbxnn45gipdtu7aji 60 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 61 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 61 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 61 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 61 4 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 61 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 61 6 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 61 7 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 61 8 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 61 9 14 14 CD
work_hxktjt6jyrbxnn45gipdtu7aji 61 10 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 61 11 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 61 12 minimal minimal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 61 13 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 61 14 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 61 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 61 16 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 61 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 61 18 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 61 19 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 61 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 62 1 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 2 2009 2009 CD
work_hxktjt6jyrbxnn45gipdtu7aji 62 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 62 4 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 62 5 determined determine VBD
work_hxktjt6jyrbxnn45gipdtu7aji 62 6 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 62 8 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 10 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 11 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 62 12 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 62 13 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 62 14 transfer transfer VB
work_hxktjt6jyrbxnn45gipdtu7aji 62 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 62 16 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 17 monomer monomer NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 18 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 62 20 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 62 21 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 22 -end -end ,
work_hxktjt6jyrbxnn45gipdtu7aji 62 23 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 24 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 62 25 nucleoprotein nucleoprotein NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 26 fil- fil- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 27 ament ament NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 62 29 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 62 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 62 31 along along IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 32 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 33 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 62 34 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 35 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 36 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 62 38 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 62 39 activates activate VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 62 40 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 62 41 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 42 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 43 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 44 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 62 45 mutasome mutasome JJ
work_hxktjt6jyrbxnn45gipdtu7aji 62 46 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 47 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 62 48 designated designate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 62 49 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 62 50 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 51 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 52 Mut mut NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 53 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 62 54 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 55 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 56 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 62 57 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 62 58 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 59 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 62 60 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 62 61 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 62 62 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 62 63 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 62 64 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 62 65 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 63 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 63 2 Separate separate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 63 3 Role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 63 4 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 63 5 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 63 6 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 63 7 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 63 8 Mutagenesis Mutagenesis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 63 9 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 63 10 1989 1989 CD
work_hxktjt6jyrbxnn45gipdtu7aji 63 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 63 12 Raymond Raymond NNP
work_hxktjt6jyrbxnn45gipdtu7aji 63 13 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 63 14 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 63 15 Fig Fig NNP
work_hxktjt6jyrbxnn45gipdtu7aji 63 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 64 1 3 3 LS
work_hxktjt6jyrbxnn45gipdtu7aji 64 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 64 3 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 64 4 colleagues colleague NNS
work_hxktjt6jyrbxnn45gipdtu7aji 64 5 iden- iden- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 64 6 tified tifie VBD
work_hxktjt6jyrbxnn45gipdtu7aji 64 7 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 64 8 recA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 64 9 mutant mutant NN
work_hxktjt6jyrbxnn45gipdtu7aji 64 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 64 11 originally originally RB
work_hxktjt6jyrbxnn45gipdtu7aji 64 12 named name VBN
work_hxktjt6jyrbxnn45gipdtu7aji 64 13 recA1730 recA1730 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 64 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 64 15 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 64 16 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 64 17 now now RB
work_hxktjt6jyrbxnn45gipdtu7aji 64 18 know know VBP
work_hxktjt6jyrbxnn45gipdtu7aji 64 19 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 64 20 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 64 21 recA(S117F reca(s117f ADD
work_hxktjt6jyrbxnn45gipdtu7aji 64 22 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 64 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 64 24 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 64 25 abolished abolish VBD
work_hxktjt6jyrbxnn45gipdtu7aji 64 26 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 64 27 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 64 28 entirely entirely RB
work_hxktjt6jyrbxnn45gipdtu7aji 64 29 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 64 30 16 16 CD
work_hxktjt6jyrbxnn45gipdtu7aji 64 31 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 64 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 65 1 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 65 2 light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 65 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 65 4 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 65 5 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 65 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 65 7 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 65 8 typically typically RB
work_hxktjt6jyrbxnn45gipdtu7aji 65 9 increased increase VBD
work_hxktjt6jyrbxnn45gipdtu7aji 65 10 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 65 11 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 65 12 100-fold 100-fold CD
work_hxktjt6jyrbxnn45gipdtu7aji 65 13 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 65 14 wild wild JJ
work_hxktjt6jyrbxnn45gipdtu7aji 65 15 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 65 16 type type NN
work_hxktjt6jyrbxnn45gipdtu7aji 65 17 recA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 65 18 cells cell NNS
work_hxktjt6jyrbxnn45gipdtu7aji 65 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 65 20 remained remain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 65 21 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 65 22 spontaneous spontaneous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 65 23 background background NN
work_hxktjt6jyrbxnn45gipdtu7aji 65 24 levels level NNS
work_hxktjt6jyrbxnn45gipdtu7aji 65 25 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 65 26 recA1730 reca1730 NN
work_hxktjt6jyrbxnn45gipdtu7aji 65 27 cells cell NNS
work_hxktjt6jyrbxnn45gipdtu7aji 65 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 66 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 66 2 other other JJ
work_hxktjt6jyrbxnn45gipdtu7aji 66 3 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 66 4 functions function NNS
work_hxktjt6jyrbxnn45gipdtu7aji 66 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 66 6 including include VBG
work_hxktjt6jyrbxnn45gipdtu7aji 66 7 homologous homologous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 66 8 recombination recombination NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 66 10 conversion conversion NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 11 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 66 12 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 66 13 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 66 14 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 66 15 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 66 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 66 17 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 18 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 66 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 66 20 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 66 21 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 66 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 66 24 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 25 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 66 26 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 66 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 66 28 all all DT
work_hxktjt6jyrbxnn45gipdtu7aji 66 29 occurred occur VBD
work_hxktjt6jyrbxnn45gipdtu7aji 66 30 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 66 31 cells cell NNS
work_hxktjt6jyrbxnn45gipdtu7aji 66 32 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 66 33 overexpressed overexpresse VBD
work_hxktjt6jyrbxnn45gipdtu7aji 66 34 RecA(S117F reca(s117f NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 35 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 66 36 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 66 37 16 16 CD
work_hxktjt6jyrbxnn45gipdtu7aji 66 38 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 66 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 66 40 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 66 41 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 66 42 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 66 43 did do VBD
work_hxktjt6jyrbxnn45gipdtu7aji 66 44 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 66 45 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 67 1 Therefore therefore RB
work_hxktjt6jyrbxnn45gipdtu7aji 67 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 67 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 67 4 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 67 5 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 67 6 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 67 7 light light RB
work_hxktjt6jyrbxnn45gipdtu7aji 67 8 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 67 9 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 67 10 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 67 11 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 67 12 this this DT
work_hxktjt6jyrbxnn45gipdtu7aji 67 13 recA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 67 14 mutant mutant JJ
work_hxktjt6jyrbxnn45gipdtu7aji 67 15 background background NN
work_hxktjt6jyrbxnn45gipdtu7aji 67 16 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 67 17 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 67 18 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 67 19 attributed attribute VBN
work_hxktjt6jyrbxnn45gipdtu7aji 67 20 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 67 21 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 67 22 seemingly seemingly RB
work_hxktjt6jyrbxnn45gipdtu7aji 67 23 obvi- obvi- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 67 24 ous ous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 67 25 reason reason NN
work_hxktjt6jyrbxnn45gipdtu7aji 67 26 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 67 27 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 67 28 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 67 29 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 67 30 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 67 31 turned turn VBN
work_hxktjt6jyrbxnn45gipdtu7aji 67 32 on on RP
work_hxktjt6jyrbxnn45gipdtu7aji 67 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 68 1 Instead instead RB
work_hxktjt6jyrbxnn45gipdtu7aji 68 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 68 3 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 68 4 must must MD
work_hxktjt6jyrbxnn45gipdtu7aji 68 5 possess possess VB
work_hxktjt6jyrbxnn45gipdtu7aji 68 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 68 7 separate separate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 68 8 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 68 9 function function NN
work_hxktjt6jyrbxnn45gipdtu7aji 68 10 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 69 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 69 2 identifi- identifi- NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 3 cation cation NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 69 5 this this DT
work_hxktjt6jyrbxnn45gipdtu7aji 69 6 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 69 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 69 8 function function NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 69 10 especially especially RB
work_hxktjt6jyrbxnn45gipdtu7aji 69 11 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 69 12 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 69 13 connec- connec- NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 14 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 69 16 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 69 17 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 69 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 69 19 became become VBD
work_hxktjt6jyrbxnn45gipdtu7aji 69 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 69 21 overriding override VBG
work_hxktjt6jyrbxnn45gipdtu7aji 69 22 research research NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 23 goal goal NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 24 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 69 25 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 69 26 laboratory laboratory NN
work_hxktjt6jyrbxnn45gipdtu7aji 69 27 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 70 1 Damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 70 2 Goods good NNS
work_hxktjt6jyrbxnn45gipdtu7aji 70 3 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 70 4 entered enter VBD
work_hxktjt6jyrbxnn45gipdtu7aji 70 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 70 6 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 7 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 70 8 field field NN
work_hxktjt6jyrbxnn45gipdtu7aji 70 9 serendipitously serendipitously RB
work_hxktjt6jyrbxnn45gipdtu7aji 70 10 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 11 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 70 12 result result NN
work_hxktjt6jyrbxnn45gipdtu7aji 70 13 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 14 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 70 15 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 70 16 out out IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 70 19 blue blue JJ
work_hxktjt6jyrbxnn45gipdtu7aji 70 20 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 70 21 phone phone NN
work_hxktjt6jyrbxnn45gipdtu7aji 70 22 call call NN
work_hxktjt6jyrbxnn45gipdtu7aji 70 23 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 24 1986 1986 CD
work_hxktjt6jyrbxnn45gipdtu7aji 70 25 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 26 Bruce Bruce NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 27 Kaplan Kaplan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 28 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 70 29 Ramon Ramon NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 30 Eritja Eritja NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 31 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 32 City City NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 33 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 34 Hope Hope NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 35 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 70 36 nearby nearby JJ
work_hxktjt6jyrbxnn45gipdtu7aji 70 37 Duarte Duarte NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 38 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 70 39 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 70 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 71 1 They -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 71 2 asked ask VBD
work_hxktjt6jyrbxnn45gipdtu7aji 71 3 if if IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 4 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 71 5 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 71 6 think think VB
work_hxktjt6jyrbxnn45gipdtu7aji 71 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 71 9 biolog- biolog- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 71 10 ical ical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 71 11 use use NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 12 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 13 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 71 14 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 71 15 reduced reduce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 71 16 deoxyribose deoxyribose NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 17 compound compound NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 18 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 19 they -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 71 20 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 71 21 recently recently RB
work_hxktjt6jyrbxnn45gipdtu7aji 71 22 synthesized synthesize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 71 23 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 24 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 71 25 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 26 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 27 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 71 28 phosphora- phosphora- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 71 29 midite midite NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 30 incorporated incorporate VBD
work_hxktjt6jyrbxnn45gipdtu7aji 71 31 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 71 32 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 71 33 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 34 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 35 using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 71 36 their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 71 37 home- home- NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 38 made make VBD
work_hxktjt6jyrbxnn45gipdtu7aji 71 39 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 71 40 synthesizer synthesizer NN
work_hxktjt6jyrbxnn45gipdtu7aji 71 41 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 72 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 72 2 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 72 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 72 4 first first JJ
work_hxktjt6jyrbxnn45gipdtu7aji 72 5 type type NN
work_hxktjt6jyrbxnn45gipdtu7aji 72 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 72 7 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 72 8 site site NN
work_hxktjt6jyrbxnn45gipdtu7aji 72 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 72 10 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 72 11 synthesized synthesize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 72 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 73 1 Reduction reduction NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 2 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 73 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 73 4 C-1 C-1 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 73 5 position position NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 73 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 73 8 sugar sugar NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 9 rendered render VBD
work_hxktjt6jyrbxnn45gipdtu7aji 73 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 73 11 potentially potentially RB
work_hxktjt6jyrbxnn45gipdtu7aji 73 12 labile labile JJ
work_hxktjt6jyrbxnn45gipdtu7aji 73 13 sugar sugar NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 14 stable stable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 73 15 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 73 16 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 73 17 rock rock NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 73 19 so so CC
work_hxktjt6jyrbxnn45gipdtu7aji 73 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 73 21 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 22 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 23 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 73 24 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 73 25 incorporated incorporate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 73 26 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 73 27 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 73 28 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 29 tem- tem- NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 30 plate plate NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 31 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 32 site site NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 33 - - ,
work_hxktjt6jyrbxnn45gipdtu7aji 73 34 specifically specifically RB
work_hxktjt6jyrbxnn45gipdtu7aji 73 35 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 73 36 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 73 37 high high JJ
work_hxktjt6jyrbxnn45gipdtu7aji 73 38 yield yield NN
work_hxktjt6jyrbxnn45gipdtu7aji 73 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 74 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 74 2 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 74 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 74 4 containing contain VBG
work_hxktjt6jyrbxnn45gipdtu7aji 74 5 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 74 6 annealed anneal VBD
work_hxktjt6jyrbxnn45gipdtu7aji 74 7 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 74 8 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 74 9 oligonucleotide oligonucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 74 10 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 74 11 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 74 12 -32P -32p NN
work_hxktjt6jyrbxnn45gipdtu7aji 74 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 74 14 labeled label VBN
work_hxktjt6jyrbxnn45gipdtu7aji 74 15 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 74 16 strand strand NNP
work_hxktjt6jyrbxnn45gipdtu7aji 74 17 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 74 18 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 74 19 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 74 20 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 74 21 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 74 22 any any DT
work_hxktjt6jyrbxnn45gipdtu7aji 74 23 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 74 24 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 74 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 75 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 75 2 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 75 3 determine determine VB
work_hxktjt6jyrbxnn45gipdtu7aji 75 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 75 5 fraction fraction NN
work_hxktjt6jyrbxnn45gipdtu7aji 75 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 75 7 extended extended JJ
work_hxktjt6jyrbxnn45gipdtu7aji 75 8 primers primer NNS
work_hxktjt6jyrbxnn45gipdtu7aji 75 9 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 75 10 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 75 11 blocked block VBN
work_hxktjt6jyrbxnn45gipdtu7aji 75 12 one one CD
work_hxktjt6jyrbxnn45gipdtu7aji 75 13 base base NN
work_hxktjt6jyrbxnn45gipdtu7aji 75 14 before before IN
work_hxktjt6jyrbxnn45gipdtu7aji 75 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 75 16 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 75 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 75 18 stopped stop VBD
work_hxktjt6jyrbxnn45gipdtu7aji 75 19 opposite opposite IN
work_hxktjt6jyrbxnn45gipdtu7aji 75 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 75 21 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 75 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 75 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 75 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 75 25 most most RBS
work_hxktjt6jyrbxnn45gipdtu7aji 75 26 importantly importantly RB
work_hxktjt6jyrbxnn45gipdtu7aji 75 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 75 28 extended extend VBN
work_hxktjt6jyrbxnn45gipdtu7aji 75 29 beyond beyond IN
work_hxktjt6jyrbxnn45gipdtu7aji 75 30 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 75 31 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 75 32 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 75 33 indicating indicate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 75 34 successful successful JJ
work_hxktjt6jyrbxnn45gipdtu7aji 75 35 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 75 36 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 75 37 17 17 CD
work_hxktjt6jyrbxnn45gipdtu7aji 75 38 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 75 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 76 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 76 2 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 76 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 77 1 Raymond Raymond NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 2 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 77 4 pris pris JJ
work_hxktjt6jyrbxnn45gipdtu7aji 77 5 dîner dîner NN
work_hxktjt6jyrbxnn45gipdtu7aji 77 6 à à NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 7 Sage Sage NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 8 American American NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 9 Grill Grill NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 77 11 Oyster Oyster NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 12 Bar Bar NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 77 14 New New NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 15 Haven Haven NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 77 17 Connecticut Connecticut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 77 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 77 19 2013 2013 CD
work_hxktjt6jyrbxnn45gipdtu7aji 77 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 77 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 78 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 78 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 78 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 78 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 78 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 78 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 11 26774 26774 CD
work_hxktjt6jyrbxnn45gipdtu7aji 78 12 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 78 13 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 78 14 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 15 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 78 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 78 21 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 22 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 23 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 78 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 78 25 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 78 26 Parenthetically parenthetically RB
work_hxktjt6jyrbxnn45gipdtu7aji 78 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 78 28 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 78 29 analyzed analyze VBD
work_hxktjt6jyrbxnn45gipdtu7aji 78 30 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 78 31 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 32 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 78 33 catalyzed catalyzed JJ
work_hxktjt6jyrbxnn45gipdtu7aji 78 34 32P 32P NNP
work_hxktjt6jyrbxnn45gipdtu7aji 78 35 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 78 36 labeled label VBN
work_hxktjt6jyrbxnn45gipdtu7aji 78 37 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 38 extension extension NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 39 data datum NNS
work_hxktjt6jyrbxnn45gipdtu7aji 78 40 using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 78 41 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 78 42 brand brand NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 43 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 78 44 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 78 45 tech- tech- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 78 46 nological nological JJ
work_hxktjt6jyrbxnn45gipdtu7aji 78 47 marvel marvel NN
work_hxktjt6jyrbxnn45gipdtu7aji 78 48 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 79 1 Our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 79 2 lab lab NN
work_hxktjt6jyrbxnn45gipdtu7aji 79 3 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 79 4 recently recently RB
work_hxktjt6jyrbxnn45gipdtu7aji 79 5 purchased purchase VBN
work_hxktjt6jyrbxnn45gipdtu7aji 79 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 79 7 first first JJ
work_hxktjt6jyrbxnn45gipdtu7aji 79 8 edition edition NN
work_hxktjt6jyrbxnn45gipdtu7aji 79 9 PhosphorImager PhosphorImager NNP
work_hxktjt6jyrbxnn45gipdtu7aji 79 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 79 11 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 79 12 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 79 13 developed develop VBN
work_hxktjt6jyrbxnn45gipdtu7aji 79 14 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 79 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 79 16 startup startup NN
work_hxktjt6jyrbxnn45gipdtu7aji 79 17 company company NN
work_hxktjt6jyrbxnn45gipdtu7aji 79 18 called call VBN
work_hxktjt6jyrbxnn45gipdtu7aji 79 19 Molecular Molecular NNP
work_hxktjt6jyrbxnn45gipdtu7aji 79 20 Dynamics Dynamics NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 79 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 80 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 80 2 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 80 3 technology technology NN
work_hxktjt6jyrbxnn45gipdtu7aji 80 4 allowed allow VBD
work_hxktjt6jyrbxnn45gipdtu7aji 80 5 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 80 6 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 80 7 simultaneously simultaneously RB
work_hxktjt6jyrbxnn45gipdtu7aji 80 8 visualize visualize VB
work_hxktjt6jyrbxnn45gipdtu7aji 80 9 about about RB
work_hxktjt6jyrbxnn45gipdtu7aji 80 10 twenty twenty CD
work_hxktjt6jyrbxnn45gipdtu7aji 80 11 lanes lane NNS
work_hxktjt6jyrbxnn45gipdtu7aji 80 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 80 13 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 80 14 polyacrylamide polyacrylamide NN
work_hxktjt6jyrbxnn45gipdtu7aji 80 15 gel gel NN
work_hxktjt6jyrbxnn45gipdtu7aji 80 16 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 80 17 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 80 18 primers primer NNS
work_hxktjt6jyrbxnn45gipdtu7aji 80 19 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 80 20 separated separate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 80 21 electrophoretically electrophoretically RB
work_hxktjt6jyrbxnn45gipdtu7aji 80 22 according accord VBG
work_hxktjt6jyrbxnn45gipdtu7aji 80 23 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 80 24 length length NN
work_hxktjt6jyrbxnn45gipdtu7aji 80 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 80 26 so so IN
work_hxktjt6jyrbxnn45gipdtu7aji 80 27 primers primer NNS
work_hxktjt6jyrbxnn45gipdtu7aji 80 28 differing differ VBG
work_hxktjt6jyrbxnn45gipdtu7aji 80 29 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 80 30 just just RB
work_hxktjt6jyrbxnn45gipdtu7aji 80 31 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 80 32 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 80 33 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 80 34 additions addition NNS
work_hxktjt6jyrbxnn45gipdtu7aji 80 35 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 80 36 easily easily RB
work_hxktjt6jyrbxnn45gipdtu7aji 80 37 observed observe VBN
work_hxktjt6jyrbxnn45gipdtu7aji 80 38 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 81 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 81 2 imaging imaging NN
work_hxktjt6jyrbxnn45gipdtu7aji 81 3 provided provide VBN
work_hxktjt6jyrbxnn45gipdtu7aji 81 4 high high JJ
work_hxktjt6jyrbxnn45gipdtu7aji 81 5 resolution resolution NN
work_hxktjt6jyrbxnn45gipdtu7aji 81 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 81 7 unheard unheard JJ
work_hxktjt6jyrbxnn45gipdtu7aji 81 8 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 81 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 81 10 sensitivity sensitivity NN
work_hxktjt6jyrbxnn45gipdtu7aji 81 11 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 82 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 82 2 barely barely RB
work_hxktjt6jyrbxnn45gipdtu7aji 82 3 visible visible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 82 4 gel gel NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 5 band band NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 82 7 corre- corre- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 82 8 sponding sponde VBG
work_hxktjt6jyrbxnn45gipdtu7aji 82 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 82 10 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 11 extension extension NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 12 directly directly RB
work_hxktjt6jyrbxnn45gipdtu7aji 82 13 opposite opposite IN
work_hxktjt6jyrbxnn45gipdtu7aji 82 14 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 82 15 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 82 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 82 18 faint faint JJ
work_hxktjt6jyrbxnn45gipdtu7aji 82 19 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 82 20 extension extension NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 21 bands band NNS
work_hxktjt6jyrbxnn45gipdtu7aji 82 22 continuing continue VBG
work_hxktjt6jyrbxnn45gipdtu7aji 82 23 beyond beyond IN
work_hxktjt6jyrbxnn45gipdtu7aji 82 24 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 82 25 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 26 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 82 27 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 82 28 resolved resolve VBN
work_hxktjt6jyrbxnn45gipdtu7aji 82 29 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 82 30 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 82 31 much much RB
work_hxktjt6jyrbxnn45gipdtu7aji 82 32 darker dark JJR
work_hxktjt6jyrbxnn45gipdtu7aji 82 33 gel gel NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 34 band band NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 35 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 82 36 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 82 37 corresponded correspond VBD
work_hxktjt6jyrbxnn45gipdtu7aji 82 38 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 82 39 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 82 40 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 41 blocked block VBN
work_hxktjt6jyrbxnn45gipdtu7aji 82 42 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 82 43 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 82 44 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 82 45 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 83 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 83 2 faint faint NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 83 4 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 83 5 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 83 6 dark dark JJ
work_hxktjt6jyrbxnn45gipdtu7aji 83 7 band band NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 8 detection detection NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 9 sensitivity sensitivity NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 10 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 83 11 about about IN
work_hxktjt6jyrbxnn45gipdtu7aji 83 12 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 83 13 1000-fold 1000-fold CD
work_hxktjt6jyrbxnn45gipdtu7aji 83 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 83 15 far far RB
work_hxktjt6jyrbxnn45gipdtu7aji 83 16 exceeding exceed VBG
work_hxktjt6jyrbxnn45gipdtu7aji 83 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 83 18 30-fold 30-fold CD
work_hxktjt6jyrbxnn45gipdtu7aji 83 19 range range NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 20 previ- previ- NNS
work_hxktjt6jyrbxnn45gipdtu7aji 83 21 ously ously RB
work_hxktjt6jyrbxnn45gipdtu7aji 83 22 available available JJ
work_hxktjt6jyrbxnn45gipdtu7aji 83 23 using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 83 24 x x NNP
work_hxktjt6jyrbxnn45gipdtu7aji 83 25 - - NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 26 ray ray NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 27 film film NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 28 scanning scanning NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 29 densitometry densitometry NN
work_hxktjt6jyrbxnn45gipdtu7aji 83 30 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 84 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 84 2 gel gel NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 3 fidelity fidelity NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 4 assay assay NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 5 developed develop VBD
work_hxktjt6jyrbxnn45gipdtu7aji 84 6 concurrently concurrently RB
work_hxktjt6jyrbxnn45gipdtu7aji 84 7 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 84 8 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 84 9 lab lab NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 10 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 84 11 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 84 12 graduate graduate NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 13 students student NNS
work_hxktjt6jyrbxnn45gipdtu7aji 84 14 Michael Michael NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 15 Boosalis Boosalis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 84 17 Sandra Sandra NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 18 Randall Randall NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 19 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 84 20 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 84 21 next next JJ
work_hxktjt6jyrbxnn45gipdtu7aji 84 22 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 84 23 door door NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 24 faculty faculty NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 25 colleague colleague NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 26 John John NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 27 Petruska Petruska NNP
work_hxktjt6jyrbxnn45gipdtu7aji 84 28 required require VBD
work_hxktjt6jyrbxnn45gipdtu7aji 84 29 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 84 30 ratio ratio NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 84 32 adjacent adjacent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 84 33 integrated integrated JJ
work_hxktjt6jyrbxnn45gipdtu7aji 84 34 gel gel NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 35 band band NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 36 intensi- intensi- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 84 37 ties tie NNS
work_hxktjt6jyrbxnn45gipdtu7aji 84 38 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 84 39 input input NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 40 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 84 41 quantify quantify VB
work_hxktjt6jyrbxnn45gipdtu7aji 84 42 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 84 43 incorporation incorporation NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 44 veloci- veloci- NN
work_hxktjt6jyrbxnn45gipdtu7aji 84 45 ties tie NNS
work_hxktjt6jyrbxnn45gipdtu7aji 84 46 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 85 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 85 2 showed show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 85 3 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 85 4 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 85 5 determining determine VBG
work_hxktjt6jyrbxnn45gipdtu7aji 85 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 85 7 ratio ratio NN
work_hxktjt6jyrbxnn45gipdtu7aji 85 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 85 9 right right NN
work_hxktjt6jyrbxnn45gipdtu7aji 85 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 85 11 wrong wrong JJ
work_hxktjt6jyrbxnn45gipdtu7aji 85 12 incorporations incorporation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 85 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 85 14 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 85 15 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 85 16 obtain obtain VB
work_hxktjt6jyrbxnn45gipdtu7aji 85 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 85 18 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 85 19 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 85 20 any any DT
work_hxktjt6jyrbxnn45gipdtu7aji 85 21 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 85 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 85 23 including include VBG
work_hxktjt6jyrbxnn45gipdtu7aji 85 24 those those DT
work_hxktjt6jyrbxnn45gipdtu7aji 85 25 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 85 26 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 85 27 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 85 28 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 85 29 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 85 30 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 85 31 -exonuclease -exonuclease JJ
work_hxktjt6jyrbxnn45gipdtu7aji 85 32 proofreading proofreading NN
work_hxktjt6jyrbxnn45gipdtu7aji 85 33 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 85 34 18 18 CD
work_hxktjt6jyrbxnn45gipdtu7aji 85 35 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 85 36 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 86 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 86 2 Digression digression NN
work_hxktjt6jyrbxnn45gipdtu7aji 86 3 into into IN
work_hxktjt6jyrbxnn45gipdtu7aji 86 4 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 86 5 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 86 6 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 86 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 86 8 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 86 9 yet yet RB
work_hxktjt6jyrbxnn45gipdtu7aji 86 10 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 86 11 appear appear VB
work_hxktjt6jyrbxnn45gipdtu7aji 86 12 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 86 13 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 86 14 radar radar NN
work_hxktjt6jyrbxnn45gipdtu7aji 86 15 screen screen NN
work_hxktjt6jyrbxnn45gipdtu7aji 86 16 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 86 17 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 86 18 began begin VBD
work_hxktjt6jyrbxnn45gipdtu7aji 86 19 looking look VBG
work_hxktjt6jyrbxnn45gipdtu7aji 86 20 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 86 21 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 86 22 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 86 23 basis basis NN
work_hxktjt6jyrbxnn45gipdtu7aji 86 24 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 86 25 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 86 26 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 86 27 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 86 28 1986 1986 CD
work_hxktjt6jyrbxnn45gipdtu7aji 86 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 87 1 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 87 2 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 87 3 paper paper NN
work_hxktjt6jyrbxnn45gipdtu7aji 87 4 demonstrating demonstrate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 87 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 87 6 separate separate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 87 7 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 87 8 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 87 9 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 87 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 87 11 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 87 12 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 87 13 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 87 14 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 87 15 published publish VBN
work_hxktjt6jyrbxnn45gipdtu7aji 87 16 three three CD
work_hxktjt6jyrbxnn45gipdtu7aji 87 17 years year NNS
work_hxktjt6jyrbxnn45gipdtu7aji 87 18 later later RB
work_hxktjt6jyrbxnn45gipdtu7aji 87 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 87 20 16 16 CD
work_hxktjt6jyrbxnn45gipdtu7aji 87 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 87 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 88 1 Our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 88 2 initial initial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 88 3 foray foray NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 4 into into IN
work_hxktjt6jyrbxnn45gipdtu7aji 88 5 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 88 6 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 88 7 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 88 8 take take VB
work_hxktjt6jyrbxnn45gipdtu7aji 88 9 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 88 10 bot- bot- NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 11 tom tom NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 88 13 up up RP
work_hxktjt6jyrbxnn45gipdtu7aji 88 14 approach approach NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 15 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 88 16 incubating incubate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 88 17 crude crude JJ
work_hxktjt6jyrbxnn45gipdtu7aji 88 18 lysates lysate NNS
work_hxktjt6jyrbxnn45gipdtu7aji 88 19 prepared prepare VBN
work_hxktjt6jyrbxnn45gipdtu7aji 88 20 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 88 21 untreated untreated JJ
work_hxktjt6jyrbxnn45gipdtu7aji 88 22 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 88 23 nalidixic nalidixic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 88 24 acid acid NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 25 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 88 26 treated treat VBN
work_hxktjt6jyrbxnn45gipdtu7aji 88 27 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 88 28 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 88 29 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 88 30 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 88 31 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 88 32 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 33 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 34 containing contain VBG
work_hxktjt6jyrbxnn45gipdtu7aji 88 35 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 88 36 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 37 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 38 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 88 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 89 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 89 2 observed observe VBD
work_hxktjt6jyrbxnn45gipdtu7aji 89 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 89 4 7-fold 7-fold JJ
work_hxktjt6jyrbxnn45gipdtu7aji 89 5 increase increase NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 6 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 89 7 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 89 8 unknown unknown JJ
work_hxktjt6jyrbxnn45gipdtu7aji 89 9 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 10 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 11 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 89 12 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 89 14 damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 89 15 cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 16 lysates lysate NNS
work_hxktjt6jyrbxnn45gipdtu7aji 89 17 exposed expose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 89 18 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 89 19 nalidixic nalidixic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 89 20 acid acid NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 21 compared compare VBN
work_hxktjt6jyrbxnn45gipdtu7aji 89 22 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 89 23 undamaged undamaged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 89 24 cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 89 25 lysates lysate NNS
work_hxktjt6jyrbxnn45gipdtu7aji 89 26 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 89 27 19 19 CD
work_hxktjt6jyrbxnn45gipdtu7aji 89 28 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 89 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 90 1 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 2 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 90 3 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 4 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 90 5 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 6 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 90 8 emerged emerge VBD
work_hxktjt6jyrbxnn45gipdtu7aji 90 9 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 90 11 enzyme enzyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 90 12 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 90 13 responsible responsible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 90 14 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 90 16 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 90 17 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 90 18 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 90 19 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 90 20 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 21 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 90 22 based base VBN
work_hxktjt6jyrbxnn45gipdtu7aji 90 23 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 24 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 90 25 similar similar JJ
work_hxktjt6jyrbxnn45gipdtu7aji 90 26 molecular molecular JJ
work_hxktjt6jyrbxnn45gipdtu7aji 90 27 mass mass JJ
work_hxktjt6jyrbxnn45gipdtu7aji 90 28 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 90 29 enzymatic enzymatic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 90 30 properties property NNS
work_hxktjt6jyrbxnn45gipdtu7aji 90 31 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 32 those those DT
work_hxktjt6jyrbxnn45gipdtu7aji 90 33 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 34 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 35 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 36 reported report VBN
work_hxktjt6jyrbxnn45gipdtu7aji 90 37 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 38 Jerry Jerry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 39 Hurwitz Hurwitz NNP
work_hxktjt6jyrbxnn45gipdtu7aji 90 40 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 90 41 1972 1972 CD
work_hxktjt6jyrbxnn45gipdtu7aji 90 42 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 90 43 20 20 CD
work_hxktjt6jyrbxnn45gipdtu7aji 90 44 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 90 45 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 91 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 91 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 91 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 91 4 7-fold 7-fold CD
work_hxktjt6jyrbxnn45gipdtu7aji 91 5 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 91 6 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 91 7 number number NN
work_hxktjt6jyrbxnn45gipdtu7aji 91 8 turned turn VBD
work_hxktjt6jyrbxnn45gipdtu7aji 91 9 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 91 10 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 91 11 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 91 12 especially especially RB
work_hxktjt6jyrbxnn45gipdtu7aji 91 13 important important JJ
work_hxktjt6jyrbxnn45gipdtu7aji 91 14 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 92 1 By by IN
work_hxktjt6jyrbxnn45gipdtu7aji 92 2 inserting insert VBG
work_hxktjt6jyrbxnn45gipdtu7aji 92 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 92 4 lacZ lacz JJ
work_hxktjt6jyrbxnn45gipdtu7aji 92 5 reporter reporter NN
work_hxktjt6jyrbxnn45gipdtu7aji 92 6 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 92 7 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 92 8 various various JJ
work_hxktjt6jyrbxnn45gipdtu7aji 92 9 locations location NNS
work_hxktjt6jyrbxnn45gipdtu7aji 92 10 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 92 11 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 92 12 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 92 13 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 92 14 chromosome chromosome NN
work_hxktjt6jyrbxnn45gipdtu7aji 92 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 92 16 Gra- Gra- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 92 17 ham ham NN
work_hxktjt6jyrbxnn45gipdtu7aji 92 18 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 92 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 92 20 Fig Fig NNP
work_hxktjt6jyrbxnn45gipdtu7aji 92 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 93 1 4 4 LS
work_hxktjt6jyrbxnn45gipdtu7aji 93 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 93 3 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 93 4 previously previously RB
work_hxktjt6jyrbxnn45gipdtu7aji 93 5 identified identify VBN
work_hxktjt6jyrbxnn45gipdtu7aji 93 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 93 7 series series NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 93 9 individual individual JJ
work_hxktjt6jyrbxnn45gipdtu7aji 93 10 loci loci NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 11 distributed distribute VBN
work_hxktjt6jyrbxnn45gipdtu7aji 93 12 along along IN
work_hxktjt6jyrbxnn45gipdtu7aji 93 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 93 14 chromosome chromosome NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 15 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 93 16 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 93 17 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 93 18 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 93 19 response response NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 20 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 93 21 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 22 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 93 24 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 93 25 he -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 93 26 called call VBD
work_hxktjt6jyrbxnn45gipdtu7aji 93 27 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 93 28 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 93 29 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 93 30 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 93 31 din din NNP
work_hxktjt6jyrbxnn45gipdtu7aji 93 32 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 93 33 genes gene NNS
work_hxktjt6jyrbxnn45gipdtu7aji 93 34 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 93 35 21 21 CD
work_hxktjt6jyrbxnn45gipdtu7aji 93 36 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 93 37 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 94 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 94 2 important important JJ
work_hxktjt6jyrbxnn45gipdtu7aji 94 3 study study NN
work_hxktjt6jyrbxnn45gipdtu7aji 94 4 provided provide VBD
work_hxktjt6jyrbxnn45gipdtu7aji 94 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 94 6 salient salient NN
work_hxktjt6jyrbxnn45gipdtu7aji 94 7 piece piece NN
work_hxktjt6jyrbxnn45gipdtu7aji 94 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 94 9 information information NN
work_hxktjt6jyrbxnn45gipdtu7aji 94 10 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 94 11 one one CD
work_hxktjt6jyrbxnn45gipdtu7aji 94 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 94 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 94 14 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 94 15 genes gene NNS
work_hxktjt6jyrbxnn45gipdtu7aji 94 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 94 17 dinA dina RB
work_hxktjt6jyrbxnn45gipdtu7aji 94 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 94 19 showed show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 94 20 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 94 21 7-fold 7-fold CD
work_hxktjt6jyrbxnn45gipdtu7aji 94 22 increase increase NN
work_hxktjt6jyrbxnn45gipdtu7aji 94 23 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 94 24 transcription transcription NN
work_hxktjt6jyrbxnn45gipdtu7aji 94 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 95 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 95 2 close close JJ
work_hxktjt6jyrbxnn45gipdtu7aji 95 3 correspondence correspondence NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 5 transcriptional transcriptional JJ
work_hxktjt6jyrbxnn45gipdtu7aji 95 6 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 7 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 95 9 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 10 activity activity NNP
work_hxktjt6jyrbxnn45gipdtu7aji 95 11 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 12 suggested suggest VBD
work_hxktjt6jyrbxnn45gipdtu7aji 95 13 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 14 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 95 15 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 16 dinA dina RB
work_hxktjt6jyrbxnn45gipdtu7aji 95 17 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 95 18 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 95 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 95 20 structural structural JJ
work_hxktjt6jyrbxnn45gipdtu7aji 95 21 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 22 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 23 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 95 24 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 95 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 95 26 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 95 27 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 95 28 con- con- NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 29 firmed firm VBN
work_hxktjt6jyrbxnn45gipdtu7aji 95 30 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 31 showing show VBG
work_hxktjt6jyrbxnn45gipdtu7aji 95 32 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 33 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 95 34 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 95 35 sequences sequence NNS
work_hxktjt6jyrbxnn45gipdtu7aji 95 36 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 37 dinA dinA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 95 38 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 95 39 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 95 40 structural structural JJ
work_hxktjt6jyrbxnn45gipdtu7aji 95 41 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 95 42 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 95 43 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 95 44 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 95 45 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 95 46 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 95 47 same same JJ
work_hxktjt6jyrbxnn45gipdtu7aji 95 48 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 95 49 22 22 CD
work_hxktjt6jyrbxnn45gipdtu7aji 95 50 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 95 51 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 96 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 96 2 concurrent concurrent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 96 3 paper paper NN
work_hxktjt6jyrbxnn45gipdtu7aji 96 4 identifying identify VBG
work_hxktjt6jyrbxnn45gipdtu7aji 96 5 dinA dina RB
work_hxktjt6jyrbxnn45gipdtu7aji 96 6 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 96 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 96 8 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 96 9 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 96 10 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 96 11 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 96 12 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 96 13 published publish VBN
work_hxktjt6jyrbxnn45gipdtu7aji 96 14 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 96 15 Shinagawa Shinagawa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 96 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 96 17 colleagues colleague NNS
work_hxktjt6jyrbxnn45gipdtu7aji 96 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 96 19 23 23 CD
work_hxktjt6jyrbxnn45gipdtu7aji 96 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 96 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 97 1 Trials Trials NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 97 2 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 97 3 Tribulations Tribulations NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 97 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 97 5 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 97 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 97 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 97 8 Identification identification NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 97 10 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 97 11 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 97 12 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 97 13 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 14 Complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 15 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 97 16 power power NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 97 18 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 97 19 coli coli VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 97 20 genetics genetic NNS
work_hxktjt6jyrbxnn45gipdtu7aji 97 21 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 97 22 investigate investigate VB
work_hxktjt6jyrbxnn45gipdtu7aji 97 23 complex complex JJ
work_hxktjt6jyrbxnn45gipdtu7aji 97 24 bio- bio- NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 25 chemical chemical NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 26 processes process NNS
work_hxktjt6jyrbxnn45gipdtu7aji 97 27 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 97 28 clearly clearly RB
work_hxktjt6jyrbxnn45gipdtu7aji 97 29 evident evident JJ
work_hxktjt6jyrbxnn45gipdtu7aji 97 30 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 97 31 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 97 32 reconstitu- reconstitu- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 97 33 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 34 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 97 35 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 97 36 minimal minimal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 97 37 system system NN
work_hxktjt6jyrbxnn45gipdtu7aji 97 38 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 97 39 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 97 40 able able JJ
work_hxktjt6jyrbxnn45gipdtu7aji 97 41 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 97 42 catalyze catalyze VB
work_hxktjt6jyrbxnn45gipdtu7aji 97 43 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 97 44 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 97 45 vitro vitro FW
work_hxktjt6jyrbxnn45gipdtu7aji 97 46 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 98 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 98 2 complement complement NN
work_hxktjt6jyrbxnn45gipdtu7aji 98 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 98 4 genetic genetic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 98 5 requirements requirement NNS
work_hxktjt6jyrbxnn45gipdtu7aji 98 6 included include VBD
work_hxktjt6jyrbxnn45gipdtu7aji 98 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 98 8 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 98 9 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 98 10 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 98 11 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 98 12 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 98 13 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 98 14 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 98 15 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 98 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 98 17 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 98 18 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 98 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 99 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 99 2 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 99 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 99 4 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 99 5 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 99 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 99 7 including include VBG
work_hxktjt6jyrbxnn45gipdtu7aji 99 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 99 9 dam- dam- RB
work_hxktjt6jyrbxnn45gipdtu7aji 99 10 aged aged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 99 11 base base NN
work_hxktjt6jyrbxnn45gipdtu7aji 99 12 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 99 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 99 14 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 99 15 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 99 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 99 17 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 99 18 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 99 19 used use VBN
work_hxktjt6jyrbxnn45gipdtu7aji 99 20 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 99 21 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 99 22 sub- sub- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 99 23 strate strate NN
work_hxktjt6jyrbxnn45gipdtu7aji 99 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 100 1 Based base VBN
work_hxktjt6jyrbxnn45gipdtu7aji 100 2 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 100 3 genetic genetic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 100 4 evidence evidence NN
work_hxktjt6jyrbxnn45gipdtu7aji 100 5 available available JJ
work_hxktjt6jyrbxnn45gipdtu7aji 100 6 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 100 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 100 8 mid- mid- NN
work_hxktjt6jyrbxnn45gipdtu7aji 100 9 1980s 1980s CD
work_hxktjt6jyrbxnn45gipdtu7aji 100 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 100 11 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 100 12 first first JJ
work_hxktjt6jyrbxnn45gipdtu7aji 100 13 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 100 14 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 100 15 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 100 16 formulated formulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 100 17 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 100 18 Bryn Bryn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 100 19 Bridges Bridges NNP
work_hxktjt6jyrbxnn45gipdtu7aji 100 20 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 100 21 his -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 100 22 graduate graduate NN
work_hxktjt6jyrbxnn45gipdtu7aji 100 23 student student NN
work_hxktjt6jyrbxnn45gipdtu7aji 100 24 Roger Roger NNP
work_hxktjt6jyrbxnn45gipdtu7aji 100 25 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 100 26 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 100 27 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 100 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 101 1 5 5 LS
work_hxktjt6jyrbxnn45gipdtu7aji 101 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 101 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 102 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 102 2 Bridges Bridges NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 102 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 102 4 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 102 5 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 102 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 102 7 step step NN
work_hxktjt6jyrbxnn45gipdtu7aji 102 8 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 102 9 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 102 10 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 102 11 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 103 1 6A 6a NN
work_hxktjt6jyrbxnn45gipdtu7aji 103 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 103 3 proposed propose VBD
work_hxktjt6jyrbxnn45gipdtu7aji 103 4 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 103 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 103 6 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 103 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 103 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 103 9 UmuDC UmuDC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 103 10 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 103 11 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 103 12 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 103 13 shepherd shepherd VB
work_hxktjt6jyrbxnn45gipdtu7aji 103 14 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 103 15 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 103 16 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 103 17 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 103 18 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 103 19 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 103 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 103 21 past past JJ
work_hxktjt6jyrbxnn45gipdtu7aji 103 22 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 103 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 103 24 blocking block VBG
work_hxktjt6jyrbxnn45gipdtu7aji 103 25 lesions lesion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 103 26 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 103 27 reducing reduce VBG
work_hxktjt6jyrbxnn45gipdtu7aji 103 28 polymerase polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 103 29 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 103 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 103 31 e.g. e.g. RB
work_hxktjt6jyrbxnn45gipdtu7aji 104 1 possibly possibly RB
work_hxktjt6jyrbxnn45gipdtu7aji 104 2 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 104 3 inhibiting inhibit VBG
work_hxktjt6jyrbxnn45gipdtu7aji 104 4 exonucleolytic exonucleolytic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 104 5 proofreading proofreading NN
work_hxktjt6jyrbxnn45gipdtu7aji 104 6 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 104 7 24 24 CD
work_hxktjt6jyrbxnn45gipdtu7aji 104 8 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 104 9 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 105 1 It -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 105 2 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 105 3 sug- sug- NN
work_hxktjt6jyrbxnn45gipdtu7aji 105 4 gested geste VBN
work_hxktjt6jyrbxnn45gipdtu7aji 105 5 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 105 6 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 105 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 105 8 first first JJ
work_hxktjt6jyrbxnn45gipdtu7aji 105 9 step step NN
work_hxktjt6jyrbxnn45gipdtu7aji 105 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 105 11 pol pol VBP
work_hxktjt6jyrbxnn45gipdtu7aji 105 12 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 105 13 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 105 14 insert insert VB
work_hxktjt6jyrbxnn45gipdtu7aji 105 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 105 16 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 105 17 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 105 18 4 4 CD
work_hxktjt6jyrbxnn45gipdtu7aji 105 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 106 1 Graham Graham NNP
work_hxktjt6jyrbxnn45gipdtu7aji 106 2 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 106 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 106 4 Cambridge Cambridge NNP
work_hxktjt6jyrbxnn45gipdtu7aji 106 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 106 6 Massachusetts Massachusetts NNP
work_hxktjt6jyrbxnn45gipdtu7aji 106 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 106 8 2013 2013 CD
work_hxktjt6jyrbxnn45gipdtu7aji 106 9 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 106 10 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 107 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 107 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 107 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 107 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 107 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 107 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 107 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 107 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 107 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 107 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 107 11 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 107 12 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 107 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 107 14 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 107 15 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 107 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 107 21 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 107 22 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 107 23 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 24 CHEMISTRY CHEMISTRY NNS
work_hxktjt6jyrbxnn45gipdtu7aji 107 25 26775 26775 CD
work_hxktjt6jyrbxnn45gipdtu7aji 107 26 opposite opposite IN
work_hxktjt6jyrbxnn45gipdtu7aji 107 27 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 107 28 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 29 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 107 30 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 107 31 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 107 32 go go VB
work_hxktjt6jyrbxnn45gipdtu7aji 107 33 no no RB
work_hxktjt6jyrbxnn45gipdtu7aji 107 34 further further RB
work_hxktjt6jyrbxnn45gipdtu7aji 107 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 108 1 It -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 108 2 required require VBD
work_hxktjt6jyrbxnn45gipdtu7aji 108 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 108 4 Umu Umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 108 5 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 108 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 108 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 108 8 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 108 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 108 10 copy copy VB
work_hxktjt6jyrbxnn45gipdtu7aji 108 11 past past IN
work_hxktjt6jyrbxnn45gipdtu7aji 108 12 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 108 13 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 108 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 108 15 after after IN
work_hxktjt6jyrbxnn45gipdtu7aji 108 16 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 108 17 there there EX
work_hxktjt6jyrbxnn45gipdtu7aji 108 18 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 108 19 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 108 20 clear clear JJ
work_hxktjt6jyrbxnn45gipdtu7aji 108 21 sailing sailing NN
work_hxktjt6jyrbxnn45gipdtu7aji 108 22 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 108 23 undam- undam- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 108 24 aged aged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 108 25 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 108 26 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 108 27 until until IN
work_hxktjt6jyrbxnn45gipdtu7aji 108 28 further further JJ
work_hxktjt6jyrbxnn45gipdtu7aji 108 29 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 108 30 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 108 31 encoun- encoun- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 108 32 tered tere VBN
work_hxktjt6jyrbxnn45gipdtu7aji 108 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 109 1 Whatever whatever WDT
work_hxktjt6jyrbxnn45gipdtu7aji 109 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 109 3 mechanism mechanism NN
work_hxktjt6jyrbxnn45gipdtu7aji 109 4 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 109 5 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 109 6 might may MD
work_hxktjt6jyrbxnn45gipdtu7aji 109 7 turn turn VB
work_hxktjt6jyrbxnn45gipdtu7aji 109 8 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 109 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 109 10 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 109 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 109 12 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 109 13 seemed seem VBD
work_hxktjt6jyrbxnn45gipdtu7aji 109 14 clear clear JJ
work_hxktjt6jyrbxnn45gipdtu7aji 109 15 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 109 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 109 17 Umu Umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 109 18 proteins protein VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 109 19 working work VBG
work_hxktjt6jyrbxnn45gipdtu7aji 109 20 along along IN
work_hxktjt6jyrbxnn45gipdtu7aji 109 21 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 109 22 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 109 23 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 109 24 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 109 25 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 109 26 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 109 27 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 109 28 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 109 29 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 109 30 catalyzed catalyze VBN
work_hxktjt6jyrbxnn45gipdtu7aji 109 31 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 109 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 110 1 Following follow VBG
work_hxktjt6jyrbxnn45gipdtu7aji 110 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 110 3 discovery discovery NN
work_hxktjt6jyrbxnn45gipdtu7aji 110 4 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 110 5 1988 1988 CD
work_hxktjt6jyrbxnn45gipdtu7aji 110 6 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 110 7 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 8 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 110 9 required require VBD
work_hxktjt6jyrbxnn45gipdtu7aji 110 10 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 110 11 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 110 12 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 13 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 110 14 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 15 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 16 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 110 17 11–13 11–13 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 18 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 110 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 110 20 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 110 21 updated update VBN
work_hxktjt6jyrbxnn45gipdtu7aji 110 22 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 23 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 110 24 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 110 25 proposed propose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 110 26 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 110 27 Harrison Harrison NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 28 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 110 29 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 30 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 110 31 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 110 32 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 110 33 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 110 34 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 111 1 7 7 LS
work_hxktjt6jyrbxnn45gipdtu7aji 111 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 111 3 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 111 4 me -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 111 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 111 6 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 111 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 112 1 5 5 LS
work_hxktjt6jyrbxnn45gipdtu7aji 112 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 112 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 113 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 113 2 next next JJ
work_hxktjt6jyrbxnn45gipdtu7aji 113 3 generation generation NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 4 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 5 included include VBD
work_hxktjt6jyrbxnn45gipdtu7aji 113 6 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 113 7 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 113 8 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 113 9 place place NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 113 11 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 113 12 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 113 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 113 14 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 15 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 113 16 holoen- holoen- FW
work_hxktjt6jyrbxnn45gipdtu7aji 113 17 zyme zyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 113 18 complex complex NNP
work_hxktjt6jyrbxnn45gipdtu7aji 113 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 113 20 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 113 21 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 113 22 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 113 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 113 24 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 113 25 place place NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 26 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 113 27 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 28 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 113 29 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 113 30 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 113 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 114 1 6B 6b NN
work_hxktjt6jyrbxnn45gipdtu7aji 114 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 114 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 114 4 25 25 CD
work_hxktjt6jyrbxnn45gipdtu7aji 114 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 114 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 115 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 115 2 stage stage NN
work_hxktjt6jyrbxnn45gipdtu7aji 115 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 115 4 almost almost RB
work_hxktjt6jyrbxnn45gipdtu7aji 115 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 115 6 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 115 7 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 115 8 quite quite RB
work_hxktjt6jyrbxnn45gipdtu7aji 115 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 115 10 set set VBN
work_hxktjt6jyrbxnn45gipdtu7aji 115 11 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 115 12 reconstitute reconstitute VB
work_hxktjt6jyrbxnn45gipdtu7aji 115 13 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 115 14 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 115 15 vitro vitro FW
work_hxktjt6jyrbxnn45gipdtu7aji 115 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 116 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 116 2 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 116 3 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 116 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 116 5 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 116 6 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 116 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 116 8 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 116 9 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 116 10 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 116 11 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 116 12 available available JJ
work_hxktjt6jyrbxnn45gipdtu7aji 116 13 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 116 14 purified purify VBN
work_hxktjt6jyrbxnn45gipdtu7aji 116 15 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 116 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 117 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 117 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 117 3 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 117 4 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 117 5 lacking lack VBG
work_hxktjt6jyrbxnn45gipdtu7aji 117 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 118 1 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 118 2 1989 1989 CD
work_hxktjt6jyrbxnn45gipdtu7aji 118 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 118 4 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 5 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 118 6 his -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 118 7 postdoctoral postdoctoral JJ
work_hxktjt6jyrbxnn45gipdtu7aji 118 8 student student NN
work_hxktjt6jyrbxnn45gipdtu7aji 118 9 Roger Roger NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 10 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 118 12 who who WP
work_hxktjt6jyrbxnn45gipdtu7aji 118 13 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 118 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 118 15 become become VB
work_hxktjt6jyrbxnn45gipdtu7aji 118 16 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 118 17 longtime longtime NN
work_hxktjt6jyrbxnn45gipdtu7aji 118 18 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 118 19 current current JJ
work_hxktjt6jyrbxnn45gipdtu7aji 118 20 collaborator collaborator NN
work_hxktjt6jyrbxnn45gipdtu7aji 118 21 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 118 22 ours -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 118 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 118 24 reported report VBD
work_hxktjt6jyrbxnn45gipdtu7aji 118 25 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 118 26 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 118 27 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 118 28 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 29 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 118 30 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 118 31 interaction interaction NN
work_hxktjt6jyrbxnn45gipdtu7aji 118 32 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 118 33 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 34 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 118 35 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 36 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 118 37 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 118 38 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 118 39 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 118 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 119 1 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 119 2 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 119 3 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 119 4 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 119 5 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 119 6 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 119 7 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 119 8 aqueous aqueous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 119 9 solution solution NN
work_hxktjt6jyrbxnn45gipdtu7aji 119 10 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 120 1 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 120 2 contrast contrast NN
work_hxktjt6jyrbxnn45gipdtu7aji 120 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 120 4 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 120 5 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 120 6 insoluble insoluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 120 7 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 120 8 con- con- NN
work_hxktjt6jyrbxnn45gipdtu7aji 120 9 fined fine VBD
work_hxktjt6jyrbxnn45gipdtu7aji 120 10 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 120 11 inclusion inclusion VB
work_hxktjt6jyrbxnn45gipdtu7aji 120 12 bodies body NNS
work_hxktjt6jyrbxnn45gipdtu7aji 120 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 120 14 prompting prompt VBG
work_hxktjt6jyrbxnn45gipdtu7aji 120 15 Roger Roger NNP
work_hxktjt6jyrbxnn45gipdtu7aji 120 16 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 120 17 denature denature VB
work_hxktjt6jyrbxnn45gipdtu7aji 120 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 120 19 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 120 20 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 120 21 urea urea NNP
work_hxktjt6jyrbxnn45gipdtu7aji 120 22 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 120 23 renature renature VB
work_hxktjt6jyrbxnn45gipdtu7aji 120 24 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 120 25 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 120 26 slowly slowly RB
work_hxktjt6jyrbxnn45gipdtu7aji 120 27 dialyzing dialyze VBG
work_hxktjt6jyrbxnn45gipdtu7aji 120 28 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 120 29 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 120 30 urea urea NNP
work_hxktjt6jyrbxnn45gipdtu7aji 120 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 121 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 121 2 result result NN
work_hxktjt6jyrbxnn45gipdtu7aji 121 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 121 4 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 121 5 refolded refolde VBN
work_hxktjt6jyrbxnn45gipdtu7aji 121 6 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 121 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 121 8 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 121 9 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 121 10 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 121 11 solu- solu- NNS
work_hxktjt6jyrbxnn45gipdtu7aji 121 12 ble ble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 121 13 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 121 14 aqueous aqueous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 121 15 solution solution NN
work_hxktjt6jyrbxnn45gipdtu7aji 121 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 122 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 122 2 similar similar JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 3 denaturation denaturation NN
work_hxktjt6jyrbxnn45gipdtu7aji 122 4 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 122 5 renaturation renaturation NN
work_hxktjt6jyrbxnn45gipdtu7aji 122 6 strategy strategy NN
work_hxktjt6jyrbxnn45gipdtu7aji 122 7 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 122 8 proved prove VBN
work_hxktjt6jyrbxnn45gipdtu7aji 122 9 successful successful JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 10 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 122 11 purifying purify VBG
work_hxktjt6jyrbxnn45gipdtu7aji 122 12 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 122 13 insoluble insoluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 14 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 15 -proofreading -proofreading JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 16 subunit subunit NN
work_hxktjt6jyrbxnn45gipdtu7aji 122 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 122 18 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 122 19 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 122 20 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 122 21 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 122 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 122 23 resulting result VBG
work_hxktjt6jyrbxnn45gipdtu7aji 122 24 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 122 25 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 122 26 water- water- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 27 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 28 active active JJ
work_hxktjt6jyrbxnn45gipdtu7aji 122 29 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 122 30 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 122 31 -exonuclease -exonuclease ,
work_hxktjt6jyrbxnn45gipdtu7aji 122 32 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 122 33 27 27 CD
work_hxktjt6jyrbxnn45gipdtu7aji 122 34 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 122 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 123 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 123 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 123 3 extension extension NN
work_hxktjt6jyrbxnn45gipdtu7aji 123 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 123 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 123 6 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 123 7 past past IN
work_hxktjt6jyrbxnn45gipdtu7aji 123 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 123 9 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 123 10 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 123 11 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 123 12 i.e. i.e. FW
work_hxktjt6jyrbxnn45gipdtu7aji 124 1 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 124 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 124 4 marginal marginal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 124 5 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 124 6 renatured renature VBN
work_hxktjt6jyrbxnn45gipdtu7aji 124 7 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 8 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 124 9 used use VBN
work_hxktjt6jyrbxnn45gipdtu7aji 124 10 along along IN
work_hxktjt6jyrbxnn45gipdtu7aji 124 11 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 124 12 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 124 13 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 14 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 124 16 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 17 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 124 19 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 124 20 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 124 21 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 124 22 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 124 23 28 28 CD
work_hxktjt6jyrbxnn45gipdtu7aji 124 24 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 124 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 125 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 125 2 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 125 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 126 1 Roger Roger NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 2 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 126 4 Bryn Bryn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 5 Bridges Bridges NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 126 7 Myron Myron NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 8 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 9 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 126 11 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 126 12 Mengjia Mengjia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 13 Tang Tang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 14 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 126 15 left leave VBN
work_hxktjt6jyrbxnn45gipdtu7aji 126 16 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 126 17 right right NN
work_hxktjt6jyrbxnn45gipdtu7aji 126 18 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 126 19 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 126 20 four four CD
work_hxktjt6jyrbxnn45gipdtu7aji 126 21 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 22 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 126 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 126 24 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 126 25 generations generation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 126 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 126 27 Hilton Hilton NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 28 Head Head NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 29 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 126 30 South South NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 31 Carolina Carolina NNP
work_hxktjt6jyrbxnn45gipdtu7aji 126 32 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 126 33 1999 1999 CD
work_hxktjt6jyrbxnn45gipdtu7aji 126 34 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 126 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 127 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 127 2 6 6 CD
work_hxktjt6jyrbxnn45gipdtu7aji 127 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 128 1 Evolving evolve VBG
work_hxktjt6jyrbxnn45gipdtu7aji 128 2 models model NNS
work_hxktjt6jyrbxnn45gipdtu7aji 128 3 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 128 4 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 5 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 128 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 128 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 128 8 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 9 involving involve VBG
work_hxktjt6jyrbxnn45gipdtu7aji 128 10 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 11 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 12 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 128 13 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 128 14 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 15 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 16 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 128 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 128 18 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 128 19 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 128 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 129 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 129 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 129 3 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 4 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 129 5 core core NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 6 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 129 7 composed compose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 129 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 129 9 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 129 10 -polymerase -polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 129 12 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 129 13 -proofreading -proofreading JJ
work_hxktjt6jyrbxnn45gipdtu7aji 129 14 exonuclease exonuclease NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 129 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 129 17 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 129 18 -subunits -subunits NNP
work_hxktjt6jyrbxnn45gipdtu7aji 129 19 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 129 20 copies copy VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 129 21 past past IN
work_hxktjt6jyrbxnn45gipdtu7aji 129 22 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 129 23 damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 129 24 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 25 site site NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 26 X x NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 129 28 requiring require VBG
work_hxktjt6jyrbxnn45gipdtu7aji 129 29 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 129 30 presence presence NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 129 32 UmuDC UmuDC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 129 33 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 129 34 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 129 35 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 129 36 situated situate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 129 37 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 129 38 cis cis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 129 39 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 129 40 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 129 41 damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 129 42 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 43 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 129 44 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 129 45 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 129 46 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 130 1 B b NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 130 3 pol pol VBP
work_hxktjt6jyrbxnn45gipdtu7aji 130 4 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 5 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 6 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 130 7 com- com- RB
work_hxktjt6jyrbxnn45gipdtu7aji 130 8 posed pose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 130 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 130 10 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 11 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 130 12 core core NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 13 � � ,
work_hxktjt6jyrbxnn45gipdtu7aji 130 14 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 130 15 -sliding -slide VBG
work_hxktjt6jyrbxnn45gipdtu7aji 130 16 clamp clamp NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 17 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 130 18 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 130 19 -clamp -clamp NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 20 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 130 21 loading loading NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 22 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 130 24 catalyzes catalyze VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 130 25 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 130 27 requiring require VBG
work_hxktjt6jyrbxnn45gipdtu7aji 130 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 130 29 presence presence NN
work_hxktjt6jyrbxnn45gipdtu7aji 130 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 130 31 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 32 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 33 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 34 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 130 35 cis cis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 36 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 130 37 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 130 38 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 130 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 131 1 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 131 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 131 3 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 131 4 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 131 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 131 6 composed compose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 131 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 131 8 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 131 9 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 131 10 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 131 11 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 131 12 catalyzes catalyze VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 131 13 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 131 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 131 15 requiring require VBG
work_hxktjt6jyrbxnn45gipdtu7aji 131 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 131 17 presence presence NN
work_hxktjt6jyrbxnn45gipdtu7aji 131 18 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 131 19 cis- cis- DT
work_hxktjt6jyrbxnn45gipdtu7aji 131 20 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 131 21 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 131 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 132 1 D d JJ
work_hxktjt6jyrbxnn45gipdtu7aji 132 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 132 3 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 132 4 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 132 5 activated activate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 132 6 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 132 7 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 132 8 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 132 9 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 132 10 located locate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 132 11 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 132 12 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 132 13 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 132 14 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 132 15 primer- primer- NN
work_hxktjt6jyrbxnn45gipdtu7aji 132 16 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 132 17 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 132 18 catalyzes catalyze VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 132 19 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 132 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 133 1 E E NNS
work_hxktjt6jyrbxnn45gipdtu7aji 133 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 133 3 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 133 4 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 5 Mut mut NN
work_hxktjt6jyrbxnn45gipdtu7aji 133 6 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 133 7 composed compose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 133 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 133 9 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 133 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 11 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 12 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 13 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 133 14 red red JJ
work_hxktjt6jyrbxnn45gipdtu7aji 133 15 circle circle NN
work_hxktjt6jyrbxnn45gipdtu7aji 133 16 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 133 17 � � .
work_hxktjt6jyrbxnn45gipdtu7aji 133 18 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 133 20 inverted invert VBN
work_hxktjt6jyrbxnn45gipdtu7aji 133 21 blue blue JJ
work_hxktjt6jyrbxnn45gipdtu7aji 133 22 triangle triangle NN
work_hxktjt6jyrbxnn45gipdtu7aji 133 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 133 24 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 133 25 catalyzes catalyze VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 133 26 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 27 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 133 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 133 29 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 133 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 133 31 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 133 32 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 133 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 134 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 134 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 134 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 134 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 134 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 134 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 11 26776 26776 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 12 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 134 13 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 134 14 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 134 15 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 134 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 134 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 134 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 21 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 134 22 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 23 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 134 25 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 26 Sadly sadly RB
work_hxktjt6jyrbxnn45gipdtu7aji 134 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 134 28 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 134 29 close close JJ
work_hxktjt6jyrbxnn45gipdtu7aji 134 30 friend friend NN
work_hxktjt6jyrbxnn45gipdtu7aji 134 31 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 32 passed pass VBD
work_hxktjt6jyrbxnn45gipdtu7aji 134 33 away away RP
work_hxktjt6jyrbxnn45gipdtu7aji 134 34 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 134 35 April April NNP
work_hxktjt6jyrbxnn45gipdtu7aji 134 36 11 11 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 134 38 1993 1993 CD
work_hxktjt6jyrbxnn45gipdtu7aji 134 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 135 1 Several several JJ
work_hxktjt6jyrbxnn45gipdtu7aji 135 2 days day NNS
work_hxktjt6jyrbxnn45gipdtu7aji 135 3 earlier early RBR
work_hxktjt6jyrbxnn45gipdtu7aji 135 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 135 5 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 135 6 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 135 7 invited invite VBN
work_hxktjt6jyrbxnn45gipdtu7aji 135 8 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 135 9 his -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 135 10 wife wife NN
work_hxktjt6jyrbxnn45gipdtu7aji 135 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 135 12 Carol Carol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 135 13 Gross Gross NNP
work_hxktjt6jyrbxnn45gipdtu7aji 135 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 135 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 135 16 visit visit VB
work_hxktjt6jyrbxnn45gipdtu7aji 135 17 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 135 18 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 135 19 their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 135 20 Berkeley Berkeley NNP
work_hxktjt6jyrbxnn45gipdtu7aji 135 21 home home NN
work_hxktjt6jyrbxnn45gipdtu7aji 135 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 136 1 During during IN
work_hxktjt6jyrbxnn45gipdtu7aji 136 2 this this DT
work_hxktjt6jyrbxnn45gipdtu7aji 136 3 very very RB
work_hxktjt6jyrbxnn45gipdtu7aji 136 4 touching touching JJ
work_hxktjt6jyrbxnn45gipdtu7aji 136 5 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 136 6 brief brief JJ
work_hxktjt6jyrbxnn45gipdtu7aji 136 7 visit visit NN
work_hxktjt6jyrbxnn45gipdtu7aji 136 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 136 9 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 136 10 asked ask VBD
work_hxktjt6jyrbxnn45gipdtu7aji 136 11 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 136 12 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 136 13 continue continue VBP
work_hxktjt6jyrbxnn45gipdtu7aji 136 14 trying try VBG
work_hxktjt6jyrbxnn45gipdtu7aji 136 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 136 16 reconstitute reconstitute VB
work_hxktjt6jyrbxnn45gipdtu7aji 136 17 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 136 18 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 136 19 system system NN
work_hxktjt6jyrbxnn45gipdtu7aji 136 20 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 136 21 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 136 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 137 1 One one PRP
work_hxktjt6jyrbxnn45gipdtu7aji 137 2 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 137 3 study study VB
work_hxktjt6jyrbxnn45gipdtu7aji 137 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 137 5 renatured renatured JJ
work_hxktjt6jyrbxnn45gipdtu7aji 137 6 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 137 8 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 137 9 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 137 10 confi- confi- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 137 11 dence dence NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 12 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 137 13 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 137 14 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 137 15 known know VBN
work_hxktjt6jyrbxnn45gipdtu7aji 137 16 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 137 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 137 18 native native NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 19 � � ,
work_hxktjt6jyrbxnn45gipdtu7aji 137 20 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 137 21 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 137 22 clearly clearly RB
work_hxktjt6jyrbxnn45gipdtu7aji 137 23 defined define VBN
work_hxktjt6jyrbxnn45gipdtu7aji 137 24 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 137 25 � � NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 26 -exonuclease -exonuclease JJ
work_hxktjt6jyrbxnn45gipdtu7aji 137 27 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 28 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 137 29 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 137 30 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 137 31 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 137 32 compo- compo- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 137 33 nent nent NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 34 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 137 35 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 137 36 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 137 37 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 38 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 137 39 core core NN
work_hxktjt6jyrbxnn45gipdtu7aji 137 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 138 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 138 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 138 3 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 138 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 138 5 case case NN
work_hxktjt6jyrbxnn45gipdtu7aji 138 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 138 7 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 138 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 138 9 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 138 10 alternative alternative JJ
work_hxktjt6jyrbxnn45gipdtu7aji 138 11 approach approach NN
work_hxktjt6jyrbxnn45gipdtu7aji 138 12 might may MD
work_hxktjt6jyrbxnn45gipdtu7aji 138 13 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 138 14 better well RBR
work_hxktjt6jyrbxnn45gipdtu7aji 138 15 suited suited JJ
work_hxktjt6jyrbxnn45gipdtu7aji 138 16 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 138 17 investigate investigate VB
work_hxktjt6jyrbxnn45gipdtu7aji 138 18 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 138 19 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 138 20 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 138 21 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 138 22 known know VBN
work_hxktjt6jyrbxnn45gipdtu7aji 138 23 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 138 24 function function NN
work_hxktjt6jyrbxnn45gipdtu7aji 138 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 139 1 Irina Irina NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 2 Bruck Bruck NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 139 4 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 139 5 graduate graduate NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 6 student student NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 7 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 139 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 139 9 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 139 11 South- South- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 12 ern ern NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 13 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 14 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 139 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 139 16 Roger Roger NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 139 18 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 139 19 rebooted reboot VBD
work_hxktjt6jyrbxnn45gipdtu7aji 139 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 139 21 study study NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 22 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 139 23 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 139 25 taking take VBG
work_hxktjt6jyrbxnn45gipdtu7aji 139 26 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 139 27 alternative alternative JJ
work_hxktjt6jyrbxnn45gipdtu7aji 139 28 approach approach NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 29 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 139 30 opened open VBD
work_hxktjt6jyrbxnn45gipdtu7aji 139 31 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 139 32 way way NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 33 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 139 34 identify identify VB
work_hxktjt6jyrbxnn45gipdtu7aji 139 35 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 139 37 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 139 38 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 139 39 itself -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 139 40 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 139 41 rather rather RB
work_hxktjt6jyrbxnn45gipdtu7aji 139 42 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 139 43 part part NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 44 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 139 45 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 139 46 heterotrimeric heterotrimeric NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 47 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 48 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 139 49 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 50 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 139 51 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 139 52 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 139 53 29 29 CD
work_hxktjt6jyrbxnn45gipdtu7aji 139 54 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 139 55 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 140 1 By by IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 2 coexpressing coexpresse VBG
work_hxktjt6jyrbxnn45gipdtu7aji 140 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 4 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 140 5 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 140 6 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 140 7 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 140 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 140 9 overproduced overproduce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 140 10 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 11 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 12 high high JJ
work_hxktjt6jyrbxnn45gipdtu7aji 140 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 140 14 expression expression NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 15 promoter promoter NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 140 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 140 18 purifying purify VBG
work_hxktjt6jyrbxnn45gipdtu7aji 140 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 20 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 140 21 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 22 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 23 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 24 strain strain NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 25 carrying carry VBG
work_hxktjt6jyrbxnn45gipdtu7aji 140 26 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 27 deletion deletion NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 29 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 30 entire entire JJ
work_hxktjt6jyrbxnn45gipdtu7aji 140 31 umuDC umudc ADD
work_hxktjt6jyrbxnn45gipdtu7aji 140 32 operon operon NNP
work_hxktjt6jyrbxnn45gipdtu7aji 140 33 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 140 34 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 140 35 obtained obtain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 140 36 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 37 sizable sizable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 140 38 amount amount NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 39 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 40 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 140 41 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 140 42 46-kDa 46-kda CD
work_hxktjt6jyrbxnn45gipdtu7aji 140 43 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 44 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 140 45 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 140 46 identified identify VBD
work_hxktjt6jyrbxnn45gipdtu7aji 140 47 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 48 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 140 49 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 140 50 Western western JJ
work_hxktjt6jyrbxnn45gipdtu7aji 140 51 blotting blotting NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 52 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 140 53 microsequencing microsequencing NN
work_hxktjt6jyrbxnn45gipdtu7aji 140 54 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 141 1 At at IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 141 3 end end NN
work_hxktjt6jyrbxnn45gipdtu7aji 141 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 141 6 multistep multistep NN
work_hxktjt6jyrbxnn45gipdtu7aji 141 7 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 141 8 process process NN
work_hxktjt6jyrbxnn45gipdtu7aji 141 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 141 10 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 141 11 remained remain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 141 12 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 141 13 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 141 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 141 15 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 16 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 141 17 soon soon RB
work_hxktjt6jyrbxnn45gipdtu7aji 141 18 discovered discover VBD
work_hxktjt6jyrbxnn45gipdtu7aji 141 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 141 20 only only RB
work_hxktjt6jyrbxnn45gipdtu7aji 141 21 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 22 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 141 23 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 141 24 accompa- accompa- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 141 25 nied nie VBN
work_hxktjt6jyrbxnn45gipdtu7aji 141 26 throughout throughout IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 27 each each DT
work_hxktjt6jyrbxnn45gipdtu7aji 141 28 step step NN
work_hxktjt6jyrbxnn45gipdtu7aji 141 29 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 30 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 141 31 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 141 32 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 141 33 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 141 34 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 141 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 142 1 During during IN
work_hxktjt6jyrbxnn45gipdtu7aji 142 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 142 3 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 142 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 142 5 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 142 6 remained remain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 142 7 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 142 8 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 142 9 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 142 10 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 142 11 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 142 12 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 142 13 stable stable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 142 14 70-kDa 70-kda CD
work_hxktjt6jyrbxnn45gipdtu7aji 142 15 heterotrimeric heterotrimeric NN
work_hxktjt6jyrbxnn45gipdtu7aji 142 16 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 142 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 142 18 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 142 19 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 142 20 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 142 21 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 142 22 29 29 CD
work_hxktjt6jyrbxnn45gipdtu7aji 142 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 142 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 143 1 Having have VBG
work_hxktjt6jyrbxnn45gipdtu7aji 143 2 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 3 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 4 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 5 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 143 6 hand hand NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 8 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 143 9 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 143 10 embarked embark VBD
work_hxktjt6jyrbxnn45gipdtu7aji 143 11 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 143 12 reconstituting reconstitute VBG
work_hxktjt6jyrbxnn45gipdtu7aji 143 13 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 143 14 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 15 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 16 system system NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 17 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 143 18 vitro vitro FW
work_hxktjt6jyrbxnn45gipdtu7aji 143 19 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 143 20 included include VBD
work_hxktjt6jyrbxnn45gipdtu7aji 143 21 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 143 22 minimal minimal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 143 23 requirements requirement NNS
work_hxktjt6jyrbxnn45gipdtu7aji 143 24 determined determine VBN
work_hxktjt6jyrbxnn45gipdtu7aji 143 25 genetically genetically RB
work_hxktjt6jyrbxnn45gipdtu7aji 143 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 27 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 143 28 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 29 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 143 30 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 31 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 32 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 143 33 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 34 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 35 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 143 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 37 prim- prim- IN
work_hxktjt6jyrbxnn45gipdtu7aji 143 38 er er JJ
work_hxktjt6jyrbxnn45gipdtu7aji 143 39 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 143 40 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 41 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 42 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 43 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 143 44 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 45 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 143 46 course course NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 47 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 143 48 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 143 49 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 50 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 143 51 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 143 52 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 143 53 almost almost RB
work_hxktjt6jyrbxnn45gipdtu7aji 143 54 surely surely RB
work_hxktjt6jyrbxnn45gipdtu7aji 143 55 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 143 56 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 57 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 143 58 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 143 59 25 25 CD
work_hxktjt6jyrbxnn45gipdtu7aji 143 60 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 143 61 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 144 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 144 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 144 3 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 144 4 turned turn VBD
work_hxktjt6jyrbxnn45gipdtu7aji 144 5 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 144 6 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 144 7 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 144 8 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 144 9 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 144 10 case case NN
work_hxktjt6jyrbxnn45gipdtu7aji 144 11 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 144 12 described describe VBN
work_hxktjt6jyrbxnn45gipdtu7aji 144 13 next next RB
work_hxktjt6jyrbxnn45gipdtu7aji 144 14 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 145 1 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 145 2 Requires require VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 145 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 145 4 Umu Umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 145 5 Proteins Proteins NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 145 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 145 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 145 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 145 9 But but CC
work_hxktjt6jyrbxnn45gipdtu7aji 145 10 Not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 145 11 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 145 12 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 145 13 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 145 14 approach approach NN
work_hxktjt6jyrbxnn45gipdtu7aji 145 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 145 16 reconstitute reconstitute VB
work_hxktjt6jyrbxnn45gipdtu7aji 145 17 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 145 18 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 145 19 purified purified JJ
work_hxktjt6jyrbxnn45gipdtu7aji 145 20 pro- pro- NN
work_hxktjt6jyrbxnn45gipdtu7aji 145 21 teins tein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 145 22 dictated dictate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 145 23 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 145 24 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 145 25 genetics genetic NNS
work_hxktjt6jyrbxnn45gipdtu7aji 145 26 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 145 27 straightforward straightforward JJ
work_hxktjt6jyrbxnn45gipdtu7aji 145 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 146 1 Simply simply RB
work_hxktjt6jyrbxnn45gipdtu7aji 146 2 take take VB
work_hxktjt6jyrbxnn45gipdtu7aji 146 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 146 4 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 146 5 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 146 6 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 7 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 8 having have VBG
work_hxktjt6jyrbxnn45gipdtu7aji 146 9 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 146 10 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 146 11 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 146 12 -32P -32p NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 146 14 labeled label VBN
work_hxktjt6jyrbxnn45gipdtu7aji 146 15 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 146 17 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 146 18 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 19 containing contain VBG
work_hxktjt6jyrbxnn45gipdtu7aji 146 20 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 146 21 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 22 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 146 24 incubate incubate VB
work_hxktjt6jyrbxnn45gipdtu7aji 146 25 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 146 26 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 146 27 purified purify VBN
work_hxktjt6jyrbxnn45gipdtu7aji 146 28 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 146 29 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 146 30 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 146 31 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 146 32 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 146 33 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 146 34 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 146 35 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 146 36 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 146 37 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 146 38 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 147 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 147 2 expectation expectation NN
work_hxktjt6jyrbxnn45gipdtu7aji 147 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 147 4 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 147 5 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 147 6 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 147 7 HE he PRP
work_hxktjt6jyrbxnn45gipdtu7aji 147 8 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 147 9 extend extend VB
work_hxktjt6jyrbxnn45gipdtu7aji 147 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 147 11 32P 32P NNP
work_hxktjt6jyrbxnn45gipdtu7aji 147 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 147 13 labeled label VBN
work_hxktjt6jyrbxnn45gipdtu7aji 147 14 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 147 15 up up IN
work_hxktjt6jyrbxnn45gipdtu7aji 147 16 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 147 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 147 18 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 147 19 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 147 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 147 21 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 147 22 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 147 23 beyond beyond IN
work_hxktjt6jyrbxnn45gipdtu7aji 147 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 147 25 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 147 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 147 27 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 147 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 147 29 either either CC
work_hxktjt6jyrbxnn45gipdtu7aji 147 30 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 147 31 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 147 32 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 147 33 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 147 34 2C. 2c. CD
work_hxktjt6jyrbxnn45gipdtu7aji 148 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 148 2 hope hope NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 148 4 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 148 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 148 6 addition addition NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 148 8 both both CC
work_hxktjt6jyrbxnn45gipdtu7aji 148 9 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 148 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 148 11 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 148 12 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 148 13 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 14 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 148 15 allow allow VB
work_hxktjt6jyrbxnn45gipdtu7aji 148 16 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 148 17 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 148 18 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 148 19 insert insert VB
work_hxktjt6jyrbxnn45gipdtu7aji 148 20 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 148 21 deoxynucleotide deoxynucleotide NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 22 opposite opposite IN
work_hxktjt6jyrbxnn45gipdtu7aji 148 23 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 148 24 noncoding noncode VBG
work_hxktjt6jyrbxnn45gipdtu7aji 148 25 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 26 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 148 27 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 148 28 continue continue VB
work_hxktjt6jyrbxnn45gipdtu7aji 148 29 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 148 30 extension extension NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 31 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 148 32 reach reach VB
work_hxktjt6jyrbxnn45gipdtu7aji 148 33 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 148 34 end end NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 35 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 148 36 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 148 37 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 38 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 148 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 149 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 149 2 hoped hope VBN
work_hxktjt6jyrbxnn45gipdtu7aji 149 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 149 4 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 149 5 result result NN
work_hxktjt6jyrbxnn45gipdtu7aji 149 6 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 149 7 attained attain VBN
work_hxktjt6jyrbxnn45gipdtu7aji 149 8 except except IN
work_hxktjt6jyrbxnn45gipdtu7aji 149 9 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 149 10 one one CD
work_hxktjt6jyrbxnn45gipdtu7aji 149 11 unforeseen unforeseen JJ
work_hxktjt6jyrbxnn45gipdtu7aji 149 12 observation observation NN
work_hxktjt6jyrbxnn45gipdtu7aji 149 13 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 150 1 Exten- Exten- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 150 2 sion sion NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 150 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 150 5 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 150 7 copying copy VBG
work_hxktjt6jyrbxnn45gipdtu7aji 150 8 undamaged undamaged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 150 9 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 10 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 150 11 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 150 12 reach reach VB
work_hxktjt6jyrbxnn45gipdtu7aji 150 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 150 14 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 15 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 150 16 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 150 17 copying copy VBG
work_hxktjt6jyrbxnn45gipdtu7aji 150 18 past past IN
work_hxktjt6jyrbxnn45gipdtu7aji 150 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 150 20 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 21 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 150 22 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 150 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 150 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 150 25 occurred occur VBD
work_hxktjt6jyrbxnn45gipdtu7aji 150 26 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 150 27 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 150 28 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 29 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 150 30 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 31 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 150 32 core core NN
work_hxktjt6jyrbxnn45gipdtu7aji 150 33 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 150 34 30 30 CD
work_hxktjt6jyrbxnn45gipdtu7aji 150 35 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 150 36 ! ! .
work_hxktjt6jyrbxnn45gipdtu7aji 151 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 151 2 wholly wholly RB
work_hxktjt6jyrbxnn45gipdtu7aji 151 3 sur- sur- VBP
work_hxktjt6jyrbxnn45gipdtu7aji 151 4 prising prise VBG
work_hxktjt6jyrbxnn45gipdtu7aji 151 5 result result NN
work_hxktjt6jyrbxnn45gipdtu7aji 151 6 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 151 7 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 151 8 something something NN
work_hxktjt6jyrbxnn45gipdtu7aji 151 9 other other JJ
work_hxktjt6jyrbxnn45gipdtu7aji 151 10 than than IN
work_hxktjt6jyrbxnn45gipdtu7aji 151 11 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 151 12 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 151 13 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 151 14 able able JJ
work_hxktjt6jyrbxnn45gipdtu7aji 151 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 151 16 avidly avidly RB
work_hxktjt6jyrbxnn45gipdtu7aji 151 17 synthesize synthesize VB
work_hxktjt6jyrbxnn45gipdtu7aji 151 18 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 151 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 152 1 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 152 2 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 152 3 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 152 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 152 5 only only JJ
work_hxktjt6jyrbxnn45gipdtu7aji 152 6 unusual unusual JJ
work_hxktjt6jyrbxnn45gipdtu7aji 152 7 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 152 8 observed observe VBN
work_hxktjt6jyrbxnn45gipdtu7aji 152 9 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 153 1 Experiments experiment NNS
work_hxktjt6jyrbxnn45gipdtu7aji 153 2 leaving leave VBG
work_hxktjt6jyrbxnn45gipdtu7aji 153 3 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 153 4 one one CD
work_hxktjt6jyrbxnn45gipdtu7aji 153 5 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 153 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 153 7 dNTP dntp NN
work_hxktjt6jyrbxnn45gipdtu7aji 153 8 substrates substrate NNS
work_hxktjt6jyrbxnn45gipdtu7aji 153 9 made make VBD
work_hxktjt6jyrbxnn45gipdtu7aji 153 10 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 153 11 pretty pretty RB
work_hxktjt6jyrbxnn45gipdtu7aji 153 12 obvious obvious JJ
work_hxktjt6jyrbxnn45gipdtu7aji 153 13 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 153 14 deoxynucleotide deoxynucleotide VBP
work_hxktjt6jyrbxnn45gipdtu7aji 153 15 mis- mis- NNS
work_hxktjt6jyrbxnn45gipdtu7aji 153 16 incorporations incorporation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 153 17 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 153 18 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 153 19 occurring occur VBG
work_hxktjt6jyrbxnn45gipdtu7aji 153 20 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 153 21 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 153 22 unprecedented unprecedented JJ
work_hxktjt6jyrbxnn45gipdtu7aji 153 23 extent extent NN
work_hxktjt6jyrbxnn45gipdtu7aji 153 24 opposite opposite IN
work_hxktjt6jyrbxnn45gipdtu7aji 153 25 normal normal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 153 26 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 153 27 bases basis NNS
work_hxktjt6jyrbxnn45gipdtu7aji 153 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 154 1 It -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 154 2 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 154 3 occurred occur VBN
work_hxktjt6jyrbxnn45gipdtu7aji 154 4 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 154 5 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 154 6 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 154 7 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 154 8 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 154 9 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 154 10 might may MD
work_hxktjt6jyrbxnn45gipdtu7aji 154 11 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 154 12 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 154 13 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 154 14 type type NN
work_hxktjt6jyrbxnn45gipdtu7aji 154 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 154 16 low low JJ
work_hxktjt6jyrbxnn45gipdtu7aji 154 17 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 154 18 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 154 19 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 154 20 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 154 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 155 1 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 155 2 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 155 3 mentioned mention VBN
work_hxktjt6jyrbxnn45gipdtu7aji 155 4 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 5 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 6 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 155 7 Taos Taos NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 8 conference conference NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 9 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 10 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 155 11 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 12 processing processing NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 13 takes take VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 155 14 place place NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 15 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 16 accordance accordance NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 17 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 19 ‘ ' ``
work_hxktjt6jyrbxnn45gipdtu7aji 155 20 four four CD
work_hxktjt6jyrbxnn45gipdtu7aji 155 21 Rs r NNS
work_hxktjt6jyrbxnn45gipdtu7aji 155 22 ’ ' ''
work_hxktjt6jyrbxnn45gipdtu7aji 155 23 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 155 24 Replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 155 26 Recombina- Recombina- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 27 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 155 29 Repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 155 31 REDUNDANCY redundancy FW
work_hxktjt6jyrbxnn45gipdtu7aji 155 32 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 155 33 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 155 34 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 155 35 added add VBD
work_hxktjt6jyrbxnn45gipdtu7aji 155 36 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 37 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 155 38 if if IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 39 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 40 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 41 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 42 walks walk VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 155 43 like like IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 44 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 45 duck duck NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 46 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 155 47 quacks quack VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 155 48 like like IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 49 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 50 duck duck NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 51 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 155 52 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 155 53 perhaps perhaps RB
work_hxktjt6jyrbxnn45gipdtu7aji 155 54 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 155 55 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 155 56 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 57 duck duck NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 58 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 155 59 disguised disguise VBN
work_hxktjt6jyrbxnn45gipdtu7aji 155 60 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 61 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 62 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 155 63 type type NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 64 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 65 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 66 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 67 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 155 68 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 155 69 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 155 70 titled title VBD
work_hxktjt6jyrbxnn45gipdtu7aji 155 71 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 72 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 155 73 PNAS pnas NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 74 paper paper NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 75 describing describe VBG
work_hxktjt6jyrbxnn45gipdtu7aji 155 76 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 77 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 155 78 Reconstitution Reconstitution NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 79 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 80 in in FW
work_hxktjt6jyrbxnn45gipdtu7aji 155 81 vitro vitro FW
work_hxktjt6jyrbxnn45gipdtu7aji 155 82 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 83 bypass bypass NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 84 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 155 85 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 155 86 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 155 87 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 88 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 155 89 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 90 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 155 91 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 92 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 155 93 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 155 94 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 155 95 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 155 96 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 155 97 30 30 CD
work_hxktjt6jyrbxnn45gipdtu7aji 155 98 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 155 99 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 156 1 Bob Bob NNP
work_hxktjt6jyrbxnn45gipdtu7aji 156 2 Lehman Lehman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 156 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 156 4 who who WP
work_hxktjt6jyrbxnn45gipdtu7aji 156 5 communicated communicate VBD
work_hxktjt6jyrbxnn45gipdtu7aji 156 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 156 7 paper paper NN
work_hxktjt6jyrbxnn45gipdtu7aji 156 8 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 156 9 PNAS PNAS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 156 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 156 11 suggested suggest VBD
work_hxktjt6jyrbxnn45gipdtu7aji 156 12 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 156 13 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 156 14 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 156 15 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 156 16 overly overly RB
work_hxktjt6jyrbxnn45gipdtu7aji 156 17 conservative conservative JJ
work_hxktjt6jyrbxnn45gipdtu7aji 156 18 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 156 19 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 156 20 stating state VBG
work_hxktjt6jyrbxnn45gipdtu7aji 156 21 flat flat RB
work_hxktjt6jyrbxnn45gipdtu7aji 156 22 out out RB
work_hxktjt6jyrbxnn45gipdtu7aji 156 23 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 156 24 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 156 25 title title NN
work_hxktjt6jyrbxnn45gipdtu7aji 156 26 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 156 27 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 156 28 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 156 29 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 156 30 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 156 31 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 156 32 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 156 33 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 156 34 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 156 35 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 156 36 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 156 37 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 156 38 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 156 39 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 156 40 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 156 41 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 157 1 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 2 hindsight hindsight NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 4 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 157 5 obviously obviously RB
work_hxktjt6jyrbxnn45gipdtu7aji 157 6 should should MD
work_hxktjt6jyrbxnn45gipdtu7aji 157 7 have have VB
work_hxktjt6jyrbxnn45gipdtu7aji 157 8 taken take VBN
work_hxktjt6jyrbxnn45gipdtu7aji 157 9 Bob Bob NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 10 ’s ’s POS
work_hxktjt6jyrbxnn45gipdtu7aji 157 11 advice advice NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 13 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 157 14 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 15 Dick Dick NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 16 Vermeil Vermeil NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 157 19 superb superb JJ
work_hxktjt6jyrbxnn45gipdtu7aji 157 20 head head NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 21 football football NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 22 coach coach NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 23 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 24 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 157 25 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 157 26 hated hated JJ
work_hxktjt6jyrbxnn45gipdtu7aji 157 27 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 157 28 rival rival JJ
work_hxktjt6jyrbxnn45gipdtu7aji 157 29 school school NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 30 UCLA UCLA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 31 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 32 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 157 33 aptly aptly RB
work_hxktjt6jyrbxnn45gipdtu7aji 157 34 said say VBN
work_hxktjt6jyrbxnn45gipdtu7aji 157 35 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 36 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 157 37 quote quote NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 38 paraphrased paraphrase VBN
work_hxktjt6jyrbxnn45gipdtu7aji 157 39 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 40 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 157 41 poet poet NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 42 Henry Henry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 43 David David NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 44 Thoreau Thoreau NNP
work_hxktjt6jyrbxnn45gipdtu7aji 157 45 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 46 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 157 47 Never never RB
work_hxktjt6jyrbxnn45gipdtu7aji 157 48 look look VB
work_hxktjt6jyrbxnn45gipdtu7aji 157 49 back back RB
work_hxktjt6jyrbxnn45gipdtu7aji 157 50 unless unless IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 51 you -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 157 52 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 157 53 planning plan VBG
work_hxktjt6jyrbxnn45gipdtu7aji 157 54 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 157 55 go go VB
work_hxktjt6jyrbxnn45gipdtu7aji 157 56 that that DT
work_hxktjt6jyrbxnn45gipdtu7aji 157 57 way way NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 58 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 157 59 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 157 60 There there EX
work_hxktjt6jyrbxnn45gipdtu7aji 157 61 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 157 62 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 63 however however RB
work_hxktjt6jyrbxnn45gipdtu7aji 157 64 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 157 65 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 157 66 mitigating mitigating JJ
work_hxktjt6jyrbxnn45gipdtu7aji 157 67 factor factor NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 68 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 157 69 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 157 70 chicken- chicken- NN
work_hxktjt6jyrbxnn45gipdtu7aji 157 71 ing e VBG
work_hxktjt6jyrbxnn45gipdtu7aji 157 72 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 157 73 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 158 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 158 2 specific specific JJ
work_hxktjt6jyrbxnn45gipdtu7aji 158 3 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 158 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 158 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 158 6 low low JJ
work_hxktjt6jyrbxnn45gipdtu7aji 158 7 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 158 8 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 158 9 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 158 10 activ- activ- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 158 11 ity ity NN
work_hxktjt6jyrbxnn45gipdtu7aji 158 12 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 158 13 miniscule miniscule JJ
work_hxktjt6jyrbxnn45gipdtu7aji 158 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 158 15 nowhere nowhere RB
work_hxktjt6jyrbxnn45gipdtu7aji 158 16 near near IN
work_hxktjt6jyrbxnn45gipdtu7aji 158 17 that that DT
work_hxktjt6jyrbxnn45gipdtu7aji 158 18 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 158 19 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 158 20 I I NNP
work_hxktjt6jyrbxnn45gipdtu7aji 158 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 158 22 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 158 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 158 24 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 158 25 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 158 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 158 27 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 158 28 perhaps perhaps RB
work_hxktjt6jyrbxnn45gipdtu7aji 158 29 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 158 30 small small JJ
work_hxktjt6jyrbxnn45gipdtu7aji 158 31 contaminant contaminant NN
work_hxktjt6jyrbxnn45gipdtu7aji 158 32 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 158 33 one one CD
work_hxktjt6jyrbxnn45gipdtu7aji 158 34 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 158 35 more more JJR
work_hxktjt6jyrbxnn45gipdtu7aji 158 36 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 158 37 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 158 38 pols pol NNS
work_hxktjt6jyrbxnn45gipdtu7aji 158 39 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 158 40 7 7 CD
work_hxktjt6jyrbxnn45gipdtu7aji 158 41 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 159 1 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 159 2 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 159 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 159 4 Berkeley Berkeley NNP
work_hxktjt6jyrbxnn45gipdtu7aji 159 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 159 6 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 159 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 159 8 circa circa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 159 9 1980 1980 CD
work_hxktjt6jyrbxnn45gipdtu7aji 159 10 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 159 11 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 160 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 160 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 160 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 160 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 160 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 160 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 11 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 12 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 160 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 160 14 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 160 15 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 160 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 160 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 160 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 160 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 160 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 160 21 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 160 22 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 160 23 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 160 24 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 160 25 26777 26777 CD
work_hxktjt6jyrbxnn45gipdtu7aji 160 26 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 160 27 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 160 28 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 160 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 161 1 Thanks thank NNS
work_hxktjt6jyrbxnn45gipdtu7aji 161 2 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 3 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 161 4 exquisitely exquisitely RB
work_hxktjt6jyrbxnn45gipdtu7aji 161 5 sensitive sensitive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 161 6 neu- neu- NN
work_hxktjt6jyrbxnn45gipdtu7aji 161 7 tralizing tralize VBG
work_hxktjt6jyrbxnn45gipdtu7aji 161 8 antibody antibody NN
work_hxktjt6jyrbxnn45gipdtu7aji 161 9 against against IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 10 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 161 11 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 161 12 provided provide VBD
work_hxktjt6jyrbxnn45gipdtu7aji 161 13 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 14 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 161 15 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 16 Larry Larry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 161 17 Loeb Loeb NNP
work_hxktjt6jyrbxnn45gipdtu7aji 161 18 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 161 20 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 161 21 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 22 Washington Washington NNP
work_hxktjt6jyrbxnn45gipdtu7aji 161 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 161 24 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 161 25 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 161 26 confi- confi- XX
work_hxktjt6jyrbxnn45gipdtu7aji 161 27 dently dently RB
work_hxktjt6jyrbxnn45gipdtu7aji 161 28 rule rule VB
work_hxktjt6jyrbxnn45gipdtu7aji 161 29 out out RP
work_hxktjt6jyrbxnn45gipdtu7aji 161 30 pol pol VBP
work_hxktjt6jyrbxnn45gipdtu7aji 161 31 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 161 32 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 161 33 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 161 34 contaminant contaminant NN
work_hxktjt6jyrbxnn45gipdtu7aji 161 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 162 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 162 2 deliberate deliberate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 162 3 addi- addi- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 162 4 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 162 5 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 162 6 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 162 7 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 162 8 inhibited inhibit VBN
work_hxktjt6jyrbxnn45gipdtu7aji 162 9 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 162 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 162 11 suggesting suggest VBG
work_hxktjt6jyrbxnn45gipdtu7aji 162 12 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 162 13 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 162 14 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 162 15 unlikely unlikely JJ
work_hxktjt6jyrbxnn45gipdtu7aji 162 16 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 162 17 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 162 18 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 162 19 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 162 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 162 21 preparation preparation NN
work_hxktjt6jyrbxnn45gipdtu7aji 162 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 162 23 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 162 24 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 162 25 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 162 26 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 162 27 entirely entirely RB
work_hxktjt6jyrbxnn45gipdtu7aji 162 28 eliminate eliminate VB
work_hxktjt6jyrbxnn45gipdtu7aji 162 29 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 162 30 adventitious adventitious JJ
work_hxktjt6jyrbxnn45gipdtu7aji 162 31 presence presence NN
work_hxktjt6jyrbxnn45gipdtu7aji 162 32 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 162 33 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 162 34 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 162 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 163 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 163 2 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 163 3 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 163 4 antibody antibody NN
work_hxktjt6jyrbxnn45gipdtu7aji 163 5 against against IN
work_hxktjt6jyrbxnn45gipdtu7aji 163 6 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 163 7 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 163 8 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 163 9 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 163 10 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 163 11 II ii CD
work_hxktjt6jyrbxnn45gipdtu7aji 163 12 deletion deletion NN
work_hxktjt6jyrbxnn45gipdtu7aji 163 13 strain strain NN
work_hxktjt6jyrbxnn45gipdtu7aji 163 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 163 15 exploit exploit VB
work_hxktjt6jyrbxnn45gipdtu7aji 163 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 164 1 Notably notably RB
work_hxktjt6jyrbxnn45gipdtu7aji 164 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 164 3 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 164 4 recounted recount VBN
work_hxktjt6jyrbxnn45gipdtu7aji 164 5 above above RB
work_hxktjt6jyrbxnn45gipdtu7aji 164 6 under under IN
work_hxktjt6jyrbxnn45gipdtu7aji 164 7 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 164 8 A A NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 9 Digression digression NN
work_hxktjt6jyrbxnn45gipdtu7aji 164 10 into into IN
work_hxktjt6jyrbxnn45gipdtu7aji 164 11 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 12 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 13 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 164 15 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 164 16 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 17 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 18 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 164 19 itself -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 164 20 pretty pretty RB
work_hxktjt6jyrbxnn45gipdtu7aji 164 21 adept adept JJ
work_hxktjt6jyrbxnn45gipdtu7aji 164 22 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 164 23 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 164 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 165 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 165 2 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 165 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 165 4 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 165 5 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 165 6 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 165 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 165 8 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 165 9 regulon regulon NN
work_hxktjt6jyrbxnn45gipdtu7aji 165 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 165 11 vivo vivo NNP
work_hxktjt6jyrbxnn45gipdtu7aji 165 12 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 165 13 response response NN
work_hxktjt6jyrbxnn45gipdtu7aji 165 14 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 165 15 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 165 16 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 165 17 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 165 18 19 19 CD
work_hxktjt6jyrbxnn45gipdtu7aji 165 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 165 20 22 22 CD
work_hxktjt6jyrbxnn45gipdtu7aji 165 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 165 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 166 1 Here here RB
work_hxktjt6jyrbxnn45gipdtu7aji 166 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 166 3 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 166 4 reflect reflect VBP
work_hxktjt6jyrbxnn45gipdtu7aji 166 5 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 166 6 that that DT
work_hxktjt6jyrbxnn45gipdtu7aji 166 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 166 8 back back RB
work_hxktjt6jyrbxnn45gipdtu7aji 166 9 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 166 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 166 11 day day NN
work_hxktjt6jyrbxnn45gipdtu7aji 166 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 166 13 circa circa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 166 14 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 166 15 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 166 16 2004 2004 CD
work_hxktjt6jyrbxnn45gipdtu7aji 166 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 166 18 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 166 19 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 166 20 fortunate fortunate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 166 21 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 166 22 recover recover VB
work_hxktjt6jyrbxnn45gipdtu7aji 166 23 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 166 24 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 166 25 – – SYM
work_hxktjt6jyrbxnn45gipdtu7aji 166 26 4 4 CD
work_hxktjt6jyrbxnn45gipdtu7aji 166 27 mg mg NN
work_hxktjt6jyrbxnn45gipdtu7aji 166 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 166 29 purified purify VBN
work_hxktjt6jyrbxnn45gipdtu7aji 166 30 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 166 31 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 166 32 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 166 33 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 166 34 30 30 CD
work_hxktjt6jyrbxnn45gipdtu7aji 166 35 liters liter NNS
work_hxktjt6jyrbxnn45gipdtu7aji 166 36 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 166 37 cells cell NNS
work_hxktjt6jyrbxnn45gipdtu7aji 166 38 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 166 39 even even RB
work_hxktjt6jyrbxnn45gipdtu7aji 166 40 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 166 41 overproduced overproduced JJ
work_hxktjt6jyrbxnn45gipdtu7aji 166 42 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 167 1 To to TO
work_hxktjt6jyrbxnn45gipdtu7aji 167 2 obtain obtain VB
work_hxktjt6jyrbxnn45gipdtu7aji 167 3 more more JJR
work_hxktjt6jyrbxnn45gipdtu7aji 167 4 workable workable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 167 5 amounts amount NNS
work_hxktjt6jyrbxnn45gipdtu7aji 167 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 167 7 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 167 8 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 167 9 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 167 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 167 11 Roger Roger NNP
work_hxktjt6jyrbxnn45gipdtu7aji 167 12 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 167 13 fired fire VBD
work_hxktjt6jyrbxnn45gipdtu7aji 167 14 up up RP
work_hxktjt6jyrbxnn45gipdtu7aji 167 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 167 16 200- 200- CD
work_hxktjt6jyrbxnn45gipdtu7aji 167 17 liter liter NN
work_hxktjt6jyrbxnn45gipdtu7aji 167 18 fermenter fermenter NN
work_hxktjt6jyrbxnn45gipdtu7aji 167 19 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 167 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 167 21 National National NNP
work_hxktjt6jyrbxnn45gipdtu7aji 167 22 Institutes Institutes NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 167 23 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 167 24 Health Health NNP
work_hxktjt6jyrbxnn45gipdtu7aji 167 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 167 26 ship- ship- XX
work_hxktjt6jyrbxnn45gipdtu7aji 167 27 ping pe VBG
work_hxktjt6jyrbxnn45gipdtu7aji 167 28 many many JJ
work_hxktjt6jyrbxnn45gipdtu7aji 167 29 grams gram NNS
work_hxktjt6jyrbxnn45gipdtu7aji 167 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 167 31 spun spin VBN
work_hxktjt6jyrbxnn45gipdtu7aji 167 32 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 167 33 down down RP
work_hxktjt6jyrbxnn45gipdtu7aji 167 34 cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 167 35 pellets pellet NNS
work_hxktjt6jyrbxnn45gipdtu7aji 167 36 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 167 37 us -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 167 38 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 167 39 dry dry JJ
work_hxktjt6jyrbxnn45gipdtu7aji 167 40 ice ice NN
work_hxktjt6jyrbxnn45gipdtu7aji 167 41 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 168 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 168 2 ensured ensure VBD
work_hxktjt6jyrbxnn45gipdtu7aji 168 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 168 4 quarterly quarterly JJ
work_hxktjt6jyrbxnn45gipdtu7aji 168 5 profit profit NN
work_hxktjt6jyrbxnn45gipdtu7aji 168 6 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 168 7 FedEx FedEx NNP
work_hxktjt6jyrbxnn45gipdtu7aji 168 8 lasting last VBG
work_hxktjt6jyrbxnn45gipdtu7aji 168 9 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 168 10 several several JJ
work_hxktjt6jyrbxnn45gipdtu7aji 168 11 years year NNS
work_hxktjt6jyrbxnn45gipdtu7aji 168 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 169 1 It -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 169 2 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 169 3 gave give VBD
work_hxktjt6jyrbxnn45gipdtu7aji 169 4 rise rise NN
work_hxktjt6jyrbxnn45gipdtu7aji 169 5 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 169 6 heavy heavy JJ
work_hxktjt6jyrbxnn45gipdtu7aji 169 7 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 169 8 duty duty NN
work_hxktjt6jyrbxnn45gipdtu7aji 169 9 KP KP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 169 11 kold kold NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 12 room room NN
work_hxktjt6jyrbxnn45gipdtu7aji 169 13 patrol patrol NN
work_hxktjt6jyrbxnn45gipdtu7aji 169 14 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 169 15 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 169 16 graduate graduate NN
work_hxktjt6jyrbxnn45gipdtu7aji 169 17 students student NNS
work_hxktjt6jyrbxnn45gipdtu7aji 169 18 Irina Irina NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 19 Bruck Bruck NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 169 21 Mengjia Mengjia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 22 Tang Tang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 23 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 169 24 Fig Fig NNP
work_hxktjt6jyrbxnn45gipdtu7aji 169 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 170 1 5 5 LS
work_hxktjt6jyrbxnn45gipdtu7aji 170 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 170 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 170 4 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 170 5 Xuan Xuan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 170 6 Shen Shen NNP
work_hxktjt6jyrbxnn45gipdtu7aji 170 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 171 1 Under under IN
work_hxktjt6jyrbxnn45gipdtu7aji 171 2 such such JJ
work_hxktjt6jyrbxnn45gipdtu7aji 171 3 trying try VBG
work_hxktjt6jyrbxnn45gipdtu7aji 171 4 circumstances circumstance NNS
work_hxktjt6jyrbxnn45gipdtu7aji 171 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 171 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 171 7 minor minor JJ
work_hxktjt6jyrbxnn45gipdtu7aji 171 8 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 171 9 contaminant contaminant NN
work_hxktjt6jyrbxnn45gipdtu7aji 171 10 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 171 11 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 171 12 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 171 13 too too RB
work_hxktjt6jyrbxnn45gipdtu7aji 171 14 surprising surprising JJ
work_hxktjt6jyrbxnn45gipdtu7aji 171 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 172 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 172 2 concurrent concurrent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 172 3 paper paper NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 4 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 172 5 Zvi Zvi NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 6 Livneh Livneh NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 7 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 172 8 colleagues colleague NNS
work_hxktjt6jyrbxnn45gipdtu7aji 172 9 showed show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 172 10 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 172 11 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 172 12 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 13 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 172 14 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 172 15 maltose maltose NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 16 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 172 17 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 172 18 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 19 attached attach VBN
work_hxktjt6jyrbxnn45gipdtu7aji 172 20 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 172 21 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 172 22 N n CD
work_hxktjt6jyrbxnn45gipdtu7aji 172 23 terminus terminus NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 172 25 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 172 26 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 172 27 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 172 28 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 172 29 aqueous aqueous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 172 30 solu- solu- NNS
work_hxktjt6jyrbxnn45gipdtu7aji 172 31 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 32 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 172 33 maltose maltose NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 34 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 172 35 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 172 36 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 172 37 - - :
work_hxktjt6jyrbxnn45gipdtu7aji 172 38 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 39 along along IN
work_hxktjt6jyrbxnn45gipdtu7aji 172 40 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 172 41 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 42 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 43 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 172 44 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 45 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 172 46 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 172 47 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 172 48 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 172 49 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 50 HE he PRP
work_hxktjt6jyrbxnn45gipdtu7aji 172 51 performed perform VBD
work_hxktjt6jyrbxnn45gipdtu7aji 172 52 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 172 53 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 173 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 173 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 173 3 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 173 4 con- con- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 173 5 trast trast NN
work_hxktjt6jyrbxnn45gipdtu7aji 173 6 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 173 7 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 173 8 data datum NNS
work_hxktjt6jyrbxnn45gipdtu7aji 173 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 173 10 pol pol VBP
work_hxktjt6jyrbxnn45gipdtu7aji 173 11 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 173 12 HE HE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 173 13 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 173 14 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 173 15 necessary necessary JJ
work_hxktjt6jyrbxnn45gipdtu7aji 173 16 component component NN
work_hxktjt6jyrbxnn45gipdtu7aji 173 17 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 173 18 their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 173 19 reconstituted reconstitute VBN
work_hxktjt6jyrbxnn45gipdtu7aji 173 20 system system NN
work_hxktjt6jyrbxnn45gipdtu7aji 173 21 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 173 22 31 31 CD
work_hxktjt6jyrbxnn45gipdtu7aji 173 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 173 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 174 1 Absent absent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 174 2 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 174 3 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 174 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 174 5 there there EX
work_hxktjt6jyrbxnn45gipdtu7aji 174 6 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 174 7 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 174 8 detectable detectable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 174 9 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 174 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 174 11 Livneh Livneh NNP
work_hxktjt6jyrbxnn45gipdtu7aji 174 12 ’s ’s POS
work_hxktjt6jyrbxnn45gipdtu7aji 174 13 system system NN
work_hxktjt6jyrbxnn45gipdtu7aji 174 14 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 175 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 175 2 PNAS PNAS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 175 3 Commen- Commen- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 175 4 tary tary NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 5 discussing discuss VBG
work_hxktjt6jyrbxnn45gipdtu7aji 175 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 175 7 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 175 8 papers paper NNS
work_hxktjt6jyrbxnn45gipdtu7aji 175 9 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 175 10 written write VBN
work_hxktjt6jyrbxnn45gipdtu7aji 175 11 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 175 12 Graham Graham NNP
work_hxktjt6jyrbxnn45gipdtu7aji 175 13 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 175 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 175 15 entitled entitle VBN
work_hxktjt6jyrbxnn45gipdtu7aji 175 16 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 175 17 Skiing ski VBG
work_hxktjt6jyrbxnn45gipdtu7aji 175 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 175 19 black black JJ
work_hxktjt6jyrbxnn45gipdtu7aji 175 20 diamond diamond NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 21 slope slope NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 22 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 175 23 pro- pro- NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 24 gress gress NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 25 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 175 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 175 27 biochemistry biochemistry NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 175 29 translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 30 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 31 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 175 32 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 175 33 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 175 34 32 32 CD
work_hxktjt6jyrbxnn45gipdtu7aji 175 35 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 175 36 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 176 1 Graham Graham NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 2 ’s ’s POS
work_hxktjt6jyrbxnn45gipdtu7aji 176 3 title title NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 4 referred refer VBD
work_hxktjt6jyrbxnn45gipdtu7aji 176 5 specifically specifically RB
work_hxktjt6jyrbxnn45gipdtu7aji 176 6 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 7 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 176 8 statement statement NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 9 made make VBN
work_hxktjt6jyrbxnn45gipdtu7aji 176 10 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 11 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 12 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 13 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 176 14 packed packed JJ
work_hxktjt6jyrbxnn45gipdtu7aji 176 15 audience audience NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 16 during during IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 17 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 176 18 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 19 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 176 20 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 21 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 176 22 skiing skiing NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 23 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 176 24 meeting meeting NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 25 held hold VBN
work_hxktjt6jyrbxnn45gipdtu7aji 176 26 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 27 Taos Taos NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 176 29 New New NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 30 Mexico Mexico NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 31 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 176 32 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 33 1992 1992 CD
work_hxktjt6jyrbxnn45gipdtu7aji 176 34 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 176 35 where where WRB
work_hxktjt6jyrbxnn45gipdtu7aji 176 36 he -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 176 37 referred refer VBD
work_hxktjt6jyrbxnn45gipdtu7aji 176 38 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 39 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 40 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 41 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 176 42 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 176 43 black black JJ
work_hxktjt6jyrbxnn45gipdtu7aji 176 44 diamond diamond NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 45 slope slope NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 46 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 176 47 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 48 biochemistry biochemistry NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 49 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 176 50 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 176 51 Black black JJ
work_hxktjt6jyrbxnn45gipdtu7aji 176 52 double double JJ
work_hxktjt6jyrbxnn45gipdtu7aji 176 53 diamond diamond NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 54 slope slope NN
work_hxktjt6jyrbxnn45gipdtu7aji 176 55 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 176 56 what what WP
work_hxktjt6jyrbxnn45gipdtu7aji 176 57 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 176 58 remember remember VBP
work_hxktjt6jyrbxnn45gipdtu7aji 176 59 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 176 60 having have VBG
work_hxktjt6jyrbxnn45gipdtu7aji 176 61 said say VBD
work_hxktjt6jyrbxnn45gipdtu7aji 176 62 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 177 1 Either either DT
work_hxktjt6jyrbxnn45gipdtu7aji 177 2 way way NN
work_hxktjt6jyrbxnn45gipdtu7aji 177 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 177 4 one one CD
work_hxktjt6jyrbxnn45gipdtu7aji 177 5 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 177 6 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 177 7 diamonds diamond NNS
work_hxktjt6jyrbxnn45gipdtu7aji 177 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 177 9 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 177 10 mid- mid- NN
work_hxktjt6jyrbxnn45gipdtu7aji 177 11 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 177 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 177 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 177 14 difficulties difficulty NNS
work_hxktjt6jyrbxnn45gipdtu7aji 177 15 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 177 16 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 177 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 177 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 177 19 more more RBR
work_hxktjt6jyrbxnn45gipdtu7aji 177 20 generally generally RB
work_hxktjt6jyrbxnn45gipdtu7aji 177 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 177 22 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 177 23 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 177 24 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 177 25 reconstitution reconstitution NN
work_hxktjt6jyrbxnn45gipdtu7aji 177 26 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 177 27 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 177 28 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 177 29 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 177 30 long long RB
work_hxktjt6jyrbxnn45gipdtu7aji 177 31 last last JJ
work_hxktjt6jyrbxnn45gipdtu7aji 177 32 being being NN
work_hxktjt6jyrbxnn45gipdtu7aji 177 33 bypassed bypass VBN
work_hxktjt6jyrbxnn45gipdtu7aji 177 34 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 177 35 pun pun NNP
work_hxktjt6jyrbxnn45gipdtu7aji 177 36 intended intended NNP
work_hxktjt6jyrbxnn45gipdtu7aji 177 37 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 177 38 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 178 1 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 178 2 1999 1999 CD
work_hxktjt6jyrbxnn45gipdtu7aji 178 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 178 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 178 5 heterotri- heterotri- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 178 6 meric meric JJ
work_hxktjt6jyrbxnn45gipdtu7aji 178 7 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 178 8 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 178 9 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 10 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 11 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 178 12 unequivocally unequivocally RB
work_hxktjt6jyrbxnn45gipdtu7aji 178 13 shown show VBN
work_hxktjt6jyrbxnn45gipdtu7aji 178 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 178 15 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 178 16 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 178 17 bona bona JJ
work_hxktjt6jyrbxnn45gipdtu7aji 178 18 fide fide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 178 19 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 20 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 21 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 178 22 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 178 23 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 178 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 178 25 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 178 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 178 27 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 28 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 29 residing reside VBG
work_hxktjt6jyrbxnn45gipdtu7aji 178 30 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 178 31 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 178 32 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 178 33 subunit subunit NN
work_hxktjt6jyrbxnn45gipdtu7aji 178 34 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 178 35 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 178 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 178 37 14 14 CD
work_hxktjt6jyrbxnn45gipdtu7aji 178 38 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 178 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 179 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 179 2 year year NN
work_hxktjt6jyrbxnn45gipdtu7aji 179 3 2001 2001 CD
work_hxktjt6jyrbxnn45gipdtu7aji 179 4 witnessed witness VBD
work_hxktjt6jyrbxnn45gipdtu7aji 179 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 179 6 identification identification NN
work_hxktjt6jyrbxnn45gipdtu7aji 179 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 179 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 179 9 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 179 10 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 179 11 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 179 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 179 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 179 14 Y Y NNP
work_hxktjt6jyrbxnn45gipdtu7aji 179 15 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 179 16 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 179 17 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 179 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 179 19 33 33 CD
work_hxktjt6jyrbxnn45gipdtu7aji 179 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 179 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 179 22 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 179 23 grew grow VBD
work_hxktjt6jyrbxnn45gipdtu7aji 179 24 rapidly rapidly RB
work_hxktjt6jyrbxnn45gipdtu7aji 179 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 180 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 180 2 recent recent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 180 3 count count NN
work_hxktjt6jyrbxnn45gipdtu7aji 180 4 identified identify VBD
work_hxktjt6jyrbxnn45gipdtu7aji 180 5 13 13 CD
work_hxktjt6jyrbxnn45gipdtu7aji 180 6 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 180 7 members member NNS
work_hxktjt6jyrbxnn45gipdtu7aji 180 8 spanning span VBG
work_hxktjt6jyrbxnn45gipdtu7aji 180 9 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 180 10 microorganisms microorganism NNS
work_hxktjt6jyrbxnn45gipdtu7aji 180 11 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 180 12 humans human NNS
work_hxktjt6jyrbxnn45gipdtu7aji 180 13 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 180 14 34 34 CD
work_hxktjt6jyrbxnn45gipdtu7aji 180 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 180 16 35 35 CD
work_hxktjt6jyrbxnn45gipdtu7aji 180 17 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 180 18 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 181 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 181 2 Fly fly NN
work_hxktjt6jyrbxnn45gipdtu7aji 181 3 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 181 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 181 5 cis cis NN
work_hxktjt6jyrbxnn45gipdtu7aji 181 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 181 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 181 8 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 181 9 Filament Filament NNP
work_hxktjt6jyrbxnn45gipdtu7aji 181 10 Ointment Ointment NNP
work_hxktjt6jyrbxnn45gipdtu7aji 181 11 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 181 12 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 181 13 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 181 14 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 181 15 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 181 16 Hatch Hatch NNP
work_hxktjt6jyrbxnn45gipdtu7aji 181 17 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 181 18 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 181 19 proposed propose VBD
work_hxktjt6jyrbxnn45gipdtu7aji 181 20 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 181 21 1990 1990 CD
work_hxktjt6jyrbxnn45gipdtu7aji 181 22 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 181 23 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 181 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 182 1 6B 6b NN
work_hxktjt6jyrbxnn45gipdtu7aji 182 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 182 3 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 182 4 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 182 5 strayed stray VBN
work_hxktjt6jyrbxnn45gipdtu7aji 182 6 far far RB
work_hxktjt6jyrbxnn45gipdtu7aji 182 7 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 182 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 182 9 1985 1985 CD
work_hxktjt6jyrbxnn45gipdtu7aji 182 10 Bridges- Bridges- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 182 11 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 182 12 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 182 13 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 182 14 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 182 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 183 1 6A 6a NN
work_hxktjt6jyrbxnn45gipdtu7aji 183 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 183 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 183 4 although although IN
work_hxktjt6jyrbxnn45gipdtu7aji 183 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 183 6 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 183 7 involved involve VBN
work_hxktjt6jyrbxnn45gipdtu7aji 183 8 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 183 9 modified modify VBN
work_hxktjt6jyrbxnn45gipdtu7aji 183 10 according accord VBG
work_hxktjt6jyrbxnn45gipdtu7aji 183 11 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 183 12 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 183 13 biochemical biochemical NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 14 data data NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 183 16 includ- includ- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 17 ing ing NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 18 dispensing dispense VBG
work_hxktjt6jyrbxnn45gipdtu7aji 183 19 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 183 20 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 183 21 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 22 HE he PRP
work_hxktjt6jyrbxnn45gipdtu7aji 183 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 183 24 replacing replace VBG
work_hxktjt6jyrbxnn45gipdtu7aji 183 25 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 183 26 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 183 27 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 183 28 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 183 29 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 183 30 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 31 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 183 32 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 183 33 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 183 34 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 183 35 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 183 36 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 184 1 6C 6c NN
work_hxktjt6jyrbxnn45gipdtu7aji 184 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 184 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 184 4 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 184 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 184 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 185 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 185 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 185 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 4 core core NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 5 feature feature NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 8 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 9 remained remain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 185 10 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 185 11 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 185 12 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 185 13 assumed assume VBN
work_hxktjt6jyrbxnn45gipdtu7aji 185 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 185 15 require require VB
work_hxktjt6jyrbxnn45gipdtu7aji 185 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 17 pres- pres- NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 18 ence ence NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 19 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 20 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 21 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 185 22 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 185 23 nucleoprotein nucleoprotein JJ
work_hxktjt6jyrbxnn45gipdtu7aji 185 24 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 25 assembled assemble VBN
work_hxktjt6jyrbxnn45gipdtu7aji 185 26 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 27 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 28 region region NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 29 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 30 ssDNA ssDNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 185 31 located locate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 185 32 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 33 cis cis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 185 34 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 35 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 36 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 185 37 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 185 38 -side -side ,
work_hxktjt6jyrbxnn45gipdtu7aji 185 39 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 185 40 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 185 41 dam- dam- RB
work_hxktjt6jyrbxnn45gipdtu7aji 185 42 aged aged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 185 43 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 44 base base NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 45 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 185 46 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 185 47 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 186 1 6 6 CD
work_hxktjt6jyrbxnn45gipdtu7aji 186 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 186 3 A a NN
work_hxktjt6jyrbxnn45gipdtu7aji 186 4 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 186 5 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 186 6 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 186 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 187 1 Positioning positioning NN
work_hxktjt6jyrbxnn45gipdtu7aji 187 2 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 187 3 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 187 4 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 187 5 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 187 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 187 7 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 187 8 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 187 9 proximal proximal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 187 10 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 187 11 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 187 12 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 187 13 surely surely RB
work_hxktjt6jyrbxnn45gipdtu7aji 187 14 made make VBD
work_hxktjt6jyrbxnn45gipdtu7aji 187 15 sense sense NN
work_hxktjt6jyrbxnn45gipdtu7aji 187 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 188 1 When when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 188 2 asked ask VBN
work_hxktjt6jyrbxnn45gipdtu7aji 188 3 why why WRB
work_hxktjt6jyrbxnn45gipdtu7aji 188 4 he -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 188 5 robbed rob VBD
work_hxktjt6jyrbxnn45gipdtu7aji 188 6 banks bank NNS
work_hxktjt6jyrbxnn45gipdtu7aji 188 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 188 8 Willie Willie NNP
work_hxktjt6jyrbxnn45gipdtu7aji 188 9 Sutton Sutton NNP
work_hxktjt6jyrbxnn45gipdtu7aji 188 10 famously famously RB
work_hxktjt6jyrbxnn45gipdtu7aji 188 11 replied reply VBD
work_hxktjt6jyrbxnn45gipdtu7aji 188 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 188 13 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 188 14 Because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 188 15 that that DT
work_hxktjt6jyrbxnn45gipdtu7aji 188 16 ’s ’ VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 188 17 where where WRB
work_hxktjt6jyrbxnn45gipdtu7aji 188 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 188 19 money money NN
work_hxktjt6jyrbxnn45gipdtu7aji 188 20 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 188 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 188 22 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 188 23 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 188 24 same same JJ
work_hxktjt6jyrbxnn45gipdtu7aji 188 25 localization localization NN
work_hxktjt6jyrbxnn45gipdtu7aji 188 26 principle principle NN
work_hxktjt6jyrbxnn45gipdtu7aji 188 27 logically logically RB
work_hxktjt6jyrbxnn45gipdtu7aji 188 28 accounted account VBD
work_hxktjt6jyrbxnn45gipdtu7aji 188 29 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 188 30 posi- posi- NN
work_hxktjt6jyrbxnn45gipdtu7aji 188 31 tioning tioning NN
work_hxktjt6jyrbxnn45gipdtu7aji 188 32 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 188 33 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 188 34 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 188 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 189 1 Although although IN
work_hxktjt6jyrbxnn45gipdtu7aji 189 2 assembly assembly NN
work_hxktjt6jyrbxnn45gipdtu7aji 189 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 189 4 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 189 5 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 189 6 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 189 7 cis cis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 189 8 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 189 9 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 189 10 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 189 11 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 189 12 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 189 13 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 189 14 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 189 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 189 16 reasonable reasonable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 189 17 supposi- supposi- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 189 18 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 189 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 189 20 there there EX
work_hxktjt6jyrbxnn45gipdtu7aji 189 21 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 189 22 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 189 23 direct direct JJ
work_hxktjt6jyrbxnn45gipdtu7aji 189 24 evidence evidence NN
work_hxktjt6jyrbxnn45gipdtu7aji 189 25 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 189 26 support support VB
work_hxktjt6jyrbxnn45gipdtu7aji 189 27 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 189 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 190 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 190 2 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 190 3 soon soon RB
work_hxktjt6jyrbxnn45gipdtu7aji 190 4 led lead VBN
work_hxktjt6jyrbxnn45gipdtu7aji 190 5 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 6 rethinking rethink VBG
work_hxktjt6jyrbxnn45gipdtu7aji 190 7 where where WRB
work_hxktjt6jyrbxnn45gipdtu7aji 190 8 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 190 9 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 190 10 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 11 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 190 12 functioned function VBD
work_hxktjt6jyrbxnn45gipdtu7aji 190 13 during during IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 14 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 15 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 16 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 17 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 190 18 talk talk NN
work_hxktjt6jyrbxnn45gipdtu7aji 190 19 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 190 20 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 190 21 gave give VBD
work_hxktjt6jyrbxnn45gipdtu7aji 190 22 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 23 November November NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 24 2000 2000 CD
work_hxktjt6jyrbxnn45gipdtu7aji 190 25 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 190 27 National National NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 28 Academy Academy NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 29 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 30 Sciences Sciences NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 190 31 Col- Col- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 32 loquium loquium NN
work_hxktjt6jyrbxnn45gipdtu7aji 190 33 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 34 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 190 35 Links Links NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 36 Between between IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 37 Recombination Recombination NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 38 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 190 39 Replica- Replica- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 40 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 190 41 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 190 42 Vital vital JJ
work_hxktjt6jyrbxnn45gipdtu7aji 190 43 Roles Roles NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 190 44 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 45 Recombination Recombination NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 46 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 190 47 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 48 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 49 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 190 50 Cali- Cali- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 51 fornia fornia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 52 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 190 53 Irvine Irvine NNP
work_hxktjt6jyrbxnn45gipdtu7aji 190 54 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 191 1 Projected project VBN
work_hxktjt6jyrbxnn45gipdtu7aji 191 2 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 191 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 191 4 screen screen NN
work_hxktjt6jyrbxnn45gipdtu7aji 191 5 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 191 6 PAGE PAGE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 191 7 data datum NNS
work_hxktjt6jyrbxnn45gipdtu7aji 191 8 depicting depict VBG
work_hxktjt6jyrbxnn45gipdtu7aji 191 9 32P 32P NNP
work_hxktjt6jyrbxnn45gipdtu7aji 191 10 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 191 11 labeled label VBN
work_hxktjt6jyrbxnn45gipdtu7aji 191 12 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 191 13 elongation elongation NN
work_hxktjt6jyrbxnn45gipdtu7aji 191 14 bands band NNS
work_hxktjt6jyrbxnn45gipdtu7aji 191 15 visualized visualize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 191 16 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 191 17 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 191 18 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 191 19 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 191 20 resolution resolution NN
work_hxktjt6jyrbxnn45gipdtu7aji 191 21 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 191 22 remarkable remarkable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 191 23 clarity clarity NN
work_hxktjt6jyrbxnn45gipdtu7aji 191 24 using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 191 25 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 191 26 aforementioned aforementioned JJ
work_hxktjt6jyrbxnn45gipdtu7aji 191 27 PhosphorImager PhosphorImager NNP
work_hxktjt6jyrbxnn45gipdtu7aji 191 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 192 1 Although although IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 192 3 data datum NNS
work_hxktjt6jyrbxnn45gipdtu7aji 192 4 showed show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 192 5 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 6 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 7 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 192 8 greatest great JJS
work_hxktjt6jyrbxnn45gipdtu7aji 192 9 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 10 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 192 11 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 12 / / SYM
work_hxktjt6jyrbxnn45gipdtu7aji 192 13 ssDNA ssdna JJ
work_hxktjt6jyrbxnn45gipdtu7aji 192 14 ratio ratio NN
work_hxktjt6jyrbxnn45gipdtu7aji 192 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 16 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 17 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 192 18 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 19 monomer/3–5 monomer/3–5 ,
work_hxktjt6jyrbxnn45gipdtu7aji 192 20 nucleotides nucleotide NNS
work_hxktjt6jyrbxnn45gipdtu7aji 192 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 192 22 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 192 23 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 192 24 consistent consistent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 192 25 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 192 27 optimal optimal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 192 28 ratio ratio NN
work_hxktjt6jyrbxnn45gipdtu7aji 192 29 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 30 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 31 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 192 32 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 192 33 for- for- XX
work_hxktjt6jyrbxnn45gipdtu7aji 192 34 mation mation NN
work_hxktjt6jyrbxnn45gipdtu7aji 192 35 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 192 36 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 37 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 192 38 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 192 39 clearly clearly RB
work_hxktjt6jyrbxnn45gipdtu7aji 192 40 observed observe VBN
work_hxktjt6jyrbxnn45gipdtu7aji 192 41 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 192 42 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 43 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 192 44 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 45 mono- mono- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 46 mer/50 mer/50 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 192 47 nucleotides nucleotide NNS
work_hxktjt6jyrbxnn45gipdtu7aji 192 48 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 193 1 Following follow VBG
work_hxktjt6jyrbxnn45gipdtu7aji 193 2 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 193 3 talk talk NN
work_hxktjt6jyrbxnn45gipdtu7aji 193 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 193 5 Mike Mike NNP
work_hxktjt6jyrbxnn45gipdtu7aji 193 6 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 193 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 193 8 Fig Fig NNP
work_hxktjt6jyrbxnn45gipdtu7aji 193 9 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 194 1 8) 8) CD
work_hxktjt6jyrbxnn45gipdtu7aji 194 2 mentioned mention VBD
work_hxktjt6jyrbxnn45gipdtu7aji 194 3 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 194 4 me -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 194 5 privately privately RB
work_hxktjt6jyrbxnn45gipdtu7aji 194 6 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 194 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 194 8 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 194 9 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 194 10 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 194 11 unlikely unlikely JJ
work_hxktjt6jyrbxnn45gipdtu7aji 194 12 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 194 13 assemble assemble VB
work_hxktjt6jyrbxnn45gipdtu7aji 194 14 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 194 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 194 16 region region NN
work_hxktjt6jyrbxnn45gipdtu7aji 194 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 194 18 ssDNA ssDNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 194 19 downstream downstream NNP
work_hxktjt6jyrbxnn45gipdtu7aji 194 20 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 194 21 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 194 22 tem- tem- NN
work_hxktjt6jyrbxnn45gipdtu7aji 194 23 plate plate NN
work_hxktjt6jyrbxnn45gipdtu7aji 194 24 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 194 25 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 194 26 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 194 27 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 194 28 monomer/50 monomer/50 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 194 29 nucleotides nucleotide NNS
work_hxktjt6jyrbxnn45gipdtu7aji 194 30 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 195 1 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 195 2 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 195 3 grateful grateful JJ
work_hxktjt6jyrbxnn45gipdtu7aji 195 4 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 195 5 Mike Mike NNP
work_hxktjt6jyrbxnn45gipdtu7aji 195 6 spared spare VBD
work_hxktjt6jyrbxnn45gipdtu7aji 195 7 me -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 195 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 195 9 public public JJ
work_hxktjt6jyrbxnn45gipdtu7aji 195 10 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 195 11 gotcha gotcha NNS
work_hxktjt6jyrbxnn45gipdtu7aji 195 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 195 13 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 195 14 all all PDT
work_hxktjt6jyrbxnn45gipdtu7aji 195 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 195 16 more more RBR
work_hxktjt6jyrbxnn45gipdtu7aji 195 17 so so RB
work_hxktjt6jyrbxnn45gipdtu7aji 195 18 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 195 19 his -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 195 20 point point NN
work_hxktjt6jyrbxnn45gipdtu7aji 195 21 proved prove VBD
work_hxktjt6jyrbxnn45gipdtu7aji 195 22 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 195 23 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 195 24 spot spot NN
work_hxktjt6jyrbxnn45gipdtu7aji 195 25 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 195 26 on on RP
work_hxktjt6jyrbxnn45gipdtu7aji 195 27 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 196 1 When when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 196 2 one one PRP
work_hxktjt6jyrbxnn45gipdtu7aji 196 3 makes make VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 196 4 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 5 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 196 6 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 7 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 8 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 196 9 annealing anneal VBG
work_hxktjt6jyrbxnn45gipdtu7aji 196 10 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 196 11 relatively relatively RB
work_hxktjt6jyrbxnn45gipdtu7aji 196 12 short short JJ
work_hxktjt6jyrbxnn45gipdtu7aji 196 13 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 14 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 196 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 196 16 longer long JJR
work_hxktjt6jyrbxnn45gipdtu7aji 196 17 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 18 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 196 20 thermodynamics thermodynamic NNS
work_hxktjt6jyrbxnn45gipdtu7aji 196 21 dictates dictate VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 196 22 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 196 23 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 196 24 portion portion NN
work_hxktjt6jyrbxnn45gipdtu7aji 196 25 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 196 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 196 27 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 196 28 remains remain VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 196 29 single- single- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 196 30 stranded strand VBN
work_hxktjt6jyrbxnn45gipdtu7aji 196 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 197 1 Furthermore furthermore RB
work_hxktjt6jyrbxnn45gipdtu7aji 197 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 197 3 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 4 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 197 5 typically typically RB
work_hxktjt6jyrbxnn45gipdtu7aji 197 6 used use VBD
work_hxktjt6jyrbxnn45gipdtu7aji 197 7 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 197 8 excess excess NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 10 primers primer NNS
work_hxktjt6jyrbxnn45gipdtu7aji 197 11 over over IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 12 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 13 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 197 14 optimize optimize VB
work_hxktjt6jyrbxnn45gipdtu7aji 197 15 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 197 16 yield yield NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 197 19 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 197 20 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 197 21 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 22 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 23 duplex duplex NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 197 25 there there EX
work_hxktjt6jyrbxnn45gipdtu7aji 197 26 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 197 27 always always RB
work_hxktjt6jyrbxnn45gipdtu7aji 197 28 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 197 29 excess excess NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 31 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 197 32 strands strand NNS
work_hxktjt6jyrbxnn45gipdtu7aji 197 33 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 34 solution solution NN
work_hxktjt6jyrbxnn45gipdtu7aji 197 35 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 197 36 bind bind VB
work_hxktjt6jyrbxnn45gipdtu7aji 197 37 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 197 38 RecA. reca. XX
work_hxktjt6jyrbxnn45gipdtu7aji 198 1 Although although IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 2 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 198 3 ratio ratio NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 5 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 6 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 8 monomer/50 monomer/50 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 9 nucleotides nucleotide NNS
work_hxktjt6jyrbxnn45gipdtu7aji 198 10 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 198 11 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 198 12 sufficiently sufficiently RB
work_hxktjt6jyrbxnn45gipdtu7aji 198 13 high high JJ
work_hxktjt6jyrbxnn45gipdtu7aji 198 14 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 15 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 16 nucleoprotein nucleoprotein NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 17 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 18 assem- assem- RB
work_hxktjt6jyrbxnn45gipdtu7aji 198 19 bly bly RB
work_hxktjt6jyrbxnn45gipdtu7aji 198 20 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 21 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 198 22 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 198 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 198 24 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 25 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 26 duplex duplex NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 198 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 198 29 ability ability NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 30 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 31 REFLECTIONS REFLECTIONS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 32 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 198 33 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 34 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 35 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 36 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 198 37 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 198 38 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 39 Polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 40 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 41 26778 26778 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 42 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 198 43 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 44 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 45 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 46 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 47 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 48 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 49 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 50 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 51 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 52 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 53 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 54 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 198 55 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 56 observe observe VBP
work_hxktjt6jyrbxnn45gipdtu7aji 198 57 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 58 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 59 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 198 60 catalyzed catalyzed JJ
work_hxktjt6jyrbxnn45gipdtu7aji 198 61 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 62 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 198 63 36 36 CD
work_hxktjt6jyrbxnn45gipdtu7aji 198 64 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 198 65 suggested suggest VBD
work_hxktjt6jyrbxnn45gipdtu7aji 198 66 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 67 perhaps perhaps RB
work_hxktjt6jyrbxnn45gipdtu7aji 198 68 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 69 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 198 70 forming form VBG
work_hxktjt6jyrbxnn45gipdtu7aji 198 71 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 72 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 198 73 shorter short JJR
work_hxktjt6jyrbxnn45gipdtu7aji 198 74 free free JJ
work_hxktjt6jyrbxnn45gipdtu7aji 198 75 primer primer NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 76 strands strand NNS
work_hxktjt6jyrbxnn45gipdtu7aji 198 77 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 198 78 somehow somehow RB
work_hxktjt6jyrbxnn45gipdtu7aji 198 79 able able JJ
work_hxktjt6jyrbxnn45gipdtu7aji 198 80 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 198 81 facilitate facilitate VB
work_hxktjt6jyrbxnn45gipdtu7aji 198 82 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 83 bypass bypass NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 84 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 85 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 86 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 87 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 88 acting act VBG
work_hxktjt6jyrbxnn45gipdtu7aji 198 89 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 198 90 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 198 91 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 198 92 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 198 93 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 199 1 6D 6d LS
work_hxktjt6jyrbxnn45gipdtu7aji 199 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 199 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 199 4 37 37 CD
work_hxktjt6jyrbxnn45gipdtu7aji 199 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 199 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 200 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 200 2 viewed view VBD
work_hxktjt6jyrbxnn45gipdtu7aji 200 3 these these DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 4 data datum NNS
work_hxktjt6jyrbxnn45gipdtu7aji 200 5 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 7 potential potential NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 8 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 200 9 fly fly NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 11 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 12 cis cis NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 200 14 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 200 15 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 200 16 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 17 ointment ointment NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 18 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 200 19 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 200 20 Perhaps perhaps RB
work_hxktjt6jyrbxnn45gipdtu7aji 200 21 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 22 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 200 23 assembled assemble VBN
work_hxktjt6jyrbxnn45gipdtu7aji 200 24 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 25 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 26 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 27 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 28 ssDNA ssdna JJ
work_hxktjt6jyrbxnn45gipdtu7aji 200 29 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 30 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 200 31 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 200 32 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 200 33 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 200 34 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 200 35 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 36 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 37 V. V. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 38 Transactivation Transactivation NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 39 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 40 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 41 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 42 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 43 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 44 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 200 45 Compelling compelling JJ
work_hxktjt6jyrbxnn45gipdtu7aji 200 46 evidence evidence NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 47 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 48 transactivation transactivation NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 49 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 50 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 51 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 52 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 200 53 cata- cata- NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 54 lyzed lyze VBN
work_hxktjt6jyrbxnn45gipdtu7aji 200 55 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 56 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 57 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 200 58 including include VBG
work_hxktjt6jyrbxnn45gipdtu7aji 200 59 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 60 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 200 61 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 200 62 obtained obtain VBN
work_hxktjt6jyrbxnn45gipdtu7aji 200 63 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 64 Katharina Katharina NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 65 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 200 66 Kathi Kathi NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 67 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 200 68 Schlacher Schlacher NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 69 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 200 70 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 71 graduate graduate NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 72 student student NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 73 who who WP
work_hxktjt6jyrbxnn45gipdtu7aji 200 74 came come VBD
work_hxktjt6jyrbxnn45gipdtu7aji 200 75 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 76 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 200 77 lab lab NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 78 initially initially RB
work_hxktjt6jyrbxnn45gipdtu7aji 200 79 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 80 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 81 limited limited JJ
work_hxktjt6jyrbxnn45gipdtu7aji 200 82 objective objective NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 83 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 84 performing perform VBG
work_hxktjt6jyrbxnn45gipdtu7aji 200 85 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 86 Master Master NNP
work_hxktjt6jyrbxnn45gipdtu7aji 200 87 ’s ’s POS
work_hxktjt6jyrbxnn45gipdtu7aji 200 88 thesis thesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 89 project project NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 90 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 200 91 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 200 92 year year NN
work_hxktjt6jyrbxnn45gipdtu7aji 200 93 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 200 94 defending defend VBG
work_hxktjt6jyrbxnn45gipdtu7aji 200 95 in in RP
work_hxktjt6jyrbxnn45gipdtu7aji 200 96 Aus- aus- XX
work_hxktjt6jyrbxnn45gipdtu7aji 200 97 tria tria NNS
work_hxktjt6jyrbxnn45gipdtu7aji 200 98 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 200 99 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 200 100 she -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 200 101 did do VBD
work_hxktjt6jyrbxnn45gipdtu7aji 200 102 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 201 1 To to IN
work_hxktjt6jyrbxnn45gipdtu7aji 201 2 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 201 3 good good JJ
work_hxktjt6jyrbxnn45gipdtu7aji 201 4 fortune fortune NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 201 6 Kathi Kathi NNP
work_hxktjt6jyrbxnn45gipdtu7aji 201 7 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 201 8 decided decide VBD
work_hxktjt6jyrbxnn45gipdtu7aji 201 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 201 10 return return VB
work_hxktjt6jyrbxnn45gipdtu7aji 201 11 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 201 12 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 201 13 lab lab NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 14 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 201 15 initiate initiate VB
work_hxktjt6jyrbxnn45gipdtu7aji 201 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 201 17 transactivation transactivation NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 18 studies study NNS
work_hxktjt6jyrbxnn45gipdtu7aji 201 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 201 20 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 201 21 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 201 22 am be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 201 23 pleased pleased JJ
work_hxktjt6jyrbxnn45gipdtu7aji 201 24 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 201 25 say say VB
work_hxktjt6jyrbxnn45gipdtu7aji 201 26 won win VBD
work_hxktjt6jyrbxnn45gipdtu7aji 201 27 her -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 201 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 201 29 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 201 30 Best good JJS
work_hxktjt6jyrbxnn45gipdtu7aji 201 31 Ph.D. ph.d. NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 32 Dissertation dissertation NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 33 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 201 34 2006 2006 CD
work_hxktjt6jyrbxnn45gipdtu7aji 201 35 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 201 36 award award NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 37 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 201 38 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 201 39 University University NNP
work_hxktjt6jyrbxnn45gipdtu7aji 201 40 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 201 41 South- South- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 201 42 ern ern NN
work_hxktjt6jyrbxnn45gipdtu7aji 201 43 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 201 44 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 202 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 202 2 key key NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 3 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 202 4 proving prove VBG
work_hxktjt6jyrbxnn45gipdtu7aji 202 5 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 202 6 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 7 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 202 8 can can MD
work_hxktjt6jyrbxnn45gipdtu7aji 202 9 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 202 10 acti- acti- VBN
work_hxktjt6jyrbxnn45gipdtu7aji 202 11 vated vate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 202 12 via via IN
work_hxktjt6jyrbxnn45gipdtu7aji 202 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 202 14 assembly assembly NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 202 16 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 202 17 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 202 18 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 202 19 ssDNA ssDNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 202 20 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 202 21 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 202 22 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 202 23 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 202 24 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 202 25 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 202 26 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 202 27 design design VB
work_hxktjt6jyrbxnn45gipdtu7aji 202 28 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 202 29 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 202 30 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 202 31 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 32 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 33 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 202 34 could could MD
work_hxktjt6jyrbxnn45gipdtu7aji 202 35 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 202 36 support support VB
work_hxktjt6jyrbxnn45gipdtu7aji 202 37 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 38 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 39 formation formation NN
work_hxktjt6jyrbxnn45gipdtu7aji 202 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 203 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 203 2 prim- prim- NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 3 er er UH
work_hxktjt6jyrbxnn45gipdtu7aji 203 4 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 203 5 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 6 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 203 7 formed form VBN
work_hxktjt6jyrbxnn45gipdtu7aji 203 8 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 203 9 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 203 10 stable stable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 203 11 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 12 hairpin hairpin NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 13 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 203 14 just just RB
work_hxktjt6jyrbxnn45gipdtu7aji 203 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 203 16 3-nucleotide 3-nucleotide CD
work_hxktjt6jyrbxnn45gipdtu7aji 203 17 overhang overhang NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 18 region region NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 19 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 203 20 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 203 21 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 203 22 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 203 23 -end -end ,
work_hxktjt6jyrbxnn45gipdtu7aji 203 24 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 203 25 serve serve VB
work_hxktjt6jyrbxnn45gipdtu7aji 203 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 203 27 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 28 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 203 29 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 203 30 see see VB
work_hxktjt6jyrbxnn45gipdtu7aji 203 31 e.g. e.g. RB
work_hxktjt6jyrbxnn45gipdtu7aji 204 1 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 204 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 205 1 9B 9b RB
work_hxktjt6jyrbxnn45gipdtu7aji 205 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 205 3 left leave VBN
work_hxktjt6jyrbxnn45gipdtu7aji 205 4 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 205 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 205 6 37 37 CD
work_hxktjt6jyrbxnn45gipdtu7aji 205 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 205 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 206 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 206 2 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 206 3 mono- mono- NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 4 mer mer NNP
work_hxktjt6jyrbxnn45gipdtu7aji 206 5 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 206 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 206 7 3-nucleotide 3-nucleotide CD
work_hxktjt6jyrbxnn45gipdtu7aji 206 8 footprint footprint NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 9 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 206 10 ssDNA ssdna NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 206 12 leaving leave VBG
work_hxktjt6jyrbxnn45gipdtu7aji 206 13 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 206 14 space space NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 15 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 206 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 206 17 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 18 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 19 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 206 20 form form VB
work_hxktjt6jyrbxnn45gipdtu7aji 206 21 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 206 22 cis cis NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 206 24 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 206 25 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 206 26 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 27 downstream downstream NN
work_hxktjt6jyrbxnn45gipdtu7aji 206 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 206 29 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 206 30 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 206 31 2C. 2c. CD
work_hxktjt6jyrbxnn45gipdtu7aji 207 1 Instead instead RB
work_hxktjt6jyrbxnn45gipdtu7aji 207 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 207 3 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 207 4 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 207 5 filaments filament NNS
work_hxktjt6jyrbxnn45gipdtu7aji 207 6 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 207 7 assembled assemble VBN
work_hxktjt6jyrbxnn45gipdtu7aji 207 8 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 207 9 separate separate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 207 10 ssDNA ssdna JJ
work_hxktjt6jyrbxnn45gipdtu7aji 207 11 molecules molecule NNS
work_hxktjt6jyrbxnn45gipdtu7aji 207 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 207 13 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 207 14 acted act VBD
work_hxktjt6jyrbxnn45gipdtu7aji 207 15 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 207 16 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 207 17 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 207 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 207 19 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 207 20 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 207 21 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 207 22 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 207 23 duplex duplex NN
work_hxktjt6jyrbxnn45gipdtu7aji 207 24 hairpins hairpin NNS
work_hxktjt6jyrbxnn45gipdtu7aji 207 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 208 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 208 2 3-nucleotide 3-nucleotide CD
work_hxktjt6jyrbxnn45gipdtu7aji 208 3 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 208 4 overhangs overhang NNS
work_hxktjt6jyrbxnn45gipdtu7aji 208 5 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 208 6 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 208 7 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 208 8 only only RB
work_hxktjt6jyrbxnn45gipdtu7aji 208 9 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 208 10 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 208 11 - - JJ
work_hxktjt6jyrbxnn45gipdtu7aji 208 12 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 208 13 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 208 14 present present NN
work_hxktjt6jyrbxnn45gipdtu7aji 208 15 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 208 16 37 37 CD
work_hxktjt6jyrbxnn45gipdtu7aji 208 17 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 208 18 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 209 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 209 2 reaction reaction NN
work_hxktjt6jyrbxnn45gipdtu7aji 209 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 209 4 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 209 5 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 209 6 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 209 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 209 8 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 209 9 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 209 10 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 209 11 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 209 12 hairpins hairpin NNS
work_hxktjt6jyrbxnn45gipdtu7aji 209 13 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 209 14 second second JJ
work_hxktjt6jyrbxnn45gipdtu7aji 209 15 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 209 16 order order NN
work_hxktjt6jyrbxnn45gipdtu7aji 209 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 209 18 i.e. i.e. FW
work_hxktjt6jyrbxnn45gipdtu7aji 210 1 linearly linearly RB
work_hxktjt6jyrbxnn45gipdtu7aji 210 2 proportional proportional JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 3 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 210 5 concentration concentration NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 7 trans trans JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 8 - - JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 9 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 10 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 210 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 210 12 leaving leave VBG
work_hxktjt6jyrbxnn45gipdtu7aji 210 13 little little JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 14 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 210 15 if if IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 16 any any DT
work_hxktjt6jyrbxnn45gipdtu7aji 210 17 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 210 18 room room NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 19 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 20 doubt doubt NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 21 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 22 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 210 23 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 210 24 assembled assemble VBN
work_hxktjt6jyrbxnn45gipdtu7aji 210 25 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 26 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 210 27 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 28 different different JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 29 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 30 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 210 31 one one NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 32 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 210 33 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 210 34 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 210 35 respon- respon- NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 36 sible sible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 210 37 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 210 38 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 39 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 40 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 41 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 210 42 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 210 43 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 211 1 6D 6d NN
work_hxktjt6jyrbxnn45gipdtu7aji 211 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 211 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 212 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 212 2 historical historical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 212 3 positioning positioning NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 5 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 212 6 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 212 7 downstream downstream JJ
work_hxktjt6jyrbxnn45gipdtu7aji 212 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 9 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 212 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 212 11 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 12 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 212 13 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 14 strand strand NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 15 being be VBG
work_hxktjt6jyrbxnn45gipdtu7aji 212 16 copied copy VBN
work_hxktjt6jyrbxnn45gipdtu7aji 212 17 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 212 18 always always RB
work_hxktjt6jyrbxnn45gipdtu7aji 212 19 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 212 20 based base VBN
work_hxktjt6jyrbxnn45gipdtu7aji 212 21 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 22 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 212 23 Occam Occam NNP
work_hxktjt6jyrbxnn45gipdtu7aji 212 24 ’s ’s POS
work_hxktjt6jyrbxnn45gipdtu7aji 212 25 razor razor NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 26 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 212 27 like like JJ
work_hxktjt6jyrbxnn45gipdtu7aji 212 28 rationale rationale NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 29 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 212 30 because because IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 31 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 212 32 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 212 33 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 212 34 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 212 35 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 36 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 212 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 212 38 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 212 39 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 212 40 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 212 41 act act VB
work_hxktjt6jyrbxnn45gipdtu7aji 212 42 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 212 43 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 212 44 blocked block VBN
work_hxktjt6jyrbxnn45gipdtu7aji 212 45 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 46 fork fork NN
work_hxktjt6jyrbxnn45gipdtu7aji 212 47 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 212 48 38 38 CD
work_hxktjt6jyrbxnn45gipdtu7aji 212 49 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 212 50 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 213 1 What what WP
work_hxktjt6jyrbxnn45gipdtu7aji 213 2 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 213 3 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 213 4 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 213 5 contemplated contemplate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 213 6 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 213 7 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 213 8 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 213 9 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 213 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 213 11 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 213 12 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 213 13 might may MD
work_hxktjt6jyrbxnn45gipdtu7aji 213 14 actually actually RB
work_hxktjt6jyrbxnn45gipdtu7aji 213 15 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 213 16 indirect indirect JJ
work_hxktjt6jyrbxnn45gipdtu7aji 213 17 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 213 18 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 213 19 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 213 20 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 213 21 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 213 22 interacting interact VBG
work_hxktjt6jyrbxnn45gipdtu7aji 213 23 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 213 24 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 213 25 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 213 26 * * NN
work_hxktjt6jyrbxnn45gipdtu7aji 213 27 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 213 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 213 29 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 213 30 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 213 31 located locate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 213 32 either either CC
work_hxktjt6jyrbxnn45gipdtu7aji 213 33 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 213 34 cis cis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 213 35 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 213 36 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 213 37 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 213 38 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 213 39 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 213 40 activates activate VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 213 41 pol pol VBP
work_hxktjt6jyrbxnn45gipdtu7aji 213 42 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 213 43 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 213 44 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 213 45 instead instead RB
work_hxktjt6jyrbxnn45gipdtu7aji 213 46 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 213 47 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 213 48 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 213 49 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 213 50 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 213 51 8 8 CD
work_hxktjt6jyrbxnn45gipdtu7aji 213 52 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 214 1 Mike Mike NNP
work_hxktjt6jyrbxnn45gipdtu7aji 214 2 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 214 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 214 4 Madison Madison NNP
work_hxktjt6jyrbxnn45gipdtu7aji 214 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 214 6 Wisconsin Wisconsin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 214 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 214 8 circa circa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 214 9 2009 2009 CD
work_hxktjt6jyrbxnn45gipdtu7aji 214 10 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 214 11 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 215 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 215 2 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 215 3 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 215 4 he -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 215 5 looks look VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 215 6 today today NN
work_hxktjt6jyrbxnn45gipdtu7aji 215 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 216 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 2 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 216 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 216 4 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 216 5 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 6 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 216 8 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 9 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 10 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 216 11 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 216 12 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 13 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 216 14 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 15 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 216 16 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 216 17 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 216 18 stand stand VB
work_hxktjt6jyrbxnn45gipdtu7aji 216 19 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 216 20 alone alone RB
work_hxktjt6jyrbxnn45gipdtu7aji 216 21 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 216 22 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 216 23 able able JJ
work_hxktjt6jyrbxnn45gipdtu7aji 216 24 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 216 25 synthesize synthesize VB
work_hxktjt6jyrbxnn45gipdtu7aji 216 26 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 216 27 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 216 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 216 29 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 216 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 216 31 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 216 32 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 216 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 217 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 217 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 217 3 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 217 4 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 217 5 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 217 6 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 217 7 formed form VBN
work_hxktjt6jyrbxnn45gipdtu7aji 217 8 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 217 9 incubating incubate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 217 10 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 217 11 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 217 12 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 217 13 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 217 14 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 217 15 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 217 16 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 217 17 resin resin VB
work_hxktjt6jyrbxnn45gipdtu7aji 217 18 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 217 19 removing remove VBG
work_hxktjt6jyrbxnn45gipdtu7aji 217 20 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 217 21 resin resin NN
work_hxktjt6jyrbxnn45gipdtu7aji 217 22 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 217 23 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 217 24 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 217 25 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 217 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 217 27 leaving leave VBG
work_hxktjt6jyrbxnn45gipdtu7aji 217 28 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 217 29 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 217 30 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 217 31 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 217 32 solution solution NN
work_hxktjt6jyrbxnn45gipdtu7aji 217 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 218 1 B b NN
work_hxktjt6jyrbxnn45gipdtu7aji 218 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 218 3 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 218 4 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 5 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 6 formed form VBN
work_hxktjt6jyrbxnn45gipdtu7aji 218 7 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 218 8 wild wild JJ
work_hxktjt6jyrbxnn45gipdtu7aji 218 9 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 218 10 type type NN
work_hxktjt6jyrbxnn45gipdtu7aji 218 11 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 12 copies copy NNS
work_hxktjt6jyrbxnn45gipdtu7aji 218 13 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 218 15 whereas whereas IN
work_hxktjt6jyrbxnn45gipdtu7aji 218 16 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 218 17 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 18 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 19 formed form VBN
work_hxktjt6jyrbxnn45gipdtu7aji 218 20 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 218 21 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 22 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 23 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 218 24 nonmutagenic nonmutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 218 25 RecA1730(S117F reca1730(s117f NN
work_hxktjt6jyrbxnn45gipdtu7aji 218 26 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 218 27 can can MD
work_hxktjt6jyrbxnn45gipdtu7aji 218 28 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 218 29 copy copy VB
work_hxktjt6jyrbxnn45gipdtu7aji 218 30 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 218 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 219 1 Red red JJ
work_hxktjt6jyrbxnn45gipdtu7aji 219 2 circle circle NN
work_hxktjt6jyrbxnn45gipdtu7aji 219 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 219 4 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 219 5 ; ; :
work_hxktjt6jyrbxnn45gipdtu7aji 219 6 inverted invert VBN
work_hxktjt6jyrbxnn45gipdtu7aji 219 7 blue blue JJ
work_hxktjt6jyrbxnn45gipdtu7aji 219 8 triangle triangle NN
work_hxktjt6jyrbxnn45gipdtu7aji 219 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 219 10 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 219 11 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 219 12 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 219 13 � � .
work_hxktjt6jyrbxnn45gipdtu7aji 219 14 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 220 1 nt nt RB
work_hxktjt6jyrbxnn45gipdtu7aji 220 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 220 3 nucleotides nucleotide NNS
work_hxktjt6jyrbxnn45gipdtu7aji 220 4 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 221 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 221 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 221 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 221 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 221 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 221 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 11 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 12 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 221 14 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 15 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 21 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 221 22 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 221 23 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 24 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 25 26779 26779 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 26 needed need VBD
work_hxktjt6jyrbxnn45gipdtu7aji 221 27 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 221 28 transfer transfer VB
work_hxktjt6jyrbxnn45gipdtu7aji 221 29 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 221 30 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 221 31 monomer monomer NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 32 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 221 33 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 221 34 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 35 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 221 36 -proximal -proximal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 221 37 tip tip NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 38 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 221 39 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 221 40 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 41 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 221 42 thereby thereby RB
work_hxktjt6jyrbxnn45gipdtu7aji 221 43 activate activate VBP
work_hxktjt6jyrbxnn45gipdtu7aji 221 44 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 221 45 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 221 46 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 47 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 221 48 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 221 49 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 221 50 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 221 51 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 222 1 Captured Captured NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 2 Alive Alive NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 222 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 222 5 Active Active NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 6 Form Form NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 222 8 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 9 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 10 Is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 222 11 UmuD umud JJ
work_hxktjt6jyrbxnn45gipdtu7aji 222 12 � � HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 222 13 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 14 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 222 15 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 222 16 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 222 17 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 18 Deciphering Deciphering NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 19 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 222 20 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 21 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 222 22 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 23 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 222 24 remained remain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 222 25 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 222 26 key key JJ
work_hxktjt6jyrbxnn45gipdtu7aji 222 27 bio- bio- CC
work_hxktjt6jyrbxnn45gipdtu7aji 222 28 chemical chemical NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 29 challenge challenge NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 222 31 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 222 32 mystery mystery NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 33 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 222 34 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 222 35 persisted persist VBN
work_hxktjt6jyrbxnn45gipdtu7aji 222 36 since since IN
work_hxktjt6jyrbxnn45gipdtu7aji 222 37 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 222 38 mid-1980s mid-1980 NNS
work_hxktjt6jyrbxnn45gipdtu7aji 222 39 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 222 40 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 222 41 Bridges Bridges NNP
work_hxktjt6jyrbxnn45gipdtu7aji 222 42 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 222 43 Woodgate woodgate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 222 44 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 45 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 222 46 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 222 47 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 223 1 6A 6a NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 223 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 223 4 24 24 CD
work_hxktjt6jyrbxnn45gipdtu7aji 223 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 223 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 223 7 crystallized crystallize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 223 8 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 9 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 223 10 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 223 11 discovery discovery NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 13 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 223 14 essential essential JJ
work_hxktjt6jyrbxnn45gipdtu7aji 223 15 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 16 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 17 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 223 18 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 223 19 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 20 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 21 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 223 22 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 223 23 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 223 25 distinct distinct JJ
work_hxktjt6jyrbxnn45gipdtu7aji 223 26 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 27 its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 223 28 roles role NNS
work_hxktjt6jyrbxnn45gipdtu7aji 223 29 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 30 recombination recombination NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 31 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 223 32 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 223 33 coproteolytic coproteolytic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 223 34 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 35 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 223 36 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 223 37 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 223 38 repressor repressor NN
work_hxktjt6jyrbxnn45gipdtu7aji 223 39 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 223 40 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 223 41 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 223 42 16 16 CD
work_hxktjt6jyrbxnn45gipdtu7aji 223 43 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 223 44 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 224 1 Mixing mix VBG
work_hxktjt6jyrbxnn45gipdtu7aji 224 2 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 224 3 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 224 4 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 224 5 trans trans NNP
work_hxktjt6jyrbxnn45gipdtu7aji 224 6 - - JJ
work_hxktjt6jyrbxnn45gipdtu7aji 224 7 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 224 8 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 224 9 resulted result VBD
work_hxktjt6jyrbxnn45gipdtu7aji 224 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 224 11 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 224 12 active active JJ
work_hxktjt6jyrbxnn45gipdtu7aji 224 13 enzyme enzyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 224 14 capa- capa- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 224 15 ble ble NN
work_hxktjt6jyrbxnn45gipdtu7aji 224 16 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 224 17 copying copy VBG
work_hxktjt6jyrbxnn45gipdtu7aji 224 18 undamaged undamaged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 224 19 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 224 20 damaged damaged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 224 21 templates template NNS
work_hxktjt6jyrbxnn45gipdtu7aji 224 22 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 224 23 37 37 CD
work_hxktjt6jyrbxnn45gipdtu7aji 224 24 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 224 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 224 26 but but CC
work_hxktjt6jyrbxnn45gipdtu7aji 224 27 mixing mix VBG
work_hxktjt6jyrbxnn45gipdtu7aji 224 28 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 224 29 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 224 30 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 224 31 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 224 32 did do VBD
work_hxktjt6jyrbxnn45gipdtu7aji 224 33 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 224 34 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 224 35 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 224 36 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 224 37 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 225 1 An an DT
work_hxktjt6jyrbxnn45gipdtu7aji 225 2 experiment experiment NN
work_hxktjt6jyrbxnn45gipdtu7aji 225 3 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 225 4 needed need VBN
work_hxktjt6jyrbxnn45gipdtu7aji 225 5 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 225 6 nail nail VB
work_hxktjt6jyrbxnn45gipdtu7aji 225 7 down down RP
work_hxktjt6jyrbxnn45gipdtu7aji 225 8 unambiguously unambiguously RB
work_hxktjt6jyrbxnn45gipdtu7aji 225 9 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 225 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 225 11 why why WRB
work_hxktjt6jyrbxnn45gipdtu7aji 225 12 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 225 13 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 225 14 acts act VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 225 15 during during IN
work_hxktjt6jyrbxnn45gipdtu7aji 225 16 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 225 17 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 225 18 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 225 19 catalyzed catalyzed JJ
work_hxktjt6jyrbxnn45gipdtu7aji 225 20 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 225 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 226 1 We -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 226 2 addressed address VBD
work_hxktjt6jyrbxnn45gipdtu7aji 226 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 226 4 “ " ``
work_hxktjt6jyrbxnn45gipdtu7aji 226 5 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 226 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 226 7 why why WRB
work_hxktjt6jyrbxnn45gipdtu7aji 226 8 ” " ''
work_hxktjt6jyrbxnn45gipdtu7aji 226 9 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 226 10 incubating incubate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 226 11 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 12 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 13 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 226 14 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 226 15 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 226 16 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 226 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 226 18 absence absence NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 19 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 226 20 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 226 21 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 226 22 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 23 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 24 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 226 25 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 226 26 isolating isolate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 226 27 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 226 28 possibly possibly RB
work_hxktjt6jyrbxnn45gipdtu7aji 226 29 modified modify VBN
work_hxktjt6jyrbxnn45gipdtu7aji 226 30 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 226 32 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 226 33 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 34 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 226 35 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 226 36 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 226 37 no no RB
work_hxktjt6jyrbxnn45gipdtu7aji 226 38 longer long RBR
work_hxktjt6jyrbxnn45gipdtu7aji 226 39 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 226 40 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 226 41 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 226 42 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 227 1 9A 9A NNP
work_hxktjt6jyrbxnn45gipdtu7aji 227 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 227 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 228 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 228 2 strategy strategy NN
work_hxktjt6jyrbxnn45gipdtu7aji 228 3 entailed entail VBD
work_hxktjt6jyrbxnn45gipdtu7aji 228 4 assembling assemble VBG
work_hxktjt6jyrbxnn45gipdtu7aji 228 5 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 228 6 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 228 7 filaments filament NNS
work_hxktjt6jyrbxnn45gipdtu7aji 228 8 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 228 9 ssDNA ssDNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 228 10 oligonu- oligonu- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 228 11 cleotides cleotide NNS
work_hxktjt6jyrbxnn45gipdtu7aji 228 12 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 228 13 were be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 228 14 stably stably RB
work_hxktjt6jyrbxnn45gipdtu7aji 228 15 attached attach VBN
work_hxktjt6jyrbxnn45gipdtu7aji 228 16 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 228 17 resins resin NNS
work_hxktjt6jyrbxnn45gipdtu7aji 228 18 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 228 19 beads bead NNS
work_hxktjt6jyrbxnn45gipdtu7aji 228 20 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 228 21 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 228 22 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 228 23 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 229 1 Following follow VBG
work_hxktjt6jyrbxnn45gipdtu7aji 229 2 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 3 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 4 incubation incubation NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 5 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 229 6 immobilized immobilize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 229 7 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 229 8 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 229 9 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 229 10 removal removal NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 11 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 229 12 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 229 13 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 229 14 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 229 15 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 229 16 centrifugation centrifugation NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 229 18 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 229 19 found find VBD
work_hxktjt6jyrbxnn45gipdtu7aji 229 20 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 229 21 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 22 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 23 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 229 24 undergone undergo VBN
work_hxktjt6jyrbxnn45gipdtu7aji 229 25 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 229 26 major major JJ
work_hxktjt6jyrbxnn45gipdtu7aji 229 27 modification modification NN
work_hxktjt6jyrbxnn45gipdtu7aji 229 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 230 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 230 2 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 230 3 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 4 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 5 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 230 6 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 230 7 transferred transfer VBN
work_hxktjt6jyrbxnn45gipdtu7aji 230 8 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 9 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 230 10 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 230 11 � � JJ
work_hxktjt6jyrbxnn45gipdtu7aji 230 12 -proximal -proximal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 230 13 tip tip NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 14 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 15 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 16 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 230 17 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 18 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 19 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 20 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 230 22 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 230 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 230 24 along along IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 25 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 230 27 binding binding NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 29 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 230 30 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 32 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 33 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 230 34 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 230 35 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 36 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 37 S S NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 38 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 230 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 230 40 converted convert VBD
work_hxktjt6jyrbxnn45gipdtu7aji 230 41 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 230 42 virtually virtually RB
work_hxktjt6jyrbxnn45gipdtu7aji 230 43 inac- inac- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 230 44 tive tive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 230 45 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 46 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 47 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 230 48 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 230 49 stand stand VB
work_hxktjt6jyrbxnn45gipdtu7aji 230 50 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 230 51 alone alone RB
work_hxktjt6jyrbxnn45gipdtu7aji 230 52 activated activate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 230 53 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 54 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 55 Mut mut NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 56 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 230 57 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 58 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 59 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 60 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 230 61 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 62 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 230 63 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 230 64 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 230 65 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 230 66 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 230 67 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 231 1 9A 9A NNP
work_hxktjt6jyrbxnn45gipdtu7aji 231 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 231 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 232 1 This this DT
work_hxktjt6jyrbxnn45gipdtu7aji 232 2 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 232 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 232 4 first first JJ
work_hxktjt6jyrbxnn45gipdtu7aji 232 5 time time NN
work_hxktjt6jyrbxnn45gipdtu7aji 232 6 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 232 7 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 232 8 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 232 9 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 232 10 observed observe VBN
work_hxktjt6jyrbxnn45gipdtu7aji 232 11 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 232 12 synthesize synthesize VB
work_hxktjt6jyrbxnn45gipdtu7aji 232 13 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 232 14 without without IN
work_hxktjt6jyrbxnn45gipdtu7aji 232 15 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 232 16 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 232 17 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 232 18 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 232 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 233 1 9B 9B NNP
work_hxktjt6jyrbxnn45gipdtu7aji 233 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 233 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 233 4 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 233 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 233 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 234 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 234 2 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 234 3 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 234 4 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 234 5 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 234 6 involved involved JJ
work_hxktjt6jyrbxnn45gipdtu7aji 234 7 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 234 8 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 234 9 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 234 10 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 234 11 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 234 12 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 234 13 no no RB
work_hxktjt6jyrbxnn45gipdtu7aji 234 14 longer long RBR
work_hxktjt6jyrbxnn45gipdtu7aji 234 15 directly directly RB
work_hxktjt6jyrbxnn45gipdtu7aji 234 16 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 234 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 234 18 picture picture NN
work_hxktjt6jyrbxnn45gipdtu7aji 234 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 234 20 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 234 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 235 1 6E 6E NNP
work_hxktjt6jyrbxnn45gipdtu7aji 235 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 235 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 236 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 3 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 4 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 236 5 active active JJ
work_hxktjt6jyrbxnn45gipdtu7aji 236 6 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 236 7 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 236 8 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 236 9 wild wild JJ
work_hxktjt6jyrbxnn45gipdtu7aji 236 10 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 236 11 type type NN
work_hxktjt6jyrbxnn45gipdtu7aji 236 12 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 13 monomer monomer NN
work_hxktjt6jyrbxnn45gipdtu7aji 236 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 236 15 whereas whereas IN
work_hxktjt6jyrbxnn45gipdtu7aji 236 16 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 236 17 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 18 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 19 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 236 20 dead dead JJ
work_hxktjt6jyrbxnn45gipdtu7aji 236 21 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 236 22 formed form VBN
work_hxktjt6jyrbxnn45gipdtu7aji 236 23 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 236 24 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 25 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 26 UV UV NNP
work_hxktjt6jyrbxnn45gipdtu7aji 236 27 light light JJ
work_hxktjt6jyrbxnn45gipdtu7aji 236 28 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 236 29 nonmutable nonmutable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 236 30 RecA(S117F reca(s117f NN
work_hxktjt6jyrbxnn45gipdtu7aji 236 31 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 236 32 mutant mutant NN
work_hxktjt6jyrbxnn45gipdtu7aji 236 33 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 236 34 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 236 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 237 1 9B 9B NNP
work_hxktjt6jyrbxnn45gipdtu7aji 237 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 237 3 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 237 4 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 237 5 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 237 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 238 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 3 Mut(S117F Mut(S117F NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 4 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 238 5 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 238 6 no no DT
work_hxktjt6jyrbxnn45gipdtu7aji 238 7 measurable measurable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 238 8 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 9 synthe- synthe- NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 10 sis sis NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 11 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 12 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 238 13 vitro vitro FW
work_hxktjt6jyrbxnn45gipdtu7aji 238 14 even even RB
work_hxktjt6jyrbxnn45gipdtu7aji 238 15 though though IN
work_hxktjt6jyrbxnn45gipdtu7aji 238 16 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 238 17 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 238 18 also also RB
work_hxktjt6jyrbxnn45gipdtu7aji 238 19 transferred transfer VBN
work_hxktjt6jyrbxnn45gipdtu7aji 238 20 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 238 21 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 22 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 23 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 24 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 238 25 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 238 26 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 238 27 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 28 -RecA -RecA ,
work_hxktjt6jyrbxnn45gipdtu7aji 238 29 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 238 30 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 31 tip tip NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 32 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 238 33 form form VB
work_hxktjt6jyrbxnn45gipdtu7aji 238 34 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 238 35 stable stable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 238 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 238 37 yet yet CC
work_hxktjt6jyrbxnn45gipdtu7aji 238 38 inactive inactive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 238 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 238 40 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 238 41 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 42 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 238 43 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 238 44 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 238 45 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 238 46 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 238 47 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 239 1 It -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 239 2 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 239 3 gratifying gratify VBG
work_hxktjt6jyrbxnn45gipdtu7aji 239 4 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 239 5 give give VB
work_hxktjt6jyrbxnn45gipdtu7aji 239 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 239 7 biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 239 8 face face NN
work_hxktjt6jyrbxnn45gipdtu7aji 239 9 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 239 10 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 239 11 ’s ’s NNP
work_hxktjt6jyrbxnn45gipdtu7aji 239 12 critically critically RB
work_hxktjt6jyrbxnn45gipdtu7aji 239 13 important important JJ
work_hxktjt6jyrbxnn45gipdtu7aji 239 14 genetic genetic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 239 15 identification identification NN
work_hxktjt6jyrbxnn45gipdtu7aji 239 16 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 239 17 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 239 18 independent independent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 239 19 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 239 20 function function NN
work_hxktjt6jyrbxnn45gipdtu7aji 239 21 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 239 22 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 239 23 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 239 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 239 25 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 239 26 had have VBD
work_hxktjt6jyrbxnn45gipdtu7aji 239 27 provided provide VBN
work_hxktjt6jyrbxnn45gipdtu7aji 239 28 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 239 29 impetus impetus NN
work_hxktjt6jyrbxnn45gipdtu7aji 239 30 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 239 31 our -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 239 32 work work NN
work_hxktjt6jyrbxnn45gipdtu7aji 239 33 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 240 1 After after IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 2 submitting submit VBG
work_hxktjt6jyrbxnn45gipdtu7aji 240 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 240 4 manuscript manuscript NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 5 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 6 Nature Nature NNP
work_hxktjt6jyrbxnn45gipdtu7aji 240 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 240 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 240 9 multiangle multiangle NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 10 light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 11 scattering scatter VBG
work_hxktjt6jyrbxnn45gipdtu7aji 240 12 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 240 13 MALS MALS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 240 14 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 240 15 instrument instrument NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 16 arrived arrive VBD
work_hxktjt6jyrbxnn45gipdtu7aji 240 17 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 240 19 Univer- Univer- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 240 20 sity sity NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 21 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 22 Southern Southern NNP
work_hxktjt6jyrbxnn45gipdtu7aji 240 23 California California NNP
work_hxktjt6jyrbxnn45gipdtu7aji 240 24 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 25 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 240 26 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 240 27 weeks week NNS
work_hxktjt6jyrbxnn45gipdtu7aji 240 28 intervening intervene VBG
work_hxktjt6jyrbxnn45gipdtu7aji 240 29 between between IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 30 receipt receipt NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 31 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 240 32 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 240 33 referees referee NNS
work_hxktjt6jyrbxnn45gipdtu7aji 240 34 ’ ’ POS
work_hxktjt6jyrbxnn45gipdtu7aji 240 35 reports report NNS
work_hxktjt6jyrbxnn45gipdtu7aji 240 36 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 240 37 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 240 38 third third JJ
work_hxktjt6jyrbxnn45gipdtu7aji 240 39 report report NN
work_hxktjt6jyrbxnn45gipdtu7aji 240 40 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 240 41 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 240 42 requested request VBD
work_hxktjt6jyrbxnn45gipdtu7aji 240 43 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 240 44 i.e. i.e. FW
work_hxktjt6jyrbxnn45gipdtu7aji 241 1 demanded demand VBD
work_hxktjt6jyrbxnn45gipdtu7aji 241 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 241 3 more more RBR
work_hxktjt6jyrbxnn45gipdtu7aji 241 4 convincing convincing JJ
work_hxktjt6jyrbxnn45gipdtu7aji 241 5 evidence evidence NN
work_hxktjt6jyrbxnn45gipdtu7aji 241 6 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 241 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 241 8 existence existence NN
work_hxktjt6jyrbxnn45gipdtu7aji 241 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 241 10 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 241 11 stable stable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 241 12 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 241 13 composed compose VBN
work_hxktjt6jyrbxnn45gipdtu7aji 241 14 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 241 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 241 16 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 241 17 monomer monomer NN
work_hxktjt6jyrbxnn45gipdtu7aji 241 18 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 241 19 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 241 20 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 241 21 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 241 22 2C. 2c. CD
work_hxktjt6jyrbxnn45gipdtu7aji 242 1 MALS mal NNS
work_hxktjt6jyrbxnn45gipdtu7aji 242 2 measures measure VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 242 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 242 4 absolute absolute JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 5 molecular molecular JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 6 mass mass NN
work_hxktjt6jyrbxnn45gipdtu7aji 242 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 242 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 242 9 pure pure JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 10 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 242 11 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 242 12 aqueous aqueous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 13 solution solution NN
work_hxktjt6jyrbxnn45gipdtu7aji 242 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 242 15 subject subject JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 16 only only RB
work_hxktjt6jyrbxnn45gipdtu7aji 242 17 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 242 18 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 242 19 few few JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 20 nonrestrictive nonrestrictive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 21 assumptions assumption NNS
work_hxktjt6jyrbxnn45gipdtu7aji 242 22 regarding regard VBG
work_hxktjt6jyrbxnn45gipdtu7aji 242 23 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 242 24 globular globular JJ
work_hxktjt6jyrbxnn45gipdtu7aji 242 25 shape shape NN
work_hxktjt6jyrbxnn45gipdtu7aji 242 26 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 242 27 40 40 CD
work_hxktjt6jyrbxnn45gipdtu7aji 242 28 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 242 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 243 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 243 2 mass mass JJ
work_hxktjt6jyrbxnn45gipdtu7aji 243 3 standard standard NN
work_hxktjt6jyrbxnn45gipdtu7aji 243 4 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 243 5 either either DT
work_hxktjt6jyrbxnn45gipdtu7aji 243 6 calibration calibration NN
work_hxktjt6jyrbxnn45gipdtu7aji 243 7 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 243 8 comparison comparison NN
work_hxktjt6jyrbxnn45gipdtu7aji 243 9 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 243 10 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 243 11 even even RB
work_hxktjt6jyrbxnn45gipdtu7aji 243 12 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 243 13 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 244 1 Using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 244 2 MALS MALS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 244 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 244 4 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 244 5 identified identify VBD
work_hxktjt6jyrbxnn45gipdtu7aji 244 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 244 7 light light JJ
work_hxktjt6jyrbxnn45gipdtu7aji 244 8 scattering scatter VBG
work_hxktjt6jyrbxnn45gipdtu7aji 244 9 peak peak NN
work_hxktjt6jyrbxnn45gipdtu7aji 244 10 centered center VBN
work_hxktjt6jyrbxnn45gipdtu7aji 244 11 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 244 12 113 113 CD
work_hxktjt6jyrbxnn45gipdtu7aji 244 13 kDa kDa NNS
work_hxktjt6jyrbxnn45gipdtu7aji 244 14 corresponding correspond VBG
work_hxktjt6jyrbxnn45gipdtu7aji 244 15 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 244 16 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 244 17 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 244 18 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 244 19 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 244 20 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 244 21 2C- 2c- CD
work_hxktjt6jyrbxnn45gipdtu7aji 244 22 RecA. RecA. .
work_hxktjt6jyrbxnn45gipdtu7aji 245 1 Using use VBG
work_hxktjt6jyrbxnn45gipdtu7aji 245 2 SDS SDS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 245 3 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 245 4 PAGE PAGE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 245 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 245 6 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 245 7 showed show VBD
work_hxktjt6jyrbxnn45gipdtu7aji 245 8 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 245 9 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 245 10 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 245 11 com- com- NN
work_hxktjt6jyrbxnn45gipdtu7aji 245 12 position position NN
work_hxktjt6jyrbxnn45gipdtu7aji 245 13 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 245 14 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 245 15 113-kDa 113-kda JJ
work_hxktjt6jyrbxnn45gipdtu7aji 245 16 peak peak NN
work_hxktjt6jyrbxnn45gipdtu7aji 245 17 contained contain VBN
work_hxktjt6jyrbxnn45gipdtu7aji 245 18 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 245 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 245 20 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 245 21 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 245 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 245 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 245 24 RecA. reca. XX
work_hxktjt6jyrbxnn45gipdtu7aji 246 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 246 2 Unexpected unexpected JJ
work_hxktjt6jyrbxnn45gipdtu7aji 246 3 Identification Identification NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 246 5 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 246 6 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 7 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 8 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 246 9 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 246 10 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 246 11 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 246 12 ATPase ATPase JJS
work_hxktjt6jyrbxnn45gipdtu7aji 246 13 Thanks thank NNS
work_hxktjt6jyrbxnn45gipdtu7aji 246 14 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 246 15 MALS MALS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 246 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 246 18 third third JJ
work_hxktjt6jyrbxnn45gipdtu7aji 246 19 reviewer reviewer NN
work_hxktjt6jyrbxnn45gipdtu7aji 246 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 246 21 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 246 22 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 23 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 24 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 246 25 captured capture VBN
work_hxktjt6jyrbxnn45gipdtu7aji 246 26 alive alive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 246 27 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 246 28 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 29 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 30 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 246 31 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 246 32 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 246 33 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 246 34 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 246 35 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 246 36 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 247 1 However however RB
work_hxktjt6jyrbxnn45gipdtu7aji 247 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 247 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 247 4 ques- ques- NN
work_hxktjt6jyrbxnn45gipdtu7aji 247 5 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 247 6 remained remain VBD
work_hxktjt6jyrbxnn45gipdtu7aji 247 7 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 247 8 what what WP
work_hxktjt6jyrbxnn45gipdtu7aji 247 9 about about IN
work_hxktjt6jyrbxnn45gipdtu7aji 247 10 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 247 11 ? ? .
work_hxktjt6jyrbxnn45gipdtu7aji 248 1 Was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 248 2 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 248 3 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 248 4 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 248 5 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 248 6 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 248 7 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 248 8 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 248 9 ? ? .
work_hxktjt6jyrbxnn45gipdtu7aji 249 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 249 2 short short JJ
work_hxktjt6jyrbxnn45gipdtu7aji 249 3 answer answer NN
work_hxktjt6jyrbxnn45gipdtu7aji 249 4 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 249 5 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 249 6 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 249 7 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 249 8 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 249 9 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 10 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 11 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 249 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 249 13 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 249 15 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 249 16 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 17 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 18 lacking lack VBG
work_hxktjt6jyrbxnn45gipdtu7aji 249 19 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 20 can can MD
work_hxktjt6jyrbxnn45gipdtu7aji 249 21 not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 249 22 syn- syn- VB
work_hxktjt6jyrbxnn45gipdtu7aji 249 23 thesize thesize VB
work_hxktjt6jyrbxnn45gipdtu7aji 249 24 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 249 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 250 1 To to TO
work_hxktjt6jyrbxnn45gipdtu7aji 250 2 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 250 3 active active JJ
work_hxktjt6jyrbxnn45gipdtu7aji 250 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 250 5 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 250 6 must must MD
work_hxktjt6jyrbxnn45gipdtu7aji 250 7 have have VB
work_hxktjt6jyrbxnn45gipdtu7aji 250 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 250 9 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 250 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 250 11 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 250 12 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 250 13 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 250 14 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 15 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 16 S S NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 17 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 250 18 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 250 19 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 250 20 form form VB
work_hxktjt6jyrbxnn45gipdtu7aji 250 21 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 22 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 23 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 250 24 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 250 25 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 26 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 250 27 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 250 28 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 250 29 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 250 30 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 250 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 251 1 FIGURE FIGURE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 251 2 10 10 CD
work_hxktjt6jyrbxnn45gipdtu7aji 251 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 252 1 Model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 252 2 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 252 3 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 252 4 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 252 5 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 252 6 regulation regulation NN
work_hxktjt6jyrbxnn45gipdtu7aji 252 7 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 252 8 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 252 9 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 252 10 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 252 11 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 253 1 Transfer transfer NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 2 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 253 3 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 253 4 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 5 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 6 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 253 7 red red JJ
work_hxktjt6jyrbxnn45gipdtu7aji 253 8 circle circle NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 9 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 253 10 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 253 11 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 12 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 253 13 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 253 14 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 253 15 subsequent subsequent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 253 16 binding binding NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 17 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 253 18 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 253 19 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 20 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 21 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 253 22 inverted invert VBN
work_hxktjt6jyrbxnn45gipdtu7aji 253 23 blue blue JJ
work_hxktjt6jyrbxnn45gipdtu7aji 253 24 triangle triangle NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 25 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 253 26 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 253 27 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 28 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 29 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 30 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 31 activated activate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 253 32 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 33 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 34 Mut mut NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 35 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 253 36 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 37 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 38 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 253 39 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 253 40 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 41 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 253 42 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 253 43 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 253 44 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 254 1 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 254 2 bound bind VBN
work_hxktjt6jyrbxnn45gipdtu7aji 254 3 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 254 4 molecule molecule NN
work_hxktjt6jyrbxnn45gipdtu7aji 254 5 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 254 6 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 254 7 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 254 8 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 254 9 binding bind VBG
work_hxktjt6jyrbxnn45gipdtu7aji 254 10 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 254 11 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 254 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 254 13 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 254 14 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 254 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 255 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 255 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 255 3 copies copy VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 255 4 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 255 5 undam- undam- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 255 6 aged aged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 255 7 region region NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 255 9 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 255 11 inserts insert VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 255 12 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 255 13 deoxynucleotide deoxynucleotide NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 14 opposite opposite IN
work_hxktjt6jyrbxnn45gipdtu7aji 255 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 255 16 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 17 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 255 18 X x NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 19 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 255 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 255 21 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 255 22 continues continue VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 255 23 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 255 24 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 25 beyond beyond IN
work_hxktjt6jyrbxnn45gipdtu7aji 255 26 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 255 27 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 255 28 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 255 29 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 255 30 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 255 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 256 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 256 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 256 3 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 256 4 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 256 5 deacti- deacti- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 256 6 vated vated JJ
work_hxktjt6jyrbxnn45gipdtu7aji 256 7 after after IN
work_hxktjt6jyrbxnn45gipdtu7aji 256 8 dissociating dissociate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 256 9 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 256 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 256 11 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 256 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 256 13 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 256 14 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 256 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 257 1 Dissociation dissociation NN
work_hxktjt6jyrbxnn45gipdtu7aji 257 2 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 257 3 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 257 4 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 257 5 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 257 6 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 257 7 Mut mut NN
work_hxktjt6jyrbxnn45gipdtu7aji 257 8 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 257 9 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 257 10 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 257 11 hydrolysis hydrolysis NN
work_hxktjt6jyrbxnn45gipdtu7aji 257 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 258 1 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 258 2 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 258 3 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 4 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 258 5 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 258 7 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 258 8 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 9 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 10 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 11 26780 26780 CD
work_hxktjt6jyrbxnn45gipdtu7aji 258 12 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 258 13 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 258 14 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 258 15 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 16 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 258 17 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 258 18 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 258 19 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 258 20 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 258 21 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 258 22 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 258 23 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 258 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 258 25 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 258 26 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 258 27 unresolved unresolved JJ
work_hxktjt6jyrbxnn45gipdtu7aji 258 28 question question NN
work_hxktjt6jyrbxnn45gipdtu7aji 258 29 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 258 30 why why WRB
work_hxktjt6jyrbxnn45gipdtu7aji 258 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 259 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 259 2 answer answer NN
work_hxktjt6jyrbxnn45gipdtu7aji 259 3 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 259 4 we -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 259 5 arrived arrive VBD
work_hxktjt6jyrbxnn45gipdtu7aji 259 6 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 259 7 while while IN
work_hxktjt6jyrbxnn45gipdtu7aji 259 8 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 259 9 was be VBD
work_hxktjt6jyrbxnn45gipdtu7aji 259 10 writing write VBG
work_hxktjt6jyrbxnn45gipdtu7aji 259 11 these these DT
work_hxktjt6jyrbxnn45gipdtu7aji 259 12 Reflections Reflections NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 259 13 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 259 14 that that IN
work_hxktjt6jyrbxnn45gipdtu7aji 259 15 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 259 16 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 259 17 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 259 18 function function NN
work_hxktjt6jyrbxnn45gipdtu7aji 259 19 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 259 20 regulated regulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 259 21 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 259 22 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 259 23 intrinsic intrinsic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 259 24 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 259 25 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 259 26 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 259 27 ATPase ATPase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 259 28 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 259 29 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 259 30 41 41 CD
work_hxktjt6jyrbxnn45gipdtu7aji 259 31 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 259 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 260 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 260 2 binding binding NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 260 4 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 260 5 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 260 6 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 7 mole- mole- NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 8 cule cule NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 260 10 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 260 11 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 260 12 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 260 13 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 260 14 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 260 15 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 260 16 bind bind VB
work_hxktjt6jyrbxnn45gipdtu7aji 260 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 260 18 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 19 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 260 20 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 260 21 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 260 22 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 23 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 260 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 261 1 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 261 2 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 261 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 261 4 including include VBG
work_hxktjt6jyrbxnn45gipdtu7aji 261 5 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 261 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 261 7 then then RB
work_hxktjt6jyrbxnn45gipdtu7aji 261 8 takes take VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 261 9 place place NN
work_hxktjt6jyrbxnn45gipdtu7aji 261 10 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 262 1 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 262 2 hydrolysis hydrolysis NN
work_hxktjt6jyrbxnn45gipdtu7aji 262 3 triggers trigger VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 262 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 262 5 dissociation dissociation NN
work_hxktjt6jyrbxnn45gipdtu7aji 262 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 262 7 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 262 8 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 262 9 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 262 10 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 262 11 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 262 12 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 262 13 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 263 1 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 263 2 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 263 3 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 263 4 appears appear VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 263 5 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 263 6 func- func- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 263 7 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 263 8 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 263 9 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 263 10 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 263 11 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 263 12 off off RP
work_hxktjt6jyrbxnn45gipdtu7aji 263 13 toggle toggle JJ
work_hxktjt6jyrbxnn45gipdtu7aji 263 14 switch switch NN
work_hxktjt6jyrbxnn45gipdtu7aji 263 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 264 1 Once once RB
work_hxktjt6jyrbxnn45gipdtu7aji 264 2 activated activate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 264 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 264 4 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 264 5 performs perform VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 264 6 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 264 7 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 264 8 round round NN
work_hxktjt6jyrbxnn45gipdtu7aji 264 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 264 10 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 264 11 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 264 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 265 1 Following follow VBG
work_hxktjt6jyrbxnn45gipdtu7aji 265 2 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 3 hydroly- hydroly- NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 4 sis sis NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 265 6 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 265 7 enzyme enzyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 265 8 dissociates dissociate VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 265 9 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 265 10 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 265 11 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 265 12 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 13 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 14 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 265 15 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 265 16 deactivated deactivated JJ
work_hxktjt6jyrbxnn45gipdtu7aji 265 17 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 265 19 Fig fig NN
work_hxktjt6jyrbxnn45gipdtu7aji 265 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 266 1 10 10 LS
work_hxktjt6jyrbxnn45gipdtu7aji 266 2 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 266 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 267 1 No no DT
work_hxktjt6jyrbxnn45gipdtu7aji 267 2 such such JJ
work_hxktjt6jyrbxnn45gipdtu7aji 267 3 ATPase ATPase JJS
work_hxktjt6jyrbxnn45gipdtu7aji 267 4 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 267 5 or or CC
work_hxktjt6jyrbxnn45gipdtu7aji 267 6 autoregulatory autoregulatory NN
work_hxktjt6jyrbxnn45gipdtu7aji 267 7 mechanism mechanism NN
work_hxktjt6jyrbxnn45gipdtu7aji 267 8 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 267 9 previously previously RB
work_hxktjt6jyrbxnn45gipdtu7aji 267 10 been be VBN
work_hxktjt6jyrbxnn45gipdtu7aji 267 11 found find VBN
work_hxktjt6jyrbxnn45gipdtu7aji 267 12 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 267 13 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 267 14 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 267 15 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 267 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 268 1 What what WP
work_hxktjt6jyrbxnn45gipdtu7aji 268 2 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 268 3 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 268 4 biological biological JJ
work_hxktjt6jyrbxnn45gipdtu7aji 268 5 basis basis NN
work_hxktjt6jyrbxnn45gipdtu7aji 268 6 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 268 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 268 8 complex complex JJ
work_hxktjt6jyrbxnn45gipdtu7aji 268 9 regulation regulation NN
work_hxktjt6jyrbxnn45gipdtu7aji 268 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 268 11 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 268 12 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 268 13 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 268 14 ATP atp NN
work_hxktjt6jyrbxnn45gipdtu7aji 268 15 ? ? .
work_hxktjt6jyrbxnn45gipdtu7aji 269 1 Mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 269 2 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 269 3 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 269 4 during during IN
work_hxktjt6jyrbxnn45gipdtu7aji 269 5 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 269 6 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 269 7 response response NN
work_hxktjt6jyrbxnn45gipdtu7aji 269 8 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 269 9 seemingly seemingly RB
work_hxktjt6jyrbxnn45gipdtu7aji 269 10 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 269 11 act act NN
work_hxktjt6jyrbxnn45gipdtu7aji 269 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 269 13 cellular cellular JJ
work_hxktjt6jyrbxnn45gipdtu7aji 269 14 desperation desperation NN
work_hxktjt6jyrbxnn45gipdtu7aji 269 15 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 269 16 would would MD
work_hxktjt6jyrbxnn45gipdtu7aji 269 17 best well RBS
work_hxktjt6jyrbxnn45gipdtu7aji 269 18 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 269 19 limited limit VBN
work_hxktjt6jyrbxnn45gipdtu7aji 269 20 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 269 21 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 269 22 when when WRB
work_hxktjt6jyrbxnn45gipdtu7aji 269 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 269 24 where where WRB
work_hxktjt6jyrbxnn45gipdtu7aji 269 25 it -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 269 26 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 269 27 used use VBN
work_hxktjt6jyrbxnn45gipdtu7aji 269 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 270 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 270 2 regulation regulation NN
work_hxktjt6jyrbxnn45gipdtu7aji 270 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 270 4 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 270 5 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 270 6 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 270 7 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 270 8 needed need VBN
work_hxktjt6jyrbxnn45gipdtu7aji 270 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 270 10 limit limit VB
work_hxktjt6jyrbxnn45gipdtu7aji 270 11 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 270 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 270 13 especially especially RB
work_hxktjt6jyrbxnn45gipdtu7aji 270 14 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 270 15 rapidly rapidly RB
work_hxktjt6jyrbxnn45gipdtu7aji 270 16 dividing divide VBG
work_hxktjt6jyrbxnn45gipdtu7aji 270 17 cells cell NNS
work_hxktjt6jyrbxnn45gipdtu7aji 270 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 270 19 42 42 CD
work_hxktjt6jyrbxnn45gipdtu7aji 270 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 270 21 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 271 1 Mutational mutational JJ
work_hxktjt6jyrbxnn45gipdtu7aji 271 2 lethal- lethal- NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 3 ity ity NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 4 can can MD
work_hxktjt6jyrbxnn45gipdtu7aji 271 5 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 271 6 avoided avoid VBN
work_hxktjt6jyrbxnn45gipdtu7aji 271 7 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 8 restricting restrict VBG
work_hxktjt6jyrbxnn45gipdtu7aji 271 9 low low JJ
work_hxktjt6jyrbxnn45gipdtu7aji 271 10 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 271 11 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 12 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 13 synthe- synthe- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 271 14 sis sis NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 15 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 16 short short JJ
work_hxktjt6jyrbxnn45gipdtu7aji 271 17 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 271 18 segments segment NNS
work_hxktjt6jyrbxnn45gipdtu7aji 271 19 confined confine VBN
work_hxktjt6jyrbxnn45gipdtu7aji 271 20 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 21 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 22 forks fork NNS
work_hxktjt6jyrbxnn45gipdtu7aji 271 23 blocked block VBN
work_hxktjt6jyrbxnn45gipdtu7aji 271 24 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 25 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 26 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 27 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 271 28 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 29 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 30 restart restart NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 31 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 32 stalled stall VBN
work_hxktjt6jyrbxnn45gipdtu7aji 271 33 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 34 forks fork NNS
work_hxktjt6jyrbxnn45gipdtu7aji 271 35 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 271 36 undamaged undamaged JJ
work_hxktjt6jyrbxnn45gipdtu7aji 271 37 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 271 38 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 272 1 Keeping keep VBG
work_hxktjt6jyrbxnn45gipdtu7aji 272 2 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 3 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 4 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 272 5 processivity processivity NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 6 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 272 7 check check NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 8 appears appear VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 272 9 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 272 10 be be VB
work_hxktjt6jyrbxnn45gipdtu7aji 272 11 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 12 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 272 13 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 272 14 inter- inter- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 272 15 nal nal NNP
work_hxktjt6jyrbxnn45gipdtu7aji 272 16 ATPase ATPase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 272 17 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 272 18 triggers trigger VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 272 19 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 20 dissociation dissociation NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 21 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 272 22 primer primer JJ
work_hxktjt6jyrbxnn45gipdtu7aji 272 23 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 272 24 template template NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 25 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 272 26 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 272 27 41 41 CD
work_hxktjt6jyrbxnn45gipdtu7aji 272 28 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 272 29 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 273 1 In in IN
work_hxktjt6jyrbxnn45gipdtu7aji 273 2 essence essence NN
work_hxktjt6jyrbxnn45gipdtu7aji 273 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 273 4 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 273 5 enzyme enzyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 273 6 has have VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 273 7 evolved evolve VBN
work_hxktjt6jyrbxnn45gipdtu7aji 273 8 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 273 9 do do VB
work_hxktjt6jyrbxnn45gipdtu7aji 273 10 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 273 11 absolute absolute JJ
work_hxktjt6jyrbxnn45gipdtu7aji 273 12 minimum minimum NN
work_hxktjt6jyrbxnn45gipdtu7aji 273 13 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 273 14 get get VB
work_hxktjt6jyrbxnn45gipdtu7aji 273 15 cellular cellular JJ
work_hxktjt6jyrbxnn45gipdtu7aji 273 16 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 273 17 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 273 18 restarted restart VBN
work_hxktjt6jyrbxnn45gipdtu7aji 273 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 274 1 Acknowledgments acknowledgment NNS
work_hxktjt6jyrbxnn45gipdtu7aji 274 2 — — :
work_hxktjt6jyrbxnn45gipdtu7aji 274 3 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 274 4 thank thank VBP
work_hxktjt6jyrbxnn45gipdtu7aji 274 5 Matty Matty NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 6 Scharff Scharff NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 7 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 274 8 Phuong Phuong NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 9 Pham Pham NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 10 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 274 11 provid- provid- NN
work_hxktjt6jyrbxnn45gipdtu7aji 274 12 ing ing NN
work_hxktjt6jyrbxnn45gipdtu7aji 274 13 valuable valuable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 274 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 274 15 constructive constructive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 274 16 criticisms criticism NNS
work_hxktjt6jyrbxnn45gipdtu7aji 274 17 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 274 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 274 19 manuscript manuscript NN
work_hxktjt6jyrbxnn45gipdtu7aji 274 20 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 274 21 Jeff Jeff NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 22 Ber- Ber- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 23 tram tram NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 24 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 274 25 Phuong Phuong NNP
work_hxktjt6jyrbxnn45gipdtu7aji 274 26 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 274 27 aid aid NN
work_hxktjt6jyrbxnn45gipdtu7aji 274 28 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 274 29 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 274 30 illustrations illustration NNS
work_hxktjt6jyrbxnn45gipdtu7aji 274 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 275 1 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 275 2 thank thank VBP
work_hxktjt6jyrbxnn45gipdtu7aji 275 3 Evelyn Evelyn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 4 Witkin Witkin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 275 6 Michael Michael NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 7 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 275 9 Mike Mike NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 10 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 275 12 Maurice Maurice NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 13 Bessman Bessman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 275 15 Graham Graham NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 16 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 275 18 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 275 19 Stuart Stuart NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 20 Linn Linn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 275 21 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 275 22 generously generously RB
work_hxktjt6jyrbxnn45gipdtu7aji 275 23 sending send VBG
work_hxktjt6jyrbxnn45gipdtu7aji 275 24 photographs photograph NNS
work_hxktjt6jyrbxnn45gipdtu7aji 275 25 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 276 1 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 276 2 am be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 276 3 indebted indebted JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 4 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 276 5 past past JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 276 7 present present JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 8 students student NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 9 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 276 10 postdoctoral postdoctoral JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 11 fellows fellow NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 12 who who WP
work_hxktjt6jyrbxnn45gipdtu7aji 276 13 provided provide VBD
work_hxktjt6jyrbxnn45gipdtu7aji 276 14 invaluable invaluable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 15 intellectual intellectual JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 16 support support NN
work_hxktjt6jyrbxnn45gipdtu7aji 276 17 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 276 18 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 276 19 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 20 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 276 21 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 22 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 276 23 studies study NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 24 while while IN
work_hxktjt6jyrbxnn45gipdtu7aji 276 25 having have VBG
work_hxktjt6jyrbxnn45gipdtu7aji 276 26 interests interest NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 27 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 276 28 differed differ VBD
work_hxktjt6jyrbxnn45gipdtu7aji 276 29 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 276 30 pol pol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 31 V. V. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 32 These these DT
work_hxktjt6jyrbxnn45gipdtu7aji 276 33 other other JJ
work_hxktjt6jyrbxnn45gipdtu7aji 276 34 projects project NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 35 investigated investigate VBD
work_hxktjt6jyrbxnn45gipdtu7aji 276 36 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 276 37 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 276 38 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 276 39 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 40 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 41 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 276 42 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 276 43 more more RBR
work_hxktjt6jyrbxnn45gipdtu7aji 276 44 recently recently RB
work_hxktjt6jyrbxnn45gipdtu7aji 276 45 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 276 46 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 276 47 mutator mutator NN
work_hxktjt6jyrbxnn45gipdtu7aji 276 48 mechanisms mechanism NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 49 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 276 50 APOBEC APOBEC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 51 dC dC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 276 52 deaminases deaminase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 276 53 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 277 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 277 2 NIGMS NIGMS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 277 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 277 4 NIEHS NIEHS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 277 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 277 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 277 7 NCI NCI NNP
work_hxktjt6jyrbxnn45gipdtu7aji 277 8 have have VBP
work_hxktjt6jyrbxnn45gipdtu7aji 277 9 provided provide VBN
work_hxktjt6jyrbxnn45gipdtu7aji 277 10 generous generous JJ
work_hxktjt6jyrbxnn45gipdtu7aji 277 11 sustenance sustenance NN
work_hxktjt6jyrbxnn45gipdtu7aji 277 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 278 1 I -PRON- PRP
work_hxktjt6jyrbxnn45gipdtu7aji 278 2 especially especially RB
work_hxktjt6jyrbxnn45gipdtu7aji 278 3 thank thank VBP
work_hxktjt6jyrbxnn45gipdtu7aji 278 4 Dan Dan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 5 Shaughnessy Shaughnessy NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 6 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 278 7 NIEHS NIEHS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 8 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 278 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 278 10 Dick Dick NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 11 Pelroy Pelroy NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 12 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 278 13 NCI NCI NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 14 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 278 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 278 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 278 17 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 278 18 late late JJ
work_hxktjt6jyrbxnn45gipdtu7aji 278 19 Paul Paul NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 20 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 21 Wolfe Wolfe NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 22 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 278 23 NIGMS NIGMS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 278 24 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 278 25 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 278 26 their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 278 27 gracious gracious JJ
work_hxktjt6jyrbxnn45gipdtu7aji 278 28 support support NN
work_hxktjt6jyrbxnn45gipdtu7aji 278 29 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 278 30 advice advice NN
work_hxktjt6jyrbxnn45gipdtu7aji 278 31 throughout throughout IN
work_hxktjt6jyrbxnn45gipdtu7aji 278 32 my -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 278 33 forty forty CD
work_hxktjt6jyrbxnn45gipdtu7aji 278 34 years year NNS
work_hxktjt6jyrbxnn45gipdtu7aji 278 35 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 278 36 counting count VBG
work_hxktjt6jyrbxnn45gipdtu7aji 278 37 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 278 38 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 278 39 business business NN
work_hxktjt6jyrbxnn45gipdtu7aji 278 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 279 1 Address address JJ
work_hxktjt6jyrbxnn45gipdtu7aji 279 2 correspondence correspondence NN
work_hxktjt6jyrbxnn45gipdtu7aji 279 3 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 279 4 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 279 5 mgoodman@usc.edu mgoodman@usc.edu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 279 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 280 1 REFERENCES reference NNS
work_hxktjt6jyrbxnn45gipdtu7aji 280 2 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 280 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 281 1 Weigle Weigle NNP
work_hxktjt6jyrbxnn45gipdtu7aji 281 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 281 3 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 281 4 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 282 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 282 2 1953 1953 CD
work_hxktjt6jyrbxnn45gipdtu7aji 282 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 282 4 Induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 282 5 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 282 6 mutation mutation NN
work_hxktjt6jyrbxnn45gipdtu7aji 282 7 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 282 8 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 282 9 bacterial bacterial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 282 10 virus virus NN
work_hxktjt6jyrbxnn45gipdtu7aji 282 11 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 283 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 283 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 284 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 284 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 285 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 285 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 286 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 286 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 287 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 287 2 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 287 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 287 4 628 628 CD
work_hxktjt6jyrbxnn45gipdtu7aji 287 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 287 6 636 636 CD
work_hxktjt6jyrbxnn45gipdtu7aji 287 7 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 287 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 288 1 Witkin Witkin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 288 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 288 3 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 288 4 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 288 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 288 6 1967 1967 CD
work_hxktjt6jyrbxnn45gipdtu7aji 288 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 288 8 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 288 9 radiation radiation NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 10 sensitivity sensitivity NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 11 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 288 12 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 288 13 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 288 14 B b NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 15 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 288 16 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 288 17 hypothesis hypothesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 18 relating relate VBG
work_hxktjt6jyrbxnn45gipdtu7aji 288 19 filament filament NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 20 formation formation NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 21 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 288 22 prophage prophage NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 23 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 288 24 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 289 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 289 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 290 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 290 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 291 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 291 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 292 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 292 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 293 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 293 2 57 57 CD
work_hxktjt6jyrbxnn45gipdtu7aji 293 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 293 4 1275–1279 1275–1279 CD
work_hxktjt6jyrbxnn45gipdtu7aji 293 5 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 293 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 294 1 Witkin Witkin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 294 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 294 3 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 294 4 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 294 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 294 6 1969 1969 CD
work_hxktjt6jyrbxnn45gipdtu7aji 294 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 294 8 Ultraviolet Ultraviolet NNP
work_hxktjt6jyrbxnn45gipdtu7aji 294 9 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 294 10 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 294 11 mutation mutation NN
work_hxktjt6jyrbxnn45gipdtu7aji 294 12 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 294 13 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 294 14 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 294 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 295 1 Annu Annu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 295 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 296 1 Rev. Rev. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 297 1 Microbiol Microbiol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 297 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 298 1 23 23 CD
work_hxktjt6jyrbxnn45gipdtu7aji 298 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 298 3 487–514 487–514 CD
work_hxktjt6jyrbxnn45gipdtu7aji 298 4 4 4 CD
work_hxktjt6jyrbxnn45gipdtu7aji 298 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 299 1 Radman Radman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 299 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 299 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 299 4 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 299 5 1974 1974 CD
work_hxktjt6jyrbxnn45gipdtu7aji 299 6 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 299 7 Phenomenology phenomenology NN
work_hxktjt6jyrbxnn45gipdtu7aji 299 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 299 9 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 299 10 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 299 11 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 299 12 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 299 13 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 299 14 pathway pathway NN
work_hxktjt6jyrbxnn45gipdtu7aji 299 15 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 299 16 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 299 17 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 299 18 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 299 19 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 299 20 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 299 21 hypothesis hypothesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 299 22 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 300 1 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 300 2 Molecular Molecular NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 3 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 300 4 environ- environ- NN
work_hxktjt6jyrbxnn45gipdtu7aji 300 5 mental mental JJ
work_hxktjt6jyrbxnn45gipdtu7aji 300 6 aspects aspect NNS
work_hxktjt6jyrbxnn45gipdtu7aji 300 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 300 8 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 300 9 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 300 10 Prakash Prakash NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 12 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 14 Sherman Sherman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 16 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 18 Miller Miller NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 20 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 22 Lawrence Lawrence NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 24 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 26 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 300 27 Tabor Tabor NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 28 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 29 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 30 W. W. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 31 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 300 32 eds eds NNP
work_hxktjt6jyrbxnn45gipdtu7aji 300 33 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 300 34 pp pp NN
work_hxktjt6jyrbxnn45gipdtu7aji 300 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 301 1 128 128 CD
work_hxktjt6jyrbxnn45gipdtu7aji 301 2 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 301 3 142 142 CD
work_hxktjt6jyrbxnn45gipdtu7aji 301 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 301 5 Charles Charles NNP
work_hxktjt6jyrbxnn45gipdtu7aji 301 6 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 301 7 Thomas Thomas NNP
work_hxktjt6jyrbxnn45gipdtu7aji 301 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 301 9 Springfield Springfield NNP
work_hxktjt6jyrbxnn45gipdtu7aji 301 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 301 11 IL IL NNP
work_hxktjt6jyrbxnn45gipdtu7aji 301 12 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 301 13 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 302 1 Kato Kato NNP
work_hxktjt6jyrbxnn45gipdtu7aji 302 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 302 3 T. t. NN
work_hxktjt6jyrbxnn45gipdtu7aji 302 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 302 5 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 302 6 Shinoura Shinoura NNP
work_hxktjt6jyrbxnn45gipdtu7aji 302 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 302 8 Y. Y. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 303 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 303 2 1977 1977 CD
work_hxktjt6jyrbxnn45gipdtu7aji 303 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 303 4 Isolation isolation NN
work_hxktjt6jyrbxnn45gipdtu7aji 303 5 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 303 6 characterization characterization NN
work_hxktjt6jyrbxnn45gipdtu7aji 303 7 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 303 8 mutants mutant NNS
work_hxktjt6jyrbxnn45gipdtu7aji 303 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 303 10 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 303 11 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 303 12 deficient deficient JJ
work_hxktjt6jyrbxnn45gipdtu7aji 303 13 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 303 14 induction induction NN
work_hxktjt6jyrbxnn45gipdtu7aji 303 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 303 16 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 303 17 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 303 18 ultraviolet ultraviolet JJ
work_hxktjt6jyrbxnn45gipdtu7aji 303 19 light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 303 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 304 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 304 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 305 1 Gen. Gen. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 305 2 Genet Genet NNP
work_hxktjt6jyrbxnn45gipdtu7aji 305 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 306 1 156 156 CD
work_hxktjt6jyrbxnn45gipdtu7aji 306 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 306 3 121–131 121–131 CD
work_hxktjt6jyrbxnn45gipdtu7aji 306 4 6 6 CD
work_hxktjt6jyrbxnn45gipdtu7aji 306 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 307 1 Steinborn Steinborn NNP
work_hxktjt6jyrbxnn45gipdtu7aji 307 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 307 3 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 307 4 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 307 5 1978 1978 CD
work_hxktjt6jyrbxnn45gipdtu7aji 307 6 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 307 7 Uvm Uvm NNP
work_hxktjt6jyrbxnn45gipdtu7aji 307 8 mutants mutant NNS
work_hxktjt6jyrbxnn45gipdtu7aji 307 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 307 10 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 307 11 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 307 12 K12 K12 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 307 13 deficient deficient JJ
work_hxktjt6jyrbxnn45gipdtu7aji 307 14 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 307 15 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 307 16 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 307 17 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 308 1 I. I. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 309 1 Isolation isolation NN
work_hxktjt6jyrbxnn45gipdtu7aji 309 2 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 309 3 uvm uvm NNP
work_hxktjt6jyrbxnn45gipdtu7aji 309 4 mutants mutant NNS
work_hxktjt6jyrbxnn45gipdtu7aji 309 5 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 309 6 their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 309 7 phenotypical phenotypical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 309 8 characteriza- characteriza- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 309 9 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 309 10 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 309 11 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 309 12 repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 309 13 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 309 14 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 309 15 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 310 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 310 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 311 1 Gen. Gen. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 311 2 Genet Genet NNP
work_hxktjt6jyrbxnn45gipdtu7aji 311 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 312 1 165 165 CD
work_hxktjt6jyrbxnn45gipdtu7aji 312 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 312 3 87–93 87–93 CD
work_hxktjt6jyrbxnn45gipdtu7aji 312 4 7 7 CD
work_hxktjt6jyrbxnn45gipdtu7aji 312 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 313 1 Kitagawa Kitagawa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 3 Y. Y. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 5 Akaboshi Akaboshi NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 7 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 9 Shinagawa Shinagawa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 11 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 13 Horii Horii NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 15 T. T. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 17 Ogawa Ogawa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 19 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 21 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 313 22 Kato Kato NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 313 24 T. t. NN
work_hxktjt6jyrbxnn45gipdtu7aji 313 25 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 313 26 1985 1985 CD
work_hxktjt6jyrbxnn45gipdtu7aji 313 27 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 313 28 Structural structural JJ
work_hxktjt6jyrbxnn45gipdtu7aji 313 29 analysis analysis NN
work_hxktjt6jyrbxnn45gipdtu7aji 313 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 313 31 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 313 32 umu umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 33 operon operon NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 34 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 313 35 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 313 36 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 313 37 mutagen- mutagen- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 313 38 esis esis NN
work_hxktjt6jyrbxnn45gipdtu7aji 313 39 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 313 40 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 313 41 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 313 42 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 314 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 314 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 315 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 315 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 316 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 316 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 317 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 317 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 318 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 318 2 82 82 CD
work_hxktjt6jyrbxnn45gipdtu7aji 318 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 318 4 4336 4336 CD
work_hxktjt6jyrbxnn45gipdtu7aji 318 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 318 6 4340 4340 CD
work_hxktjt6jyrbxnn45gipdtu7aji 318 7 8 8 CD
work_hxktjt6jyrbxnn45gipdtu7aji 318 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 319 1 Perry Perry NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 319 3 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 4 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 319 6 Elledge Elledge NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 319 8 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 9 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 319 11 Mitchell Mitchell NNP
work_hxktjt6jyrbxnn45gipdtu7aji 319 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 319 13 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 1 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 320 3 Marsh Marsh NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 320 5 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 320 7 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 320 8 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 320 10 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 11 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 12 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 320 13 1985 1985 CD
work_hxktjt6jyrbxnn45gipdtu7aji 320 14 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 320 15 umuDC umudc ADD
work_hxktjt6jyrbxnn45gipdtu7aji 320 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 320 17 mucAB mucAB NFP
work_hxktjt6jyrbxnn45gipdtu7aji 320 18 operons operon NNS
work_hxktjt6jyrbxnn45gipdtu7aji 320 19 whose whose WP$
work_hxktjt6jyrbxnn45gipdtu7aji 320 20 products product NNS
work_hxktjt6jyrbxnn45gipdtu7aji 320 21 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 320 22 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 320 23 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 320 24 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 320 25 light- light- NN
work_hxktjt6jyrbxnn45gipdtu7aji 320 26 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 320 27 chemical chemical NN
work_hxktjt6jyrbxnn45gipdtu7aji 320 28 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 320 29 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 320 30 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 320 31 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 320 32 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 33 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 320 34 MucA MucA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 35 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 320 36 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 320 37 LexA LexA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 38 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 320 39 share share VBP
work_hxktjt6jyrbxnn45gipdtu7aji 320 40 ho- ho- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 320 41 mology mology NN
work_hxktjt6jyrbxnn45gipdtu7aji 320 42 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 321 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 321 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 322 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 322 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 323 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 323 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 324 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 324 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 325 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 325 2 82 82 CD
work_hxktjt6jyrbxnn45gipdtu7aji 325 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 325 4 4331 4331 CD
work_hxktjt6jyrbxnn45gipdtu7aji 325 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 325 6 4335 4335 CD
work_hxktjt6jyrbxnn45gipdtu7aji 325 7 9 9 CD
work_hxktjt6jyrbxnn45gipdtu7aji 325 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 326 1 Tang Tang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 5 Shen Shen NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 7 X. X. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 9 Frank Frank NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 11 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 12 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 14 O’Donnell O’Donnell NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 16 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 18 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 20 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 22 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 326 23 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 25 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 26 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 27 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 326 28 1999 1999 CD
work_hxktjt6jyrbxnn45gipdtu7aji 326 29 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 326 30 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 31 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 32 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 326 33 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 326 34 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 326 35 error error NN
work_hxktjt6jyrbxnn45gipdtu7aji 326 36 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 326 37 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 326 38 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 326 39 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 326 40 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 326 41 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 42 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 326 43 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 326 44 V. V. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 45 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 326 46 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 327 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 327 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 328 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 328 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 329 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 329 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 330 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 330 2 96 96 CD
work_hxktjt6jyrbxnn45gipdtu7aji 330 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 330 4 8919 8919 CD
work_hxktjt6jyrbxnn45gipdtu7aji 330 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 330 6 8924 8924 CD
work_hxktjt6jyrbxnn45gipdtu7aji 330 7 10 10 CD
work_hxktjt6jyrbxnn45gipdtu7aji 330 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 331 1 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 331 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 331 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 331 4 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 331 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 331 6 2003 2003 CD
work_hxktjt6jyrbxnn45gipdtu7aji 331 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 331 8 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 331 9 bacterial bacterial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 331 10 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 331 11 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 331 12 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 331 13 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 331 14 motor motor NN
work_hxktjt6jyrbxnn45gipdtu7aji 331 15 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 331 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 332 1 Annu Annu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 332 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 333 1 Rev. Rev. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 334 1 Microbiol Microbiol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 334 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 335 1 57 57 CD
work_hxktjt6jyrbxnn45gipdtu7aji 335 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 335 3 551–577 551–577 CD
work_hxktjt6jyrbxnn45gipdtu7aji 335 4 11 11 CD
work_hxktjt6jyrbxnn45gipdtu7aji 335 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 336 1 Nohmi Nohmi NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 3 T. T. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 5 Battista Battista NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 7 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 8 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 10 Dodson Dodson NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 12 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 13 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 15 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 336 16 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 336 18 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 19 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 20 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 336 21 1988 1988 CD
work_hxktjt6jyrbxnn45gipdtu7aji 336 22 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 336 23 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 24 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 336 25 medi- medi- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 336 26 ated ated JJ
work_hxktjt6jyrbxnn45gipdtu7aji 336 27 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 336 28 activates activate VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 336 29 UmuD umud JJ
work_hxktjt6jyrbxnn45gipdtu7aji 336 30 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 336 31 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 336 32 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 336 33 mechanistic mechanistic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 336 34 relationship relationship NN
work_hxktjt6jyrbxnn45gipdtu7aji 336 35 be- be- XX
work_hxktjt6jyrbxnn45gipdtu7aji 336 36 tween tween NN
work_hxktjt6jyrbxnn45gipdtu7aji 336 37 transcriptional transcriptional JJ
work_hxktjt6jyrbxnn45gipdtu7aji 336 38 derepression derepression NN
work_hxktjt6jyrbxnn45gipdtu7aji 336 39 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 336 40 posttranslational posttranslational JJ
work_hxktjt6jyrbxnn45gipdtu7aji 336 41 activation activation NN
work_hxktjt6jyrbxnn45gipdtu7aji 336 42 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 337 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 337 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 338 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 338 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 339 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 339 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 340 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 340 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 341 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 341 2 85 85 CD
work_hxktjt6jyrbxnn45gipdtu7aji 341 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 341 4 1816 1816 CD
work_hxktjt6jyrbxnn45gipdtu7aji 341 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 341 6 1820 1820 CD
work_hxktjt6jyrbxnn45gipdtu7aji 341 7 12 12 CD
work_hxktjt6jyrbxnn45gipdtu7aji 341 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 342 1 Burckhardt Burckhardt NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 3 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 4 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 6 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 8 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 10 Scheuermann Scheuermann NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 12 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 13 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 15 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 342 16 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 18 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 342 20 1988 1988 CD
work_hxktjt6jyrbxnn45gipdtu7aji 342 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 342 22 UmuD umud JJ
work_hxktjt6jyrbxnn45gipdtu7aji 342 23 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 342 24 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 342 25 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 342 26 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 342 27 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 342 28 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 342 29 overproduction overproduction NN
work_hxktjt6jyrbxnn45gipdtu7aji 342 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 31 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 342 32 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 342 33 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 342 34 cleavage cleavage VB
work_hxktjt6jyrbxnn45gipdtu7aji 342 35 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 342 36 RecA. reca. PRP
work_hxktjt6jyrbxnn45gipdtu7aji 343 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 343 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 344 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 344 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 345 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 345 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 346 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 346 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 347 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 347 2 85 85 CD
work_hxktjt6jyrbxnn45gipdtu7aji 347 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 347 4 1811–1815 1811–1815 CD
work_hxktjt6jyrbxnn45gipdtu7aji 347 5 13 13 CD
work_hxktjt6jyrbxnn45gipdtu7aji 347 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 348 1 Shinagawa Shinagawa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 3 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 5 Iwasaki Iwasaki NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 7 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 9 Kato Kato NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 11 T. T. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 13 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 348 14 Nakata Nakata NNP
work_hxktjt6jyrbxnn45gipdtu7aji 348 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 348 16 A. a. NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 349 2 1988 1988 CD
work_hxktjt6jyrbxnn45gipdtu7aji 349 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 349 4 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 349 5 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 6 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 349 7 de- de- NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 8 pendent pendent NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 9 cleavage cleavage NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 349 11 UmuD umud JJ
work_hxktjt6jyrbxnn45gipdtu7aji 349 12 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 13 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 349 14 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 349 15 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 349 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 350 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 350 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 351 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 351 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 352 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 352 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 353 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 353 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 354 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 354 2 85 85 CD
work_hxktjt6jyrbxnn45gipdtu7aji 354 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 354 4 1806 1806 CD
work_hxktjt6jyrbxnn45gipdtu7aji 354 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 354 6 1810 1810 CD
work_hxktjt6jyrbxnn45gipdtu7aji 354 7 14 14 CD
work_hxktjt6jyrbxnn45gipdtu7aji 354 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 355 1 Reuven Reuven NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 3 N. N. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 4 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 6 Arad Arad NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 8 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 10 Maor Maor NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 11 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 355 12 Shoshani Shoshani NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 14 A. a. NN
work_hxktjt6jyrbxnn45gipdtu7aji 355 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 16 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 355 17 Livneh Livneh NNP
work_hxktjt6jyrbxnn45gipdtu7aji 355 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 355 19 Z. Z. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 356 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 356 2 1999 1999 CD
work_hxktjt6jyrbxnn45gipdtu7aji 356 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 356 4 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 356 5 mu- mu- NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 6 tagenesis tagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 7 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 8 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 356 9 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 356 10 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 356 11 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 12 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 13 activated activate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 356 14 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 356 15 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 356 16 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 356 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 356 18 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 356 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 356 20 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 356 21 SSB SSB NNP
work_hxktjt6jyrbxnn45gipdtu7aji 356 22 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 356 23 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 356 24 specialized specialize VBN
work_hxktjt6jyrbxnn45gipdtu7aji 356 25 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 356 26 translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 27 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 356 28 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 357 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 357 2 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 357 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 358 1 Chem Chem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 358 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 359 1 274 274 CD
work_hxktjt6jyrbxnn45gipdtu7aji 359 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 359 3 31763–31766 31763–31766 CD
work_hxktjt6jyrbxnn45gipdtu7aji 359 4 15 15 CD
work_hxktjt6jyrbxnn45gipdtu7aji 359 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 360 1 Jiang Jiang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 3 Q. Q. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 5 Karata Karata NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 7 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 9 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 11 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 13 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 15 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 16 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 18 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 360 19 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 360 21 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 22 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 23 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 360 24 2009 2009 CD
work_hxktjt6jyrbxnn45gipdtu7aji 360 25 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 360 26 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 360 27 active active JJ
work_hxktjt6jyrbxnn45gipdtu7aji 360 28 form form NN
work_hxktjt6jyrbxnn45gipdtu7aji 360 29 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 360 30 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 360 31 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 360 32 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 360 33 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 360 34 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 35 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 36 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 360 37 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 360 38 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 39 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 360 40 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 360 41 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 361 1 Nature nature NN
work_hxktjt6jyrbxnn45gipdtu7aji 361 2 460 460 CD
work_hxktjt6jyrbxnn45gipdtu7aji 361 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 361 4 359 359 CD
work_hxktjt6jyrbxnn45gipdtu7aji 361 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 361 6 363 363 CD
work_hxktjt6jyrbxnn45gipdtu7aji 361 7 16 16 CD
work_hxktjt6jyrbxnn45gipdtu7aji 361 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 362 1 Dutreix Dutreix NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 5 Moreau Moreau NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 7 P. P. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 8 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 10 Bailone Bailone NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 12 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 14 Galibert Galibert NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 16 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 18 Battista Battista NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 20 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 21 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 23 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 25 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 26 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 28 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 362 29 Devoret Devoret NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 362 31 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 32 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 362 33 1989 1989 CD
work_hxktjt6jyrbxnn45gipdtu7aji 362 34 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 362 35 New new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 362 36 recA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 362 37 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 362 38 that that WDT
work_hxktjt6jyrbxnn45gipdtu7aji 362 39 dissociate dissociate VBP
work_hxktjt6jyrbxnn45gipdtu7aji 362 40 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 362 41 various various JJ
work_hxktjt6jyrbxnn45gipdtu7aji 362 42 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 362 43 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 362 44 activities activity NNS
work_hxktjt6jyrbxnn45gipdtu7aji 362 45 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 362 46 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 362 47 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 362 48 provide provide VBP
work_hxktjt6jyrbxnn45gipdtu7aji 362 49 evidence evidence NN
work_hxktjt6jyrbxnn45gipdtu7aji 362 50 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 362 51 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 362 52 additional additional JJ
work_hxktjt6jyrbxnn45gipdtu7aji 362 53 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 362 54 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 362 55 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 362 56 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 362 57 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 362 58 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 362 59 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 362 60 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 363 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 363 2 Bacteriol Bacteriol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 363 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 364 1 171 171 CD
work_hxktjt6jyrbxnn45gipdtu7aji 364 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 364 3 2415–2423 2415–2423 CD
work_hxktjt6jyrbxnn45gipdtu7aji 364 4 17 17 CD
work_hxktjt6jyrbxnn45gipdtu7aji 364 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 365 1 Randall Randall NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 3 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 4 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 6 Eritja Eritja NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 8 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 10 Kaplan Kaplan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 12 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 13 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 15 Petruska Petruska NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 17 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 19 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 365 20 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 365 22 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 23 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 24 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 365 25 1987 1987 CD
work_hxktjt6jyrbxnn45gipdtu7aji 365 26 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 365 27 Nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 365 28 insertion insertion NN
work_hxktjt6jyrbxnn45gipdtu7aji 365 29 kinetics kinetic NNS
work_hxktjt6jyrbxnn45gipdtu7aji 365 30 opposite opposite JJ
work_hxktjt6jyrbxnn45gipdtu7aji 365 31 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 365 32 lesions lesion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 365 33 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 365 34 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 365 35 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 366 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 366 2 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 366 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 367 1 Chem Chem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 367 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 368 1 262 262 CD
work_hxktjt6jyrbxnn45gipdtu7aji 368 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 368 3 6864 6864 CD
work_hxktjt6jyrbxnn45gipdtu7aji 368 4 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 368 5 6870 6870 CD
work_hxktjt6jyrbxnn45gipdtu7aji 368 6 18 18 CD
work_hxktjt6jyrbxnn45gipdtu7aji 368 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 369 1 Creighton Creighton NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 3 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 5 Bloom Bloom NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 7 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 8 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 369 11 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 13 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 14 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 15 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 369 16 1995 1995 CD
work_hxktjt6jyrbxnn45gipdtu7aji 369 17 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 369 18 Gel Gel NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 19 fidelity fidelity NN
work_hxktjt6jyrbxnn45gipdtu7aji 369 20 assay assay NNP
work_hxktjt6jyrbxnn45gipdtu7aji 369 21 measuring measure VBG
work_hxktjt6jyrbxnn45gipdtu7aji 369 22 nucleotide nucleotide JJ
work_hxktjt6jyrbxnn45gipdtu7aji 369 23 misinsertion misinsertion NN
work_hxktjt6jyrbxnn45gipdtu7aji 369 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 25 exonucleolytic exonucleolytic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 369 26 proofreading proofreading NN
work_hxktjt6jyrbxnn45gipdtu7aji 369 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 369 28 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 369 29 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 369 30 bypass bypass NN
work_hxktjt6jyrbxnn45gipdtu7aji 369 31 efficiencies efficiency NNS
work_hxktjt6jyrbxnn45gipdtu7aji 369 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 370 1 Methods Methods NNP
work_hxktjt6jyrbxnn45gipdtu7aji 370 2 Enzymol Enzymol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 370 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 371 1 262 262 CD
work_hxktjt6jyrbxnn45gipdtu7aji 371 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 371 3 232–256 232–256 CD
work_hxktjt6jyrbxnn45gipdtu7aji 371 4 19 19 CD
work_hxktjt6jyrbxnn45gipdtu7aji 371 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 372 1 Bonner Bonner NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 3 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 4 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 6 Randall Randall NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 8 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 9 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 11 Rayssiguier Rayssiguier NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 13 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 15 Radman Radman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 17 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 19 Eritja Eritja NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 21 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 22 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 23 Kaplan Kaplan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 25 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 26 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 28 McEntee McEntee NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 29 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 30 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 31 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 32 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 372 33 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 34 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 372 35 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 36 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 37 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 372 38 1988 1988 CD
work_hxktjt6jyrbxnn45gipdtu7aji 372 39 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 372 40 Purification Purification NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 41 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 372 42 characteriza- characteriza- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 372 43 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 372 44 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 372 45 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 372 46 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 372 47 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 48 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 372 49 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 372 50 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 372 51 capable capable JJ
work_hxktjt6jyrbxnn45gipdtu7aji 372 52 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 372 53 insertion insertion NN
work_hxktjt6jyrbxnn45gipdtu7aji 372 54 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 372 55 bypass bypass NN
work_hxktjt6jyrbxnn45gipdtu7aji 372 56 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 372 57 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 372 58 lesions lesion NNS
work_hxktjt6jyrbxnn45gipdtu7aji 372 59 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 372 60 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 372 61 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 373 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 373 2 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 373 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 374 1 Chem Chem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 374 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 375 1 263 263 CD
work_hxktjt6jyrbxnn45gipdtu7aji 375 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 375 3 18946 18946 CD
work_hxktjt6jyrbxnn45gipdtu7aji 375 4 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 375 5 18952 18952 CD
work_hxktjt6jyrbxnn45gipdtu7aji 375 6 20 20 CD
work_hxktjt6jyrbxnn45gipdtu7aji 375 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 376 1 Wickner Wickner NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 3 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 4 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 6 Ginsberg Ginsberg NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 8 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 10 Berkower Berkower NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 12 I. i. NN
work_hxktjt6jyrbxnn45gipdtu7aji 376 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 376 15 Hurwitz Hurwitz NNP
work_hxktjt6jyrbxnn45gipdtu7aji 376 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 376 17 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 377 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 377 2 1972 1972 CD
work_hxktjt6jyrbxnn45gipdtu7aji 377 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 377 4 Deoxyribo- Deoxyribo- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 377 5 nucleic nucleic NN
work_hxktjt6jyrbxnn45gipdtu7aji 377 6 acid acid NN
work_hxktjt6jyrbxnn45gipdtu7aji 377 7 polymerase polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 377 8 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 377 9 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 377 10 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 377 11 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 377 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 378 1 I. I. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 379 1 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 379 2 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 379 3 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 379 4 charac- charac- JJ
work_hxktjt6jyrbxnn45gipdtu7aji 379 5 terization terization NN
work_hxktjt6jyrbxnn45gipdtu7aji 379 6 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 379 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 379 8 enzyme enzyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 379 9 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 380 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 380 2 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 380 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 381 1 Chem Chem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 381 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 382 1 247 247 CD
work_hxktjt6jyrbxnn45gipdtu7aji 382 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 382 3 489 489 CD
work_hxktjt6jyrbxnn45gipdtu7aji 382 4 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 382 5 497 497 CD
work_hxktjt6jyrbxnn45gipdtu7aji 382 6 21 21 CD
work_hxktjt6jyrbxnn45gipdtu7aji 382 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 383 1 Kenyon Kenyon NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 383 3 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 4 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 383 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 383 7 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 383 9 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 10 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 11 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 383 12 1980 1980 CD
work_hxktjt6jyrbxnn45gipdtu7aji 383 13 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 383 14 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 383 15 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 383 16 damaging damaging JJ
work_hxktjt6jyrbxnn45gipdtu7aji 383 17 agents agent NNS
work_hxktjt6jyrbxnn45gipdtu7aji 383 18 stimulate stimulate VBP
work_hxktjt6jyrbxnn45gipdtu7aji 383 19 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 383 20 expression expression NN
work_hxktjt6jyrbxnn45gipdtu7aji 383 21 at at IN
work_hxktjt6jyrbxnn45gipdtu7aji 383 22 specific specific JJ
work_hxktjt6jyrbxnn45gipdtu7aji 383 23 loci loci NN
work_hxktjt6jyrbxnn45gipdtu7aji 383 24 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 383 25 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 383 26 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 383 27 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 384 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 384 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 385 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 385 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 386 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 386 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 387 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 387 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 388 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 388 2 77 77 CD
work_hxktjt6jyrbxnn45gipdtu7aji 388 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 388 4 2819 2819 CD
work_hxktjt6jyrbxnn45gipdtu7aji 388 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 388 6 2823 2823 CD
work_hxktjt6jyrbxnn45gipdtu7aji 388 7 22 22 CD
work_hxktjt6jyrbxnn45gipdtu7aji 388 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 389 1 Bonner Bonner NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 3 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 4 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 6 Hays Hays NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 8 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 10 McEntee McEntee NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 12 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 389 15 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 389 17 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 18 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 389 20 1990 1990 CD
work_hxktjt6jyrbxnn45gipdtu7aji 389 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 389 22 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 23 polym- polym- NN
work_hxktjt6jyrbxnn45gipdtu7aji 389 24 erase erase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 25 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 26 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 389 27 encoded encode VBN
work_hxktjt6jyrbxnn45gipdtu7aji 389 28 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 389 29 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 389 30 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 389 31 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 389 32 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 389 33 inducible inducible JJ
work_hxktjt6jyrbxnn45gipdtu7aji 389 34 dinA dina JJ
work_hxktjt6jyrbxnn45gipdtu7aji 389 35 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 389 36 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 389 37 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 389 38 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 389 39 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 390 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 390 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 391 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 391 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 392 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 392 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 393 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 393 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 394 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 394 2 87 87 CD
work_hxktjt6jyrbxnn45gipdtu7aji 394 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 394 4 7663–7667 7663–7667 CD
work_hxktjt6jyrbxnn45gipdtu7aji 394 5 23 23 CD
work_hxktjt6jyrbxnn45gipdtu7aji 394 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 395 1 Iwasaki Iwasaki NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 3 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 5 Nakata Nakata NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 7 A. a. NN
work_hxktjt6jyrbxnn45gipdtu7aji 395 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 9 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 11 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 12 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 395 15 Shinagawa Shinagawa NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 17 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 395 19 1990 1990 CD
work_hxktjt6jyrbxnn45gipdtu7aji 395 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 395 21 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 395 22 Esche- Esche- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 23 richia richia NN
work_hxktjt6jyrbxnn45gipdtu7aji 395 24 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 395 25 polB polb NN
work_hxktjt6jyrbxnn45gipdtu7aji 395 26 gene gene NN
work_hxktjt6jyrbxnn45gipdtu7aji 395 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 28 which which WDT
work_hxktjt6jyrbxnn45gipdtu7aji 395 29 encodes encode VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 395 30 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 31 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 395 32 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 33 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 395 34 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 395 35 regulated regulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 395 36 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 395 37 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 395 38 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 395 39 system system NN
work_hxktjt6jyrbxnn45gipdtu7aji 395 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 396 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 396 2 Bacteriol Bacteriol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 396 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 397 1 172 172 CD
work_hxktjt6jyrbxnn45gipdtu7aji 397 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 397 3 6268 6268 CD
work_hxktjt6jyrbxnn45gipdtu7aji 397 4 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 397 5 6273 6273 CD
work_hxktjt6jyrbxnn45gipdtu7aji 397 6 24 24 CD
work_hxktjt6jyrbxnn45gipdtu7aji 397 7 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 398 1 Bridges bridge NNS
work_hxktjt6jyrbxnn45gipdtu7aji 398 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 398 3 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 399 1 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 399 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 399 3 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 399 4 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 399 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 399 6 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 399 7 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 399 8 1985 1985 CD
work_hxktjt6jyrbxnn45gipdtu7aji 399 9 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 399 10 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 399 11 two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 399 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 399 13 step step NN
work_hxktjt6jyrbxnn45gipdtu7aji 399 14 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 399 15 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 399 16 bacterial bacterial JJ
work_hxktjt6jyrbxnn45gipdtu7aji 399 17 UV uv NN
work_hxktjt6jyrbxnn45gipdtu7aji 399 18 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 399 19 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 400 1 Mut mut NN
work_hxktjt6jyrbxnn45gipdtu7aji 400 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 401 1 Res Res NNP
work_hxktjt6jyrbxnn45gipdtu7aji 401 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 402 1 150 150 CD
work_hxktjt6jyrbxnn45gipdtu7aji 402 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 402 3 133–139 133–139 CD
work_hxktjt6jyrbxnn45gipdtu7aji 402 4 25 25 CD
work_hxktjt6jyrbxnn45gipdtu7aji 402 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 403 1 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 403 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 403 3 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 403 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 403 5 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 403 6 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 403 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 403 8 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 403 9 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 403 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 403 11 1990 1990 CD
work_hxktjt6jyrbxnn45gipdtu7aji 403 12 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 403 13 Mutation mutation NN
work_hxktjt6jyrbxnn45gipdtu7aji 403 14 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 403 15 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 403 16 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 403 17 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 403 18 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 403 19 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 403 20 many many JJ
work_hxktjt6jyrbxnn45gipdtu7aji 403 21 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 403 22 affair affair NN
work_hxktjt6jyrbxnn45gipdtu7aji 403 23 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 404 1 Mutat Mutat NNP
work_hxktjt6jyrbxnn45gipdtu7aji 404 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 405 1 Res Res NNP
work_hxktjt6jyrbxnn45gipdtu7aji 405 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 406 1 236 236 CD
work_hxktjt6jyrbxnn45gipdtu7aji 406 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 406 3 301–311 301–311 CD
work_hxktjt6jyrbxnn45gipdtu7aji 406 4 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 406 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 407 1 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 3 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 5 Rajagopalan Rajagopalan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 7 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 9 Lu Lu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 11 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 13 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 407 14 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 407 16 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 17 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 407 18 1989 1989 CD
work_hxktjt6jyrbxnn45gipdtu7aji 407 19 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 407 20 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 21 mutagen- mutagen- NN
work_hxktjt6jyrbxnn45gipdtu7aji 407 22 esis esis NN
work_hxktjt6jyrbxnn45gipdtu7aji 407 23 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 407 24 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 407 25 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 26 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 407 27 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 407 28 purification purification NN
work_hxktjt6jyrbxnn45gipdtu7aji 407 29 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 407 30 interaction interaction NN
work_hxktjt6jyrbxnn45gipdtu7aji 407 31 with with IN
work_hxktjt6jyrbxnn45gipdtu7aji 407 32 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 33 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 407 34 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 35 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 407 36 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 408 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 408 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 409 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 409 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 410 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 410 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 411 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 411 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 412 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 412 2 86 86 CD
work_hxktjt6jyrbxnn45gipdtu7aji 412 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 412 4 7301–7305 7301–7305 CD
work_hxktjt6jyrbxnn45gipdtu7aji 412 5 27 27 CD
work_hxktjt6jyrbxnn45gipdtu7aji 412 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 413 1 Scheuermann Scheuermann NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 413 3 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 4 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 413 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 413 7 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 413 9 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 413 11 1984 1984 CD
work_hxktjt6jyrbxnn45gipdtu7aji 413 12 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 413 13 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 413 14 separate separate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 413 15 editing editing NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 16 exonuclease exonuclease NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 17 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 413 18 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 19 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 20 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 413 21 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 413 22 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 23 subunit subunit NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 24 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 413 25 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 413 26 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 413 27 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 28 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 29 III iii CD
work_hxktjt6jyrbxnn45gipdtu7aji 413 30 holoen- holoen- NN
work_hxktjt6jyrbxnn45gipdtu7aji 413 31 zyme zyme NNS
work_hxktjt6jyrbxnn45gipdtu7aji 413 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 414 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 414 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 415 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 415 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 416 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 416 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 417 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 417 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 418 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 2 81 81 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 418 4 7747–7751 7747–7751 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 5 REFLECTIONS REFLECTIONS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 6 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 418 7 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 8 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 418 9 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 10 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 418 11 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 418 12 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 13 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 14 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 15 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 16 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 418 18 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 19 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 418 20 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 418 21 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 22 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 418 23 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 418 24 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 25 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 418 26 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 418 27 BIOLOGICAL BIOLOGICAL NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 28 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 418 29 26781 26781 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 30 28 28 CD
work_hxktjt6jyrbxnn45gipdtu7aji 418 31 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 419 1 Rajagopalan Rajagopalan NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 5 Lu Lu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 7 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 9 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 11 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 13 O’Donnell O’Donnell NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 15 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 17 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 19 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 20 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 22 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 419 23 Echols Echols NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 25 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 26 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 419 27 1992 1992 CD
work_hxktjt6jyrbxnn45gipdtu7aji 419 28 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 419 29 Activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 30 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 419 31 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 419 32 purified purified JJ
work_hxktjt6jyrbxnn45gipdtu7aji 419 33 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 34 proteins protein NNS
work_hxktjt6jyrbxnn45gipdtu7aji 419 35 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 37 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 38 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 419 40 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 419 41 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 42 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 419 43 replicative replicative JJ
work_hxktjt6jyrbxnn45gipdtu7aji 419 44 bypass bypass NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 45 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 419 46 an an DT
work_hxktjt6jyrbxnn45gipdtu7aji 419 47 abasic abasic NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 48 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 49 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 50 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 419 51 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 52 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 419 53 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 419 54 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 420 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 420 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 421 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 421 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 422 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 422 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 423 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 423 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 424 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 424 2 89 89 CD
work_hxktjt6jyrbxnn45gipdtu7aji 424 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 424 4 10777–10781 10777–10781 CD
work_hxktjt6jyrbxnn45gipdtu7aji 424 5 29 29 CD
work_hxktjt6jyrbxnn45gipdtu7aji 424 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 425 1 Bruck Bruck NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 3 I. I. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 5 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 7 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 9 McEntee McEntee NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 11 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 13 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 425 14 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 425 16 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 17 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 18 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 425 19 1996 1996 CD
work_hxktjt6jyrbxnn45gipdtu7aji 425 20 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 425 21 Purification Purification NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 22 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 425 23 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 425 24 soluble soluble JJ
work_hxktjt6jyrbxnn45gipdtu7aji 425 25 UmuD umud NN
work_hxktjt6jyrbxnn45gipdtu7aji 425 26 � � .
work_hxktjt6jyrbxnn45gipdtu7aji 425 27 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 28 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 425 29 from from IN
work_hxktjt6jyrbxnn45gipdtu7aji 425 30 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 425 31 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 425 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 426 1 Cooperative cooperative JJ
work_hxktjt6jyrbxnn45gipdtu7aji 426 2 binding binding NN
work_hxktjt6jyrbxnn45gipdtu7aji 426 3 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 426 4 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 426 5 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 426 6 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 426 7 to to IN
work_hxktjt6jyrbxnn45gipdtu7aji 426 8 single single JJ
work_hxktjt6jyrbxnn45gipdtu7aji 426 9 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 426 10 stranded strand VBN
work_hxktjt6jyrbxnn45gipdtu7aji 426 11 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 426 12 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 427 1 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 427 2 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 427 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 428 1 Chem Chem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 428 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 429 1 271 271 CD
work_hxktjt6jyrbxnn45gipdtu7aji 429 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 429 3 10767–10774 10767–10774 CD
work_hxktjt6jyrbxnn45gipdtu7aji 429 4 30 30 CD
work_hxktjt6jyrbxnn45gipdtu7aji 429 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 430 1 Tang Tang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 5 Bruck Bruck NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 7 I. I. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 9 Eritja Eritja NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 11 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 13 Turner Turner NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 15 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 17 Frank Frank NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 19 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 20 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 22 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 24 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 26 O’Donnell O’Donnell NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 28 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 29 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 30 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 430 31 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 32 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 430 33 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 34 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 35 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 430 36 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 430 37 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 430 38 Biochemical biochemical JJ
work_hxktjt6jyrbxnn45gipdtu7aji 430 39 basis basis NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 40 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 430 41 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 42 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 430 43 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 430 44 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 45 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 430 46 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 47 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 430 48 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 430 49 reconstitution reconstitution NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 50 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 430 51 in in FW
work_hxktjt6jyrbxnn45gipdtu7aji 430 52 vitro vitro FW
work_hxktjt6jyrbxnn45gipdtu7aji 430 53 lesion lesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 54 bypass bypass NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 55 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 430 56 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 430 57 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 430 58 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 59 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 430 60 2C 2c NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 61 mutagenic mutagenic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 430 62 complex complex NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 63 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 430 64 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 430 65 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 430 66 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 431 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 431 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 432 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 432 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 433 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 433 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 434 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 434 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 435 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 435 2 95 95 CD
work_hxktjt6jyrbxnn45gipdtu7aji 435 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 435 4 9755–9760 9755–9760 CD
work_hxktjt6jyrbxnn45gipdtu7aji 435 5 31 31 CD
work_hxktjt6jyrbxnn45gipdtu7aji 435 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 436 1 Reuven Reuven NNP
work_hxktjt6jyrbxnn45gipdtu7aji 436 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 436 3 N. N. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 436 4 B. B. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 436 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 436 6 Tomer Tomer NNP
work_hxktjt6jyrbxnn45gipdtu7aji 436 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 436 8 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 436 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 436 10 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 436 11 Livneh Livneh NNP
work_hxktjt6jyrbxnn45gipdtu7aji 436 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 436 13 Z. Z. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 437 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 437 2 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 437 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 437 4 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 437 5 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 437 6 proteins protein VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 437 7 UmuD umud RB
work_hxktjt6jyrbxnn45gipdtu7aji 437 8 � � NNP
work_hxktjt6jyrbxnn45gipdtu7aji 437 9 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 437 10 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 437 11 prevent prevent VBP
work_hxktjt6jyrbxnn45gipdtu7aji 437 12 lethal lethal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 437 13 frameshifts frameshift NNS
work_hxktjt6jyrbxnn45gipdtu7aji 437 14 while while IN
work_hxktjt6jyrbxnn45gipdtu7aji 437 15 increasing increase VBG
work_hxktjt6jyrbxnn45gipdtu7aji 437 16 base base NN
work_hxktjt6jyrbxnn45gipdtu7aji 437 17 substitu- substitu- NNP
work_hxktjt6jyrbxnn45gipdtu7aji 437 18 tion tion NN
work_hxktjt6jyrbxnn45gipdtu7aji 437 19 mutations mutation NNS
work_hxktjt6jyrbxnn45gipdtu7aji 437 20 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 438 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 438 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 439 1 Cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 439 2 2 2 CD
work_hxktjt6jyrbxnn45gipdtu7aji 439 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 439 4 191–199 191–199 CD
work_hxktjt6jyrbxnn45gipdtu7aji 439 5 32 32 CD
work_hxktjt6jyrbxnn45gipdtu7aji 439 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 440 1 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 440 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 440 3 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 440 4 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 440 5 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 440 6 1998 1998 CD
work_hxktjt6jyrbxnn45gipdtu7aji 440 7 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 440 8 Skiing ski VBG
work_hxktjt6jyrbxnn45gipdtu7aji 440 9 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 440 10 black black JJ
work_hxktjt6jyrbxnn45gipdtu7aji 440 11 diamond diamond NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 12 slope slope NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 13 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 440 14 progress progress VB
work_hxktjt6jyrbxnn45gipdtu7aji 440 15 on on IN
work_hxktjt6jyrbxnn45gipdtu7aji 440 16 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 440 17 biochem- biochem- NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 18 istry istry NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 19 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 440 20 translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 21 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 22 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 440 23 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 441 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 441 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 442 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 442 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 443 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 443 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 444 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 444 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 445 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 445 2 95 95 CD
work_hxktjt6jyrbxnn45gipdtu7aji 445 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 445 4 10348 10348 CD
work_hxktjt6jyrbxnn45gipdtu7aji 445 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 445 6 10350 10350 CD
work_hxktjt6jyrbxnn45gipdtu7aji 445 7 33 33 CD
work_hxktjt6jyrbxnn45gipdtu7aji 445 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 446 1 Ohmori Ohmori NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 3 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 5 Friedberg Friedberg NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 7 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 8 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 10 Fuchs Fuchs NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 12 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 13 P. P. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 15 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 17 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 18 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 20 Hanaoka Hanaoka NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 22 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 24 Hinkle Hinkle NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 25 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 26 D. D. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 27 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 28 Kunkel Kunkel NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 29 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 30 T. T. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 31 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 32 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 33 Lawrence Lawrence NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 34 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 35 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 36 W. W. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 37 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 38 Livneh Livneh NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 39 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 40 Z. Z. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 41 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 42 Nohmi Nohmi NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 43 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 44 T. T. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 45 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 46 Prakash Prakash NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 47 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 48 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 49 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 50 Prakash Prakash NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 51 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 52 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 53 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 54 Todo Todo NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 55 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 56 T. T. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 57 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 58 Walker Walker NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 59 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 60 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 61 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 62 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 63 Wang Wang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 64 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 65 Z. Z. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 66 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 67 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 446 68 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 69 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 446 70 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 71 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 446 72 2001 2001 CD
work_hxktjt6jyrbxnn45gipdtu7aji 446 73 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 446 74 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 446 75 Y Y NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 76 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 446 77 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 446 78 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 446 79 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 446 80 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 446 81 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 447 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 447 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 448 1 Cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 448 2 8 8 CD
work_hxktjt6jyrbxnn45gipdtu7aji 448 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 448 4 7 7 CD
work_hxktjt6jyrbxnn45gipdtu7aji 448 5 – – SYM
work_hxktjt6jyrbxnn45gipdtu7aji 448 6 8 8 CD
work_hxktjt6jyrbxnn45gipdtu7aji 448 7 34 34 CD
work_hxktjt6jyrbxnn45gipdtu7aji 448 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 449 1 Sale sale NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 449 3 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 4 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 449 6 Lehmann Lehmann NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 449 8 A. A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 9 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 449 11 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 449 12 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 449 14 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 449 15 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 449 16 2012 2012 CD
work_hxktjt6jyrbxnn45gipdtu7aji 449 17 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 449 18 Y y NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 19 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 449 20 family family NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 21 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 22 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 449 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 449 24 their -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 449 25 role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 26 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 449 27 tolerance tolerance NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 28 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 449 29 cellular cellular JJ
work_hxktjt6jyrbxnn45gipdtu7aji 449 30 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 31 damage damage NN
work_hxktjt6jyrbxnn45gipdtu7aji 449 32 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 450 1 Nat Nat NNP
work_hxktjt6jyrbxnn45gipdtu7aji 450 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 451 1 Rev. Rev. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 452 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 452 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 453 1 Cell Cell NNP
work_hxktjt6jyrbxnn45gipdtu7aji 453 2 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 453 3 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 454 1 13 13 CD
work_hxktjt6jyrbxnn45gipdtu7aji 454 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 454 3 141–152 141–152 CD
work_hxktjt6jyrbxnn45gipdtu7aji 454 4 35 35 CD
work_hxktjt6jyrbxnn45gipdtu7aji 454 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 455 1 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 455 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 455 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 455 4 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 455 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 455 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 455 7 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 455 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 455 9 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 455 10 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 455 11 2013 2013 CD
work_hxktjt6jyrbxnn45gipdtu7aji 455 12 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 455 13 Translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 455 14 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 455 15 polymerases polymerase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 455 16 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 456 1 Cold Cold NNP
work_hxktjt6jyrbxnn45gipdtu7aji 456 2 Spring Spring NNP
work_hxktjt6jyrbxnn45gipdtu7aji 456 3 Harb Harb NNP
work_hxktjt6jyrbxnn45gipdtu7aji 456 4 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 457 1 Perspect perspect NN
work_hxktjt6jyrbxnn45gipdtu7aji 457 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 458 1 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 458 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 459 1 5 5 CD
work_hxktjt6jyrbxnn45gipdtu7aji 459 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 459 3 a010363 a010363 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 459 4 36 36 CD
work_hxktjt6jyrbxnn45gipdtu7aji 459 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 460 1 Pham Pham NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 3 P. P. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 5 Seitz Seitz NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 7 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 8 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 10 Saveliev Saveliev NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 12 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 14 Shen Shen NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 15 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 16 X. X. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 18 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 19 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 20 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 22 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 24 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 25 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 27 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 460 28 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 29 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 460 30 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 31 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 460 32 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 460 33 2002 2002 CD
work_hxktjt6jyrbxnn45gipdtu7aji 460 34 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 460 35 Two two CD
work_hxktjt6jyrbxnn45gipdtu7aji 460 36 distinct distinct JJ
work_hxktjt6jyrbxnn45gipdtu7aji 460 37 modes mode NNS
work_hxktjt6jyrbxnn45gipdtu7aji 460 38 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 460 39 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 460 40 action action NN
work_hxktjt6jyrbxnn45gipdtu7aji 460 41 are be VBP
work_hxktjt6jyrbxnn45gipdtu7aji 460 42 required require VBN
work_hxktjt6jyrbxnn45gipdtu7aji 460 43 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 460 44 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 460 45 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 460 46 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 460 47 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 460 48 catalyzed catalyzed JJ
work_hxktjt6jyrbxnn45gipdtu7aji 460 49 translesion translesion NN
work_hxktjt6jyrbxnn45gipdtu7aji 460 50 synthesis synthesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 460 51 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 461 1 Proc Proc NNP
work_hxktjt6jyrbxnn45gipdtu7aji 461 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 462 1 Natl Natl NNP
work_hxktjt6jyrbxnn45gipdtu7aji 462 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 463 1 Acad Acad NNS
work_hxktjt6jyrbxnn45gipdtu7aji 463 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 464 1 Sci Sci NNP
work_hxktjt6jyrbxnn45gipdtu7aji 464 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 465 1 U.S.A. U.S.A. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 465 2 99 99 CD
work_hxktjt6jyrbxnn45gipdtu7aji 465 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 465 4 11061–11066 11061–11066 CD
work_hxktjt6jyrbxnn45gipdtu7aji 465 5 37 37 CD
work_hxktjt6jyrbxnn45gipdtu7aji 465 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 466 1 Schlacher Schlacher NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 3 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 5 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 7 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 8 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 10 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 12 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 14 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 466 15 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 17 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 18 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 19 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 466 20 2006 2006 CD
work_hxktjt6jyrbxnn45gipdtu7aji 466 21 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 466 22 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 23 acts act NNS
work_hxktjt6jyrbxnn45gipdtu7aji 466 24 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 466 25 trans tran NNS
work_hxktjt6jyrbxnn45gipdtu7aji 466 26 to to TO
work_hxktjt6jyrbxnn45gipdtu7aji 466 27 allow allow VB
work_hxktjt6jyrbxnn45gipdtu7aji 466 28 replication replication NN
work_hxktjt6jyrbxnn45gipdtu7aji 466 29 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 466 30 damaged damage VBN
work_hxktjt6jyrbxnn45gipdtu7aji 466 31 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 466 32 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 466 33 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 466 34 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 466 35 V. V. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 36 Nature Nature NNP
work_hxktjt6jyrbxnn45gipdtu7aji 466 37 442 442 CD
work_hxktjt6jyrbxnn45gipdtu7aji 466 38 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 466 39 883 883 CD
work_hxktjt6jyrbxnn45gipdtu7aji 466 40 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 466 41 887 887 CD
work_hxktjt6jyrbxnn45gipdtu7aji 466 42 38 38 CD
work_hxktjt6jyrbxnn45gipdtu7aji 466 43 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 467 1 Patel Patel NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 3 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 5 Jiang Jiang NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 7 Q. Q. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 9 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 11 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 13 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 15 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 16 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 17 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 18 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 467 19 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 467 21 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 22 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 23 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 467 24 2010 2010 CD
work_hxktjt6jyrbxnn45gipdtu7aji 467 25 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 467 26 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 467 27 new new JJ
work_hxktjt6jyrbxnn45gipdtu7aji 467 28 model model NN
work_hxktjt6jyrbxnn45gipdtu7aji 467 29 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 467 30 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 31 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 467 32 induced induce VBN
work_hxktjt6jyrbxnn45gipdtu7aji 467 33 mutagenesis mutagenesis NN
work_hxktjt6jyrbxnn45gipdtu7aji 467 34 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 467 35 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 467 36 RecA reca JJ
work_hxktjt6jyrbxnn45gipdtu7aji 467 37 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 467 38 activates activate VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 467 39 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 40 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 467 41 V. V. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 42 Crit Crit NNP
work_hxktjt6jyrbxnn45gipdtu7aji 467 43 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 468 1 Rev. Rev. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 469 1 Biochem Biochem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 469 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 470 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 470 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 471 1 Biol Biol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 471 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 472 1 45 45 CD
work_hxktjt6jyrbxnn45gipdtu7aji 472 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 472 3 171–184 171–184 CD
work_hxktjt6jyrbxnn45gipdtu7aji 472 4 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 472 5 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 473 1 Schlacher Schlacher NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 3 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 4 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 5 Leslie Leslie NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 6 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 7 K. K. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 8 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 9 Wyman Wyman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 11 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 12 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 13 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 15 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 17 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 19 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 20 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 21 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 22 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 473 23 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 24 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 25 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 26 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 27 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 473 28 2005 2005 CD
work_hxktjt6jyrbxnn45gipdtu7aji 473 29 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 473 30 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 473 31 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 473 32 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 473 33 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 473 34 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 473 35 protein protein NN
work_hxktjt6jyrbxnn45gipdtu7aji 473 36 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 473 37 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 473 38 minimal minimal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 473 39 mutasome mutasome NN
work_hxktjt6jyrbxnn45gipdtu7aji 473 40 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 474 1 Mol Mol NNP
work_hxktjt6jyrbxnn45gipdtu7aji 474 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 475 1 Cell cell NN
work_hxktjt6jyrbxnn45gipdtu7aji 475 2 17 17 CD
work_hxktjt6jyrbxnn45gipdtu7aji 475 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 475 4 561–572 561–572 CD
work_hxktjt6jyrbxnn45gipdtu7aji 475 5 40 40 CD
work_hxktjt6jyrbxnn45gipdtu7aji 475 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 476 1 Wyatt Wyatt NNP
work_hxktjt6jyrbxnn45gipdtu7aji 476 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 476 3 P. P. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 476 4 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 477 1 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 477 2 1993 1993 CD
work_hxktjt6jyrbxnn45gipdtu7aji 477 3 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 477 4 Light light NN
work_hxktjt6jyrbxnn45gipdtu7aji 477 5 scattering scattering NN
work_hxktjt6jyrbxnn45gipdtu7aji 477 6 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 477 7 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 477 8 absolute absolute JJ
work_hxktjt6jyrbxnn45gipdtu7aji 477 9 characterization characterization NN
work_hxktjt6jyrbxnn45gipdtu7aji 477 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 477 11 mac- mac- NN
work_hxktjt6jyrbxnn45gipdtu7aji 477 12 romolecules romolecule NNS
work_hxktjt6jyrbxnn45gipdtu7aji 477 13 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 478 1 Anal anal JJ
work_hxktjt6jyrbxnn45gipdtu7aji 478 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 479 1 Chim chim UH
work_hxktjt6jyrbxnn45gipdtu7aji 479 2 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 480 1 Acta Acta NNP
work_hxktjt6jyrbxnn45gipdtu7aji 480 2 272 272 CD
work_hxktjt6jyrbxnn45gipdtu7aji 480 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 480 4 1 1 CD
work_hxktjt6jyrbxnn45gipdtu7aji 480 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 480 6 40 40 CD
work_hxktjt6jyrbxnn45gipdtu7aji 480 7 41 41 CD
work_hxktjt6jyrbxnn45gipdtu7aji 480 8 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 481 1 Erdem Erdem NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 3 A. a. NN
work_hxktjt6jyrbxnn45gipdtu7aji 481 4 L. L. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 6 Jaszczur Jaszczur NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 8 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 9 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 10 Bertram Bertram NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 11 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 12 J. J. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 13 G. G. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 14 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 15 Woodgate Woodgate NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 16 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 17 R. R. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 18 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 19 Cox Cox NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 20 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 21 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 22 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 23 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 24 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 481 25 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 26 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 481 27 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 28 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 29 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 481 30 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 481 31 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 481 32 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 481 33 polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 481 34 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 481 35 activity activity NN
work_hxktjt6jyrbxnn45gipdtu7aji 481 36 is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 481 37 autoregulated autoregulate VBN
work_hxktjt6jyrbxnn45gipdtu7aji 481 38 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 481 39 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 481 40 novel novel JJ
work_hxktjt6jyrbxnn45gipdtu7aji 481 41 intrinsic intrinsic JJ
work_hxktjt6jyrbxnn45gipdtu7aji 481 42 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 481 43 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 481 44 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 481 45 ATPase ATPase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 481 46 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 482 1 eLIFE eLIFE NNP
work_hxktjt6jyrbxnn45gipdtu7aji 482 2 3 3 CD
work_hxktjt6jyrbxnn45gipdtu7aji 482 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 482 4 e02384 e02384 NNP
work_hxktjt6jyrbxnn45gipdtu7aji 482 5 42 42 CD
work_hxktjt6jyrbxnn45gipdtu7aji 482 6 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 483 1 Corzett Corzett NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 2 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 483 3 C. C. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 4 H. H. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 5 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 483 6 Goodman Goodman NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 7 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 483 8 M. M. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 9 F. F. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 10 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 483 11 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 483 12 Finkel Finkel NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 13 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 483 14 S. S. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 15 E. E. NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 16 ( ( -LRB-
work_hxktjt6jyrbxnn45gipdtu7aji 483 17 2013 2013 CD
work_hxktjt6jyrbxnn45gipdtu7aji 483 18 ) ) -RRB-
work_hxktjt6jyrbxnn45gipdtu7aji 483 19 Competitive competitive JJ
work_hxktjt6jyrbxnn45gipdtu7aji 483 20 fitness fitness NN
work_hxktjt6jyrbxnn45gipdtu7aji 483 21 during during IN
work_hxktjt6jyrbxnn45gipdtu7aji 483 22 feast feast NN
work_hxktjt6jyrbxnn45gipdtu7aji 483 23 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 483 24 famine famine NN
work_hxktjt6jyrbxnn45gipdtu7aji 483 25 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 483 26 how how WRB
work_hxktjt6jyrbxnn45gipdtu7aji 483 27 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 28 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 29 polymerases polymerase VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 483 30 influence influence NN
work_hxktjt6jyrbxnn45gipdtu7aji 483 31 physiology physiology NN
work_hxktjt6jyrbxnn45gipdtu7aji 483 32 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 483 33 evolution evolution NN
work_hxktjt6jyrbxnn45gipdtu7aji 483 34 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 483 35 Escherichia Escherichia NNP
work_hxktjt6jyrbxnn45gipdtu7aji 483 36 coli coli NNS
work_hxktjt6jyrbxnn45gipdtu7aji 483 37 . . .
work_hxktjt6jyrbxnn45gipdtu7aji 484 1 Genetics Genetics NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 2 194 194 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 3 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 484 4 409 409 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 5 – – :
work_hxktjt6jyrbxnn45gipdtu7aji 484 6 420 420 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 7 REFLECTIONS reflection NNS
work_hxktjt6jyrbxnn45gipdtu7aji 484 8 : : :
work_hxktjt6jyrbxnn45gipdtu7aji 484 9 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 10 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 11 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 12 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 13 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 484 14 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 15 Polymerase polymerase NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 16 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 17 26782 26782 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 18 JOURNAL JOURNAL NNS
work_hxktjt6jyrbxnn45gipdtu7aji 484 19 OF of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 20 BIOLOGICAL biological NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 21 CHEMISTRY CHEMISTRY NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 22 VOLUME volume NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 23 289 289 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 24 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 25 NUMBER number NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 26 39 39 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 27 • • NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 28 SEPTEMBER SEPTEMBER NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 29 26 26 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 30 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 484 31 2014 2014 CD
work_hxktjt6jyrbxnn45gipdtu7aji 484 32 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 33 Discovery Discovery NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 34 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 35 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 36 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 37 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 484 38 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 39 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 40 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 41 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 484 42 Its -PRON- PRP$
work_hxktjt6jyrbxnn45gipdtu7aji 484 43 Unique Unique NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 44 Regulation Regulation NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 45 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 46 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 47 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 484 48 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 49 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 50 Origin Origin NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 51 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 52 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 53 Error Error NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 54 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 55 prone prone JJ
work_hxktjt6jyrbxnn45gipdtu7aji 484 56 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 57 Repair repair NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 58 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 59 Separate separate JJ
work_hxktjt6jyrbxnn45gipdtu7aji 484 60 Role role NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 61 for for IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 62 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 63 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 64 SOS SOS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 65 Mutagenesis Mutagenesis NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 66 Damaged damage VBD
work_hxktjt6jyrbxnn45gipdtu7aji 484 67 Goods good NNS
work_hxktjt6jyrbxnn45gipdtu7aji 484 68 A a DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 69 Digression digression NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 70 into into IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 71 DNA DNA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 72 Polymerase Polymerase NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 73 II II NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 74 Trials Trials NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 484 75 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 484 76 Tribulations Tribulations NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 484 77 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 78 UmuC UmuC NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 79 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 484 80 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 81 Identification identification NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 82 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 83 a a DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 84 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 85 < < XX
work_hxktjt6jyrbxnn45gipdtu7aji 484 86 sup>'2'2 > XX
work_hxktjt6jyrbxnn45gipdtu7aji 484 88 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 89 Complex Complex NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 90 TLS TLS NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 91 Requires require VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 484 92 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 93 Umu Umu NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 94 Proteins Proteins NNPS
work_hxktjt6jyrbxnn45gipdtu7aji 484 95 and and CC
work_hxktjt6jyrbxnn45gipdtu7aji 484 96 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 97 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 484 98 But but CC
work_hxktjt6jyrbxnn45gipdtu7aji 484 99 Not not RB
work_hxktjt6jyrbxnn45gipdtu7aji 484 100 pol pol VB
work_hxktjt6jyrbxnn45gipdtu7aji 484 101 III III NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 102 A A NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 103 Fly Fly NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 104 in in IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 105 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 106 cis cis NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 107 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 108 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 109 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 484 110 Filament Filament NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 111 Ointment Ointment NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 112 Transactivation Transactivation NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 113 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 114 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 115 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 116 by by IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 117 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 118 * * NFP
work_hxktjt6jyrbxnn45gipdtu7aji 484 119 Captured Captured NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 120 Alive Alive NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 121 , , ,
work_hxktjt6jyrbxnn45gipdtu7aji 484 122 the the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 123 Active Active NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 124 Form Form NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 125 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 126 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 127 V v NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 128 Is be VBZ
work_hxktjt6jyrbxnn45gipdtu7aji 484 129 UmuD UmuD NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 130 < < XX
work_hxktjt6jyrbxnn45gipdtu7aji 484 131 sup>'2'2 > FW
work_hxktjt6jyrbxnn45gipdtu7aji 484 133 C C NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 134 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 135 RecA RecA NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 136 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 137 ATP ATP NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 138 The the DT
work_hxktjt6jyrbxnn45gipdtu7aji 484 139 Unexpected Unexpected NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 140 Identification Identification NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 141 of of IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 142 pol pol NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 143 V V NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 144 Mut Mut NNP
work_hxktjt6jyrbxnn45gipdtu7aji 484 145 as as IN
work_hxktjt6jyrbxnn45gipdtu7aji 484 146 DNA dna NN
work_hxktjt6jyrbxnn45gipdtu7aji 484 147 - - HYPH
work_hxktjt6jyrbxnn45gipdtu7aji 484 148 dependent dependent JJ
work_hxktjt6jyrbxnn45gipdtu7aji 484 149 ATPase ATPase NNS
work_hxktjt6jyrbxnn45gipdtu7aji 484 150 Acknowledgments acknowledgment NNS
work_hxktjt6jyrbxnn45gipdtu7aji 484 151 REFERENCES reference NNS