id sid tid token lemma pos work_mairtkvvofcdpp7xx5jeoujq5e 1 1 Investigating investigate VBG work_mairtkvvofcdpp7xx5jeoujq5e 1 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 1 3 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 1 4 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 1 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 1 6 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 7 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 1 8 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 1 9 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 1 10 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 1 11 1Scientific 1Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 12 RepoRtS reports FW work_mairtkvvofcdpp7xx5jeoujq5e 1 13 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 1 15 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 1 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 1 17 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 1 18 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 1 19 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 20 www.nature.com/scientificreports www.nature.com/scientificreports NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 21 investigating investigate VBG work_mairtkvvofcdpp7xx5jeoujq5e 1 22 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 1 23 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 1 24 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 1 25 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 1 26 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 27 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 1 28 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 1 29 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 1 30 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 1 31 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 32 Akila Akila NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 33 parvathy parvathy NN work_mairtkvvofcdpp7xx5jeoujq5e 1 34 Dharshini1 Dharshini1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 35 , , , work_mairtkvvofcdpp7xx5jeoujq5e 1 36 Y.-h Y.-h NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 37 . . . work_mairtkvvofcdpp7xx5jeoujq5e 1 38 taguchi taguchi NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 39 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 1 40 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 1 41 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 42 Michael Michael NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 43 Gromiha1 Gromiha1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 44 * * NFP work_mairtkvvofcdpp7xx5jeoujq5e 1 45 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 46 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 1 47 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 1 48 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 1 49 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 1 50 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 1 51 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 1 52 devastating devastating JJ work_mairtkvvofcdpp7xx5jeoujq5e 1 53 neurological neurological JJ work_mairtkvvofcdpp7xx5jeoujq5e 1 54 disorder disorder NN work_mairtkvvofcdpp7xx5jeoujq5e 1 55 , , , work_mairtkvvofcdpp7xx5jeoujq5e 1 56 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 1 57 initiates initiate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 1 58 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 1 59 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 1 60 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 1 61 proliferates proliferate NNS work_mairtkvvofcdpp7xx5jeoujq5e 1 62 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 1 63 cortical cortical JJ work_mairtkvvofcdpp7xx5jeoujq5e 1 64 regions region NNS work_mairtkvvofcdpp7xx5jeoujq5e 1 65 . . . work_mairtkvvofcdpp7xx5jeoujq5e 2 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 2 2 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 2 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 2 4 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 2 5 require require VBP work_mairtkvvofcdpp7xx5jeoujq5e 2 6 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 2 7 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 2 8 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 2 9 preserve preserve VB work_mairtkvvofcdpp7xx5jeoujq5e 2 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 2 11 firing firing NN work_mairtkvvofcdpp7xx5jeoujq5e 2 12 pattern pattern NN work_mairtkvvofcdpp7xx5jeoujq5e 2 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 3 1 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 3 2 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 3 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 3 4 aberrant aberrant JJ work_mairtkvvofcdpp7xx5jeoujq5e 3 5 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 3 6 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 3 7 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 3 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 3 9 critical critical JJ work_mairtkvvofcdpp7xx5jeoujq5e 3 10 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 3 11 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 3 12 neurodegeneration neurodegeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 3 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 4 1 However however RB work_mairtkvvofcdpp7xx5jeoujq5e 4 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 4 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 4 4 reason reason NN work_mairtkvvofcdpp7xx5jeoujq5e 4 5 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 4 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 4 7 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 4 8 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 4 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 4 10 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 4 11 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 4 12 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 4 13 still still RB work_mairtkvvofcdpp7xx5jeoujq5e 4 14 unresolved unresolved JJ work_mairtkvvofcdpp7xx5jeoujq5e 4 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 5 1 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 5 2 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 5 3 enables enable VBZ work_mairtkvvofcdpp7xx5jeoujq5e 5 4 us -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 5 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 5 6 understanding understand VBG work_mairtkvvofcdpp7xx5jeoujq5e 5 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 5 8 underlying underlie VBG work_mairtkvvofcdpp7xx5jeoujq5e 5 9 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 5 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 5 11 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 5 12 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 5 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 6 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 6 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 6 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 6 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 6 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 6 6 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 6 7 variants/ variants/ NNP work_mairtkvvofcdpp7xx5jeoujq5e 6 8 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 6 9 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 6 10 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 6 11 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 6 12 expression expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 6 13 profiles profile NNS work_mairtkvvofcdpp7xx5jeoujq5e 6 14 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 6 15 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 6 16 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 6 17 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 6 18 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 6 19 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 6 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 7 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 7 2 predicted predict VBD work_mairtkvvofcdpp7xx5jeoujq5e 7 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 7 4 effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 7 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 7 6 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 7 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 7 8 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 7 9 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 7 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 7 11 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 7 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 7 13 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 7 14 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 7 15 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 7 16 silico silico NN work_mairtkvvofcdpp7xx5jeoujq5e 7 17 tools tool NNS work_mairtkvvofcdpp7xx5jeoujq5e 7 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 8 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 8 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 8 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 8 4 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 8 5 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 8 6 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 8 7 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 8 8 - - NN work_mairtkvvofcdpp7xx5jeoujq5e 8 9 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 8 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 8 11 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 8 12 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 8 13 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 8 14 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 8 15 designed design VBN work_mairtkvvofcdpp7xx5jeoujq5e 8 16 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 8 17 decipher decipher VB work_mairtkvvofcdpp7xx5jeoujq5e 8 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 8 19 relationships relationship NNS work_mairtkvvofcdpp7xx5jeoujq5e 8 20 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 8 21 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 8 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 8 23 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 8 24 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 8 25 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 8 26 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 8 27 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 8 28 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 8 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 9 1 Identified identified JJ work_mairtkvvofcdpp7xx5jeoujq5e 9 2 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 9 3 predominantly predominantly RB work_mairtkvvofcdpp7xx5jeoujq5e 9 4 influence influence VBP work_mairtkvvofcdpp7xx5jeoujq5e 9 5 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 9 6 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 9 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 9 8 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 9 9 subsequently subsequently RB work_mairtkvvofcdpp7xx5jeoujq5e 9 10 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 9 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 9 12 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 9 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 10 1 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 10 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 10 3 results result NNS work_mairtkvvofcdpp7xx5jeoujq5e 10 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 10 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 10 6 hypothesize hypothesize VBP work_mairtkvvofcdpp7xx5jeoujq5e 10 7 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 10 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 10 9 loss loss NN work_mairtkvvofcdpp7xx5jeoujq5e 10 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 10 11 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 10 12 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 10 13 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 10 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 10 15 fundamental fundamental JJ work_mairtkvvofcdpp7xx5jeoujq5e 10 16 attribute attribute NN work_mairtkvvofcdpp7xx5jeoujq5e 10 17 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 10 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 10 19 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 10 20 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 10 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 10 22 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 10 23 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 10 24 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 10 25 neurodegeneration neurodegeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 10 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 11 1 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 11 2 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 11 3 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 11 4 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 11 5 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 11 6 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 11 7 one one CD work_mairtkvvofcdpp7xx5jeoujq5e 11 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 11 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 11 10 most most RBS work_mairtkvvofcdpp7xx5jeoujq5e 11 11 common common JJ work_mairtkvvofcdpp7xx5jeoujq5e 11 12 neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 11 13 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 11 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 11 15 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 11 16 impacts impact VBZ work_mairtkvvofcdpp7xx5jeoujq5e 11 17 more more JJR work_mairtkvvofcdpp7xx5jeoujq5e 11 18 than than IN work_mairtkvvofcdpp7xx5jeoujq5e 11 19 47 47 CD work_mairtkvvofcdpp7xx5jeoujq5e 11 20 million million CD work_mairtkvvofcdpp7xx5jeoujq5e 11 21 people people NNS work_mairtkvvofcdpp7xx5jeoujq5e 11 22 globally globally RB work_mairtkvvofcdpp7xx5jeoujq5e 11 23 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 11 24 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 11 25 steady steady JJ work_mairtkvvofcdpp7xx5jeoujq5e 11 26 increasing increase VBG work_mairtkvvofcdpp7xx5jeoujq5e 11 27 mortality mortality NN work_mairtkvvofcdpp7xx5jeoujq5e 11 28 rate1 rate1 RB work_mairtkvvofcdpp7xx5jeoujq5e 11 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 12 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 12 2 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 12 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 12 4 initiated initiate VBN work_mairtkvvofcdpp7xx5jeoujq5e 12 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 12 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 12 7 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 12 8 neu- neu- NN work_mairtkvvofcdpp7xx5jeoujq5e 12 9 rons rons NNPS work_mairtkvvofcdpp7xx5jeoujq5e 12 10 located locate VBN work_mairtkvvofcdpp7xx5jeoujq5e 12 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 12 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 12 13 medial medial JJ work_mairtkvvofcdpp7xx5jeoujq5e 12 14 temporal temporal JJ work_mairtkvvofcdpp7xx5jeoujq5e 12 15 lobe lobe NN work_mairtkvvofcdpp7xx5jeoujq5e 12 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 12 17 spreads spread VBZ work_mairtkvvofcdpp7xx5jeoujq5e 12 18 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 12 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 12 20 cortical cortical JJ work_mairtkvvofcdpp7xx5jeoujq5e 12 21 regions region NNS work_mairtkvvofcdpp7xx5jeoujq5e 12 22 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 12 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 12 24 brain2 brain2 NN work_mairtkvvofcdpp7xx5jeoujq5e 12 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 13 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 13 2 selective selective JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 3 vulnera- vulnera- JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 4 bility bility NN work_mairtkvvofcdpp7xx5jeoujq5e 13 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 13 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 13 7 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 8 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 9 subset subset NN work_mairtkvvofcdpp7xx5jeoujq5e 13 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 13 11 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 13 12 common common JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 13 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 13 14 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 13 15 most most JJS work_mairtkvvofcdpp7xx5jeoujq5e 13 16 neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 17 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 13 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 13 19 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 13 20 selectively selectively RB work_mairtkvvofcdpp7xx5jeoujq5e 13 21 vulnerable vulnerable JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 22 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 13 23 requires require VBZ work_mairtkvvofcdpp7xx5jeoujq5e 13 24 high high JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 25 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 13 26 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 13 27 preserve preserve VB work_mairtkvvofcdpp7xx5jeoujq5e 13 28 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 13 29 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 30 property property NN work_mairtkvvofcdpp7xx5jeoujq5e 13 31 , , , work_mairtkvvofcdpp7xx5jeoujq5e 13 32 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 33 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 13 34 firing firing NN work_mairtkvvofcdpp7xx5jeoujq5e 13 35 rate rate NN work_mairtkvvofcdpp7xx5jeoujq5e 13 36 , , , work_mairtkvvofcdpp7xx5jeoujq5e 13 37 ion ion NN work_mairtkvvofcdpp7xx5jeoujq5e 13 38 homeostasis homeostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 13 39 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 13 40 synaptic synaptic JJ work_mairtkvvofcdpp7xx5jeoujq5e 13 41 transmission3 transmission3 NN work_mairtkvvofcdpp7xx5jeoujq5e 13 42 . . . work_mairtkvvofcdpp7xx5jeoujq5e 14 1 Therefore therefore RB work_mairtkvvofcdpp7xx5jeoujq5e 14 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 14 3 disruption disruption NN work_mairtkvvofcdpp7xx5jeoujq5e 14 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 14 5 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 14 6 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 14 7 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 14 8 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 14 9 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 14 10 demand demand NN work_mairtkvvofcdpp7xx5jeoujq5e 14 11 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 14 12 eventually eventually RB work_mairtkvvofcdpp7xx5jeoujq5e 14 13 results result VBZ work_mairtkvvofcdpp7xx5jeoujq5e 14 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 14 15 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 14 16 abnormality abnormality NN work_mairtkvvofcdpp7xx5jeoujq5e 14 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 14 18 cellular cellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 14 19 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 14 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 15 1 Metabolic metabolic JJ work_mairtkvvofcdpp7xx5jeoujq5e 15 2 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 15 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 15 4 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 15 5 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 15 6 be be VB work_mairtkvvofcdpp7xx5jeoujq5e 15 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 15 8 dominant dominant JJ work_mairtkvvofcdpp7xx5jeoujq5e 15 9 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 15 10 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 15 11 selective selective JJ work_mairtkvvofcdpp7xx5jeoujq5e 15 12 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 15 13 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 15 14 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 15 15 reduction reduction NN work_mairtkvvofcdpp7xx5jeoujq5e 15 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 15 17 glyc- glyc- JJ work_mairtkvvofcdpp7xx5jeoujq5e 15 18 olytic olytic JJ work_mairtkvvofcdpp7xx5jeoujq5e 15 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 15 20 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 15 21 phosphorylation phosphorylation NN work_mairtkvvofcdpp7xx5jeoujq5e 15 22 enzymes enzyme NNS work_mairtkvvofcdpp7xx5jeoujq5e 15 23 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 15 24 AD4,5 AD4,5 NNS work_mairtkvvofcdpp7xx5jeoujq5e 15 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 16 1 Based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 16 2 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 16 3 genomic genomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 16 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 16 5 transcriptomic transcriptomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 16 6 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 16 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 16 8 Wang Wang NNP work_mairtkvvofcdpp7xx5jeoujq5e 16 9 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 16 10 al.3,6 al.3,6 NNP work_mairtkvvofcdpp7xx5jeoujq5e 16 11 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 16 12 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 16 13 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 16 14 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 16 15 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 16 16 significantly significantly RB work_mairtkvvofcdpp7xx5jeoujq5e 16 17 susceptible susceptible JJ work_mairtkvvofcdpp7xx5jeoujq5e 16 18 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 16 19 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 16 20 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 16 21 due due IN work_mairtkvvofcdpp7xx5jeoujq5e 16 22 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 16 23 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 16 24 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 16 25 reactive reactive JJ work_mairtkvvofcdpp7xx5jeoujq5e 16 26 oxygen oxygen NN work_mairtkvvofcdpp7xx5jeoujq5e 16 27 species specie NNS work_mairtkvvofcdpp7xx5jeoujq5e 16 28 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 16 29 ROS ROS NNP work_mairtkvvofcdpp7xx5jeoujq5e 16 30 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 16 31 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 16 32 downregulation downregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 16 33 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 16 34 antioxidant antioxidant JJ work_mairtkvvofcdpp7xx5jeoujq5e 16 35 enzymes enzyme NNS work_mairtkvvofcdpp7xx5jeoujq5e 16 36 . . . work_mairtkvvofcdpp7xx5jeoujq5e 17 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 17 2 metabolic metabolic JJ work_mairtkvvofcdpp7xx5jeoujq5e 17 3 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 17 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 17 5 ROS ROS NNP work_mairtkvvofcdpp7xx5jeoujq5e 17 6 affects affect VBZ work_mairtkvvofcdpp7xx5jeoujq5e 17 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 17 8 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 17 9 DNA dna NN work_mairtkvvofcdpp7xx5jeoujq5e 17 10 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 17 11 further further JJ work_mairtkvvofcdpp7xx5jeoujq5e 17 12 impairs impair NNS work_mairtkvvofcdpp7xx5jeoujq5e 17 13 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 17 14 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 17 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 17 16 stimulates stimulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 17 17 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 17 18 formation formation NN work_mairtkvvofcdpp7xx5jeoujq5e 17 19 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 17 20 inner inner JJ work_mairtkvvofcdpp7xx5jeoujq5e 17 21 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 17 22 transition transition NN work_mairtkvvofcdpp7xx5jeoujq5e 17 23 pore pore NN work_mairtkvvofcdpp7xx5jeoujq5e 17 24 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 17 25 MTP MTP NNP work_mairtkvvofcdpp7xx5jeoujq5e 17 26 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 17 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 17 28 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 17 29 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 17 30 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 17 31 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 17 32 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 17 33 aberration aberration NN work_mairtkvvofcdpp7xx5jeoujq5e 17 34 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 17 35 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 17 36 electron electron NNP work_mairtkvvofcdpp7xx5jeoujq5e 17 37 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 17 38 chain chain NN work_mairtkvvofcdpp7xx5jeoujq5e 17 39 enzymes enzyme NNS work_mairtkvvofcdpp7xx5jeoujq5e 17 40 , , , work_mairtkvvofcdpp7xx5jeoujq5e 17 41 resulting result VBG work_mairtkvvofcdpp7xx5jeoujq5e 17 42 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 17 43 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 17 44 defective defective JJ work_mairtkvvofcdpp7xx5jeoujq5e 17 45 metabolic metabolic JJ work_mairtkvvofcdpp7xx5jeoujq5e 17 46 process7,8 process7,8 NN work_mairtkvvofcdpp7xx5jeoujq5e 17 47 . . . work_mairtkvvofcdpp7xx5jeoujq5e 18 1 Aberration aberration NN work_mairtkvvofcdpp7xx5jeoujq5e 18 2 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 18 3 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 18 4 dynamics dynamic NNS work_mairtkvvofcdpp7xx5jeoujq5e 18 5 disrupts disrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 18 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 18 7 mito- mito- NNP work_mairtkvvofcdpp7xx5jeoujq5e 18 8 chondrial chondrial NNP work_mairtkvvofcdpp7xx5jeoujq5e 18 9 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 18 10 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 18 11 induces induce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 18 12 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 18 13 demand9 demand9 NNP work_mairtkvvofcdpp7xx5jeoujq5e 18 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 19 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 19 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 19 3 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 19 4 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 19 5 illustrate illustrate VBP work_mairtkvvofcdpp7xx5jeoujq5e 19 6 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 19 7 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 19 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 19 9 N n NN work_mairtkvvofcdpp7xx5jeoujq5e 19 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 19 11 methyl methyl NN work_mairtkvvofcdpp7xx5jeoujq5e 19 12 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 19 13 D d JJ work_mairtkvvofcdpp7xx5jeoujq5e 19 14 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 19 15 aspartate aspartate NN work_mairtkvvofcdpp7xx5jeoujq5e 19 16 receptors receptor NNS work_mairtkvvofcdpp7xx5jeoujq5e 19 17 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 19 18 NMDA NMDA NNP work_mairtkvvofcdpp7xx5jeoujq5e 19 19 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 19 20 promotes promote VBZ work_mairtkvvofcdpp7xx5jeoujq5e 19 21 excitotoxicity excitotoxicity NN work_mairtkvvofcdpp7xx5jeoujq5e 19 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 19 23 disrupts disrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 19 24 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 19 25 dynamics dynamic NNS work_mairtkvvofcdpp7xx5jeoujq5e 19 26 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 19 27 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 19 28 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 19 29 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 19 30 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 19 31 neuron10 neuron10 NNP work_mairtkvvofcdpp7xx5jeoujq5e 19 32 . . . work_mairtkvvofcdpp7xx5jeoujq5e 20 1 Microarray microarray JJ work_mairtkvvofcdpp7xx5jeoujq5e 20 2 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 20 3 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 20 4 large large JJ work_mairtkvvofcdpp7xx5jeoujq5e 20 5 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 20 6 scale scale NN work_mairtkvvofcdpp7xx5jeoujq5e 20 7 co co NN work_mairtkvvofcdpp7xx5jeoujq5e 20 8 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 20 9 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 20 10 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 20 11 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 20 12 demonstrate demonstrate VBP work_mairtkvvofcdpp7xx5jeoujq5e 20 13 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 20 14 imbalance imbalance NN work_mairtkvvofcdpp7xx5jeoujq5e 20 15 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 20 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 20 17 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 20 18 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 20 19 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 20 20 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 20 21 neurodegeneration11–13 neurodegeneration11–13 NNP work_mairtkvvofcdpp7xx5jeoujq5e 20 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 21 1 Transcriptome transcriptome RB work_mairtkvvofcdpp7xx5jeoujq5e 21 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 21 3 wide wide JJ work_mairtkvvofcdpp7xx5jeoujq5e 21 4 association association NN work_mairtkvvofcdpp7xx5jeoujq5e 21 5 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 21 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 21 7 AD AD NNP work_mairtkvvofcdpp7xx5jeoujq5e 21 8 revealed reveal VBD work_mairtkvvofcdpp7xx5jeoujq5e 21 9 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 21 10 noncoding noncode VBG work_mairtkvvofcdpp7xx5jeoujq5e 21 11 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 21 12 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 21 13 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 21 14 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 21 15 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 21 16 susceptible susceptible JJ work_mairtkvvofcdpp7xx5jeoujq5e 21 17 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 21 18 disrupt disrupt VBP work_mairtkvvofcdpp7xx5jeoujq5e 21 19 splicing splicing NN work_mairtkvvofcdpp7xx5jeoujq5e 21 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 21 21 gene gene VB work_mairtkvvofcdpp7xx5jeoujq5e 21 22 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 21 23 patterns pattern NNS work_mairtkvvofcdpp7xx5jeoujq5e 21 24 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 21 25 cause cause VBP work_mairtkvvofcdpp7xx5jeoujq5e 21 26 tau tau NN work_mairtkvvofcdpp7xx5jeoujq5e 21 27 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 21 28 aggregation14 aggregation14 VBD work_mairtkvvofcdpp7xx5jeoujq5e 21 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 22 1 Even even RB work_mairtkvvofcdpp7xx5jeoujq5e 22 2 though though IN work_mairtkvvofcdpp7xx5jeoujq5e 22 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 22 4 availability availability NN work_mairtkvvofcdpp7xx5jeoujq5e 22 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 22 6 experimental experimental JJ work_mairtkvvofcdpp7xx5jeoujq5e 22 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 22 8 computational computational JJ work_mairtkvvofcdpp7xx5jeoujq5e 22 9 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 22 10 mainly mainly RB work_mairtkvvofcdpp7xx5jeoujq5e 22 11 refer refer VBP work_mairtkvvofcdpp7xx5jeoujq5e 22 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 22 13 defects defect NNS work_mairtkvvofcdpp7xx5jeoujq5e 22 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 22 15   _SP work_mairtkvvofcdpp7xx5jeoujq5e 22 16 energy energy NNP work_mairtkvvofcdpp7xx5jeoujq5e 22 17 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 22 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 22 19 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 22 20 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 22 21 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 22 22   _SP work_mairtkvvofcdpp7xx5jeoujq5e 22 23 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 22 24 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 22 25   _SP work_mairtkvvofcdpp7xx5jeoujq5e 22 26 neurodegeneration15–17 neurodegeneration15–17 NNP work_mairtkvvofcdpp7xx5jeoujq5e 22 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 22 28 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 22 29 reason reason NN work_mairtkvvofcdpp7xx5jeoujq5e 22 30 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 22 31 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 22 32 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 22 33 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 22 34 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 22 35 neurodegeneration neurodegeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 22 36 has have VBZ work_mairtkvvofcdpp7xx5jeoujq5e 22 37 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 22 38 yet yet RB work_mairtkvvofcdpp7xx5jeoujq5e 22 39 been be VBN work_mairtkvvofcdpp7xx5jeoujq5e 22 40 explored explore VBN work_mairtkvvofcdpp7xx5jeoujq5e 22 41 . . . work_mairtkvvofcdpp7xx5jeoujq5e 23 1 It -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 23 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 23 3 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 23 4 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 23 5 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 23 6 identify identify VB work_mairtkvvofcdpp7xx5jeoujq5e 23 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 23 8 under- under- NN work_mairtkvvofcdpp7xx5jeoujq5e 23 9 lying lie VBG work_mairtkvvofcdpp7xx5jeoujq5e 23 10 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 23 11 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 23 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 23 13 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 23 14 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 23 15 determine determine VB work_mairtkvvofcdpp7xx5jeoujq5e 23 16 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 23 17 therapeutic therapeutic JJ work_mairtkvvofcdpp7xx5jeoujq5e 23 18 strategy strategy NN work_mairtkvvofcdpp7xx5jeoujq5e 23 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 24 1 Analyzing analyze VBG work_mairtkvvofcdpp7xx5jeoujq5e 24 2 high high JJ work_mairtkvvofcdpp7xx5jeoujq5e 24 3 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 24 4 throughput throughput NN work_mairtkvvofcdpp7xx5jeoujq5e 24 5 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 24 6 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 24 7 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 24 8 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 24 9 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 24 10 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 24 11 shed shed VB work_mairtkvvofcdpp7xx5jeoujq5e 24 12 light light NN work_mairtkvvofcdpp7xx5jeoujq5e 24 13 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 24 14 understand understand VB work_mairtkvvofcdpp7xx5jeoujq5e 24 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 24 16 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 24 17 mechanisms mechanism NNS work_mairtkvvofcdpp7xx5jeoujq5e 24 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 24 19 provide provide VB work_mairtkvvofcdpp7xx5jeoujq5e 24 20 profound profound JJ work_mairtkvvofcdpp7xx5jeoujq5e 24 21 insights insight NNS work_mairtkvvofcdpp7xx5jeoujq5e 24 22 into into IN work_mairtkvvofcdpp7xx5jeoujq5e 24 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 24 24 cellular cellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 24 25 pathway pathway NN work_mairtkvvofcdpp7xx5jeoujq5e 24 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 24 27 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 24 28 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 24 29 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 24 30 recognizing recognize VBG work_mairtkvvofcdpp7xx5jeoujq5e 24 31 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 24 32 potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 24 33 drug drug NN work_mairtkvvofcdpp7xx5jeoujq5e 24 34 target target NN work_mairtkvvofcdpp7xx5jeoujq5e 24 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 25 1 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 25 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 25 3 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 25 4 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 25 5 plays play VBZ work_mairtkvvofcdpp7xx5jeoujq5e 25 6 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 25 7 important important JJ work_mairtkvvofcdpp7xx5jeoujq5e 25 8 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 25 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 25 10 identifying identify VBG work_mairtkvvofcdpp7xx5jeoujq5e 25 11 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 25 12 expressions expression NNS work_mairtkvvofcdpp7xx5jeoujq5e 25 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 25 14 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 25 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 25 16 fusion fusion NN work_mairtkvvofcdpp7xx5jeoujq5e 25 17 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 25 18 detec- detec- NNP work_mairtkvvofcdpp7xx5jeoujq5e 25 19 tion tion NN work_mairtkvvofcdpp7xx5jeoujq5e 25 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 26 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 26 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 26 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 26 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 26 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 26 6 retrieved retrieve VBD work_mairtkvvofcdpp7xx5jeoujq5e 26 7 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 26 8 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 26 9 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 26 10 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 26 11 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 26 12 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 26 13 sequence sequence NN work_mairtkvvofcdpp7xx5jeoujq5e 26 14 retrieval retrieval NNP work_mairtkvvofcdpp7xx5jeoujq5e 26 15 archive archive NN work_mairtkvvofcdpp7xx5jeoujq5e 26 16 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 26 17 SRA SRA NNP work_mairtkvvofcdpp7xx5jeoujq5e 26 18 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 26 19 database18 database18 NNP work_mairtkvvofcdpp7xx5jeoujq5e 26 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 27 1 1Department 1Department NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 27 3 Biotechnology Biotechnology NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 27 5 Bhupat Bhupat NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 27 7 Jyoti Jyoti NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 8 Mehta Mehta NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 9 School School NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 27 11 Biosciences Biosciences NNPS work_mairtkvvofcdpp7xx5jeoujq5e 27 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 27 13 Indian Indian NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 14 Institute Institute NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 15 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 27 16 Technology Technology NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 17 Madras Madras NNPS work_mairtkvvofcdpp7xx5jeoujq5e 27 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 27 19 Chennai Chennai NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 27 21 600036 600036 CD work_mairtkvvofcdpp7xx5jeoujq5e 27 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 27 23 Tamilnadu Tamilnadu NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 27 25 India India NNP work_mairtkvvofcdpp7xx5jeoujq5e 27 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 28 1 2Department 2department CD work_mairtkvvofcdpp7xx5jeoujq5e 28 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 28 3 Physics Physics NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 28 5 Chuo Chuo NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 6 University University NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 28 8 Kasuga Kasuga NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 28 10 Bunkyo Bunkyo NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 11 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 28 12 ku ku NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 28 14 Tokyo Tokyo NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 28 16 112 112 CD work_mairtkvvofcdpp7xx5jeoujq5e 28 17 - - SYM work_mairtkvvofcdpp7xx5jeoujq5e 28 18 8551 8551 CD work_mairtkvvofcdpp7xx5jeoujq5e 28 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 28 20 Japan Japan NNP work_mairtkvvofcdpp7xx5jeoujq5e 28 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 29 1 * * NFP work_mairtkvvofcdpp7xx5jeoujq5e 29 2 email email NN work_mairtkvvofcdpp7xx5jeoujq5e 29 3 : : : work_mairtkvvofcdpp7xx5jeoujq5e 29 4 gromiha@iitm.ac.in gromiha@iitm.ac.in RB work_mairtkvvofcdpp7xx5jeoujq5e 29 5 open open JJ work_mairtkvvofcdpp7xx5jeoujq5e 29 6 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 29 7 http://orcid.org/0000-0003-0867-8986 http://orcid.org/0000-0003-0867-8986 NN work_mairtkvvofcdpp7xx5jeoujq5e 29 8 mailto:gromiha@iitm.ac.in mailto:gromiha@iitm.ac.in NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 9 2Scientific 2Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 10 RepoRtS reports FW work_mairtkvvofcdpp7xx5jeoujq5e 29 11 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 12 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 13 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 29 14 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 15 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 29 16 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 29 17 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 18 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 19 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 29 20 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 29 21 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 29 22 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 29 23 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 24 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 29 25 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 29 26 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 29 27 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 29 28 genome genome JJ work_mairtkvvofcdpp7xx5jeoujq5e 29 29 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 29 30 tool tool NN work_mairtkvvofcdpp7xx5jeoujq5e 29 31 kit kit NN work_mairtkvvofcdpp7xx5jeoujq5e 29 32 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 33 GATK GATK NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 34 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 35 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 29 36 compared compare VBD work_mairtkvvofcdpp7xx5jeoujq5e 29 37 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 29 38 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 29 39 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 29 40 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 29 41 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 29 42 Quantitative quantitative JJ work_mairtkvvofcdpp7xx5jeoujq5e 29 43 trait trait NN work_mairtkvvofcdpp7xx5jeoujq5e 29 44 loci loci NN work_mairtkvvofcdpp7xx5jeoujq5e 29 45 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 46 eQTL eqtl NN work_mairtkvvofcdpp7xx5jeoujq5e 29 47 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 48 , , , work_mairtkvvofcdpp7xx5jeoujq5e 29 49 Genome Genome NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 50 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 29 51 wide wide JJ work_mairtkvvofcdpp7xx5jeoujq5e 29 52 association association NN work_mairtkvvofcdpp7xx5jeoujq5e 29 53 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 29 54 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 55 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 29 56 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 29 57 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 29 58 various various JJ work_mairtkvvofcdpp7xx5jeoujq5e 29 59 neurological neurological JJ work_mairtkvvofcdpp7xx5jeoujq5e 29 60 disorders19–21 disorders19–21 NN work_mairtkvvofcdpp7xx5jeoujq5e 29 61 . . . work_mairtkvvofcdpp7xx5jeoujq5e 30 1 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 30 2 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 30 3 reports report VBZ work_mairtkvvofcdpp7xx5jeoujq5e 30 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 30 5 abundance abundance NN work_mairtkvvofcdpp7xx5jeoujq5e 30 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 30 7 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 30 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 30 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 30 10 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 30 11 population population NN work_mairtkvvofcdpp7xx5jeoujq5e 30 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 30 13 but but CC work_mairtkvvofcdpp7xx5jeoujq5e 30 14 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 30 15 does do VBZ work_mairtkvvofcdpp7xx5jeoujq5e 30 16 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 30 17 show show VB work_mairtkvvofcdpp7xx5jeoujq5e 30 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 30 19 effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 30 20 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 30 21 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 30 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 31 1 Using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 31 2 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 31 3 silico silico NN work_mairtkvvofcdpp7xx5jeoujq5e 31 4 tools tool NNS work_mairtkvvofcdpp7xx5jeoujq5e 31 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 31 6 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 31 7 predicted predict VBD work_mairtkvvofcdpp7xx5jeoujq5e 31 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 31 9 effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 31 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 31 11 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 31 12 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 31 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 31 14 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 31 15 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 31 16 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 31 17 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 31 18 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 31 19 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 31 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 31 21 epitranscriptomic epitranscriptomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 31 22 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 31 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 32 1 Thus thus RB work_mairtkvvofcdpp7xx5jeoujq5e 32 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 32 3 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 32 4 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 32 5 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 32 6 297 297 CD work_mairtkvvofcdpp7xx5jeoujq5e 32 7 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 32 8 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 32 9 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 32 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 32 11 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 32 12 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 32 13 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 32 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 32 15 where where WRB work_mairtkvvofcdpp7xx5jeoujq5e 32 16 most most JJS work_mairtkvvofcdpp7xx5jeoujq5e 32 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 32 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 32 19 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 32 20 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 32 21 disrupt disrupt VBP work_mairtkvvofcdpp7xx5jeoujq5e 32 22 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 32 23 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 32 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 33 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 33 2 performed perform VBD work_mairtkvvofcdpp7xx5jeoujq5e 33 3 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 33 4 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 33 5 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 33 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 33 7 three three CD work_mairtkvvofcdpp7xx5jeoujq5e 33 8 different different JJ work_mairtkvvofcdpp7xx5jeoujq5e 33 9 levels level NNS work_mairtkvvofcdpp7xx5jeoujq5e 33 10 : : : work_mairtkvvofcdpp7xx5jeoujq5e 33 11 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 33 12 i i NN work_mairtkvvofcdpp7xx5jeoujq5e 33 13 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 33 14 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 33 15 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 33 16 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 33 17 ii ii NNP work_mairtkvvofcdpp7xx5jeoujq5e 33 18 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 33 19 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 33 20 expression expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 33 21 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 33 22 iii iii NNP work_mairtkvvofcdpp7xx5jeoujq5e 33 23 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 33 24 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 33 25 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 33 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 34 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 34 2 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 34 3 250 250 CD work_mairtkvvofcdpp7xx5jeoujq5e 34 4 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 34 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 34 6 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 34 7 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 34 8 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 34 9 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 34 10 at at IN work_mairtkvvofcdpp7xx5jeoujq5e 34 11 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 34 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 34 13 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 34 14 levels level NNS work_mairtkvvofcdpp7xx5jeoujq5e 34 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 35 1 To to TO work_mairtkvvofcdpp7xx5jeoujq5e 35 2 understand understand VB work_mairtkvvofcdpp7xx5jeoujq5e 35 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 35 4 relationship relationship NN work_mairtkvvofcdpp7xx5jeoujq5e 35 5 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 35 6 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 35 7 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 35 8 associate associate JJ work_mairtkvvofcdpp7xx5jeoujq5e 35 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 35 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 35 11 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 35 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 35 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 35 14 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 35 15 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 35 16 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 35 17 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 35 18 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 35 19 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 35 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 35 21 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 35 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 35 23 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 35 24 built build VBD work_mairtkvvofcdpp7xx5jeoujq5e 35 25 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 35 26 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 35 27 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 35 28 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 35 29 - - NN work_mairtkvvofcdpp7xx5jeoujq5e 35 30 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 35 31 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 35 32 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 35 33 module module NN work_mairtkvvofcdpp7xx5jeoujq5e 35 34 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 35 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 36 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 36 2 large large JJ work_mairtkvvofcdpp7xx5jeoujq5e 36 3 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 36 4 scale scale NN work_mairtkvvofcdpp7xx5jeoujq5e 36 5 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 36 6 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 36 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 36 8 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 36 9 found find VBD work_mairtkvvofcdpp7xx5jeoujq5e 36 10 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 36 11 most most JJS work_mairtkvvofcdpp7xx5jeoujq5e 36 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 36 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 36 14 disrupted disrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 36 15 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 36 16 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 36 17 impacting impact VBG work_mairtkvvofcdpp7xx5jeoujq5e 36 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 36 19 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 36 20 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 36 21 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 36 22 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 36 23 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 36 24 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 36 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 37 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 37 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 3 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 37 4 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 37 5 illustrate illustrate VBP work_mairtkvvofcdpp7xx5jeoujq5e 37 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 37 7 dysregulation dysregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 37 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 37 9 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 37 10 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 37 11 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 37 12 responsible responsible JJ work_mairtkvvofcdpp7xx5jeoujq5e 37 13 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 37 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 37 15 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 37 16 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 37 17 mor- mor- NNP work_mairtkvvofcdpp7xx5jeoujq5e 37 18 phogenesis phogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 37 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 20 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 37 21 circulation circulation NN work_mairtkvvofcdpp7xx5jeoujq5e 37 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 23 gliogenesis gliogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 37 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 25 mitochondria mitochondria NN work_mairtkvvofcdpp7xx5jeoujq5e 37 26 biogenesis biogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 37 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 28 ROS ros NN work_mairtkvvofcdpp7xx5jeoujq5e 37 29 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 37 30 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 31 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 37 32 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 37 33 , , , work_mairtkvvofcdpp7xx5jeoujq5e 37 34 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 37 35 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 37 36 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 37 37 muscle muscle NN work_mairtkvvofcdpp7xx5jeoujq5e 37 38 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 37 39 dysfunction dysfunction NN work_mairtkvvofcdpp7xx5jeoujq5e 37 40 . . . work_mairtkvvofcdpp7xx5jeoujq5e 38 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 38 2 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 38 3 depicts depict VBZ work_mairtkvvofcdpp7xx5jeoujq5e 38 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 38 5 loss loss NN work_mairtkvvofcdpp7xx5jeoujq5e 38 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 38 7 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 38 8 structural structural JJ work_mairtkvvofcdpp7xx5jeoujq5e 38 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 38 10 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 38 11 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 38 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 38 13 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 38 14 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 38 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 38 16 primary primary JJ work_mairtkvvofcdpp7xx5jeoujq5e 38 17 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 38 18 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 38 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 38 20 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 38 21 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 38 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 38 23 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 38 24 neuron neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 38 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 39 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 39 2 propose propose VBP work_mairtkvvofcdpp7xx5jeoujq5e 39 3 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 39 4 restoring restore VBG work_mairtkvvofcdpp7xx5jeoujq5e 39 5 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 39 6 dynamics dynamic NNS work_mairtkvvofcdpp7xx5jeoujq5e 39 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 39 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 39 9 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 39 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 39 11 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 39 12 barrier barrier NN work_mairtkvvofcdpp7xx5jeoujq5e 39 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 39 14 BBB BBB NNP work_mairtkvvofcdpp7xx5jeoujq5e 39 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 39 16 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 39 17 save save VB work_mairtkvvofcdpp7xx5jeoujq5e 39 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 39 19 surviving survive VBG work_mairtkvvofcdpp7xx5jeoujq5e 39 20 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 39 21 population population NN work_mairtkvvofcdpp7xx5jeoujq5e 39 22 against against IN work_mairtkvvofcdpp7xx5jeoujq5e 39 23 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 39 24 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 39 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 40 1 Results result NNS work_mairtkvvofcdpp7xx5jeoujq5e 40 2 Variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 40 3 calling calling NN work_mairtkvvofcdpp7xx5jeoujq5e 40 4 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 40 5 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 40 6 RnA rna NN work_mairtkvvofcdpp7xx5jeoujq5e 40 7 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 40 8 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 40 9 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 40 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 41 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 41 2 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 41 3 obtained obtain VBN work_mairtkvvofcdpp7xx5jeoujq5e 41 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 41 5 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 41 6 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 41 7 stage stage NN work_mairtkvvofcdpp7xx5jeoujq5e 41 8 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 41 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 41 10 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 41 11 patients patient NNS work_mairtkvvofcdpp7xx5jeoujq5e 41 12 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 41 13 GATK GATK NNP work_mairtkvvofcdpp7xx5jeoujq5e 41 14 tools tool NNS work_mairtkvvofcdpp7xx5jeoujq5e 41 15 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 41 16 employing employ VBG work_mairtkvvofcdpp7xx5jeoujq5e 41 17 STAR STAR NNP work_mairtkvvofcdpp7xx5jeoujq5e 41 18 spliced spliced JJ work_mairtkvvofcdpp7xx5jeoujq5e 41 19 aligner aligner NN work_mairtkvvofcdpp7xx5jeoujq5e 41 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 41 21 hg38 hg38 NNP work_mairtkvvofcdpp7xx5jeoujq5e 41 22 genomic genomic NNP work_mairtkvvofcdpp7xx5jeoujq5e 41 23 assembly assembly NNP work_mairtkvvofcdpp7xx5jeoujq5e 41 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 42 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 42 2 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 42 3 297 297 CD work_mairtkvvofcdpp7xx5jeoujq5e 42 4 significant significant JJ work_mairtkvvofcdpp7xx5jeoujq5e 42 5 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 42 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 42 7 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 42 8 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 42 9 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 42 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 42 11 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 42 12 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 42 13   _SP work_mairtkvvofcdpp7xx5jeoujq5e 42 14 S3 S3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 42 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 42 16 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 42 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 43 1 S2 s2 NN work_mairtkvvofcdpp7xx5jeoujq5e 43 2 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 43 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 44 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 44 2 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 44 3 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 44 4 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 44 5 unique unique JJ work_mairtkvvofcdpp7xx5jeoujq5e 44 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 44 7 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 44 8 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 44 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 44 10 any any DT work_mairtkvvofcdpp7xx5jeoujq5e 44 11 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 44 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 44 13 neurological neurological JJ work_mairtkvvofcdpp7xx5jeoujq5e 44 14 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 44 15 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 44 16 termed term VBN work_mairtkvvofcdpp7xx5jeoujq5e 44 17 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 44 18 “ " `` work_mairtkvvofcdpp7xx5jeoujq5e 44 19 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 44 20 ” " '' work_mairtkvvofcdpp7xx5jeoujq5e 44 21 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 44 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 45 1 Among among IN work_mairtkvvofcdpp7xx5jeoujq5e 45 2 them -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 45 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 45 4 136 136 CD work_mairtkvvofcdpp7xx5jeoujq5e 45 5 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 6 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 45 7 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 45 8 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 45 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 45 10 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 45 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 45 13 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 45 14 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 45 15 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 16 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 45 17 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 45 18 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 45 19 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 45 20 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 21 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 45 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 45 23 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 45 24 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 45 25 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 26 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 27   _SP work_mairtkvvofcdpp7xx5jeoujq5e 45 28 S3 S3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 45 29 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 45 30 . . . work_mairtkvvofcdpp7xx5jeoujq5e 46 1 Effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 46 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 46 3 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 46 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 46 5 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 46 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 46 7 histone histone JJ work_mairtkvvofcdpp7xx5jeoujq5e 46 8 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 46 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 46 10 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 46 11 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 46 12 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 46 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 47 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 47 2 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 47 3 located locate VBN work_mairtkvvofcdpp7xx5jeoujq5e 47 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 47 5 conserved conserve VBN work_mairtkvvofcdpp7xx5jeoujq5e 47 6 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 47 7 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 47 8 sites site NNS work_mairtkvvofcdpp7xx5jeoujq5e 47 9 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 47 10 cis cis NN work_mairtkvvofcdpp7xx5jeoujq5e 47 11 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 47 12 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 47 13 elements element NNS work_mairtkvvofcdpp7xx5jeoujq5e 47 14 can can MD work_mairtkvvofcdpp7xx5jeoujq5e 47 15 potentially potentially RB work_mairtkvvofcdpp7xx5jeoujq5e 47 16 interrupt interrupt VB work_mairtkvvofcdpp7xx5jeoujq5e 47 17 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 47 18 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 47 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 48 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 48 2 addition addition NN work_mairtkvvofcdpp7xx5jeoujq5e 48 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 48 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 48 5 epigenetic epigenetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 48 6 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 48 7 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 48 8 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 48 9 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 48 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 48 11 histone histone NN work_mairtkvvofcdpp7xx5jeoujq5e 48 12 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 48 13 play play VBP work_mairtkvvofcdpp7xx5jeoujq5e 48 14 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 48 15 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 48 16 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 48 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 48 18 controlling control VBG work_mairtkvvofcdpp7xx5jeoujq5e 48 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 48 20 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 48 21 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 48 22 profile22 profile22 NNP work_mairtkvvofcdpp7xx5jeoujq5e 48 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 49 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 49 2 evaluated evaluate VBD work_mairtkvvofcdpp7xx5jeoujq5e 49 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 49 4 impact impact NN work_mairtkvvofcdpp7xx5jeoujq5e 49 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 49 6 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 49 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 49 8 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 49 9 binding binding JJ work_mairtkvvofcdpp7xx5jeoujq5e 49 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 49 11 epitran- epitran- JJ work_mairtkvvofcdpp7xx5jeoujq5e 49 12 scriptomic scriptomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 49 13 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 49 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 49 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 49 16 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 49 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 49 18 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 49 19 altering alter VBG work_mairtkvvofcdpp7xx5jeoujq5e 49 20 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 49 21 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 49 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 49 23 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 49 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 49 25 histone histone NN work_mairtkvvofcdpp7xx5jeoujq5e 49 26 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 49 27 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 49 28 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 49 29 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 49 30 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 49 31 presented present VBN work_mairtkvvofcdpp7xx5jeoujq5e 49 32 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 49 33 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 49 34 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 49 35   _SP work_mairtkvvofcdpp7xx5jeoujq5e 49 36 S4 S4 NNP work_mairtkvvofcdpp7xx5jeoujq5e 49 37 . . . work_mairtkvvofcdpp7xx5jeoujq5e 50 1 Most Most JJS work_mairtkvvofcdpp7xx5jeoujq5e 50 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 50 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 50 4 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 50 6 186 186 CD work_mairtkvvofcdpp7xx5jeoujq5e 50 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 50 8 interrupt interrupt JJ work_mairtkvvofcdpp7xx5jeoujq5e 50 9 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 50 10 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 50 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 50 12 25 25 CD work_mairtkvvofcdpp7xx5jeoujq5e 50 13 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 14 affect affect VBP work_mairtkvvofcdpp7xx5jeoujq5e 50 15 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 50 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 50 17 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 50 18 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 50 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 50 20 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 50 21 vari- vari- JJ work_mairtkvvofcdpp7xx5jeoujq5e 50 22 ants ant NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 23 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 50 24 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 50 25 our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 50 26 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 27 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 50 28 predominantly predominantly RB work_mairtkvvofcdpp7xx5jeoujq5e 50 29 located locate VBN work_mairtkvvofcdpp7xx5jeoujq5e 50 30 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 50 31 non non JJ work_mairtkvvofcdpp7xx5jeoujq5e 50 32 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 50 33 coding coding JJ work_mairtkvvofcdpp7xx5jeoujq5e 50 34 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 50 35 regions region NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 36 , , , work_mairtkvvofcdpp7xx5jeoujq5e 50 37 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 50 38 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 50 39 disrupted disrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 50 40 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 41 has have VBZ work_mairtkvvofcdpp7xx5jeoujq5e 50 42 been be VBN work_mairtkvvofcdpp7xx5jeoujq5e 50 43 matched match VBN work_mairtkvvofcdpp7xx5jeoujq5e 50 44 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 50 45 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 50 46 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 50 47 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 50 48 profiles profile NNS work_mairtkvvofcdpp7xx5jeoujq5e 50 49 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 50 50 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 50 51 literature literature NN work_mairtkvvofcdpp7xx5jeoujq5e 50 52 study23 study23 NN work_mairtkvvofcdpp7xx5jeoujq5e 50 53 . . . work_mairtkvvofcdpp7xx5jeoujq5e 51 1 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 51 2 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 51 3   _SP work_mairtkvvofcdpp7xx5jeoujq5e 51 4 S3 S3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 51 5 represents represent VBZ work_mairtkvvofcdpp7xx5jeoujq5e 51 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 51 7 effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 51 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 51 9 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 51 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 51 11 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 51 12 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 51 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 52 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 52 2 analyzed analyze VBD work_mairtkvvofcdpp7xx5jeoujq5e 52 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 52 4 impact impact NN work_mairtkvvofcdpp7xx5jeoujq5e 52 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 52 6 epigenetic epigenetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 52 7 modification modification NN work_mairtkvvofcdpp7xx5jeoujq5e 52 8 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 52 9 non non JJ work_mairtkvvofcdpp7xx5jeoujq5e 52 10 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 52 11 coding coding JJ work_mairtkvvofcdpp7xx5jeoujq5e 52 12 vari- vari- JJ work_mairtkvvofcdpp7xx5jeoujq5e 52 13 ants ant NNS work_mairtkvvofcdpp7xx5jeoujq5e 52 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 52 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 52 16 results result NNS work_mairtkvvofcdpp7xx5jeoujq5e 52 17 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 52 18 presented present VBN work_mairtkvvofcdpp7xx5jeoujq5e 52 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 52 20 Table table NN work_mairtkvvofcdpp7xx5jeoujq5e 52 21   _SP work_mairtkvvofcdpp7xx5jeoujq5e 52 22 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 52 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 53 1 TIMM44 TIMM44 NNP work_mairtkvvofcdpp7xx5jeoujq5e 53 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 53 3 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 53 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 53 5 translocation translocation NN work_mairtkvvofcdpp7xx5jeoujq5e 53 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 53 7 anti anti JJ work_mairtkvvofcdpp7xx5jeoujq5e 53 8 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 53 9 oxidant oxidant JJ work_mairtkvvofcdpp7xx5jeoujq5e 53 10 enzymes enzyme NNS work_mairtkvvofcdpp7xx5jeoujq5e 53 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 53 12 reduces reduce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 53 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 53 14 ROS ROS NNP work_mairtkvvofcdpp7xx5jeoujq5e 53 15 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 53 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 54 1 Variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 54 2 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 54 3 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 54 4 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 54 5 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 54 6 disrupt disrupt NN work_mairtkvvofcdpp7xx5jeoujq5e 54 7 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 54 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 9 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 54 10 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 54 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 54 12 as as RB work_mairtkvvofcdpp7xx5jeoujq5e 54 13 well well RB work_mairtkvvofcdpp7xx5jeoujq5e 54 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 15 interrupt interrupt VB work_mairtkvvofcdpp7xx5jeoujq5e 54 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 54 17 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 54 18 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 54 19 8 8 CD work_mairtkvvofcdpp7xx5jeoujq5e 54 20 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 54 21 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 54 22 NANOG NANOG NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 24 GLI1 GLI1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 26 TAL1 TAL1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 28 CCNT2 CCNT2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 29 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 30 TCF12 TCF12 NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 31 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 32 YY1 YY1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 33 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 34 XZF XZF NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 35 , , , work_mairtkvvofcdpp7xx5jeoujq5e 54 36 ESR1 ESR1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 54 37 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 54 38 . . . work_mairtkvvofcdpp7xx5jeoujq5e 55 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 55 2 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 55 3 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 55 4 NANOG NANOG NNP work_mairtkvvofcdpp7xx5jeoujq5e 55 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 55 6 GLI1 GLI1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 55 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 55 8 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 55 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 55 10 hedgehog hedgehog NN work_mairtkvvofcdpp7xx5jeoujq5e 55 11 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 55 12 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 55 13 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 55 14 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 55 15 regeneration regeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 55 16 during during IN work_mairtkvvofcdpp7xx5jeoujq5e 55 17 tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 55 18 injury24 injury24 CD work_mairtkvvofcdpp7xx5jeoujq5e 55 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 56 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 56 2 downregulated downregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 56 3 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 56 4 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 56 5 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 56 6 TCF12 TCF12 NNP work_mairtkvvofcdpp7xx5jeoujq5e 56 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 56 8 TAL1 TAL1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 56 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 56 10 YY1 YY1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 56 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 56 12 ZFX ZFX NNP work_mairtkvvofcdpp7xx5jeoujq5e 56 13 participate participate VBP work_mairtkvvofcdpp7xx5jeoujq5e 56 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 56 15 neural neural JJ work_mairtkvvofcdpp7xx5jeoujq5e 56 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 56 17 oligodendrocyte oligodendrocyte NNP work_mairtkvvofcdpp7xx5jeoujq5e 56 18 differentia- differentia- NNP work_mairtkvvofcdpp7xx5jeoujq5e 56 19 tion tion NN work_mairtkvvofcdpp7xx5jeoujq5e 56 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 57 1 ESR1 esr1 VB work_mairtkvvofcdpp7xx5jeoujq5e 57 2 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 57 3 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 57 4 maintain maintain VB work_mairtkvvofcdpp7xx5jeoujq5e 57 5 hippocampal hippocampal JJ work_mairtkvvofcdpp7xx5jeoujq5e 57 6 memory memory NN work_mairtkvvofcdpp7xx5jeoujq5e 57 7 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 57 8 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 57 9 regulating regulate VBG work_mairtkvvofcdpp7xx5jeoujq5e 57 10 apolipoprotein apolipoprotein PRP work_mairtkvvofcdpp7xx5jeoujq5e 57 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 58 1 PSMC3IP PSMC3IP NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 58 3 modulates modulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 58 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 58 5 proteasomal proteasomal JJ work_mairtkvvofcdpp7xx5jeoujq5e 58 6 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 58 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 58 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 58 9 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 58 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 58 11 G G NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 12 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 58 13 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 58 15 rs2292752 rs2292752 NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 58 17 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 58 18 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 58 19 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 58 20 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 58 21 interrupts interrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 58 22 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 23 SIX5 SIX5 NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 58 25 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 58 26 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 58 27 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 58 28 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 58 29 retinal retinal JJ work_mairtkvvofcdpp7xx5jeoujq5e 58 30 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 58 31 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 58 32 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 58 33 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 58 34 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 58 35 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 58 36 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 58 37 AMD AMD NNP work_mairtkvvofcdpp7xx5jeoujq5e 58 38 . . . work_mairtkvvofcdpp7xx5jeoujq5e 59 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 59 2 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 59 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 59 4 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 59 5 variant variant NN work_mairtkvvofcdpp7xx5jeoujq5e 59 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 59 7 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 59 8 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 59 9 T T NNP work_mairtkvvofcdpp7xx5jeoujq5e 59 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 59 11 rs28373932 rs28373932 NNP work_mairtkvvofcdpp7xx5jeoujq5e 59 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 59 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 59 14 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 59 15 MAN1B1 MAN1B1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 59 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 59 17 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 59 18 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 59 19 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 59 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 59 21 quality quality NN work_mairtkvvofcdpp7xx5jeoujq5e 59 22 control control NN work_mairtkvvofcdpp7xx5jeoujq5e 59 23 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 59 24 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 59 25 process process NN work_mairtkvvofcdpp7xx5jeoujq5e 59 26 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 59 27 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 59 28 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 59 29 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 59 30 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 59 31 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 59 32 . . . work_mairtkvvofcdpp7xx5jeoujq5e 60 1 MAN1B1 MAN1B1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 60 2 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 60 3 interrupts interrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 60 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 60 5 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 60 6 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 60 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 60 8 axon axon NNP work_mairtkvvofcdpp7xx5jeoujq5e 60 9 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 60 10 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 60 11 cascade cascade NN work_mairtkvvofcdpp7xx5jeoujq5e 60 12 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 60 13 RREB1 rreb1 ADD work_mairtkvvofcdpp7xx5jeoujq5e 60 14 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 60 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 60 16 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 60 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 60 18 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 60 19 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 60 20 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 60 21 ZBTB1)25 ZBTB1)25 NNP work_mairtkvvofcdpp7xx5jeoujq5e 60 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 61 1 Category Category NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 2 Variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 3 associated associate VBD work_mairtkvvofcdpp7xx5jeoujq5e 61 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 61 5 name name NN work_mairtkvvofcdpp7xx5jeoujq5e 61 6 Differential Differential NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 7 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 61 8 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 61 9 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 61 10 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 61 11 AD AD NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 12 Chr Chr NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 13 Position Position NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 14 Ref Ref NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 15 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 16 Alt Alt NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 17 Genomic Genomic NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 18 location location NN work_mairtkvvofcdpp7xx5jeoujq5e 61 19 SNP SNP NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 20 ID ID NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 21 Dysregulated dysregulate VBD work_mairtkvvofcdpp7xx5jeoujq5e 61 22 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 23 elements element NNS work_mairtkvvofcdpp7xx5jeoujq5e 61 24 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 61 25 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 26 GWAS gwas NN work_mairtkvvofcdpp7xx5jeoujq5e 61 27 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 28 eQTL eqtl NN work_mairtkvvofcdpp7xx5jeoujq5e 61 29 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 61 30 Methylation Methylation NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 31 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 32 Gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 61 33 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 61 34 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 61 35 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 36 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 61 37 TIMM44 TIMM44 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 38 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 39 19 19 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 40 7935842 7935842 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 41 A a NN work_mairtkvvofcdpp7xx5jeoujq5e 61 42 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 43 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 44 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 45 rs35065193 rs35065193 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 46 Nanog Nanog NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 47 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 48 UP UP NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 49 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 50 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 51 TCF12 TCF12 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 52 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 53 TAL1(DOWN TAL1(DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 54 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 55 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 56 7927167 7927167 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 57 A a NN work_mairtkvvofcdpp7xx5jeoujq5e 61 58 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 59 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 60 UTR3 UTR3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 61 rs12976850 rs12976850 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 62 ESR1 ESR1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 63 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 64 YY1 YY1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 65 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 66 ZFX ZFX NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 67 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 68 CCNT2 ccnt2 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 69 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 70 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 71 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 72 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 73 7930402 7930402 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 74 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 75 / / , work_mairtkvvofcdpp7xx5jeoujq5e 61 76 A a NN work_mairtkvvofcdpp7xx5jeoujq5e 61 77 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 78 rs34629355 rs34629355 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 79 GLI1 GLI1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 80 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 81 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 61 82 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 83 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 84 OGFOD3 ogfod3 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 85 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 86 17 17 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 87 82390132 82390132 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 88 A a NN work_mairtkvvofcdpp7xx5jeoujq5e 61 89 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 90 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 91 UTR3 UTR3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 92 rs11650671 rs11650671 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 93 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 94 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 95 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 96 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 97 ALS als NN work_mairtkvvofcdpp7xx5jeoujq5e 61 98 RPS20 rps20 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 99 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 100 8 8 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 101 56069265 56069265 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 102 C c NN work_mairtkvvofcdpp7xx5jeoujq5e 61 103 / / , work_mairtkvvofcdpp7xx5jeoujq5e 61 104 A A NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 105 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 106 rs2953901 rs2953901 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 107 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 108 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 109 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 110 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 111 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 112 PSMC3IP psmc3ip NN work_mairtkvvofcdpp7xx5jeoujq5e 61 113 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 114 17 17 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 115 42573638 42573638 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 116 G G NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 117 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 118 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 119 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 120 rs2292752 rs2292752 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 121 SIX5 SIX5 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 122 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 123 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 124 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 125 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 126 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 127 AMD AMD NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 128 ACP1 ACP1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 129 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 130 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 131 266895 266895 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 132 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 133 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 134 T T NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 135 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 136 rs10171043 rs10171043 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 137 IRF1 IRF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 138 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 139 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 140 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 141 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 142 MEF2A mef2a CD work_mairtkvvofcdpp7xx5jeoujq5e 61 143 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 144 UP up NN work_mairtkvvofcdpp7xx5jeoujq5e 61 145 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 146 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 147 FAM13A fam13a CD work_mairtkvvofcdpp7xx5jeoujq5e 61 148 UP up NN work_mairtkvvofcdpp7xx5jeoujq5e 61 149 4 4 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 150 88754499 88754499 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 151 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 152 / / , work_mairtkvvofcdpp7xx5jeoujq5e 61 153 A a DT work_mairtkvvofcdpp7xx5jeoujq5e 61 154 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 155 rs61231054 rs61231054 FW work_mairtkvvofcdpp7xx5jeoujq5e 61 156 ZBTB7A ZBTB7A NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 157 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 158 UP UP NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 159 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 160 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 161 RPS20 rps20 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 162 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 163 8 8 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 164 56073972 56073972 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 165 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 166 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 167 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 168 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 169 rs2976045 rs2976045 FW work_mairtkvvofcdpp7xx5jeoujq5e 61 170 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 171 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 172 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 173 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 174 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 175 MAN1B1 man1b1 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 176 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 177 9 9 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 178 137103590 137103590 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 179 C C NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 180 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 61 181 T T NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 182 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 183 rs28373932 rs28373932 FW work_mairtkvvofcdpp7xx5jeoujq5e 61 184 RREB1 rreb1 FW work_mairtkvvofcdpp7xx5jeoujq5e 61 185 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 186 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 187 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 188 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 189 ZBTB1 zbtb1 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 190 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 191 UP up NN work_mairtkvvofcdpp7xx5jeoujq5e 61 192 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 193 Novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 194 Histone histone JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 195 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 61 196 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 197 Gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 61 198 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 61 199 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 61 200 TF tf NN work_mairtkvvofcdpp7xx5jeoujq5e 61 201 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 61 202 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 203 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 61 204 16 16 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 205 7222542 7222542 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 206 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 207 / / , work_mairtkvvofcdpp7xx5jeoujq5e 61 208 A a NN work_mairtkvvofcdpp7xx5jeoujq5e 61 209 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 210 rs12935687 rs12935687 . work_mairtkvvofcdpp7xx5jeoujq5e 61 211 RFX5 RFX5 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 212 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 213 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 214 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 215 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 216 DNMT1(UP dnmt1(up NN work_mairtkvvofcdpp7xx5jeoujq5e 61 217 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 218 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 219 CDC27 cdc27 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 220 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 61 221 17 17 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 222 47055097 47055097 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 223 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 224 / / , work_mairtkvvofcdpp7xx5jeoujq5e 61 225 A a NN work_mairtkvvofcdpp7xx5jeoujq5e 61 226 intergenic intergenic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 227 rs11079748 rs11079748 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 228 Nanog Nanog NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 229 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 230 UP UP NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 231 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 232 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 233 TCF12 TCF12 NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 234 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 235 MLLT1 MLLT1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 61 236 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 237 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 238 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 239 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 240 HBS1L hbs1l NN work_mairtkvvofcdpp7xx5jeoujq5e 61 241 UP up NN work_mairtkvvofcdpp7xx5jeoujq5e 61 242 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 243 135048076 135048076 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 244 G g NN work_mairtkvvofcdpp7xx5jeoujq5e 61 245 / / , work_mairtkvvofcdpp7xx5jeoujq5e 61 246 A a DT work_mairtkvvofcdpp7xx5jeoujq5e 61 247 intronic intronic JJ work_mairtkvvofcdpp7xx5jeoujq5e 61 248 rs6915770 rs6915770 NN work_mairtkvvofcdpp7xx5jeoujq5e 61 249 GFI1b GFI1b NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 250 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 251 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 252 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 253 , , , work_mairtkvvofcdpp7xx5jeoujq5e 61 254 HEY1(UP HEY1(UP NNP work_mairtkvvofcdpp7xx5jeoujq5e 61 255 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 61 256 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 61 257 Table table NN work_mairtkvvofcdpp7xx5jeoujq5e 61 258 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 61 259 . . . work_mairtkvvofcdpp7xx5jeoujq5e 62 1 Effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 62 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 62 3 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 62 4 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 62 5 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 62 6 epigenetic epigenetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 62 7 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 62 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 62 9 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 62 10 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 62 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 63 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 63 2 3Scientific 3Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 63 3 RepoRtS reports NN work_mairtkvvofcdpp7xx5jeoujq5e 63 4 | | JJ work_mairtkvvofcdpp7xx5jeoujq5e 63 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 63 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 63 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 63 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 63 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 63 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 63 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ `` work_mairtkvvofcdpp7xx5jeoujq5e 63 12 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 63 13 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 63 14 analyzed analyze VBN work_mairtkvvofcdpp7xx5jeoujq5e 63 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 63 16 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 63 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 63 18 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 63 19 interrupted interrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 63 20 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 63 21 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 63 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 63 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 63 24 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 63 25 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 63 26 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 63 27 influencing influence VBG work_mairtkvvofcdpp7xx5jeoujq5e 63 28 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 63 29 bind- bind- NN work_mairtkvvofcdpp7xx5jeoujq5e 63 30 ing ing NN work_mairtkvvofcdpp7xx5jeoujq5e 63 31 , , , work_mairtkvvofcdpp7xx5jeoujq5e 63 32 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 63 33 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 63 34 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 63 35 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 63 36 presented present VBN work_mairtkvvofcdpp7xx5jeoujq5e 63 37 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 63 38 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 63 39 . . . work_mairtkvvofcdpp7xx5jeoujq5e 64 1 1 1 LS work_mairtkvvofcdpp7xx5jeoujq5e 64 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 65 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 65 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 65 3 1a 1a NN work_mairtkvvofcdpp7xx5jeoujq5e 65 4 shows show VBZ work_mairtkvvofcdpp7xx5jeoujq5e 65 5 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 65 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 65 7 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 65 8 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 65 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 65 10 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 65 11 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 65 12 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 65 13 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 65 14 disrupts disrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 65 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 65 16 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 65 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 65 18 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 65 19 different different JJ work_mairtkvvofcdpp7xx5jeoujq5e 65 20 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 65 21 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 65 22 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 65 23 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 65 24   _SP work_mairtkvvofcdpp7xx5jeoujq5e 65 25 S3 S3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 65 26 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 65 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 66 1 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 66 2 belongs belong VBZ work_mairtkvvofcdpp7xx5jeoujq5e 66 3 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 66 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 66 5 class class NN work_mairtkvvofcdpp7xx5jeoujq5e 66 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 66 7 noncoding noncode VBG work_mairtkvvofcdpp7xx5jeoujq5e 66 8 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 66 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 66 10 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 66 11 controls control VBZ work_mairtkvvofcdpp7xx5jeoujq5e 66 12 DNA dna NN work_mairtkvvofcdpp7xx5jeoujq5e 66 13 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 66 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 66 15 miRNA mirna CD work_mairtkvvofcdpp7xx5jeoujq5e 66 16 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 66 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 67 1 Variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 67 2 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 67 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 67 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 67 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 67 6 impact impact VB work_mairtkvvofcdpp7xx5jeoujq5e 67 7 heterochromatin heterochromatin NNP work_mairtkvvofcdpp7xx5jeoujq5e 67 8 organi- organi- NNP work_mairtkvvofcdpp7xx5jeoujq5e 67 9 zation26 zation26 NNP work_mairtkvvofcdpp7xx5jeoujq5e 67 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 68 1 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 68 2 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 68 3 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 68 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 68 5 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 68 6 disrupt disrupt VBP work_mairtkvvofcdpp7xx5jeoujq5e 68 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 68 8 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 68 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 68 10 13 13 CD work_mairtkvvofcdpp7xx5jeoujq5e 68 11 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 68 12 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 68 13 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 68 14 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 68 15   _SP work_mairtkvvofcdpp7xx5jeoujq5e 68 16 S3 S3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 68 17 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 68 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 68 19 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 68 20 few few JJ work_mairtkvvofcdpp7xx5jeoujq5e 68 21 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 68 22 them -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 68 23 influence influence VBP work_mairtkvvofcdpp7xx5jeoujq5e 68 24 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 68 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 68 26 histone histone NN work_mairtkvvofcdpp7xx5jeoujq5e 68 27 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 68 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 69 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 69 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 69 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 69 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 69 5 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 69 6 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 69 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 69 8 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 69 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 69 10 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 69 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 69 12 synaptic synaptic JJ work_mairtkvvofcdpp7xx5jeoujq5e 69 13 migration migration NN work_mairtkvvofcdpp7xx5jeoujq5e 69 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 70 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 70 2 knockdown knockdown NN work_mairtkvvofcdpp7xx5jeoujq5e 70 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 70 4 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 70 5 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 70 6 resulted result VBD work_mairtkvvofcdpp7xx5jeoujq5e 70 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 70 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 70 9 aberrant aberrant JJ work_mairtkvvofcdpp7xx5jeoujq5e 70 10 structural structural JJ work_mairtkvvofcdpp7xx5jeoujq5e 70 11 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 70 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 70 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 70 14 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 70 15 neuron27,28 neuron27,28 NNP work_mairtkvvofcdpp7xx5jeoujq5e 70 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 71 1 TMEM108 tmem108 NN work_mairtkvvofcdpp7xx5jeoujq5e 71 2 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 71 3 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 71 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 71 5 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 71 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 71 7 ALS ALS NNP work_mairtkvvofcdpp7xx5jeoujq5e 71 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 71 9 AMD AMD NNP work_mairtkvvofcdpp7xx5jeoujq5e 71 10 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 71 11 influence influence VBP work_mairtkvvofcdpp7xx5jeoujq5e 71 12 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 71 13 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 71 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 72 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 72 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 72 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 72 4 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 72 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 72 6 cognitive cognitive JJ work_mairtkvvofcdpp7xx5jeoujq5e 72 7 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 72 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 72 9 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 72 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 72 11 axonal axonal JJ work_mairtkvvofcdpp7xx5jeoujq5e 72 12 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 72 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 73 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 73 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 73 3 1b 1b NN work_mairtkvvofcdpp7xx5jeoujq5e 73 4 represents represent VBZ work_mairtkvvofcdpp7xx5jeoujq5e 73 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 73 6 top top JJ work_mairtkvvofcdpp7xx5jeoujq5e 73 7 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 73 8 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 73 9 disrupted disrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 73 10 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 73 11 large large JJ work_mairtkvvofcdpp7xx5jeoujq5e 73 12 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 73 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 73 14 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 73 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 73 16 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 73 17 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 73 18 NR3C1 NR3C1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 73 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 73 20 REST rest NN work_mairtkvvofcdpp7xx5jeoujq5e 73 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 73 22 DNMT1 dnmt1 NN work_mairtkvvofcdpp7xx5jeoujq5e 73 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 74 1 NR3C1 NR3C1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 74 2 plays play VBZ work_mairtkvvofcdpp7xx5jeoujq5e 74 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 74 4 significant significant JJ work_mairtkvvofcdpp7xx5jeoujq5e 74 5 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 74 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 74 7 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 74 8 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 74 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 74 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 74 11 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 74 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 74 13 AD29 AD29 NNP work_mairtkvvofcdpp7xx5jeoujq5e 74 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 75 1 REST REST NNP work_mairtkvvofcdpp7xx5jeoujq5e 75 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 75 3 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 75 4 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 75 5 neuroprotection neuroprotection NN work_mairtkvvofcdpp7xx5jeoujq5e 75 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 75 7 neurogenesis neurogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 75 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 75 9 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 75 10 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 75 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 75 12 AD30 AD30 NNP work_mairtkvvofcdpp7xx5jeoujq5e 75 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 76 1 DNMT1 DNMT1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 76 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 76 3 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 76 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 76 5 epigenetic epigenetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 76 6 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 76 7 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 76 8 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 76 9 preserve preserve VB work_mairtkvvofcdpp7xx5jeoujq5e 76 10 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 76 11 patterns pattern NNS work_mairtkvvofcdpp7xx5jeoujq5e 76 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 76 13 upregulated upregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 76 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 76 15 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 76 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 77 1 Our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 77 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 77 3 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 77 4 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 77 5 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 77 6 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 77 7 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 77 8 NR3C1 NR3C1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 77 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 77 10 DNMT1 DNMT1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 77 11 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 77 12 3-fold 3-fold CD work_mairtkvvofcdpp7xx5jeoujq5e 77 13 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 77 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 77 15 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 77 16 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 77 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 78 1 S3).The s3).the JJ work_mairtkvvofcdpp7xx5jeoujq5e 78 2 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 78 3 present present JJ work_mairtkvvofcdpp7xx5jeoujq5e 78 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 78 5 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 78 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 78 7 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 78 8 disrupt disrupt VBP work_mairtkvvofcdpp7xx5jeoujq5e 78 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 78 10 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 78 11 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 78 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 78 13 NR3C1 NR3C1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 78 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 78 15 REST rest NN work_mairtkvvofcdpp7xx5jeoujq5e 78 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 78 17 DNMT1 dnmt1 NN work_mairtkvvofcdpp7xx5jeoujq5e 78 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 79 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 79 2 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 79 3 explored explore VBN work_mairtkvvofcdpp7xx5jeoujq5e 79 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 79 5 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 79 6 affecting affect VBG work_mairtkvvofcdpp7xx5jeoujq5e 79 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 79 8 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 79 9 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 79 10 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 79 11 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 79 12 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 79 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 79 14 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 79 15 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 79 16 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 79 17 profile profile NN work_mairtkvvofcdpp7xx5jeoujq5e 79 18 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 79 19 termed term VBN work_mairtkvvofcdpp7xx5jeoujq5e 79 20 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 79 21 “ " `` work_mairtkvvofcdpp7xx5jeoujq5e 79 22 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 79 23 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 79 24 ” " '' work_mairtkvvofcdpp7xx5jeoujq5e 79 25 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 79 26 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 79 27 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 79 28 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 79 29 , , , work_mairtkvvofcdpp7xx5jeoujq5e 79 30 DIDO1 DIDO1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 79 31 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 79 32 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 79 33 , , , work_mairtkvvofcdpp7xx5jeoujq5e 79 34 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 79 35 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 79 36 found find VBN work_mairtkvvofcdpp7xx5jeoujq5e 79 37 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 79 38 be be VB work_mairtkvvofcdpp7xx5jeoujq5e 79 39 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 79 40 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 79 41 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 79 42 our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 79 43 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 79 44 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 79 45 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 79 46 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 79 47 . . . work_mairtkvvofcdpp7xx5jeoujq5e 80 1 S3 S3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 80 2 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 80 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 81 1 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 81 2 acts act NNS work_mairtkvvofcdpp7xx5jeoujq5e 81 3 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 81 4 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 81 5 repressor repressor NN work_mairtkvvofcdpp7xx5jeoujq5e 81 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 81 7 dendrite dendrite JJ work_mairtkvvofcdpp7xx5jeoujq5e 81 8 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 81 9 regulation31 regulation31 NN work_mairtkvvofcdpp7xx5jeoujq5e 81 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 81 11 inhibition inhibition NN work_mairtkvvofcdpp7xx5jeoujq5e 81 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 81 13 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 81 14 promotes promote VBZ work_mairtkvvofcdpp7xx5jeoujq5e 81 15 dendritic dendritic JJ work_mairtkvvofcdpp7xx5jeoujq5e 81 16 arborization arborization NN work_mairtkvvofcdpp7xx5jeoujq5e 81 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 82 1 DIDO1 dido1 JJ work_mairtkvvofcdpp7xx5jeoujq5e 82 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 82 3 participates participate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 82 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 82 5 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 82 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 83 1 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 83 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 83 3 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 83 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 83 5 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 83 6 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 83 7 mor- mor- NNP work_mairtkvvofcdpp7xx5jeoujq5e 83 8 phogenesis phogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 83 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 83 10 glucose glucose VB work_mairtkvvofcdpp7xx5jeoujq5e 83 11 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 83 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 83 13 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 83 14 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 83 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 83 16 glutamate glutamate NN work_mairtkvvofcdpp7xx5jeoujq5e 83 17 signaling signaling NN work_mairtkvvofcdpp7xx5jeoujq5e 83 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 83 19 cholesterol cholesterol NN work_mairtkvvofcdpp7xx5jeoujq5e 83 20 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 83 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 83 22 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 83 23 survival32 survival32 NNP work_mairtkvvofcdpp7xx5jeoujq5e 83 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 84 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 84 2 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 84 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 84 4 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 84 5 observed observe VBD work_mairtkvvofcdpp7xx5jeoujq5e 84 6 6-fold 6-fold CD work_mairtkvvofcdpp7xx5jeoujq5e 84 7 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 84 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 84 9 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 84 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 84 11 DIDO1 DIDO1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 84 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 84 13 3-fold 3-fold CD work_mairtkvvofcdpp7xx5jeoujq5e 84 14 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 84 15 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 84 16 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 84 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 85 1 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 85 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 85 3 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 85 4 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 85 5 expression expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 85 6 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 85 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 85 8 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 85 9 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 85 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 85 11 seq seq NNP work_mairtkvvofcdpp7xx5jeoujq5e 85 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 86 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 86 2 computed compute VBD work_mairtkvvofcdpp7xx5jeoujq5e 86 3 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 86 4 obtained obtain VBD work_mairtkvvofcdpp7xx5jeoujq5e 86 5 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 86 6 transcriptome transcriptome RBS work_mairtkvvofcdpp7xx5jeoujq5e 86 7 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 86 8 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 86 9 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 86 10 Salmon Salmon NNP work_mairtkvvofcdpp7xx5jeoujq5e 86 11 quantification quantification NN work_mairtkvvofcdpp7xx5jeoujq5e 86 12 method method NN work_mairtkvvofcdpp7xx5jeoujq5e 86 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 87 1 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 87 2 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 87 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 88 1 S4 S4 NNP work_mairtkvvofcdpp7xx5jeoujq5e 88 2 represents represent VBZ work_mairtkvvofcdpp7xx5jeoujq5e 88 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 88 4 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 88 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 88 6 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 88 7 implicated implicate VBN work_mairtkvvofcdpp7xx5jeoujq5e 88 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 88 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 88 10 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 88 11 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 88 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 88 13 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 88 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 88 15 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 88 16 usage usage NN work_mairtkvvofcdpp7xx5jeoujq5e 88 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 89 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 89 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 89 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 89 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 89 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 89 6 clas- clas- XX work_mairtkvvofcdpp7xx5jeoujq5e 89 7 sified sifie VBD work_mairtkvvofcdpp7xx5jeoujq5e 89 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 89 9 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 89 10 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 89 11 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 89 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 89 13 three three CD work_mairtkvvofcdpp7xx5jeoujq5e 89 14 categories category NNS work_mairtkvvofcdpp7xx5jeoujq5e 89 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 89 16 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 89 17 include include VBP work_mairtkvvofcdpp7xx5jeoujq5e 89 18 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 19 1 1 LS work_mairtkvvofcdpp7xx5jeoujq5e 89 20 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 21 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 89 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 89 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 89 24 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 89 25 expres- expres- XX work_mairtkvvofcdpp7xx5jeoujq5e 89 26 sion sion NN work_mairtkvvofcdpp7xx5jeoujq5e 89 27 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 28 DTE DTE NNP work_mairtkvvofcdpp7xx5jeoujq5e 89 29 , , , work_mairtkvvofcdpp7xx5jeoujq5e 89 30 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 89 31 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 89 32 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 89 33 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 34 , , , work_mairtkvvofcdpp7xx5jeoujq5e 89 35 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 36 2 2 LS work_mairtkvvofcdpp7xx5jeoujq5e 89 37 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 38 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 89 39 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 89 40 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 89 41 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 89 42 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 89 43 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 44 DEG DEG NNP work_mairtkvvofcdpp7xx5jeoujq5e 89 45 , , , work_mairtkvvofcdpp7xx5jeoujq5e 89 46 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 89 47 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 89 48 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 89 49 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 50 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 89 51 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 52 3 3 LS work_mairtkvvofcdpp7xx5jeoujq5e 89 53 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 89 54 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 89 55 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 89 56 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 89 57 transcript transcript JJ work_mairtkvvofcdpp7xx5jeoujq5e 89 58 proportion proportion NN work_mairtkvvofcdpp7xx5jeoujq5e 89 59 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 89 60 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 89 61 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 89 62 control control NN work_mairtkvvofcdpp7xx5jeoujq5e 89 63 . . . work_mairtkvvofcdpp7xx5jeoujq5e 90 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 90 2 comparison comparison NN work_mairtkvvofcdpp7xx5jeoujq5e 90 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 90 4 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 90 5 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 90 6 existing exist VBG work_mairtkvvofcdpp7xx5jeoujq5e 90 7 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 90 8 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 90 9 profiles profile NNS work_mairtkvvofcdpp7xx5jeoujq5e 90 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 90 11 AD AD NNP work_mairtkvvofcdpp7xx5jeoujq5e 90 12 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 90 13 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 90 14 some some DT work_mairtkvvofcdpp7xx5jeoujq5e 90 15 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 90 16 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 90 17 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 90 18 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 90 19 either either CC work_mairtkvvofcdpp7xx5jeoujq5e 90 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 90 21 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 90 22 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 90 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 90 24 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 90 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 90 26 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 90 27 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 90 28 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 90 29 combination combination NN work_mairtkvvofcdpp7xx5jeoujq5e 90 30 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 90 31 them -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 90 32 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 90 33 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 90 34 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 90 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 91 1 S4 S4 NNP work_mairtkvvofcdpp7xx5jeoujq5e 91 2 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 91 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 92 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 92 2 compared compare VBD work_mairtkvvofcdpp7xx5jeoujq5e 92 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 92 4 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 92 5 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 92 6 various various JJ work_mairtkvvofcdpp7xx5jeoujq5e 92 7 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 92 8 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 92 9 profile profile NN work_mairtkvvofcdpp7xx5jeoujq5e 92 10 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 92 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 92 12 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 92 13 some some DT work_mairtkvvofcdpp7xx5jeoujq5e 92 14 DGs dg NNS work_mairtkvvofcdpp7xx5jeoujq5e 92 15 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 92 16 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 92 17 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 92 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 92 19 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 92 20 profile profile NN work_mairtkvvofcdpp7xx5jeoujq5e 92 21 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 92 22 termed term VBN work_mairtkvvofcdpp7xx5jeoujq5e 92 23 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 92 24 “ " `` work_mairtkvvofcdpp7xx5jeoujq5e 92 25 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 92 26 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 92 27 ” " '' work_mairtkvvofcdpp7xx5jeoujq5e 92 28 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 92 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 93 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 93 2 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 93 3 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 93 4 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 93 5 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 93 6 influence influence VBP work_mairtkvvofcdpp7xx5jeoujq5e 93 7 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 93 8 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 93 9 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 93 10 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 93 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 93 12 its -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 93 13 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 93 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 93 15 presented present VBN work_mairtkvvofcdpp7xx5jeoujq5e 93 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 93 17 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 93 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 94 1 2 2 LS work_mairtkvvofcdpp7xx5jeoujq5e 94 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 95 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 95 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 95 3 2a 2a NN work_mairtkvvofcdpp7xx5jeoujq5e 95 4 illustrates illustrate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 95 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 95 6 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 95 7 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 95 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 95 9 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 95 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 95 11 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 95 12 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 95 13 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 95 14 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 95 15 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 95 16 CMC2 CMC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 95 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 95 18 DVL3 DVL3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 95 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 95 20 DNAJC19 DNAJC19 NNP work_mairtkvvofcdpp7xx5jeoujq5e 95 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 96 1 CMC2 CMC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 96 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 96 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 96 4 widely widely RB work_mairtkvvofcdpp7xx5jeoujq5e 96 5 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 96 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 96 7 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 96 8 tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 96 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 96 10 plays play VBZ work_mairtkvvofcdpp7xx5jeoujq5e 96 11 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 96 12 vital vital JJ work_mairtkvvofcdpp7xx5jeoujq5e 96 13 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 96 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 96 15 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 96 16 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 96 17 import33 import33 NNP work_mairtkvvofcdpp7xx5jeoujq5e 96 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 97 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 97 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 97 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 97 4 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 97 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 97 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 97 7 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 97 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 97 9 cytochrome cytochrome JJ work_mairtkvvofcdpp7xx5jeoujq5e 97 10 c c NN work_mairtkvvofcdpp7xx5jeoujq5e 97 11 oxidation oxidation NN work_mairtkvvofcdpp7xx5jeoujq5e 97 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 97 13 downregulation downregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 97 14 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 97 15 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 97 16 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 97 17 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 97 18 play play VB work_mairtkvvofcdpp7xx5jeoujq5e 97 19 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 97 20 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 97 21 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 97 22 disrupting disrupt VBG work_mairtkvvofcdpp7xx5jeoujq5e 97 23 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 97 24 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 97 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 98 1 DVL3 DVL3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 98 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 98 3 implicated implicate VBN work_mairtkvvofcdpp7xx5jeoujq5e 98 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 98 5 WNT WNT NNP work_mairtkvvofcdpp7xx5jeoujq5e 98 6 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 98 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 98 8 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 98 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 98 10 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 98 11 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 98 12 impacts impact VBZ work_mairtkvvofcdpp7xx5jeoujq5e 98 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 98 14 downstream downstream JJ work_mairtkvvofcdpp7xx5jeoujq5e 98 15 signaling signaling NN work_mairtkvvofcdpp7xx5jeoujq5e 98 16 cascade cascade NN work_mairtkvvofcdpp7xx5jeoujq5e 98 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 99 1 DNAJC19 DNAJC19 NFP work_mairtkvvofcdpp7xx5jeoujq5e 99 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 99 3 participates participate NNS work_mairtkvvofcdpp7xx5jeoujq5e 99 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 99 5 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 99 6 biogenesis biogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 99 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 99 8 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 99 9 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 99 10 inside inside IN work_mairtkvvofcdpp7xx5jeoujq5e 99 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 99 12 outside outside RB work_mairtkvvofcdpp7xx5jeoujq5e 99 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 99 14 mitochondria34 mitochondria34 NNP work_mairtkvvofcdpp7xx5jeoujq5e 99 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 100 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 100 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 100 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 100 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 100 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 100 6 influence influence VB work_mairtkvvofcdpp7xx5jeoujq5e 100 7 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 100 8 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 100 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 101 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 101 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 101 3 2b 2b NN work_mairtkvvofcdpp7xx5jeoujq5e 101 4 represents represent VBZ work_mairtkvvofcdpp7xx5jeoujq5e 101 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 101 6 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 101 7 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 101 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 101 9 their -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 101 10 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 101 11 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 101 12 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 101 13 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 101 14 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 101 15 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 101 16 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 101 17 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 101 18 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 101 19 OPTN OPTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 101 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 101 21 MUM1 MUM1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 101 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 101 23 PPP2R3C. ppp2r3c. CD work_mairtkvvofcdpp7xx5jeoujq5e 102 1 OPTN OPTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 102 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 102 3 participates participate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 102 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 102 5 autophagy autophagy NNP work_mairtkvvofcdpp7xx5jeoujq5e 102 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 102 7 vesicle vesicle NN work_mairtkvvofcdpp7xx5jeoujq5e 102 8 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 102 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 102 10 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 102 11 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 102 12 mitophagy mitophagy NN work_mairtkvvofcdpp7xx5jeoujq5e 102 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 102 14 vasoconstriction vasoconstriction NNP work_mairtkvvofcdpp7xx5jeoujq5e 102 15 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 102 16 constriction constriction NN work_mairtkvvofcdpp7xx5jeoujq5e 102 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 102 18 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 102 19 vessels vessel NNS work_mairtkvvofcdpp7xx5jeoujq5e 102 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 102 21 reducing reduce VBG work_mairtkvvofcdpp7xx5jeoujq5e 102 22 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 102 23 flow)35 flow)35 NNP work_mairtkvvofcdpp7xx5jeoujq5e 102 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 103 1 However however RB work_mairtkvvofcdpp7xx5jeoujq5e 103 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 103 3 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 103 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 103 5 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 103 6 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 103 7 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 103 8 interfere interfere VB work_mairtkvvofcdpp7xx5jeoujq5e 103 9 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 103 10 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 103 11 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 103 12 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 103 13 neuron neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 103 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 104 1 PPP2R3C ppp2r3c JJ work_mairtkvvofcdpp7xx5jeoujq5e 104 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 104 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 104 4 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 104 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 104 6 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 104 7 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 104 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 104 9 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 104 10 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 104 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 104 12 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 104 13 ATP ATP NNP work_mairtkvvofcdpp7xx5jeoujq5e 104 14 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 104 15 transporter transporter NN work_mairtkvvofcdpp7xx5jeoujq5e 104 16 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 104 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 105 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 105 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 105 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 105 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 105 5 resulted result VBD work_mairtkvvofcdpp7xx5jeoujq5e 105 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 105 7 aberrant aberrant JJ work_mairtkvvofcdpp7xx5jeoujq5e 105 8 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 105 9 signaling signaling NN work_mairtkvvofcdpp7xx5jeoujq5e 105 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 105 11 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 105 12 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 105 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 106 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 106 2 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 106 3 illustrates illustrate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 106 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 106 5 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 106 6 responsible responsible JJ work_mairtkvvofcdpp7xx5jeoujq5e 106 7 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 106 8 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 106 9 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 106 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 106 11 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 106 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 106 13 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 106 14 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 106 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 106 16 vasoconstriction vasoconstriction NN work_mairtkvvofcdpp7xx5jeoujq5e 106 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 106 18 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 106 19 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 106 20 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 106 21 impacted impact VBN work_mairtkvvofcdpp7xx5jeoujq5e 106 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 106 23 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 106 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 107 1 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 107 2 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 107 3   _SP work_mairtkvvofcdpp7xx5jeoujq5e 107 4 S5 s5 NN work_mairtkvvofcdpp7xx5jeoujq5e 107 5 con- con- NN work_mairtkvvofcdpp7xx5jeoujq5e 107 6 tains tain VBZ work_mairtkvvofcdpp7xx5jeoujq5e 107 7 detailed detail VBD work_mairtkvvofcdpp7xx5jeoujq5e 107 8 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 107 9 about about IN work_mairtkvvofcdpp7xx5jeoujq5e 107 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 107 11 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 107 12 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 107 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 108 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 108 2 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 108 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 109 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 109 2 a a LS work_mairtkvvofcdpp7xx5jeoujq5e 109 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 109 4 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 109 5 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 109 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 109 7 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 109 8 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 109 9 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 109 10 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 109 11 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 109 12 b b NNP work_mairtkvvofcdpp7xx5jeoujq5e 109 13 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 109 14 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 109 15 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 109 16 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 109 17 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 109 18 disrupting disrupt VBG work_mairtkvvofcdpp7xx5jeoujq5e 109 19 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 109 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 110 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 2 4Scientific 4Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 3 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 110 4 | | JJ work_mairtkvvofcdpp7xx5jeoujq5e 110 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 110 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 110 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 110 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ . work_mairtkvvofcdpp7xx5jeoujq5e 110 12 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 110 13 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 110 14 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 110 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 110 16 transcript transcript JJ work_mairtkvvofcdpp7xx5jeoujq5e 110 17 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 110 18 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 110 19 few few JJ work_mairtkvvofcdpp7xx5jeoujq5e 110 20 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 110 21 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 110 22 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 23 FLOT1 flot1 NN work_mairtkvvofcdpp7xx5jeoujq5e 110 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 25 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 27 DAB2IP dab2ip NN work_mairtkvvofcdpp7xx5jeoujq5e 110 28 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 29 CCAR2 CCAR2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 30 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 31 HLA HLA NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 32 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 110 33 DQA1 DQA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 34 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 110 35 HNRNPL HNRNPL NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 36 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 37 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 110 38 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 110 39 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 110 40 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 110 41 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 110 42 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 110 43 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 44 MDM2 MDM2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 45 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 46 VPS41 VPS41 NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 47 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 48 TAC1 TAC1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 49 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 50 HDLBP HDLBP NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 51 , , , work_mairtkvvofcdpp7xx5jeoujq5e 110 52 CCT8 CCT8 NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 53 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 110 54 CAMKK2 CAMKK2 -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 55 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 110 56 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 110 57 shown show VBN work_mairtkvvofcdpp7xx5jeoujq5e 110 58 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 110 59 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 110 60 . . . work_mairtkvvofcdpp7xx5jeoujq5e 111 1 3 3 LS work_mairtkvvofcdpp7xx5jeoujq5e 111 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 112 1 Novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 112 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 112 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 113 1 FLOT1 FLOT1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 113 2 participates participate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 113 3 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 113 4 vesicle vesicle NN work_mairtkvvofcdpp7xx5jeoujq5e 113 5 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 113 6 mediated mediate VBN work_mairtkvvofcdpp7xx5jeoujq5e 113 7 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 113 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 113 9 cholesterol cholesterol NN work_mairtkvvofcdpp7xx5jeoujq5e 113 10 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 113 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 113 12 insulin insulin NN work_mairtkvvofcdpp7xx5jeoujq5e 113 13 signaling36 signaling36 NNP work_mairtkvvofcdpp7xx5jeoujq5e 113 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 114 1 Downregulation downregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 114 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 114 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 114 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 114 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 114 6 influence influence VB work_mairtkvvofcdpp7xx5jeoujq5e 114 7 neurotransmitter neurotransmitter NN work_mairtkvvofcdpp7xx5jeoujq5e 114 8 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 114 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 114 10 potassium potassium NN work_mairtkvvofcdpp7xx5jeoujq5e 114 11 channel channel NN work_mairtkvvofcdpp7xx5jeoujq5e 114 12 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 114 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 115 1 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 115 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 115 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 115 4 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 115 5 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 115 6 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 115 7 adhesion adhesion NN work_mairtkvvofcdpp7xx5jeoujq5e 115 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 115 9 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 115 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 115 11 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 115 12 circulation circulation NN work_mairtkvvofcdpp7xx5jeoujq5e 115 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 115 14 axonogenesis axonogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 115 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 115 16 enhances enhance VBZ work_mairtkvvofcdpp7xx5jeoujq5e 115 17 neuroprotection37 neuroprotection37 NNP work_mairtkvvofcdpp7xx5jeoujq5e 115 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 116 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 116 2 downregulation downregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 116 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 116 4 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 116 5 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 116 6 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 116 7 inhibit inhibit VB work_mairtkvvofcdpp7xx5jeoujq5e 116 8 its -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 116 9 neuroprotective neuroprotective JJ work_mairtkvvofcdpp7xx5jeoujq5e 116 10 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 116 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 117 1 DAB2IP DAB2IP NNP work_mairtkvvofcdpp7xx5jeoujq5e 117 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 117 3 acts act VBZ work_mairtkvvofcdpp7xx5jeoujq5e 117 4 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 117 5 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 117 6 negative negative JJ work_mairtkvvofcdpp7xx5jeoujq5e 117 7 regulator regulator NN work_mairtkvvofcdpp7xx5jeoujq5e 117 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 117 9 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 117 10 Figure Figure NNP work_mairtkvvofcdpp7xx5jeoujq5e 117 11 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 117 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 118 1 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 118 2 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 118 3 proportion proportion NN work_mairtkvvofcdpp7xx5jeoujq5e 118 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 118 5 transcript transcript JJ work_mairtkvvofcdpp7xx5jeoujq5e 118 6 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 118 7 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 118 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 9 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 118 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 11 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 118 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 118 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 14 b b NN work_mairtkvvofcdpp7xx5jeoujq5e 118 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 16 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 118 17 AD- AD- HYPH work_mairtkvvofcdpp7xx5jeoujq5e 118 18 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 118 19 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 118 20 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 21 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 118 22 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 118 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 118 24 −downregulation −downregulation NNP work_mairtkvvofcdpp7xx5jeoujq5e 118 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 118 26 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 27 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 118 28 /− /− NN work_mairtkvvofcdpp7xx5jeoujq5e 118 29 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 118 30 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 118 31 brackets bracket NNS work_mairtkvvofcdpp7xx5jeoujq5e 118 32 refer refer VBP work_mairtkvvofcdpp7xx5jeoujq5e 118 33 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 118 34 fold fold VB work_mairtkvvofcdpp7xx5jeoujq5e 118 35 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 118 36 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 37 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 118 38 . . . work_mairtkvvofcdpp7xx5jeoujq5e 119 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 119 2 5Scientific 5scientific CD work_mairtkvvofcdpp7xx5jeoujq5e 119 3 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 119 4 | | JJ work_mairtkvvofcdpp7xx5jeoujq5e 119 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 119 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 119 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 119 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 119 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 119 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 119 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NN work_mairtkvvofcdpp7xx5jeoujq5e 119 12 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 119 13 growth growth NN work_mairtkvvofcdpp7xx5jeoujq5e 119 14 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 119 15 signaling signaling NN work_mairtkvvofcdpp7xx5jeoujq5e 119 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 119 17 angiogenesis38 angiogenesis38 ADD work_mairtkvvofcdpp7xx5jeoujq5e 119 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 120 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 120 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 120 3 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 120 4 inhibits inhibit VBZ work_mairtkvvofcdpp7xx5jeoujq5e 120 5 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 120 6 migration migration NN work_mairtkvvofcdpp7xx5jeoujq5e 120 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 121 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 121 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 121 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 121 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 121 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 121 6 negatively negatively RB work_mairtkvvofcdpp7xx5jeoujq5e 121 7 regulate regulate VB work_mairtkvvofcdpp7xx5jeoujq5e 121 8 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 121 9 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 121 10 migration migration NN work_mairtkvvofcdpp7xx5jeoujq5e 121 11 during during IN work_mairtkvvofcdpp7xx5jeoujq5e 121 12 tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 121 13 injury injury NN work_mairtkvvofcdpp7xx5jeoujq5e 121 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 122 1 CCAR2 CCAR2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 122 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 122 3 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 122 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 122 5 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 122 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 122 7 auto- auto- NNP work_mairtkvvofcdpp7xx5jeoujq5e 122 8 phagy phagy NNP work_mairtkvvofcdpp7xx5jeoujq5e 122 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 122 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 122 11 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 122 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 122 13 mitochondria mitochondria NNP work_mairtkvvofcdpp7xx5jeoujq5e 122 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 123 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 123 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 123 3 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 123 4 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 123 5 condition condition NN work_mairtkvvofcdpp7xx5jeoujq5e 123 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 123 7 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 123 8 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 123 9 maintains maintain VBZ work_mairtkvvofcdpp7xx5jeoujq5e 123 10 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 123 11 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 123 12 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 123 13 inducing induce VBG work_mairtkvvofcdpp7xx5jeoujq5e 123 14 apoptosis39 apoptosis39 NNPS work_mairtkvvofcdpp7xx5jeoujq5e 123 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 124 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 124 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 124 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 124 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 124 5 illustrates illustrate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 124 6 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 124 7 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 124 8 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 124 9 populationare populationare NN work_mairtkvvofcdpp7xx5jeoujq5e 124 10 subjected subject VBN work_mairtkvvofcdpp7xx5jeoujq5e 124 11 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 124 12 tremendous tremendous JJ work_mairtkvvofcdpp7xx5jeoujq5e 124 13 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 124 14 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 124 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 124 16 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 124 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 124 18 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 124 19 induces induce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 124 20 apoptotic apoptotic JJ work_mairtkvvofcdpp7xx5jeoujq5e 124 21 signals signal NNS work_mairtkvvofcdpp7xx5jeoujq5e 124 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 125 1 HLA HLA NNP work_mairtkvvofcdpp7xx5jeoujq5e 125 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 125 3 DQA1 DQA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 125 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 125 5 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 125 6 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 125 7 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 125 8 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 125 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 125 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 125 11 abun- abun- JJ work_mairtkvvofcdpp7xx5jeoujq5e 125 12 dantly dantly RB work_mairtkvvofcdpp7xx5jeoujq5e 125 13 present present JJ work_mairtkvvofcdpp7xx5jeoujq5e 125 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 125 15 microglia40 microglia40 NNP work_mairtkvvofcdpp7xx5jeoujq5e 125 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 126 1 Overexpression overexpression NN work_mairtkvvofcdpp7xx5jeoujq5e 126 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 126 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 126 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 126 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 126 6 result result VB work_mairtkvvofcdpp7xx5jeoujq5e 126 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 126 8 reactive reactive JJ work_mairtkvvofcdpp7xx5jeoujq5e 126 9 microglia microglia NNP work_mairtkvvofcdpp7xx5jeoujq5e 126 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 126 11 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 126 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 126 13 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 126 14 produces produce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 126 15 neurotoxic neurotoxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 126 16 cytokines cytokine NNS work_mairtkvvofcdpp7xx5jeoujq5e 126 17 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 126 18 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 126 19 cause cause VB work_mairtkvvofcdpp7xx5jeoujq5e 126 20 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 126 21 death death NN work_mairtkvvofcdpp7xx5jeoujq5e 126 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 127 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 127 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 127 3 depicts depict VBZ work_mairtkvvofcdpp7xx5jeoujq5e 127 4 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 127 5 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 127 6 DGs dg NNS work_mairtkvvofcdpp7xx5jeoujq5e 127 7 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 127 8 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 127 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 127 10 microglial microglial JJ work_mairtkvvofcdpp7xx5jeoujq5e 127 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 127 12 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 127 13 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 127 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 127 15 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 127 16 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 127 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 127 18 ion ion NN work_mairtkvvofcdpp7xx5jeoujq5e 127 19 channel channel NN work_mairtkvvofcdpp7xx5jeoujq5e 127 20 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 127 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 127 22 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 127 23 functionality functionality NN work_mairtkvvofcdpp7xx5jeoujq5e 127 24 dysfunction dysfunction NN work_mairtkvvofcdpp7xx5jeoujq5e 127 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 128 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 128 2 3 3 CD work_mairtkvvofcdpp7xx5jeoujq5e 128 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 129 1 Differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 129 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 129 3 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 129 4 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 129 5 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 129 6 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 129 7 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 8 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 129 9 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 10 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 129 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 129 12 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 13 b b NN work_mairtkvvofcdpp7xx5jeoujq5e 129 14 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 15 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 129 16 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 129 17 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 129 18 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 129 19 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 129 20 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 21 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 129 22 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 129 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 129 24 −downregulation −downregulation NNP work_mairtkvvofcdpp7xx5jeoujq5e 129 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 129 26 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 27 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 129 28 /− /− NN work_mairtkvvofcdpp7xx5jeoujq5e 129 29 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 129 30 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 129 31 brackets bracket NNS work_mairtkvvofcdpp7xx5jeoujq5e 129 32 refer refer VBP work_mairtkvvofcdpp7xx5jeoujq5e 129 33 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 129 34 fold fold VB work_mairtkvvofcdpp7xx5jeoujq5e 129 35 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 129 36 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 37 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 129 38 . . . work_mairtkvvofcdpp7xx5jeoujq5e 130 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 130 2 6Scientific 6Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 130 3 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 130 4 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 130 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 130 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 130 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 130 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 130 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 130 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 130 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 130 12 Known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 130 13 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 130 14 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 130 15 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 130 16 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 130 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 131 1 MDM2 MDM2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 131 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 131 3 codes code NNS work_mairtkvvofcdpp7xx5jeoujq5e 131 4 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 131 5 ubiquitin ubiquitin JJ work_mairtkvvofcdpp7xx5jeoujq5e 131 6 ligase ligase NN work_mairtkvvofcdpp7xx5jeoujq5e 131 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 131 8 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 131 9 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 131 10 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 131 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 131 12 ubiquitin ubiquitin NN work_mairtkvvofcdpp7xx5jeoujq5e 131 13 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 131 14 mediated mediate VBN work_mairtkvvofcdpp7xx5jeoujq5e 131 15 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 131 16 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 131 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 131 18 angiogenesis angiogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 131 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 131 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 131 21 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 131 22 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 131 23 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 131 24 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 131 25 growth growth NN work_mairtkvvofcdpp7xx5jeoujq5e 131 26 factor41 factor41 NNS work_mairtkvvofcdpp7xx5jeoujq5e 131 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 132 1 Therefore therefore RB work_mairtkvvofcdpp7xx5jeoujq5e 132 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 132 3 down- down- JJ work_mairtkvvofcdpp7xx5jeoujq5e 132 4 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 132 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 132 6 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 132 7 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 132 8 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 132 9 interrupt interrupt VB work_mairtkvvofcdpp7xx5jeoujq5e 132 10 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 132 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 132 12 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 132 13 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 132 14 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 132 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 133 1 VPS41 VPS41 NNP work_mairtkvvofcdpp7xx5jeoujq5e 133 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 133 3 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 133 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 133 5 trafficking traffic VBG work_mairtkvvofcdpp7xx5jeoujq5e 133 6 misfolded misfolde VBN work_mairtkvvofcdpp7xx5jeoujq5e 133 7 proteins protein NNS work_mairtkvvofcdpp7xx5jeoujq5e 133 8 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 133 9 lysosomal lysosomal JJ work_mairtkvvofcdpp7xx5jeoujq5e 133 10 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 133 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 134 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 134 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 134 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 134 4 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 134 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 134 6 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 134 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 134 8 shows show VBZ work_mairtkvvofcdpp7xx5jeoujq5e 134 9 impairment impairment NN work_mairtkvvofcdpp7xx5jeoujq5e 134 10 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 134 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 134 12 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 134 13 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 134 14 process process NN work_mairtkvvofcdpp7xx5jeoujq5e 134 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 135 1 TAC1 TAC1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 135 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 135 3 acts act NNS work_mairtkvvofcdpp7xx5jeoujq5e 135 4 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 135 5 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 135 6 potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 135 7 vasodilator vasodilator NN work_mairtkvvofcdpp7xx5jeoujq5e 135 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 135 9 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 135 10 dilate dilate VB work_mairtkvvofcdpp7xx5jeoujq5e 135 11 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 135 12 vessels vessel NNS work_mairtkvvofcdpp7xx5jeoujq5e 135 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 135 14 increase increase VB work_mairtkvvofcdpp7xx5jeoujq5e 135 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 135 16 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 135 17 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 135 18 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 135 19 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 135 20 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 135 21 signals signal NNS work_mairtkvvofcdpp7xx5jeoujq5e 135 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 136 1 Downregulation downregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 136 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 136 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 136 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 136 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 136 6 result result VB work_mairtkvvofcdpp7xx5jeoujq5e 136 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 136 8 reduced reduced JJ work_mairtkvvofcdpp7xx5jeoujq5e 136 9 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 136 10 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 136 11 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 136 12 neuron neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 136 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 136 14 CAMKK2 CAMKK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 136 15 participates participate NNS work_mairtkvvofcdpp7xx5jeoujq5e 136 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 136 17 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 136 18 biogenesis biogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 136 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 136 20 metabolic metabolic JJ work_mairtkvvofcdpp7xx5jeoujq5e 136 21 homeostasis homeostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 136 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 137 1 CAMKK2 CAMKK2 JJR work_mairtkvvofcdpp7xx5jeoujq5e 137 2 excites excite VBZ work_mairtkvvofcdpp7xx5jeoujq5e 137 3 AMPA AMPA NNP work_mairtkvvofcdpp7xx5jeoujq5e 137 4 receptors receptor NNS work_mairtkvvofcdpp7xx5jeoujq5e 137 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 137 6 induces induce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 137 7 excitotoxicity excitotoxicity NN work_mairtkvvofcdpp7xx5jeoujq5e 137 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 138 1 Studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 138 2 show show VBP work_mairtkvvofcdpp7xx5jeoujq5e 138 3 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 138 4 inhibiting inhibit VBG work_mairtkvvofcdpp7xx5jeoujq5e 138 5 CAMKK2 CAMKK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 138 6 protects protect VBZ work_mairtkvvofcdpp7xx5jeoujq5e 138 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 138 8 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 138 9 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 138 10 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 138 11 toxicity42 toxicity42 CD work_mairtkvvofcdpp7xx5jeoujq5e 138 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 139 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 139 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 139 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 139 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 139 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 139 6 induce induce VB work_mairtkvvofcdpp7xx5jeoujq5e 139 7 excitotoxicity excitotoxicity NN work_mairtkvvofcdpp7xx5jeoujq5e 139 8 through through IN work_mairtkvvofcdpp7xx5jeoujq5e 139 9 NMDA NMDA NNP work_mairtkvvofcdpp7xx5jeoujq5e 139 10 receptor receptor NN work_mairtkvvofcdpp7xx5jeoujq5e 139 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 140 1 Functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 140 2 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 140 3 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 140 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 140 5 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 140 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 140 7 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 140 8 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 140 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 140 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 141 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 141 2 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 141 3 enrich- enrich- JJ work_mairtkvvofcdpp7xx5jeoujq5e 141 4 ment ment JJ work_mairtkvvofcdpp7xx5jeoujq5e 141 5 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 141 6 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 141 7 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 141 8 identify identify VB work_mairtkvvofcdpp7xx5jeoujq5e 141 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 141 10 important important JJ work_mairtkvvofcdpp7xx5jeoujq5e 141 11 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 141 12 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 141 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 141 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 141 15 specified specify VBN work_mairtkvvofcdpp7xx5jeoujq5e 141 16 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 141 17 set set NN work_mairtkvvofcdpp7xx5jeoujq5e 141 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 142 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 142 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 142 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 142 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 142 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 142 6 per- per- RB work_mairtkvvofcdpp7xx5jeoujq5e 142 7 formed form VBD work_mairtkvvofcdpp7xx5jeoujq5e 142 8 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 142 9 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 142 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 142 11 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 142 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 142 13 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 142 14 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 142 15 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 142 16 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 142 17 depicted depict VBN work_mairtkvvofcdpp7xx5jeoujq5e 142 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 142 19 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 142 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 143 1 4 4 LS work_mairtkvvofcdpp7xx5jeoujq5e 143 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 144 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 144 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 144 3 4a 4a CD work_mairtkvvofcdpp7xx5jeoujq5e 144 4 represents represent VBZ work_mairtkvvofcdpp7xx5jeoujq5e 144 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 144 6 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 144 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 144 8 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 144 9 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 144 10 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 144 11 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 144 12 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 144 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 144 14 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 144 15 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 144 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 145 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 145 2 observed observe VBD work_mairtkvvofcdpp7xx5jeoujq5e 145 3 that that DT work_mairtkvvofcdpp7xx5jeoujq5e 145 4 dysregulation dysregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 145 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 145 6 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 145 7 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 145 8 asso- asso- RB work_mairtkvvofcdpp7xx5jeoujq5e 145 9 ciated ciate VBN work_mairtkvvofcdpp7xx5jeoujq5e 145 10 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 145 11 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 12 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 145 13 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 14 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 145 15 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 145 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 17 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 145 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 19 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 20 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 145 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 22 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 145 23 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 145 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 25 ROS ros NN work_mairtkvvofcdpp7xx5jeoujq5e 145 26 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 145 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 28 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 145 29 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 145 30 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 31 gliogenesis gliogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 145 32 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 33 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 34 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 35 pathways pathway NNS work_mairtkvvofcdpp7xx5jeoujq5e 145 36 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 37 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 38 muscle muscle NN work_mairtkvvofcdpp7xx5jeoujq5e 145 39 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 145 40 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 145 41 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 42 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 145 43 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 145 44 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 145 45 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 46 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 145 47 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 145 48 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 49 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 145 50 , , , work_mairtkvvofcdpp7xx5jeoujq5e 145 51 autophagy autophagy NN work_mairtkvvofcdpp7xx5jeoujq5e 145 52 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 145 53 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 145 54 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 145 55 . . . work_mairtkvvofcdpp7xx5jeoujq5e 146 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 146 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 146 3 Hippocampus Hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 146 4 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 146 5 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 146 6 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 146 7 module module NN work_mairtkvvofcdpp7xx5jeoujq5e 146 8 analyses analysis NNS work_mairtkvvofcdpp7xx5jeoujq5e 146 9 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 146 10 HumanBase HumanBase NNP work_mairtkvvofcdpp7xx5jeoujq5e 146 11 revealed reveal VBD work_mairtkvvofcdpp7xx5jeoujq5e 146 12 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 146 13 dysregulation dysregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 146 14 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 146 15 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 146 16 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 146 17 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 146 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 146 19 angiogenesis angiogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 146 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 146 21 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 146 22 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 146 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 146 24 glucose glucose NNP work_mairtkvvofcdpp7xx5jeoujq5e 146 25 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 146 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 146 27 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 146 28 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 146 29 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 146 30 proteolysis proteolysis NN work_mairtkvvofcdpp7xx5jeoujq5e 146 31 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 146 32 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 146 33 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 146 34   _SP work_mairtkvvofcdpp7xx5jeoujq5e 146 35 S6 s6 NN work_mairtkvvofcdpp7xx5jeoujq5e 146 36 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 146 37 . . . work_mairtkvvofcdpp7xx5jeoujq5e 147 1 On on IN work_mairtkvvofcdpp7xx5jeoujq5e 147 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 147 3 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 147 4 hand hand NN work_mairtkvvofcdpp7xx5jeoujq5e 147 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 147 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 147 7 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 147 8 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 147 9 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 147 10 DGs dg NNS work_mairtkvvofcdpp7xx5jeoujq5e 147 11 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 147 12 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 147 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 147 14 multiple multiple JJ work_mairtkvvofcdpp7xx5jeoujq5e 147 15 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 147 16 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 147 17 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 147 18 Fig fig NN work_mairtkvvofcdpp7xx5jeoujq5e 147 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 148 1 4b 4b LS work_mairtkvvofcdpp7xx5jeoujq5e 148 2 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 148 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 149 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 149 2 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 149 3 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 149 4 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 149 5 STAT3 stat3 JJ work_mairtkvvofcdpp7xx5jeoujq5e 149 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 149 7 BCL2 BCL2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 149 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 149 9 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 149 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 149 11 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 149 12 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 149 13 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 149 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 149 15 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 149 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 149 17 MYC MYC NNP work_mairtkvvofcdpp7xx5jeoujq5e 149 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 149 19 SRF SRF NNP work_mairtkvvofcdpp7xx5jeoujq5e 149 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 149 21 GATA2 GATA2 NNPS work_mairtkvvofcdpp7xx5jeoujq5e 149 22 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 149 23 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 149 24 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 149 25 many many JJ work_mairtkvvofcdpp7xx5jeoujq5e 149 26 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 149 27 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 149 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 150 1 However however RB work_mairtkvvofcdpp7xx5jeoujq5e 150 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 150 3 most most JJS work_mairtkvvofcdpp7xx5jeoujq5e 150 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 150 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 150 6 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 150 7 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 150 8 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 150 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 150 10 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 150 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 150 12 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 150 13 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 150 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 150 15 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 150 16 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 150 17 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 150 18 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 150 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 150 20 home- home- NNP work_mairtkvvofcdpp7xx5jeoujq5e 150 21 ostasis ostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 150 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 150 23 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 150 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 150 25 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 150 26 vessel vessel NNP work_mairtkvvofcdpp7xx5jeoujq5e 150 27 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 150 28 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 150 29 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 150 30 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 150 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 151 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 151 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 151 3 4c 4c NN work_mairtkvvofcdpp7xx5jeoujq5e 151 4 illustrates illustrate NNS work_mairtkvvofcdpp7xx5jeoujq5e 151 5 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 151 6 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 151 7 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 151 8 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 151 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 151 10 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 151 11 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 151 12 PSEN1 psen1 CD work_mairtkvvofcdpp7xx5jeoujq5e 151 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 14 PDCD6IP PDCD6IP NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 16 PRKACA PRKACA NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 18 SIRT1 SIRT1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 151 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 20 APEX APEX NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 22 ATF2 ATF2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 24 OPTN OPTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 26 CD46 CD46 NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 28 FGF13 FGF13 NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 29 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 151 30 MDM2 MDM2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 151 31 , , , work_mairtkvvofcdpp7xx5jeoujq5e 151 32 linked link VBN work_mairtkvvofcdpp7xx5jeoujq5e 151 33 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 151 34 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 151 35 different different JJ work_mairtkvvofcdpp7xx5jeoujq5e 151 36 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 151 37 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 151 38 . . . work_mairtkvvofcdpp7xx5jeoujq5e 152 1 Most Most JJS work_mairtkvvofcdpp7xx5jeoujq5e 152 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 152 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 152 4 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 152 5 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 152 6 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 152 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 152 8 Figure Figure NNP work_mairtkvvofcdpp7xx5jeoujq5e 152 9 4 4 CD work_mairtkvvofcdpp7xx5jeoujq5e 152 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 153 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 153 2 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 153 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 153 4 Functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 153 5 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 153 6 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 153 7 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 153 8 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 153 9 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 153 10 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 153 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 154 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 154 2 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 154 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 154 4 enriched enriched JJ work_mairtkvvofcdpp7xx5jeoujq5e 154 5 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 154 6 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 154 7 corresponds correspond VBZ work_mairtkvvofcdpp7xx5jeoujq5e 154 8 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 154 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 10 b b NN work_mairtkvvofcdpp7xx5jeoujq5e 154 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 12 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 154 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 154 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 15 c c NN work_mairtkvvofcdpp7xx5jeoujq5e 154 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 17 Known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 154 18 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 154 19 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 154 20 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 154 21 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 154 22 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 154 23 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 154 24 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 25 d d NN work_mairtkvvofcdpp7xx5jeoujq5e 154 26 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 27 Novel Novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 154 28 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 154 29 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 30 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 154 31 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 154 32 Transcription Transcription NNP work_mairtkvvofcdpp7xx5jeoujq5e 154 33 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 154 34 , , , work_mairtkvvofcdpp7xx5jeoujq5e 154 35 DG- DG- NFP work_mairtkvvofcdpp7xx5jeoujq5e 154 36 Differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 154 37 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 154 38 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 154 39 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 154 40 . . . work_mairtkvvofcdpp7xx5jeoujq5e 155 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 155 2 7Scientific 7Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 155 3 RepoRtS report VBZ work_mairtkvvofcdpp7xx5jeoujq5e 155 4 | | JJ work_mairtkvvofcdpp7xx5jeoujq5e 155 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 155 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 155 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 155 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 155 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 155 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 155 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NN work_mairtkvvofcdpp7xx5jeoujq5e 155 12 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 155 13 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 155 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 155 15 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 155 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 155 17 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 155 18 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 155 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 155 20 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 155 21 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 155 22 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 155 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 156 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 156 2   _SP work_mairtkvvofcdpp7xx5jeoujq5e 156 3 4d 4d CD work_mairtkvvofcdpp7xx5jeoujq5e 156 4 depicts depict VBZ work_mairtkvvofcdpp7xx5jeoujq5e 156 5 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 156 6 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 156 7 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 156 8 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 156 9 DAB2IP dab2ip NN work_mairtkvvofcdpp7xx5jeoujq5e 156 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 156 11 ZBTB7C ZBTB7C NNP work_mairtkvvofcdpp7xx5jeoujq5e 156 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 156 13 SFTAP1 sftap1 NN work_mairtkvvofcdpp7xx5jeoujq5e 156 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 156 15 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 156 16 participate participate VBP work_mairtkvvofcdpp7xx5jeoujq5e 156 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 156 18 multiple multiple JJ work_mairtkvvofcdpp7xx5jeoujq5e 156 19 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 156 20 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 156 21 including include VBG work_mairtkvvofcdpp7xx5jeoujq5e 156 22 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 156 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 156 24 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 156 25 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 156 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 156 27 defense defense NN work_mairtkvvofcdpp7xx5jeoujq5e 156 28 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 156 29 , , , work_mairtkvvofcdpp7xx5jeoujq5e 156 30 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 156 31 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 156 32 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 156 33 vesicle vesicle NN work_mairtkvvofcdpp7xx5jeoujq5e 156 34 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 156 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 157 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 157 2 summary summary NN work_mairtkvvofcdpp7xx5jeoujq5e 157 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 157 4 most most JJS work_mairtkvvofcdpp7xx5jeoujq5e 157 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 157 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 157 7 dysreg- dysreg- JJ work_mairtkvvofcdpp7xx5jeoujq5e 157 8 ulated ulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 157 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 157 10 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 157 11 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 157 12 manipulates manipulate NNS work_mairtkvvofcdpp7xx5jeoujq5e 157 13 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 157 14 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 157 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 157 16 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 157 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 157 18 defense defense NN work_mairtkvvofcdpp7xx5jeoujq5e 157 19 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 157 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 157 21 homeostasis homeostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 157 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 157 23 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 157 24 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 157 25 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 157 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 158 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 158 2 detailed detailed JJ work_mairtkvvofcdpp7xx5jeoujq5e 158 3 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 158 4 about about IN work_mairtkvvofcdpp7xx5jeoujq5e 158 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 158 6 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 158 7 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 158 8 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 158 9 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 158 10 depicted depict VBN work_mairtkvvofcdpp7xx5jeoujq5e 158 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 158 12 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 158 13 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 158 14   _SP work_mairtkvvofcdpp7xx5jeoujq5e 158 15 S7 S7 NNP work_mairtkvvofcdpp7xx5jeoujq5e 158 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 159 1 Tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 159 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 159 3 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 159 4 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 159 5 - - NN work_mairtkvvofcdpp7xx5jeoujq5e 159 6 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 159 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 159 8 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 159 9 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 159 10 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 159 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 160 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 160 2 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 160 3 built build VBN work_mairtkvvofcdpp7xx5jeoujq5e 160 4 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 160 5 hippocampus- hippocampus- NN work_mairtkvvofcdpp7xx5jeoujq5e 160 6 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 160 7 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 160 8 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 160 9 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 160 10 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 160 11 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 160 12 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 160 13 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 160 14 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 160 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 160 16 VGs vg NNS work_mairtkvvofcdpp7xx5jeoujq5e 160 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 160 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 160 19 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 160 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 161 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 161 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 161 3 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 161 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 161 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 161 6 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 161 7 hub hub NN work_mairtkvvofcdpp7xx5jeoujq5e 161 8 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 161 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 161 10 degree degree NN work_mairtkvvofcdpp7xx5jeoujq5e 161 11 > > NNP work_mairtkvvofcdpp7xx5jeoujq5e 161 12 100 100 CD work_mairtkvvofcdpp7xx5jeoujq5e 161 13 nodes node NNS work_mairtkvvofcdpp7xx5jeoujq5e 161 14 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 161 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 161 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 161 17 results result NNS work_mairtkvvofcdpp7xx5jeoujq5e 161 18 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 161 19 summarized summarize VBN work_mairtkvvofcdpp7xx5jeoujq5e 161 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 161 21 Table table NN work_mairtkvvofcdpp7xx5jeoujq5e 161 22   _SP work_mairtkvvofcdpp7xx5jeoujq5e 161 23 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 161 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 162 1 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 162 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 162 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 162 4 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 162 5 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 162 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 162 7 various various JJ work_mairtkvvofcdpp7xx5jeoujq5e 162 8 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 162 9 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 162 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 162 11 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 162 12 abundantly abundantly RB work_mairtkvvofcdpp7xx5jeoujq5e 162 13 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 162 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 162 15 oligodendrocytes oligodendrocyte NNS work_mairtkvvofcdpp7xx5jeoujq5e 162 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 162 17 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 162 18 insulate insulate VBP work_mairtkvvofcdpp7xx5jeoujq5e 162 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 162 20 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 162 21 via via IN work_mairtkvvofcdpp7xx5jeoujq5e 162 22 myelin myelin NNP work_mairtkvvofcdpp7xx5jeoujq5e 162 23 sheath sheath NNP work_mairtkvvofcdpp7xx5jeoujq5e 162 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 163 1 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 163 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 163 3 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 163 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 163 5 RAS RAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 163 6 signaling signaling NN work_mairtkvvofcdpp7xx5jeoujq5e 163 7 pathway pathway NN work_mairtkvvofcdpp7xx5jeoujq5e 163 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 163 9 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 163 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 163 11 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 163 12 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 163 13 cellular cellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 163 14 growth growth NN work_mairtkvvofcdpp7xx5jeoujq5e 163 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 163 16 survival survival NN work_mairtkvvofcdpp7xx5jeoujq5e 163 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 164 1 Downregulating downregulate VBG work_mairtkvvofcdpp7xx5jeoujq5e 164 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 164 3 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 164 4 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 164 5 disrupt disrupt VB work_mairtkvvofcdpp7xx5jeoujq5e 164 6 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 164 7 survival survival NN work_mairtkvvofcdpp7xx5jeoujq5e 164 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 165 1 TSC2 TSC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 165 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 165 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 165 4 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 165 5 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 165 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 165 7 negatively negatively RB work_mairtkvvofcdpp7xx5jeoujq5e 165 8 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 165 9 mTORC1 mtorc1 NN work_mairtkvvofcdpp7xx5jeoujq5e 165 10 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 165 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 165 12 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 165 13 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 165 14 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 165 15 synthesis synthesis NN work_mairtkvvofcdpp7xx5jeoujq5e 165 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 165 17 inhibits inhibit VBZ work_mairtkvvofcdpp7xx5jeoujq5e 165 18 autophagy autophagy NNP work_mairtkvvofcdpp7xx5jeoujq5e 165 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 166 1 TSC2 TSC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 166 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 166 3 upregulated upregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 166 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 166 5 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 166 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 166 7 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 166 8 inhibit inhibit VB work_mairtkvvofcdpp7xx5jeoujq5e 166 9 mTORC1 mtorc1 PRP work_mairtkvvofcdpp7xx5jeoujq5e 166 10 functioning functioning JJ work_mairtkvvofcdpp7xx5jeoujq5e 166 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 167 1 IFNAR2 ifnar2 NN work_mairtkvvofcdpp7xx5jeoujq5e 167 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 167 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 167 4 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 167 5 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 167 6 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 167 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 167 8 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 167 9 sur- sur- NN work_mairtkvvofcdpp7xx5jeoujq5e 167 10 vival vival NNP work_mairtkvvofcdpp7xx5jeoujq5e 167 11 Akt Akt NNP work_mairtkvvofcdpp7xx5jeoujq5e 167 12 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 167 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 168 1 Downregulation downregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 168 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 168 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 168 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 168 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 168 6 further far RBR work_mairtkvvofcdpp7xx5jeoujq5e 168 7 impair impair VB work_mairtkvvofcdpp7xx5jeoujq5e 168 8 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 168 9 survival survival NN work_mairtkvvofcdpp7xx5jeoujq5e 168 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 169 1 CAMKK2 CAMKK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 169 2 gene gene NNP work_mairtkvvofcdpp7xx5jeoujq5e 169 3 plays play VBZ work_mairtkvvofcdpp7xx5jeoujq5e 169 4 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 169 5 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 169 6 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 169 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 169 8 synapse synapse NN work_mairtkvvofcdpp7xx5jeoujq5e 169 9 formation formation NN work_mairtkvvofcdpp7xx5jeoujq5e 169 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 169 11 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 169 12 downstream downstream JJ work_mairtkvvofcdpp7xx5jeoujq5e 169 13 AMPK AMPK NNP work_mairtkvvofcdpp7xx5jeoujq5e 169 14 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 169 15 cascade cascade NN work_mairtkvvofcdpp7xx5jeoujq5e 169 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 170 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 170 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 170 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 170 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 170 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 170 6 disrupt disrupt VB work_mairtkvvofcdpp7xx5jeoujq5e 170 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 170 8 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 170 9 pathways pathway NNS work_mairtkvvofcdpp7xx5jeoujq5e 170 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 170 11 induce induce VB work_mairtkvvofcdpp7xx5jeoujq5e 170 12 excitotoxicity excitotoxicity NN work_mairtkvvofcdpp7xx5jeoujq5e 170 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 171 1 GRIK2 GRIK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 171 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 171 3 KCNMA1 KCNMA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 171 4 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 171 5 regulate regulate VBP work_mairtkvvofcdpp7xx5jeoujq5e 171 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 171 7 mem- mem- NNP work_mairtkvvofcdpp7xx5jeoujq5e 171 8 brane brane NN work_mairtkvvofcdpp7xx5jeoujq5e 171 9 potential potential NN work_mairtkvvofcdpp7xx5jeoujq5e 171 10 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 171 11 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 171 12 signals signal NNS work_mairtkvvofcdpp7xx5jeoujq5e 171 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 172 1 Upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 172 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 172 3 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 172 4 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 172 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 172 6 impair impair VB work_mairtkvvofcdpp7xx5jeoujq5e 172 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 172 8 firing firing NN work_mairtkvvofcdpp7xx5jeoujq5e 172 9 pattern pattern NN work_mairtkvvofcdpp7xx5jeoujq5e 172 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 172 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 172 12 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 172 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 173 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 173 2 constructed construct VBD work_mairtkvvofcdpp7xx5jeoujq5e 173 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 173 4 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 173 5 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 173 6 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 173 7 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 173 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 173 9 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 173 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 173 11 VGs VGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 173 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 173 13 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 173 14 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 173 15 assists assist VBZ work_mairtkvvofcdpp7xx5jeoujq5e 173 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 173 17 understanding understand VBG work_mairtkvvofcdpp7xx5jeoujq5e 173 18 how how WRB work_mairtkvvofcdpp7xx5jeoujq5e 173 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 173 20 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 173 21 functionally functionally RB work_mairtkvvofcdpp7xx5jeoujq5e 173 22 associated associate VBD work_mairtkvvofcdpp7xx5jeoujq5e 173 23 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 173 24 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 173 25 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 173 26 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 173 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 174 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 174 2 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 174 3 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 174 4 details detail NNS work_mairtkvvofcdpp7xx5jeoujq5e 174 5 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 174 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 174 7 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 174 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 174 9 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 174 10 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 174 11 including include VBG work_mairtkvvofcdpp7xx5jeoujq5e 174 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 174 13 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 174 14 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 174 15 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 174 16 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 174 17 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 174 18 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 174 19 presented present VBN work_mairtkvvofcdpp7xx5jeoujq5e 174 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 174 21 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 174 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 175 1 5 5 CD work_mairtkvvofcdpp7xx5jeoujq5e 175 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 176 1 Transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 176 2 factors factor NNS work_mairtkvvofcdpp7xx5jeoujq5e 176 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 177 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 177 2 5a 5a CD work_mairtkvvofcdpp7xx5jeoujq5e 177 3 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 177 4 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 177 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 177 6 NCOR1 ncor1 JJ work_mairtkvvofcdpp7xx5jeoujq5e 177 7 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 177 8 represses repress VBZ work_mairtkvvofcdpp7xx5jeoujq5e 177 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 177 10 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 177 11 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 177 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 177 13 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 177 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 178 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 178 2 found find VBD work_mairtkvvofcdpp7xx5jeoujq5e 178 3 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 178 4 NCOR1 ncor1 JJ work_mairtkvvofcdpp7xx5jeoujq5e 178 5 downregulates downregulate NNS work_mairtkvvofcdpp7xx5jeoujq5e 178 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 178 7 RORA RORA NNP work_mairtkvvofcdpp7xx5jeoujq5e 178 8 upregulates upregulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 178 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 178 10 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 178 11 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 178 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 178 13 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 178 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 179 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 179 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 179 3 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 179 4 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 179 5 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 179 6 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 179 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 179 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 179 9 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 179 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 179 11 play play VB work_mairtkvvofcdpp7xx5jeoujq5e 179 12 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 179 13 essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 179 14 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 179 15 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 179 16 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 179 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 179 18 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 179 19 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 179 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 180 1 NCOR1 NCOR1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 180 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 180 3 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 180 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 180 5 influenced influence VBN work_mairtkvvofcdpp7xx5jeoujq5e 180 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 180 7 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 180 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 180 9 rs5981581 rs5981581 NNP work_mairtkvvofcdpp7xx5jeoujq5e 180 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 180 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 180 12 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 180 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 180 14 rs1130800 rs1130800 NNP work_mairtkvvofcdpp7xx5jeoujq5e 180 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 180 16 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 180 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 180 18 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 180 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 180 20 PHC2 PHC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 180 21 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 180 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 180 23 respectively respectively RB work_mairtkvvofcdpp7xx5jeoujq5e 180 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 181 1 RORA RORA NNP work_mairtkvvofcdpp7xx5jeoujq5e 181 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 181 3 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 181 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 181 5 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 181 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 181 7 STK39 STK39 NNP work_mairtkvvofcdpp7xx5jeoujq5e 181 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 181 9 rs10497332 rs10497332 NNP work_mairtkvvofcdpp7xx5jeoujq5e 181 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 181 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 181 12 SLC35F3 SLC35F3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 181 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 181 14 rs594349 rs594349 NNP work_mairtkvvofcdpp7xx5jeoujq5e 181 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 181 16 variants variant VBZ work_mairtkvvofcdpp7xx5jeoujq5e 181 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 182 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 182 2 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 182 3 found find VBD work_mairtkvvofcdpp7xx5jeoujq5e 182 4 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 182 5 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 182 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 182 7 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 182 8 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 182 9 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 182 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 182 11 acti- acti- RB work_mairtkvvofcdpp7xx5jeoujq5e 182 12 vated vate VBN work_mairtkvvofcdpp7xx5jeoujq5e 182 13 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 182 14 RAB33B. rab33b. NN work_mairtkvvofcdpp7xx5jeoujq5e 183 1 CUX1 CUX1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 183 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 183 3 RAR33B rar33b NN work_mairtkvvofcdpp7xx5jeoujq5e 183 4 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 183 5 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 183 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 183 7 co co NNS work_mairtkvvofcdpp7xx5jeoujq5e 183 8 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 183 9 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 183 10 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 183 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 183 12 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 183 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 183 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 183 15 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 183 16 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 183 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 183 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 183 19 phagocytic phagocytic JJ work_mairtkvvofcdpp7xx5jeoujq5e 183 20 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 183 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 183 22 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 183 23 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 183 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 184 1 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 3 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 184 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 184 5 interrupted interrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 184 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 184 7 another another DT work_mairtkvvofcdpp7xx5jeoujq5e 184 8 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 9 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 184 10 vari- vari- NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 11 ant ant NN work_mairtkvvofcdpp7xx5jeoujq5e 184 12 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 184 13 rs6647462 rs6647462 NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 14 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 184 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 184 16 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 184 17 TMEM108 TMEM108 NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 18 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 184 19 rs10512895 rs10512895 NNP work_mairtkvvofcdpp7xx5jeoujq5e 184 20 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 184 21 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 184 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 185 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 185 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 185 3 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 185 4 observed observe VBD work_mairtkvvofcdpp7xx5jeoujq5e 185 5 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 185 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 185 7 PSMC2 PSMC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 185 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 185 9 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 185 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 185 11 activates activate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 185 12 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 185 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 185 14 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 185 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 185 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 185 17 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 185 18 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 185 19 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 185 20 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 185 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 185 22 co co NNS work_mairtkvvofcdpp7xx5jeoujq5e 185 23 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 185 24 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 185 25 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 185 26 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 185 27 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 185 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 186 1 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 3 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 186 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 186 5 disrupted disrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 186 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 186 7 METTL13 METTL13 NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 186 9 rs2232819 rs2232819 NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 186 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 186 12 SREBF2 SREBF2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 186 14 rs7288536 rs7288536 NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 186 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 186 17 SNRNP70 SNRNP70 NNP work_mairtkvvofcdpp7xx5jeoujq5e 186 18 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 186 19 rs3795056 rs3795056 FW work_mairtkvvofcdpp7xx5jeoujq5e 186 20 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 186 21 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 186 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 187 1 Also also RB work_mairtkvvofcdpp7xx5jeoujq5e 187 2 our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 187 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 187 4 reveals reveal VBZ work_mairtkvvofcdpp7xx5jeoujq5e 187 5 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 187 6 HBP1(TF HBP1(TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 187 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 187 8 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 187 9 represses repress VBZ work_mairtkvvofcdpp7xx5jeoujq5e 187 10 DNMT1(TF DNMT1(TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 187 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 187 12 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 187 13 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 187 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 187 15 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 187 16 whereas whereas IN work_mairtkvvofcdpp7xx5jeoujq5e 187 17 DNMT1 dnmt1 NN work_mairtkvvofcdpp7xx5jeoujq5e 187 18 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 187 19 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 187 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 187 21 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 187 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 188 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 188 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 188 3 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 188 4 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 188 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 188 6 chromatin chromatin NNP work_mairtkvvofcdpp7xx5jeoujq5e 188 7 remodeling43 remodeling43 NNP work_mairtkvvofcdpp7xx5jeoujq5e 188 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 189 1 HBP1 HBP1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 3 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 189 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 189 5 interrupted interrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 189 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 189 7 SLC39A11 SLC39A11 NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 8 variant variant NN work_mairtkvvofcdpp7xx5jeoujq5e 189 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 189 10 rs1126965 rs1126965 NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 189 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 189 13 DNMT1 DNMT1 JJR work_mairtkvvofcdpp7xx5jeoujq5e 189 14 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 15 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 189 16 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 189 17 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 189 18 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 189 19 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 189 20 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 21 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 189 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 189 23 one one CD work_mairtkvvofcdpp7xx5jeoujq5e 189 24 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 189 25 ZNF789 ZNF789 NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 26 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 189 27 rs560260561 rs560260561 NNP work_mairtkvvofcdpp7xx5jeoujq5e 189 28 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 189 29 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 189 30 . . . work_mairtkvvofcdpp7xx5jeoujq5e 190 1 Novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 190 2 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 190 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 191 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 191 2 5b 5b NN work_mairtkvvofcdpp7xx5jeoujq5e 191 3 depicts depict VBZ work_mairtkvvofcdpp7xx5jeoujq5e 191 4 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 191 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 191 6 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 191 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 191 8 activates activate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 191 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 191 10 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 191 11 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 191 12 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 191 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 191 14 SFTAP1 sftap1 NN work_mairtkvvofcdpp7xx5jeoujq5e 191 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 192 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 192 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 192 3 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 192 4 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 192 5 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 192 6 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 192 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 192 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 192 9 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 192 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 193 1 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 193 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 193 3 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 193 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 193 5 influenced influence VBN work_mairtkvvofcdpp7xx5jeoujq5e 193 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 193 7 12 12 CD work_mairtkvvofcdpp7xx5jeoujq5e 193 8 different different JJ work_mairtkvvofcdpp7xx5jeoujq5e 193 9 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 193 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 194 1 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 194 2 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 194 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 194 4 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 194 5 pressure pressure NN work_mairtkvvofcdpp7xx5jeoujq5e 194 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 194 7 circulates circulate NNS work_mairtkvvofcdpp7xx5jeoujq5e 194 8 through through IN work_mairtkvvofcdpp7xx5jeoujq5e 194 9 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 194 10 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 194 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 195 1 SFTAP1 SFTAP1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 195 2 gene gene NNP work_mairtkvvofcdpp7xx5jeoujq5e 195 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 195 4 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 195 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 195 6 ROS ROS NNP work_mairtkvvofcdpp7xx5jeoujq5e 195 7 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 195 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 195 9 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 195 10 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 195 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 196 1 Furthermore furthermore RB work_mairtkvvofcdpp7xx5jeoujq5e 196 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 196 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 196 4 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 196 5 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 196 6 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 196 7 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 196 8 activated activate VBN work_mairtkvvofcdpp7xx5jeoujq5e 196 9 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 196 10 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 196 11 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 196 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 196 13 TAL1 TAL1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 196 14 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 196 15 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 196 16 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 196 17 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 196 18 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 196 19 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 196 20 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 196 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 197 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 197 2 found find VBD work_mairtkvvofcdpp7xx5jeoujq5e 197 3 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 197 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 197 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 197 6 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 197 7 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 197 8 CCAR2 ccar2 NN work_mairtkvvofcdpp7xx5jeoujq5e 197 9 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 197 10 activated activate VBN work_mairtkvvofcdpp7xx5jeoujq5e 197 11 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 197 12 REST REST NNP work_mairtkvvofcdpp7xx5jeoujq5e 197 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 197 14 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 197 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 197 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 197 17 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 197 18 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 197 19 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 197 20 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 197 21 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 197 22 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 197 23 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 197 24 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 197 25 one one CD work_mairtkvvofcdpp7xx5jeoujq5e 197 26 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 197 27 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 197 28 variant variant NN work_mairtkvvofcdpp7xx5jeoujq5e 197 29 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 197 30 rs6647448 rs6647448 NNP work_mairtkvvofcdpp7xx5jeoujq5e 197 31 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 197 32 . . . work_mairtkvvofcdpp7xx5jeoujq5e 198 1 CCAR2 CCAR2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 198 2 activates activate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 198 3 SIRT1 SIRT1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 198 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 198 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 198 6 SIRT1 sirt1 NN work_mairtkvvofcdpp7xx5jeoujq5e 198 7 represses repress VBZ work_mairtkvvofcdpp7xx5jeoujq5e 198 8 CCAR2 ccar2 JJ work_mairtkvvofcdpp7xx5jeoujq5e 198 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 199 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 199 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 199 3 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 199 4 upregulated upregulated JJ work_mairtkvvofcdpp7xx5jeoujq5e 199 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 199 6 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 199 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 199 8 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 199 9 implicated implicate VBN work_mairtkvvofcdpp7xx5jeoujq5e 199 10 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 199 11 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 199 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 199 13 ROS ros NN work_mairtkvvofcdpp7xx5jeoujq5e 199 14 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 199 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 200 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 200 2 addition addition NN work_mairtkvvofcdpp7xx5jeoujq5e 200 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 200 4 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 200 5 found find VBD work_mairtkvvofcdpp7xx5jeoujq5e 200 6 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 200 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 200 8 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 200 9 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 200 10 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 200 11 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 200 12 activated activate VBN work_mairtkvvofcdpp7xx5jeoujq5e 200 13 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 200 14 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 200 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 200 16 FOXA2 FOXA2 NNS work_mairtkvvofcdpp7xx5jeoujq5e 200 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 200 18 NFKB1 nfkb1 NN work_mairtkvvofcdpp7xx5jeoujq5e 200 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 200 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 200 21 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 200 22 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 200 23 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 200 24 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 200 25 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 200 26 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 200 27 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 200 28 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 200 29 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 200 30 . . . work_mairtkvvofcdpp7xx5jeoujq5e 201 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 201 2 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 201 3 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 201 4 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 201 5 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 201 6 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 201 7 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 201 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 201 9 rs10153112 rs10153112 NNP work_mairtkvvofcdpp7xx5jeoujq5e 201 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 201 11 rs7202230 rs7202230 NNP work_mairtkvvofcdpp7xx5jeoujq5e 201 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 201 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 202 1 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 202 2 plays play VBZ work_mairtkvvofcdpp7xx5jeoujq5e 202 3 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 202 4 important important JJ work_mairtkvvofcdpp7xx5jeoujq5e 202 5 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 202 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 202 7 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 202 8 integ- integ- JJ work_mairtkvvofcdpp7xx5jeoujq5e 202 9 rity rity NN work_mairtkvvofcdpp7xx5jeoujq5e 202 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 202 11 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 202 12 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 202 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 203 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 203 2 observed observe VBD work_mairtkvvofcdpp7xx5jeoujq5e 203 3 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 203 4 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 203 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 203 6 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 203 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 203 8 activates activate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 203 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 203 10 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 203 11 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 203 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 203 13 DAB2IP dab2ip NN work_mairtkvvofcdpp7xx5jeoujq5e 203 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 203 15 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 203 16 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 203 17 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 203 18 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 203 19 co co VBN work_mairtkvvofcdpp7xx5jeoujq5e 203 20 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 203 21 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 203 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 203 23 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 203 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 204 1 DAB2IP DAB2IP NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 204 3 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 4 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 204 5 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 204 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 204 7 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 204 8 vessel vessel NN work_mairtkvvofcdpp7xx5jeoujq5e 204 9 morphogenesis morphogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 204 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 11 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 12 Gene Gene NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 13 Name Name NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 14 Type Type NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 15 Gene Gene NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 16 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 204 17 Degree Degree NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 18 Neighborhood Neighborhood NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 19 Connectivity Connectivity NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 20 Closeness Closeness NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 21 Centrality Centrality NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 22 Biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 23 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 204 24 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 25 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 26 DOWN DOWN NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 27 231 231 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 28 57.05 57.05 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 29 0.68 0.68 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 30 Apoptosis Apoptosis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 31 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 32 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 33 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 204 34 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 35 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 204 36 vessel vessel NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 37 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 38 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 39 gliogenesis gliogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 204 40 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 41 Homeostasis Homeostasis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 42 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 43 learning learning NN work_mairtkvvofcdpp7xx5jeoujq5e 204 44 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 45 Neurogenesis Neurogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 46 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 47 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 48 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 49 pathway pathway NN work_mairtkvvofcdpp7xx5jeoujq5e 204 50 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 51 chemical chemical JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 52 transmission transmission NN work_mairtkvvofcdpp7xx5jeoujq5e 204 53 TSC2 TSC2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 54 Novel Novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 55 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 56 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 204 57 233 233 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 58 56.16 56.16 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 59 0.68 0.68 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 60 Akt Akt NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 61 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 204 62 Wnt Wnt NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 63 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 204 64 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 65 autophagy autophagy NN work_mairtkvvofcdpp7xx5jeoujq5e 204 66 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 67 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 204 68 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 69 vesicle vesicle NN work_mairtkvvofcdpp7xx5jeoujq5e 204 70 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 204 71 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 72 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 204 73 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 204 74 IFNAR2 ifnar2 NN work_mairtkvvofcdpp7xx5jeoujq5e 204 75 Novel Novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 76 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 77 DOWN down RB work_mairtkvvofcdpp7xx5jeoujq5e 204 78 101 101 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 79 58.94 58.94 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 80 0.53 0.53 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 81 Akt Akt NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 82 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 204 83 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 84 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 85 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 204 86 DDX39B ddx39b CD work_mairtkvvofcdpp7xx5jeoujq5e 204 87 Novel Novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 88 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 89 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 204 90 110 110 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 91 63.23 63.23 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 92 0.55 0.55 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 93 Regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 204 94 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 204 95 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 96 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 97 muscle muscle NN work_mairtkvvofcdpp7xx5jeoujq5e 204 98 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 204 99 DVL3 DVL3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 100 Novel Novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 101 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 102 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 204 103 109 109 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 104 63.38 63.38 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 105 0.55 0.55 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 106 Neurogenesis Neurogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 107 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 108 Wnt Wnt NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 109 signaling signal VBG work_mairtkvvofcdpp7xx5jeoujq5e 204 110 CAMKK2 CAMKK2 `` work_mairtkvvofcdpp7xx5jeoujq5e 204 111 Reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 204 112 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 113 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 204 114 223 223 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 115 58.64 58.64 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 116 0.67 0.67 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 117 Autophagy Autophagy NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 118 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 119 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 204 120 biogenesis biogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 204 121 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 122 ROS ros NN work_mairtkvvofcdpp7xx5jeoujq5e 204 123 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 204 124 TCF3 TCF3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 125 Reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 204 126 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 127 UP up RB work_mairtkvvofcdpp7xx5jeoujq5e 204 128 100 100 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 129 54.21 54.21 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 130 0.52 0.52 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 131 Immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 132 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 204 133 KCNMA1 KCNMA1 `` work_mairtkvvofcdpp7xx5jeoujq5e 204 134 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 135 UP up RP work_mairtkvvofcdpp7xx5jeoujq5e 204 136 237 237 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 137 55.97 55.97 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 138 0.68 0.68 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 139 Homeostasis Homeostasis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 140 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 141 membrane membrane NN work_mairtkvvofcdpp7xx5jeoujq5e 204 142 potential potential NN work_mairtkvvofcdpp7xx5jeoujq5e 204 143 GRIK2 GRIK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 144 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 145 UP UP NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 146 124 124 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 147 60.98 60.98 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 148 0.55 0.55 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 149 Apoptosis Apoptosis NNP work_mairtkvvofcdpp7xx5jeoujq5e 204 150 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 151 defense defense NN work_mairtkvvofcdpp7xx5jeoujq5e 204 152 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 204 153 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 154 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 204 155 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 204 156 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 157 exocytosis exocytosis NN work_mairtkvvofcdpp7xx5jeoujq5e 204 158 , , , work_mairtkvvofcdpp7xx5jeoujq5e 204 159 membrane membrane NN work_mairtkvvofcdpp7xx5jeoujq5e 204 160 potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 204 161 Table table NN work_mairtkvvofcdpp7xx5jeoujq5e 204 162 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 204 163 . . . work_mairtkvvofcdpp7xx5jeoujq5e 205 1 Hub Hub NNP work_mairtkvvofcdpp7xx5jeoujq5e 205 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 205 3 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 205 4 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 205 5 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 205 6 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 205 7 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 205 8 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 205 9 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 205 10 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 205 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 206 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 206 2 8Scientific 8Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 206 3 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 206 4 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 206 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 206 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 206 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 206 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 206 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 206 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 206 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NNP work_mairtkvvofcdpp7xx5jeoujq5e 206 12 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 206 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 206 14 gliogenesis gliogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 206 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 206 16 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 206 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 207 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 207 2 addition addition NN work_mairtkvvofcdpp7xx5jeoujq5e 207 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 207 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 207 5 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 207 6 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 207 7 IFNAR2 ifnar2 NN work_mairtkvvofcdpp7xx5jeoujq5e 207 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 207 9 STAT1 stat1 NN work_mairtkvvofcdpp7xx5jeoujq5e 207 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 207 11 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 207 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 207 13 activate activate VBP work_mairtkvvofcdpp7xx5jeoujq5e 207 14 each each DT work_mairtkvvofcdpp7xx5jeoujq5e 207 15 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 207 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 207 17 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 207 18 downregulated downregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 207 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 207 20 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 207 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 208 1 STAT1 stat1 ADD work_mairtkvvofcdpp7xx5jeoujq5e 208 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 208 3 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 208 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 208 5 interrupted interrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 208 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 208 7 AMACR AMACR NNP work_mairtkvvofcdpp7xx5jeoujq5e 208 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 208 9 rs34677 rs34677 FW work_mairtkvvofcdpp7xx5jeoujq5e 208 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 208 11 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 208 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 209 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 209 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 209 3 participate participate VBP work_mairtkvvofcdpp7xx5jeoujq5e 209 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 209 5 defense defense NN work_mairtkvvofcdpp7xx5jeoujq5e 209 6 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 209 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 210 1 Known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 210 2 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 210 3 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 210 4 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 210 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 211 1 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 211 2 NFKB1 NFKB1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 211 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 211 4 BCL11A BCL11A NNP work_mairtkvvofcdpp7xx5jeoujq5e 211 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 211 6 activates activate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 211 7 OPTN OPTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 211 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 211 9 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 211 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 211 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 211 12 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 211 13 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 211 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 211 15 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 211 16 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 211 17 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 211 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 211 19 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 211 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 211 21 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 211 22 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 211 23 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 211 24 neurogenesis neurogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 211 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 211 26 defense defense NN work_mairtkvvofcdpp7xx5jeoujq5e 211 27 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 211 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 212 1 NFKB1 nfkb1 NN work_mairtkvvofcdpp7xx5jeoujq5e 212 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 212 3 BCL11A BCL11A NNP work_mairtkvvofcdpp7xx5jeoujq5e 212 4 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 212 5 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 212 6 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 212 7 interrupted interrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 212 8 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 212 9 11 11 CD work_mairtkvvofcdpp7xx5jeoujq5e 212 10 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 212 11 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 212 12 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 212 13 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 212 14 5c 5c CD work_mairtkvvofcdpp7xx5jeoujq5e 212 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 212 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 213 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 213 2 observed observe VBD work_mairtkvvofcdpp7xx5jeoujq5e 213 3 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 213 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 213 5 CAMKK2 CAMKK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 213 7 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 213 9 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 213 10 activated activate VBN work_mairtkvvofcdpp7xx5jeoujq5e 213 11 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 213 12 E2F1 E2F1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 13 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 213 14 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 213 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 213 17 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 18 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 213 19 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 20 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 213 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 213 22 co co NNS work_mairtkvvofcdpp7xx5jeoujq5e 213 23 - - VBN work_mairtkvvofcdpp7xx5jeoujq5e 213 24 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 213 25 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 213 26 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 213 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 214 1 E2F1 E2F1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 214 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 214 3 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 214 4 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 214 5 disrupted disrupt VBN work_mairtkvvofcdpp7xx5jeoujq5e 214 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 214 7 MKX(rs2253230 MKX(rs2253230 NNP work_mairtkvvofcdpp7xx5jeoujq5e 214 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 214 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 214 10 ZNF638 ZNF638 NNP work_mairtkvvofcdpp7xx5jeoujq5e 214 11 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 214 12 rs1990774 rs1990774 NNP work_mairtkvvofcdpp7xx5jeoujq5e 214 13 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 214 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 214 15 ELAV1 elav1 FW work_mairtkvvofcdpp7xx5jeoujq5e 214 16 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 214 17 rs17160080 rs17160080 NNP work_mairtkvvofcdpp7xx5jeoujq5e 214 18 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 214 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 215 1 Furthermore furthermore RB work_mairtkvvofcdpp7xx5jeoujq5e 215 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 215 3 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 215 4 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 215 5 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 215 6 TAC1 TAC1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 215 7 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 215 8 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 215 9 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 215 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 215 11 repressed repress VBN work_mairtkvvofcdpp7xx5jeoujq5e 215 12 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 215 13 REST REST NNP work_mairtkvvofcdpp7xx5jeoujq5e 215 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 215 15 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 215 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 215 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 215 18 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 215 19 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 215 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 215 21 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 215 22 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 215 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 216 1 Based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 216 2 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 216 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 216 4 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 216 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 216 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 216 7 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 216 8 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 216 9 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 216 10 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 216 11 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 216 12 con- con- NN work_mairtkvvofcdpp7xx5jeoujq5e 216 13 nected necte VBN work_mairtkvvofcdpp7xx5jeoujq5e 216 14 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 216 15 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 216 16 either either CC work_mairtkvvofcdpp7xx5jeoujq5e 216 17 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 216 18 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 216 19 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 216 20 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 216 21 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 216 22 co co NN work_mairtkvvofcdpp7xx5jeoujq5e 216 23 - - NN work_mairtkvvofcdpp7xx5jeoujq5e 216 24 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 216 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 217 1 However however RB work_mairtkvvofcdpp7xx5jeoujq5e 217 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 217 3 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 217 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 217 5 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 217 6 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 217 7 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 217 8 expres- expres- VBZ work_mairtkvvofcdpp7xx5jeoujq5e 217 9 sion sion NN work_mairtkvvofcdpp7xx5jeoujq5e 217 10 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 217 11 affect affect VB work_mairtkvvofcdpp7xx5jeoujq5e 217 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 217 13 target target NN work_mairtkvvofcdpp7xx5jeoujq5e 217 14 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 217 15 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 217 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 217 17 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 217 18 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 217 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 218 1 Hypothesis hypothesis NN work_mairtkvvofcdpp7xx5jeoujq5e 218 2 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 218 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 218 4 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 218 5 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 218 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 218 7 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 218 8 neuron neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 218 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 219 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 219 2 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 219 3 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 219 4 needs need VBZ work_mairtkvvofcdpp7xx5jeoujq5e 219 5 relatively relatively RB work_mairtkvvofcdpp7xx5jeoujq5e 219 6 more more JJR work_mairtkvvofcdpp7xx5jeoujq5e 219 7 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 219 8 than than IN work_mairtkvvofcdpp7xx5jeoujq5e 219 9 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 219 10 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 219 11 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 219 12 maintain maintain VB work_mairtkvvofcdpp7xx5jeoujq5e 219 13 its -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 219 14 structural structural JJ work_mairtkvvofcdpp7xx5jeoujq5e 219 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 219 16 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 219 17 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 219 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 220 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 220 2 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 220 3 exhibit exhibit VBP work_mairtkvvofcdpp7xx5jeoujq5e 220 4 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 220 5 increased increase VBN work_mairtkvvofcdpp7xx5jeoujq5e 220 6 ROS ROS NNP work_mairtkvvofcdpp7xx5jeoujq5e 220 7 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 220 8 Reactive Reactive NNP work_mairtkvvofcdpp7xx5jeoujq5e 220 9 oxygen oxygen NN work_mairtkvvofcdpp7xx5jeoujq5e 220 10 species specie NNS work_mairtkvvofcdpp7xx5jeoujq5e 220 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 220 12 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 220 13 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 220 14 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 220 15 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 220 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 220 17 have have VB work_mairtkvvofcdpp7xx5jeoujq5e 220 18 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 220 19 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 220 20 demands3 demands3 NN work_mairtkvvofcdpp7xx5jeoujq5e 220 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 221 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 221 2 nor- nor- JJ work_mairtkvvofcdpp7xx5jeoujq5e 221 3 mal mal JJ work_mairtkvvofcdpp7xx5jeoujq5e 221 4 condition condition NN work_mairtkvvofcdpp7xx5jeoujq5e 221 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 221 6 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 221 7 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 221 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 222 1 S5 s5 NN work_mairtkvvofcdpp7xx5jeoujq5e 222 2 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 222 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 222 4 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 222 5 involves involve VBZ work_mairtkvvofcdpp7xx5jeoujq5e 222 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 222 7 following follow VBG work_mairtkvvofcdpp7xx5jeoujq5e 222 8 steps step NNS work_mairtkvvofcdpp7xx5jeoujq5e 222 9 : : : work_mairtkvvofcdpp7xx5jeoujq5e 222 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 222 11 i i NN work_mairtkvvofcdpp7xx5jeoujq5e 222 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 222 13 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 222 14 BBB BBB NNP work_mairtkvvofcdpp7xx5jeoujq5e 222 15 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 222 16 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 222 17 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 222 18 bar- bar- NN work_mairtkvvofcdpp7xx5jeoujq5e 222 19 rier rier NN work_mairtkvvofcdpp7xx5jeoujq5e 222 20 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 222 21 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 222 22 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 222 23 preserve preserve VB work_mairtkvvofcdpp7xx5jeoujq5e 222 24 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 222 25 structure structure NN work_mairtkvvofcdpp7xx5jeoujq5e 222 26 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 222 27 maintaining maintain VBG work_mairtkvvofcdpp7xx5jeoujq5e 222 28 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 222 29 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 222 30 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 222 31 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 222 32 . . . work_mairtkvvofcdpp7xx5jeoujq5e 223 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 223 2 saves save VBZ work_mairtkvvofcdpp7xx5jeoujq5e 223 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 4 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 223 5 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 223 6 toxic toxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 7 substances substance NNS work_mairtkvvofcdpp7xx5jeoujq5e 223 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 223 9 ii ii NNP work_mairtkvvofcdpp7xx5jeoujq5e 223 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 223 11 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 12 microglia microglia NN work_mairtkvvofcdpp7xx5jeoujq5e 223 13 plays play VBZ work_mairtkvvofcdpp7xx5jeoujq5e 223 14 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 223 15 crucial crucial JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 16 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 223 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 223 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 19 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 20 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 223 21 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 223 22 releases release VBZ work_mairtkvvofcdpp7xx5jeoujq5e 223 23 neurotrophic neurotrophic JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 24 factors factor NNS work_mairtkvvofcdpp7xx5jeoujq5e 223 25 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 223 26 can can MD work_mairtkvvofcdpp7xx5jeoujq5e 223 27 improve improve VB work_mairtkvvofcdpp7xx5jeoujq5e 223 28 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 29 survival survival NN work_mairtkvvofcdpp7xx5jeoujq5e 223 30 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 223 31 iii iii NNP work_mairtkvvofcdpp7xx5jeoujq5e 223 32 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 223 33 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 34 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 35 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 36 muscles muscle NNS work_mairtkvvofcdpp7xx5jeoujq5e 223 37 regulate regulate VBP work_mairtkvvofcdpp7xx5jeoujq5e 223 38 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 39 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 223 40 pressure pressure NN work_mairtkvvofcdpp7xx5jeoujq5e 223 41 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 223 42 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 223 43 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 44 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 45 demand demand NN work_mairtkvvofcdpp7xx5jeoujq5e 223 46 , , , work_mairtkvvofcdpp7xx5jeoujq5e 223 47 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 223 48 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 223 49 communicated communicate VBN work_mairtkvvofcdpp7xx5jeoujq5e 223 50 through through IN work_mairtkvvofcdpp7xx5jeoujq5e 223 51 glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 52 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 223 53 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 223 54 iv iv LS work_mairtkvvofcdpp7xx5jeoujq5e 223 55 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 223 56 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 57 glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 58 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 223 59 communicate communicate VBP work_mairtkvvofcdpp7xx5jeoujq5e 223 60 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 223 61 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 223 62 as as RB work_mairtkvvofcdpp7xx5jeoujq5e 223 63 well well RB work_mairtkvvofcdpp7xx5jeoujq5e 223 64 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 223 65 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 66 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 67 muscles muscle NNS work_mairtkvvofcdpp7xx5jeoujq5e 223 68 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 223 69 act act VB work_mairtkvvofcdpp7xx5jeoujq5e 223 70 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 223 71 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 223 72 key key JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 73 regulator regulator NN work_mairtkvvofcdpp7xx5jeoujq5e 223 74 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 223 75 controls control VBZ work_mairtkvvofcdpp7xx5jeoujq5e 223 76 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 77 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 223 78 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 223 79 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 223 80 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 223 81 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 223 82 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 223 83 Figure Figure NNP work_mairtkvvofcdpp7xx5jeoujq5e 223 84 5 5 CD work_mairtkvvofcdpp7xx5jeoujq5e 223 85 . . . work_mairtkvvofcdpp7xx5jeoujq5e 224 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 224 2 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 224 3 interactions interaction NNS work_mairtkvvofcdpp7xx5jeoujq5e 224 4 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 224 5 important important JJ work_mairtkvvofcdpp7xx5jeoujq5e 224 6 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 224 7 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 224 8 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 224 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 224 10 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 224 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 225 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 2 9Scientific 9Scientific NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 3 RepoRtS report VBZ work_mairtkvvofcdpp7xx5jeoujq5e 225 4 | | JJ work_mairtkvvofcdpp7xx5jeoujq5e 225 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 6 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 225 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 8 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 225 9 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 225 10 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 11 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NN work_mairtkvvofcdpp7xx5jeoujq5e 225 12 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 225 13 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 225 14 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 225 15 regulating regulate VBG work_mairtkvvofcdpp7xx5jeoujq5e 225 16 vasodilators vasodilator NNS work_mairtkvvofcdpp7xx5jeoujq5e 225 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 225 18 vasoconstrictors44 vasoconstrictors44 NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 19 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 20 v v NN work_mairtkvvofcdpp7xx5jeoujq5e 225 21 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 22 After after IN work_mairtkvvofcdpp7xx5jeoujq5e 225 23 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 225 24 actionpotential actionpotential NN work_mairtkvvofcdpp7xx5jeoujq5e 225 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 225 26 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 225 27 increased increase VBN work_mairtkvvofcdpp7xx5jeoujq5e 225 28 amount amount NN work_mairtkvvofcdpp7xx5jeoujq5e 225 29 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 225 30 potassium potassium NN work_mairtkvvofcdpp7xx5jeoujq5e 225 31 ions ion NNS work_mairtkvvofcdpp7xx5jeoujq5e 225 32 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 33 K+ K+ NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 34 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 35 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 225 36 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 225 37 extracellular extracellular NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 38 region region NN work_mairtkvvofcdpp7xx5jeoujq5e 225 39 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 225 40 taken take VBN work_mairtkvvofcdpp7xx5jeoujq5e 225 41 up up RP work_mairtkvvofcdpp7xx5jeoujq5e 225 42 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 225 43 glia glia NNP work_mairtkvvofcdpp7xx5jeoujq5e 225 44 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 45 astrocytes astrocytes NNPS work_mairtkvvofcdpp7xx5jeoujq5e 225 46 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 225 47 through through IN work_mairtkvvofcdpp7xx5jeoujq5e 225 48 gap gap NN work_mairtkvvofcdpp7xx5jeoujq5e 225 49 junction junction NN work_mairtkvvofcdpp7xx5jeoujq5e 225 50 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 225 51 acts act VBZ work_mairtkvvofcdpp7xx5jeoujq5e 225 52 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 225 53 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 225 54 potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 225 55 vasodilator vasodilator NN work_mairtkvvofcdpp7xx5jeoujq5e 225 56 , , , work_mairtkvvofcdpp7xx5jeoujq5e 225 57 dilating dilate VBG work_mairtkvvofcdpp7xx5jeoujq5e 225 58 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 225 59 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 225 60 vessels vessel NNS work_mairtkvvofcdpp7xx5jeoujq5e 225 61 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 225 62 increasing increase VBG work_mairtkvvofcdpp7xx5jeoujq5e 225 63 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 225 64 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 225 65 . . . work_mairtkvvofcdpp7xx5jeoujq5e 226 1 Based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 226 2 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 226 3 glutamate glutamate NN work_mairtkvvofcdpp7xx5jeoujq5e 226 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 226 5 K+ K+ NNP work_mairtkvvofcdpp7xx5jeoujq5e 226 6 concentration concentration NN work_mairtkvvofcdpp7xx5jeoujq5e 226 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 226 8 glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 226 9 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 226 10 sense sense VBP work_mairtkvvofcdpp7xx5jeoujq5e 226 11 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 226 12 activity activity NN work_mairtkvvofcdpp7xx5jeoujq5e 226 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 226 14 regulate regulate VB work_mairtkvvofcdpp7xx5jeoujq5e 226 15 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 226 16 dynamics dynamic NNS work_mairtkvvofcdpp7xx5jeoujq5e 226 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 226 18 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 226 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 226 20 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 226 21 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 226 22 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 226 23 vasodilator vasodilator NN work_mairtkvvofcdpp7xx5jeoujq5e 226 24 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 226 25 constrictor constrictor NN work_mairtkvvofcdpp7xx5jeoujq5e 226 26 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 226 27 vi vi NNP work_mairtkvvofcdpp7xx5jeoujq5e 226 28 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 226 29 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 226 30 , , , work_mairtkvvofcdpp7xx5jeoujq5e 226 31 insulin insulin NN work_mairtkvvofcdpp7xx5jeoujq5e 226 32 receptors receptor NNS work_mairtkvvofcdpp7xx5jeoujq5e 226 33 regulate regulate VBP work_mairtkvvofcdpp7xx5jeoujq5e 226 34 glucose glucose NN work_mairtkvvofcdpp7xx5jeoujq5e 226 35 transporters transporter NNS work_mairtkvvofcdpp7xx5jeoujq5e 226 36 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 226 37 GLUT GLUT NNP work_mairtkvvofcdpp7xx5jeoujq5e 226 38 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 226 39 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 226 40 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 226 41 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 226 42 help help NN work_mairtkvvofcdpp7xx5jeoujq5e 226 43 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 226 44 increase increase VB work_mairtkvvofcdpp7xx5jeoujq5e 226 45 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 226 46 concentration concentration NN work_mairtkvvofcdpp7xx5jeoujq5e 226 47 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 226 48 intracellular intracellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 226 49 glucose glucose NN work_mairtkvvofcdpp7xx5jeoujq5e 226 50 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 226 51 vii vii NN work_mairtkvvofcdpp7xx5jeoujq5e 226 52 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 226 53 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 226 54 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 226 55 glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 226 56 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 226 57 , , , work_mairtkvvofcdpp7xx5jeoujq5e 226 58 glucose glucose NNP work_mairtkvvofcdpp7xx5jeoujq5e 226 59 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 226 60 converted convert VBN work_mairtkvvofcdpp7xx5jeoujq5e 226 61 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 226 62 lactate lactate VB work_mairtkvvofcdpp7xx5jeoujq5e 226 63 through through IN work_mairtkvvofcdpp7xx5jeoujq5e 226 64 glycolysis glycolysis NN work_mairtkvvofcdpp7xx5jeoujq5e 226 65 . . . work_mairtkvvofcdpp7xx5jeoujq5e 227 1 Lactate Lactate NNP work_mairtkvvofcdpp7xx5jeoujq5e 227 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 227 3 transported transport VBN work_mairtkvvofcdpp7xx5jeoujq5e 227 4 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 227 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 227 6 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 227 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 227 8 where where WRB work_mairtkvvofcdpp7xx5jeoujq5e 227 9 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 227 10 undergoes undergo VBZ work_mairtkvvofcdpp7xx5jeoujq5e 227 11 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 227 12 phosphorylation phosphorylation NN work_mairtkvvofcdpp7xx5jeoujq5e 227 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 228 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 228 2 viii viii NN work_mairtkvvofcdpp7xx5jeoujq5e 228 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 228 4 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 228 5 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 228 6 mainly mainly RB work_mairtkvvofcdpp7xx5jeoujq5e 228 7 depend depend VBP work_mairtkvvofcdpp7xx5jeoujq5e 228 8 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 228 9 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 228 10 phosphorylation phosphorylation NN work_mairtkvvofcdpp7xx5jeoujq5e 228 11 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 228 12 meeting meet VBG work_mairtkvvofcdpp7xx5jeoujq5e 228 13 their -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 228 14 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 228 15 needs need NNS work_mairtkvvofcdpp7xx5jeoujq5e 228 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 229 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 229 2 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 229 3 utilize utilize VBP work_mairtkvvofcdpp7xx5jeoujq5e 229 4 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 229 5 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 229 6 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 229 7 maintain maintain VB work_mairtkvvofcdpp7xx5jeoujq5e 229 8 their -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 229 9 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 229 10 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 229 11 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 229 12 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 229 13 degradation degradation NN work_mairtkvvofcdpp7xx5jeoujq5e 229 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 229 15 ion ion NN work_mairtkvvofcdpp7xx5jeoujq5e 229 16 homeostasis homeostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 229 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 229 18 vesicle vesicle NN work_mairtkvvofcdpp7xx5jeoujq5e 229 19 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 229 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 229 21 firing firing NN work_mairtkvvofcdpp7xx5jeoujq5e 229 22 pattern pattern NN work_mairtkvvofcdpp7xx5jeoujq5e 229 23 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 229 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 230 1 Hence hence RB work_mairtkvvofcdpp7xx5jeoujq5e 230 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 230 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 230 4 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 230 5 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 230 6 improves improve VBZ work_mairtkvvofcdpp7xx5jeoujq5e 230 7 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 230 8 survival45,46 survival45,46 NNP work_mairtkvvofcdpp7xx5jeoujq5e 230 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 231 1 Based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 231 2 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 231 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 231 4 current current JJ work_mairtkvvofcdpp7xx5jeoujq5e 231 5 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 231 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 231 7 available available JJ work_mairtkvvofcdpp7xx5jeoujq5e 231 8 literature literature NN work_mairtkvvofcdpp7xx5jeoujq5e 231 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 231 10 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 231 11 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 231 12 outlined outline VBN work_mairtkvvofcdpp7xx5jeoujq5e 231 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 231 14 reason reason NN work_mairtkvvofcdpp7xx5jeoujq5e 231 15 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 231 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 231 17 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 231 18 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 231 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 231 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 231 21 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 231 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 231 23 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 231 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 232 1 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 232 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 233 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 233 2 1 1 LS work_mairtkvvofcdpp7xx5jeoujq5e 233 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 233 4 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 233 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 233 6 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 233 7 condition condition NN work_mairtkvvofcdpp7xx5jeoujq5e 233 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 233 9 leaky leaky JJ work_mairtkvvofcdpp7xx5jeoujq5e 233 10 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 233 11 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 233 12 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 233 13 allow allow VB work_mairtkvvofcdpp7xx5jeoujq5e 233 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 233 15 transport transport NN work_mairtkvvofcdpp7xx5jeoujq5e 233 16 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 233 17 toxic toxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 233 18 invaders invader NNS work_mairtkvvofcdpp7xx5jeoujq5e 233 19 into into IN work_mairtkvvofcdpp7xx5jeoujq5e 233 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 233 21 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 233 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 233 23 thus thus RB work_mairtkvvofcdpp7xx5jeoujq5e 233 24 interrupting interrupt VBG work_mairtkvvofcdpp7xx5jeoujq5e 233 25 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 233 26 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 233 27 dynamics dynamic NNS work_mairtkvvofcdpp7xx5jeoujq5e 233 28 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 233 29 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 233 30 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 233 31 flow47 flow47 NNS work_mairtkvvofcdpp7xx5jeoujq5e 233 32 . . . work_mairtkvvofcdpp7xx5jeoujq5e 234 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 234 2 2 2 LS work_mairtkvvofcdpp7xx5jeoujq5e 234 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 234 4 If if IN work_mairtkvvofcdpp7xx5jeoujq5e 234 5 tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 234 6 injury injury NN work_mairtkvvofcdpp7xx5jeoujq5e 234 7 occurs occur VBZ work_mairtkvvofcdpp7xx5jeoujq5e 234 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 234 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 234 10 microglia microglia NNP work_mairtkvvofcdpp7xx5jeoujq5e 234 11 will will MD work_mairtkvvofcdpp7xx5jeoujq5e 234 12 release release VB work_mairtkvvofcdpp7xx5jeoujq5e 234 13 neurotoxic neurotoxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 234 14 substances substance NNS work_mairtkvvofcdpp7xx5jeoujq5e 234 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 234 16 inflammatory inflammatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 234 17 cytokines cytokine NNS work_mairtkvvofcdpp7xx5jeoujq5e 234 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 234 19 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 234 20 indirectly indirectly RB work_mairtkvvofcdpp7xx5jeoujq5e 234 21 affect affect VBP work_mairtkvvofcdpp7xx5jeoujq5e 234 22 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 234 23 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 234 24 structure structure NN work_mairtkvvofcdpp7xx5jeoujq5e 234 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 235 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 235 2 3 3 LS work_mairtkvvofcdpp7xx5jeoujq5e 235 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 235 4 Aberrations aberration NNS work_mairtkvvofcdpp7xx5jeoujq5e 235 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 235 6 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 235 7 muscle muscle NN work_mairtkvvofcdpp7xx5jeoujq5e 235 8 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 235 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 235 10 imbalance imbalance NN work_mairtkvvofcdpp7xx5jeoujq5e 235 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 235 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 235 13 vasoregulatory vasoregulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 235 14 substances substance NNS work_mairtkvvofcdpp7xx5jeoujq5e 235 15 affect affect VBP work_mairtkvvofcdpp7xx5jeoujq5e 235 16 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 235 17 pressure pressure NN work_mairtkvvofcdpp7xx5jeoujq5e 235 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 235 19 reduce reduce VB work_mairtkvvofcdpp7xx5jeoujq5e 235 20 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 235 21 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 235 22 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 235 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 236 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 236 2 4 4 LS work_mairtkvvofcdpp7xx5jeoujq5e 236 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 236 4 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 236 5 insulin insulin NN work_mairtkvvofcdpp7xx5jeoujq5e 236 6 resistance resistance NN work_mairtkvvofcdpp7xx5jeoujq5e 236 7 influences influence VBZ work_mairtkvvofcdpp7xx5jeoujq5e 236 8 GLUT GLUT NNP work_mairtkvvofcdpp7xx5jeoujq5e 236 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 236 10 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 236 11 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 236 12 lower lower RBR work_mairtkvvofcdpp7xx5jeoujq5e 236 13 intracellular intracellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 236 14 glucose glucose NN work_mairtkvvofcdpp7xx5jeoujq5e 236 15 concentration concentration NN work_mairtkvvofcdpp7xx5jeoujq5e 236 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 237 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 237 2 5 5 LS work_mairtkvvofcdpp7xx5jeoujq5e 237 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 237 4 Disruption Disruption NNP work_mairtkvvofcdpp7xx5jeoujq5e 237 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 237 6 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 237 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 237 8 glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 237 9 functionality functionality NN work_mairtkvvofcdpp7xx5jeoujq5e 237 10 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 237 11 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 237 12 reduced reduce VBN work_mairtkvvofcdpp7xx5jeoujq5e 237 13 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 237 14 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 237 15 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 237 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 237 17 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 237 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 237 19 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 237 20 reduces reduce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 237 21 insulin insulin NN work_mairtkvvofcdpp7xx5jeoujq5e 237 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 237 23 glucose glucose VB work_mairtkvvofcdpp7xx5jeoujq5e 237 24 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 237 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 237 26 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 237 27 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 237 28 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 237 29 deficiency deficiency NN work_mairtkvvofcdpp7xx5jeoujq5e 237 30 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 237 31 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 237 32 lactate lactate JJ work_mairtkvvofcdpp7xx5jeoujq5e 237 33 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 237 34 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 237 35 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 237 36 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 237 37 . . . work_mairtkvvofcdpp7xx5jeoujq5e 238 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 238 2 6 6 LS work_mairtkvvofcdpp7xx5jeoujq5e 238 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 238 4 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 238 5 reduced reduce VBN work_mairtkvvofcdpp7xx5jeoujq5e 238 6 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 238 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 238 8 lactate lactate NN work_mairtkvvofcdpp7xx5jeoujq5e 238 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 238 10 glucose glucose VB work_mairtkvvofcdpp7xx5jeoujq5e 238 11 results result NNS work_mairtkvvofcdpp7xx5jeoujq5e 238 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 238 13 diminished diminished JJ work_mairtkvvofcdpp7xx5jeoujq5e 238 14 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 238 15 phosphorylation phosphorylation NN work_mairtkvvofcdpp7xx5jeoujq5e 238 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 239 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 239 2 7 7 LS work_mairtkvvofcdpp7xx5jeoujq5e 239 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 239 4 Aberration aberration NN work_mairtkvvofcdpp7xx5jeoujq5e 239 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 239 6 glutamate glutamate NN work_mairtkvvofcdpp7xx5jeoujq5e 239 7 uptake uptake NN work_mairtkvvofcdpp7xx5jeoujq5e 239 8 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 239 9 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 239 10 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 239 11 concentration concentration NN work_mairtkvvofcdpp7xx5jeoujq5e 239 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 239 13 glutamate glutamate NN work_mairtkvvofcdpp7xx5jeoujq5e 239 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 239 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 239 16 synapse synapse NN work_mairtkvvofcdpp7xx5jeoujq5e 239 17 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 239 18 upregu- upregu- NN work_mairtkvvofcdpp7xx5jeoujq5e 239 19 lates late VBZ work_mairtkvvofcdpp7xx5jeoujq5e 239 20 NMDA NMDA NNP work_mairtkvvofcdpp7xx5jeoujq5e 239 21 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 239 22 AMPA AMPA NNP work_mairtkvvofcdpp7xx5jeoujq5e 239 23 receptor receptor NN work_mairtkvvofcdpp7xx5jeoujq5e 239 24 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 239 25 induces induce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 239 26 excitotoxicity excitotoxicity NN work_mairtkvvofcdpp7xx5jeoujq5e 239 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 240 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 240 2 8) 8) CD work_mairtkvvofcdpp7xx5jeoujq5e 240 3 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 240 4 type type NN work_mairtkvvofcdpp7xx5jeoujq5e 240 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 240 6 excitotoxicity excitotoxicity NN work_mairtkvvofcdpp7xx5jeoujq5e 240 7 allows allow VBZ work_mairtkvvofcdpp7xx5jeoujq5e 240 8 increased increase VBD work_mairtkvvofcdpp7xx5jeoujq5e 240 9 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 240 10 flux flux NN work_mairtkvvofcdpp7xx5jeoujq5e 240 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 240 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 240 13 ER ER NNP work_mairtkvvofcdpp7xx5jeoujq5e 240 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 240 15 endoplasmic endoplasmic JJ work_mairtkvvofcdpp7xx5jeoujq5e 240 16 reticulum reticulum NN work_mairtkvvofcdpp7xx5jeoujq5e 240 17 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 240 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 240 19 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 240 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 240 21 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 240 22 increases increase VBZ work_mairtkvvofcdpp7xx5jeoujq5e 240 23 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 240 24 influx influx NN work_mairtkvvofcdpp7xx5jeoujq5e 240 25 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 240 26 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 240 27 mitochondria mitochondria NNP work_mairtkvvofcdpp7xx5jeoujq5e 240 28 , , , work_mairtkvvofcdpp7xx5jeoujq5e 240 29 leading lead VBG work_mairtkvvofcdpp7xx5jeoujq5e 240 30 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 240 31 MTP mtp NN work_mairtkvvofcdpp7xx5jeoujq5e 240 32 formation formation NN work_mairtkvvofcdpp7xx5jeoujq5e 240 33 , , , work_mairtkvvofcdpp7xx5jeoujq5e 240 34 swelling swelling NN work_mairtkvvofcdpp7xx5jeoujq5e 240 35 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 240 36 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 240 37 . . . work_mairtkvvofcdpp7xx5jeoujq5e 241 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 241 2 9 9 LS work_mairtkvvofcdpp7xx5jeoujq5e 241 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 241 4 Disruption Disruption NNP work_mairtkvvofcdpp7xx5jeoujq5e 241 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 241 6 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 241 7 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 241 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 241 9 diminished diminish VBD work_mairtkvvofcdpp7xx5jeoujq5e 241 10 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 241 11 phosphorylation phosphorylation NN work_mairtkvvofcdpp7xx5jeoujq5e 241 12 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 241 13 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 241 14 enormous enormous JJ work_mairtkvvofcdpp7xx5jeoujq5e 241 15 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 241 16 demands demand NNS work_mairtkvvofcdpp7xx5jeoujq5e 241 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 241 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 241 19 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 241 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 241 21 resulting result VBG work_mairtkvvofcdpp7xx5jeoujq5e 241 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 241 23 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 241 24 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 241 25 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 241 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 242 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 242 2 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 242 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 242 4 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 242 5 order order NN work_mairtkvvofcdpp7xx5jeoujq5e 242 6 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 242 7 maintain maintain VB work_mairtkvvofcdpp7xx5jeoujq5e 242 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 242 9 firing firing NN work_mairtkvvofcdpp7xx5jeoujq5e 242 10 pattern pattern NN work_mairtkvvofcdpp7xx5jeoujq5e 242 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 242 12 ion ion NN work_mairtkvvofcdpp7xx5jeoujq5e 242 13 homeostasis homeostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 242 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 242 15 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 242 16 require require VBP work_mairtkvvofcdpp7xx5jeoujq5e 242 17 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 242 18 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 242 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 243 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 243 2 type type NN work_mairtkvvofcdpp7xx5jeoujq5e 243 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 243 4 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 243 5 demand demand NN work_mairtkvvofcdpp7xx5jeoujq5e 243 6 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 243 7 disturb disturb VB work_mairtkvvofcdpp7xx5jeoujq5e 243 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 243 9 firing firing NN work_mairtkvvofcdpp7xx5jeoujq5e 243 10 pattern pattern NN work_mairtkvvofcdpp7xx5jeoujq5e 243 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 243 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 243 13 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 243 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 244 1 Along along IN work_mairtkvvofcdpp7xx5jeoujq5e 244 2 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 244 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 244 4 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 244 5 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 244 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 244 7 additional additional JJ work_mairtkvvofcdpp7xx5jeoujq5e 244 8 cytotoxic cytotoxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 244 9 agents agent NNS work_mairtkvvofcdpp7xx5jeoujq5e 244 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 244 11 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 244 12 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 244 13 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 244 14 aggregates aggregate NNS work_mairtkvvofcdpp7xx5jeoujq5e 244 15 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 244 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 244 17 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 244 18 load load NN work_mairtkvvofcdpp7xx5jeoujq5e 244 19 further further RB work_mairtkvvofcdpp7xx5jeoujq5e 244 20 increase increase VB work_mairtkvvofcdpp7xx5jeoujq5e 244 21 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 244 22 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 244 23 demand demand NN work_mairtkvvofcdpp7xx5jeoujq5e 244 24 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 244 25 subsequently subsequently RB work_mairtkvvofcdpp7xx5jeoujq5e 244 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 244 27 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 244 28 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 244 29 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 244 30 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 244 31 compared compare VBN work_mairtkvvofcdpp7xx5jeoujq5e 244 32 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 244 33 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 244 34 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 244 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 245 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 245 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 245 3 current current JJ work_mairtkvvofcdpp7xx5jeoujq5e 245 4 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 245 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 245 6 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 245 7 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 245 8 deciphered decipher VBN work_mairtkvvofcdpp7xx5jeoujq5e 245 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 245 10 dysregulation dysregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 245 11 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 245 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 245 13 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 245 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 245 15 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 245 16 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 245 17 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 245 18 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 245 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 245 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 245 21 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 245 22 aspects aspect NNS work_mairtkvvofcdpp7xx5jeoujq5e 245 23 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 245 24 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 245 25 listed list VBN work_mairtkvvofcdpp7xx5jeoujq5e 245 26 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 245 27 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 245 28 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 245 29   _SP work_mairtkvvofcdpp7xx5jeoujq5e 245 30 S8 S8 VBD work_mairtkvvofcdpp7xx5jeoujq5e 245 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 246 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 246 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 246 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 246 4 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 246 5 propose propose VBP work_mairtkvvofcdpp7xx5jeoujq5e 246 6 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 246 7 aberration aberration NN work_mairtkvvofcdpp7xx5jeoujq5e 246 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 246 9 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 10 structural structural JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 11 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 246 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 246 13 gliogenesis gliogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 246 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 246 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 246 16 primary primary JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 17 factors factor NNS work_mairtkvvofcdpp7xx5jeoujq5e 246 18 responsible responsible JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 19 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 246 20 high high JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 21 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 246 22 demands demand NNS work_mairtkvvofcdpp7xx5jeoujq5e 246 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 246 24 resulting result VBG work_mairtkvvofcdpp7xx5jeoujq5e 246 25 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 246 26 dysfunctional dysfunctional JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 27 glucose glucose NN work_mairtkvvofcdpp7xx5jeoujq5e 246 28 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 246 29 , , , work_mairtkvvofcdpp7xx5jeoujq5e 246 30 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 246 31 imbalance imbalance NN work_mairtkvvofcdpp7xx5jeoujq5e 246 32 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 246 33 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 246 34 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 246 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 247 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 247 2 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 247 3 shows show VBZ work_mairtkvvofcdpp7xx5jeoujq5e 247 4 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 247 5 pre- pre- RB work_mairtkvvofcdpp7xx5jeoujq5e 247 6 serving serve VBG work_mairtkvvofcdpp7xx5jeoujq5e 247 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 247 8 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 247 9 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 247 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 247 11 BBB BBB NNP work_mairtkvvofcdpp7xx5jeoujq5e 247 12 homeostasis homeostasis NN work_mairtkvvofcdpp7xx5jeoujq5e 247 13 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 247 14 help help VB work_mairtkvvofcdpp7xx5jeoujq5e 247 15 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 247 16 shield shield VB work_mairtkvvofcdpp7xx5jeoujq5e 247 17 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 247 18 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 247 19 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 247 20 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 247 21 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 247 22 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 247 23 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 247 24 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 247 25 associated associate VBD work_mairtkvvofcdpp7xx5jeoujq5e 247 26 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 247 27 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 247 28 related relate VBN work_mairtkvvofcdpp7xx5jeoujq5e 247 29 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 247 30 . . . work_mairtkvvofcdpp7xx5jeoujq5e 248 1 Fluctuation fluctuation NN work_mairtkvvofcdpp7xx5jeoujq5e 248 2 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 248 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 248 4 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 248 5 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 248 6 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 248 7 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 248 8 be be VB work_mairtkvvofcdpp7xx5jeoujq5e 248 9 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 248 10 nearly nearly JJ work_mairtkvvofcdpp7xx5jeoujq5e 248 11 indicator indicator NN work_mairtkvvofcdpp7xx5jeoujq5e 248 12 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 248 13 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 248 14 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 248 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 248 16 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 248 17 loss loss NN work_mairtkvvofcdpp7xx5jeoujq5e 248 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 249 1 Discussion discussion NN work_mairtkvvofcdpp7xx5jeoujq5e 249 2 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 249 3 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 249 4 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 249 5 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 249 6 stage stage NN work_mairtkvvofcdpp7xx5jeoujq5e 249 7 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 249 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 249 9 AD AD NNP work_mairtkvvofcdpp7xx5jeoujq5e 249 10 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 249 11 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 249 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 249 13 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 249 14 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 249 15 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 249 16 influencing influence VBG work_mairtkvvofcdpp7xx5jeoujq5e 249 17 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 249 18   _SP work_mairtkvvofcdpp7xx5jeoujq5e 249 19 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 249 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 249 21 epi- epi- IN work_mairtkvvofcdpp7xx5jeoujq5e 249 22 transcriptomic transcriptomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 249 23 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 249 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 250 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 250 2 comparison comparison NN work_mairtkvvofcdpp7xx5jeoujq5e 250 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 250 4 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 250 5 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 250 6 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 250 7 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 250 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 250 9 eQTL eqtl NN work_mairtkvvofcdpp7xx5jeoujq5e 250 10 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 250 11 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 250 12 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 250 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 250 14 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 250 15 neurological neurological JJ work_mairtkvvofcdpp7xx5jeoujq5e 250 16 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 250 17 revealed reveal VBD work_mairtkvvofcdpp7xx5jeoujq5e 250 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 250 19 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 250 20 behind behind IN work_mairtkvvofcdpp7xx5jeoujq5e 250 21 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 250 22 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 250 23 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 250 24 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 250 25 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 250 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 251 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 251 2 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 251 3 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 251 4 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 251 5 disrupt disrupt VBP work_mairtkvvofcdpp7xx5jeoujq5e 251 6 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 251 7 different different JJ work_mairtkvvofcdpp7xx5jeoujq5e 251 8 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 251 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 251 10 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 251 11 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 251 12 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 251 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 251 14 crucial crucial JJ work_mairtkvvofcdpp7xx5jeoujq5e 251 15 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 251 16 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 251 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 251 18 including include VBG work_mairtkvvofcdpp7xx5jeoujq5e 251 19 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 251 20 vessel vessel NNP work_mairtkvvofcdpp7xx5jeoujq5e 251 21 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 251 22 , , , work_mairtkvvofcdpp7xx5jeoujq5e 251 23 apoptosis apoptosis NN work_mairtkvvofcdpp7xx5jeoujq5e 251 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 251 25 immune immune JJ work_mairtkvvofcdpp7xx5jeoujq5e 251 26 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 251 27 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 251 28 neurogenesis neurogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 251 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 252 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 252 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 252 3 literature literature NN work_mairtkvvofcdpp7xx5jeoujq5e 252 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 252 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 252 6 noticed notice VBD work_mairtkvvofcdpp7xx5jeoujq5e 252 7 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 252 8 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 252 9 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 252 10 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 252 11 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 252 12 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 252 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 252 14 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 252 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 253 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 253 2 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 253 3 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 253 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 253 5 our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 253 6 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 253 7 agree agree VBP work_mairtkvvofcdpp7xx5jeoujq5e 253 8 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 253 9 experimentally experimentally RB work_mairtkvvofcdpp7xx5jeoujq5e 253 10 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 253 11 observations32,48 observations32,48 NNP work_mairtkvvofcdpp7xx5jeoujq5e 253 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 254 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 254 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 254 3 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 254 4 NR3C1 NR3C1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 254 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 254 6 DNMT1 DNMT1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 254 7 impacted impact VBN work_mairtkvvofcdpp7xx5jeoujq5e 254 8 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 254 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 254 10 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 254 11 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 254 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 254 13 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 254 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 254 15 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 254 16 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 254 17 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 254 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 255 1 MAN1B1 man1b1 CD work_mairtkvvofcdpp7xx5jeoujq5e 255 2 associated associated NNP work_mairtkvvofcdpp7xx5jeoujq5e 255 3 novel novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 255 4 variant variant NN work_mairtkvvofcdpp7xx5jeoujq5e 255 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 255 6 rs28373932 rs28373932 NNP work_mairtkvvofcdpp7xx5jeoujq5e 255 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 255 8 disrupts disrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 255 9 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 255 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 255 11 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 255 12 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 255 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 255 14 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 255 15 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 255 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 256 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 256 2 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 256 3 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 256 4 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 256 5 inter- inter- XX work_mairtkvvofcdpp7xx5jeoujq5e 256 6 rupt rupt VB work_mairtkvvofcdpp7xx5jeoujq5e 256 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 256 8 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 256 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 256 10 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 256 11 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 256 12 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 256 13 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 256 14 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 256 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 256 16 CUX1 CUX1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 256 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 256 18 IRF7 IRF7 NNP work_mairtkvvofcdpp7xx5jeoujq5e 256 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 257 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 257 2 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 257 3 dysregulation dysregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 257 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 257 5 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 257 6 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 257 7 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 257 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 257 9 our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 257 10 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 257 11 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 257 12 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 257 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 258 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 258 2 our -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 258 3 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 258 4 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 258 5 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 258 6 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 258 7 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 258 8 captured capture VBN work_mairtkvvofcdpp7xx5jeoujq5e 258 9 134 134 CD work_mairtkvvofcdpp7xx5jeoujq5e 258 10 literature literature NN work_mairtkvvofcdpp7xx5jeoujq5e 258 11 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 258 12 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 258 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 258 14 114 114 CD work_mairtkvvofcdpp7xx5jeoujq5e 258 15 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 258 16 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 258 17 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 258 18 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 258 19 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 258 20 isoform isoform JJ work_mairtkvvofcdpp7xx5jeoujq5e 258 21 resolution resolution NN work_mairtkvvofcdpp7xx5jeoujq5e 258 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 259 1 Among among IN work_mairtkvvofcdpp7xx5jeoujq5e 259 2 them -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 259 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 259 4 25 25 CD work_mairtkvvofcdpp7xx5jeoujq5e 259 5 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 259 6 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 259 7 observed observe VBN work_mairtkvvofcdpp7xx5jeoujq5e 259 8 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 259 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 259 10 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 259 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 259 12 both both DT work_mairtkvvofcdpp7xx5jeoujq5e 259 13 tran- tran- NN work_mairtkvvofcdpp7xx5jeoujq5e 259 14 script script JJ work_mairtkvvofcdpp7xx5jeoujq5e 259 15 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 259 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 259 17 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 259 18 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 259 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 260 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 260 2 some some DT work_mairtkvvofcdpp7xx5jeoujq5e 260 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 260 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 260 5 cases case NNS work_mairtkvvofcdpp7xx5jeoujq5e 260 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 260 7 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 260 8 observed observe VBD work_mairtkvvofcdpp7xx5jeoujq5e 260 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 260 10 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 260 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 260 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 260 13 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 260 14 pro- pro- NN work_mairtkvvofcdpp7xx5jeoujq5e 260 15 portion portion NN work_mairtkvvofcdpp7xx5jeoujq5e 260 16 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 260 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 260 18 but but CC work_mairtkvvofcdpp7xx5jeoujq5e 260 19 there there EX work_mairtkvvofcdpp7xx5jeoujq5e 260 20 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 260 21 no no DT work_mairtkvvofcdpp7xx5jeoujq5e 260 22 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 260 23 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 260 24 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 260 25 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 260 26 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 260 27 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 260 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 261 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 261 2 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 261 3 be be VB work_mairtkvvofcdpp7xx5jeoujq5e 261 4 due due JJ work_mairtkvvofcdpp7xx5jeoujq5e 261 5 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 261 6 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 261 7 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 261 8 usage usage NN work_mairtkvvofcdpp7xx5jeoujq5e 261 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 262 1 Functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 262 2 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 262 3 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 262 4 revealed reveal VBD work_mairtkvvofcdpp7xx5jeoujq5e 262 5 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 262 6 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 262 7 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 262 8 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 262 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 262 10 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 262 11   _SP work_mairtkvvofcdpp7xx5jeoujq5e 262 12 related related JJ work_mairtkvvofcdpp7xx5jeoujq5e 262 13 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 262 14 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 262 15 vessel vessel NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 16 morphogenesis morphogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 17 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 18 DAB2IP DAB2IP NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 20 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 22 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 24 SEMA4A SEMA4A NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 26 RORA RORA NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 27 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 28 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 29 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 262 30 pressure pressure NN work_mairtkvvofcdpp7xx5jeoujq5e 262 31 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 262 32 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 33 CACNA1C CACNA1C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 34 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 35 CACNA2D CACNA2D NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 36 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 37 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 38 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 39 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 40 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 41 ZBTB7C ZBTB7C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 42 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 43 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 44 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 262 45 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 262 46 pathways pathway NNS work_mairtkvvofcdpp7xx5jeoujq5e 262 47 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 48 DAB2IP DAB2IP NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 49 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 50 PIK3R2 pik3r2 RB work_mairtkvvofcdpp7xx5jeoujq5e 262 51 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 52 MAP3K3 map3k3 ADD work_mairtkvvofcdpp7xx5jeoujq5e 262 53 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 54 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 55 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 262 56 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 262 57 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 262 58 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 262 59 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 60 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 61 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 62 ZBTB7C ZBTB7C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 63 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 64 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 65 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 262 66 gliogenesis gliogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 262 67 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 68 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 262 69 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 70 DAB2IP dab2ip NN work_mairtkvvofcdpp7xx5jeoujq5e 262 71 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 72 FPR3 FPR3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 73 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 74 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 75 insulin insulin NN work_mairtkvvofcdpp7xx5jeoujq5e 262 76 secretion secretion NN work_mairtkvvofcdpp7xx5jeoujq5e 262 77 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 78 CACNA1C CACNA1C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 79 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 80 CAPN10 CAPN10 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 81 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 82 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 83 mitochondria mitochondria NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 84 biogenesis biogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 262 85 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 262 86 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 262 87 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 88 MINOS1 MINOS1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 89 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 90 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 91 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 92 CCAR2 CCAR2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 93 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 94 DNAJC19 DNAJC19 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 95 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 96 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 97 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 98 TIMMDC1 timmdc1 CD work_mairtkvvofcdpp7xx5jeoujq5e 262 99 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 100 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 101 ROS ros NN work_mairtkvvofcdpp7xx5jeoujq5e 262 102 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 262 103 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 104 CYP2E1 cyp2e1 NN work_mairtkvvofcdpp7xx5jeoujq5e 262 105 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 106 EIF2A EIF2A NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 107 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 108 PRKRA PRKRA NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 109 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 110 SFTPA1 SFTPA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 111 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 112 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 113 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 114 ZBTB7C ZBTB7C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 115 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 116 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 117 lipid lipid NN work_mairtkvvofcdpp7xx5jeoujq5e 262 118 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 262 119 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 120 RORA RORA NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 121 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 122 DAB2IP dab2ip NN work_mairtkvvofcdpp7xx5jeoujq5e 262 123 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 124 PIK3R2 pik3r2 RB work_mairtkvvofcdpp7xx5jeoujq5e 262 125 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 126 SFTPA1 sftpa1 NN work_mairtkvvofcdpp7xx5jeoujq5e 262 127 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 128 SLC16A11 slc16a11 NN work_mairtkvvofcdpp7xx5jeoujq5e 262 129 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 130 ZBTB7C ZBTB7C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 131 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 132 NTSR1 NTSR1 '' work_mairtkvvofcdpp7xx5jeoujq5e 262 133 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 134 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 262 135 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 262 136 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 262 137 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 138 NTSR1 NTSR1 '' work_mairtkvvofcdpp7xx5jeoujq5e 262 139 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 140 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 262 141 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 142 ZBTB7C ZBTB7C NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 143 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 144 MEN1 MEN1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 145 , , , work_mairtkvvofcdpp7xx5jeoujq5e 262 146 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 262 147 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 262 148 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 262 149 dysregulated dysregulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 262 150 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 262 151 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 262 152 . . . work_mairtkvvofcdpp7xx5jeoujq5e 263 1 Tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 263 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 263 3 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 4 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 5 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 6 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 7 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 263 8 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 263 9 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 263 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 263 11 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 263 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 263 13 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 263 14 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 263 15 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 263 16 DVL3 DVL3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 263 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 263 18 NF1 NF1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 263 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 263 20 KCNMA1 kcnma1 FW work_mairtkvvofcdpp7xx5jeoujq5e 263 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 263 22 IFNAR2 ifnar2 NN work_mairtkvvofcdpp7xx5jeoujq5e 263 23 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 263 24 GRIK2 GRIK2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 263 25 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 263 26 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 263 27 highly highly RB work_mairtkvvofcdpp7xx5jeoujq5e 263 28 connected connected JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 29 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 263 30 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 31 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 263 32 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 263 33 act act VB work_mairtkvvofcdpp7xx5jeoujq5e 263 34 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 263 35 potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 263 36 hubs hub NNS work_mairtkvvofcdpp7xx5jeoujq5e 263 37 . . . work_mairtkvvofcdpp7xx5jeoujq5e 264 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 264 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 264 3 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 264 4 interac- interac- NNP work_mairtkvvofcdpp7xx5jeoujq5e 264 5 tion tion NN work_mairtkvvofcdpp7xx5jeoujq5e 264 6 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 264 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 264 8 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 264 9 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 264 10 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 264 11 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 264 12 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 264 13 regulated regulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 264 14 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 264 15 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 264 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 264 17 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 264 18 there there EX work_mairtkvvofcdpp7xx5jeoujq5e 264 19 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 264 20 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 264 21 intrinsic intrinsic JJ work_mairtkvvofcdpp7xx5jeoujq5e 264 22 func- func- JJ work_mairtkvvofcdpp7xx5jeoujq5e 264 23 tional tional JJ work_mairtkvvofcdpp7xx5jeoujq5e 264 24 relationship relationship NN work_mairtkvvofcdpp7xx5jeoujq5e 264 25 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 264 26 them -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 264 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 265 1 e.g. e.g. RB work_mairtkvvofcdpp7xx5jeoujq5e 265 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 265 3 Novel Novel NNP work_mairtkvvofcdpp7xx5jeoujq5e 265 4 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 265 5 ’s ’s , work_mairtkvvofcdpp7xx5jeoujq5e 265 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 265 7 SOD2 SOD2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 265 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 265 9 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 265 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 265 11 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 265 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 265 13 SFTAP1 sftap1 NN work_mairtkvvofcdpp7xx5jeoujq5e 265 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 265 15 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 265 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 265 17 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 265 18 involved involve VBN work_mairtkvvofcdpp7xx5jeoujq5e 265 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 265 20 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 265 21 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 265 22 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 265 23 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 265 24 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 265 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 266 1 SOD2 sod2 JJ work_mairtkvvofcdpp7xx5jeoujq5e 266 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 266 3 regulated regulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 266 4 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 266 5 NFKB1 nfkb1 NN work_mairtkvvofcdpp7xx5jeoujq5e 266 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 266 7 FOXA2 FOXA2 NNS work_mairtkvvofcdpp7xx5jeoujq5e 266 8 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 266 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 267 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 267 2 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 267 3 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 267 4 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 267 5 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 267 6 0Scientific 0scientific NN work_mairtkvvofcdpp7xx5jeoujq5e 267 7 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 267 8 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 267 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 267 10 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 267 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 267 12 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 267 13 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 267 14 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 267 15 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ , work_mairtkvvofcdpp7xx5jeoujq5e 267 16 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 267 17 influenced influence VBN work_mairtkvvofcdpp7xx5jeoujq5e 267 18 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 267 19 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 267 20 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 267 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 268 1 Novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 268 2 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 268 3 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 268 4 influenced influence VBN work_mairtkvvofcdpp7xx5jeoujq5e 268 5 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 268 6 NCOR1 ncor1 JJ work_mairtkvvofcdpp7xx5jeoujq5e 268 7 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 268 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 268 9 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 268 10 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 268 11 FTX FTX NNP work_mairtkvvofcdpp7xx5jeoujq5e 268 12 disrupts disrupt VBZ work_mairtkvvofcdpp7xx5jeoujq5e 268 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 268 14 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 268 15 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 268 16 NCOR1 ncor1 NN work_mairtkvvofcdpp7xx5jeoujq5e 268 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 269 1 POSTN POSTN NNP work_mairtkvvofcdpp7xx5jeoujq5e 269 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 269 3 SFTAP1 sftap1 NN work_mairtkvvofcdpp7xx5jeoujq5e 269 4 activated activate VBN work_mairtkvvofcdpp7xx5jeoujq5e 269 5 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 269 6 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 269 7 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 269 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 269 9 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 269 10 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 269 11 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 269 12 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 269 13 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 269 14 KCNMA1 KCNMA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 269 15 variant variant NNP work_mairtkvvofcdpp7xx5jeoujq5e 269 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 270 1 LEPR LEPR NNP work_mairtkvvofcdpp7xx5jeoujq5e 270 2 activated activate VBN work_mairtkvvofcdpp7xx5jeoujq5e 270 3 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 270 4 JUN JUN NNP work_mairtkvvofcdpp7xx5jeoujq5e 270 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 270 6 TAL1 TAL1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 270 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 270 8 both both DT work_mairtkvvofcdpp7xx5jeoujq5e 270 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 270 10 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 270 11 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 270 12   _SP work_mairtkvvofcdpp7xx5jeoujq5e 270 13 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 270 14 influenced influence VBN work_mairtkvvofcdpp7xx5jeoujq5e 270 15 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 270 16 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 270 17 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 270 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 271 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 271 2 summary summary NN work_mairtkvvofcdpp7xx5jeoujq5e 271 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 271 4 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 271 5 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 271 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 271 7 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 271 8 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 271 9 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 271 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 271 11 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 271 12 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 271 13 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 271 14 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 271 15 affect affect VB work_mairtkvvofcdpp7xx5jeoujq5e 271 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 271 17 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 271 18 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 271 19 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 271 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 272 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 272 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 272 3 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 272 4 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 272 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 272 6 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 272 7 deciphered decipher VBD work_mairtkvvofcdpp7xx5jeoujq5e 272 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 272 9 relationship relationship NN work_mairtkvvofcdpp7xx5jeoujq5e 272 10 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 272 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 272 12 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 272 13 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 272 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 272 15 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 272 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 273 1 Hence hence RB work_mairtkvvofcdpp7xx5jeoujq5e 273 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 273 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 273 4 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 273 5 decodes decode VBZ work_mairtkvvofcdpp7xx5jeoujq5e 273 6 how how WRB work_mairtkvvofcdpp7xx5jeoujq5e 273 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 273 8 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 273 9 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 273 10 disrupt disrupt VB work_mairtkvvofcdpp7xx5jeoujq5e 273 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 273 12 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 273 13 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 273 14 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 273 15 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 273 16 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 273 17 dysregulates dysregulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 273 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 273 19 downstream downstream JJ work_mairtkvvofcdpp7xx5jeoujq5e 273 20 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 273 21 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 273 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 274 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 274 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 274 3 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 274 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 274 5 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 274 6 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 274 7 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 274 8 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 274 9 neuron neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 274 10 provide provide VBP work_mairtkvvofcdpp7xx5jeoujq5e 274 11 deep deep JJ work_mairtkvvofcdpp7xx5jeoujq5e 274 12 insights insight NNS work_mairtkvvofcdpp7xx5jeoujq5e 274 13 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 274 14 understand understand VB work_mairtkvvofcdpp7xx5jeoujq5e 274 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 274 16 underlying underlie VBG work_mairtkvvofcdpp7xx5jeoujq5e 274 17 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 274 18 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 274 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 274 20 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 274 21 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 274 22 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 274 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 274 24 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 274 25 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 274 26 populations population NNS work_mairtkvvofcdpp7xx5jeoujq5e 274 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 275 1 From from IN work_mairtkvvofcdpp7xx5jeoujq5e 275 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 275 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 275 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 275 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 275 6 propose propose VBP work_mairtkvvofcdpp7xx5jeoujq5e 275 7 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 275 8 restoration restoration NN work_mairtkvvofcdpp7xx5jeoujq5e 275 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 275 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 275 11 BBB BBB NNP work_mairtkvvofcdpp7xx5jeoujq5e 275 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 275 13 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 275 14 integrity integrity NN work_mairtkvvofcdpp7xx5jeoujq5e 275 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 275 16 glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 275 17 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 275 18 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 275 19 rescue rescue VB work_mairtkvvofcdpp7xx5jeoujq5e 275 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 275 21 surviving survive VBG work_mairtkvvofcdpp7xx5jeoujq5e 275 22 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 275 23 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 275 24 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 275 25 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 275 26 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 275 27 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 275 28 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 275 29 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 275 30 death death NN work_mairtkvvofcdpp7xx5jeoujq5e 275 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 276 1 Examining examine VBG work_mairtkvvofcdpp7xx5jeoujq5e 276 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 276 3 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 276 4 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 276 5 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 276 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 276 7 control control NN work_mairtkvvofcdpp7xx5jeoujq5e 276 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 276 9 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 276 10 samples sample NNS work_mairtkvvofcdpp7xx5jeoujq5e 276 11 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 276 12 provide provide VB work_mairtkvvofcdpp7xx5jeoujq5e 276 13 additional additional JJ work_mairtkvvofcdpp7xx5jeoujq5e 276 14 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 276 15 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 276 16 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 276 17 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 276 18 before before IN work_mairtkvvofcdpp7xx5jeoujq5e 276 19 damaging damage VBG work_mairtkvvofcdpp7xx5jeoujq5e 276 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 276 21 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 276 22 demanding demand VBG work_mairtkvvofcdpp7xx5jeoujq5e 276 23 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 276 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 277 1 Extending extend VBG work_mairtkvvofcdpp7xx5jeoujq5e 277 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 277 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 277 4 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 277 5 single single JJ work_mairtkvvofcdpp7xx5jeoujq5e 277 6 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 277 7 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 277 8 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 277 9 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 277 10 shed shed VB work_mairtkvvofcdpp7xx5jeoujq5e 277 11 further further JJ work_mairtkvvofcdpp7xx5jeoujq5e 277 12 light light NN work_mairtkvvofcdpp7xx5jeoujq5e 277 13 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 277 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 277 15 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 277 16 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 277 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 277 18 neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 277 19 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 277 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 278 1 conclusion conclusion NN work_mairtkvvofcdpp7xx5jeoujq5e 278 2 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 278 3 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 278 4 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 278 5 need need VBP work_mairtkvvofcdpp7xx5jeoujq5e 278 6 huge huge JJ work_mairtkvvofcdpp7xx5jeoujq5e 278 7 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 278 8 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 278 9 its -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 278 10 functionality functionality NN work_mairtkvvofcdpp7xx5jeoujq5e 278 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 278 12 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 278 13 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 278 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 278 15 selectively selectively RB work_mairtkvvofcdpp7xx5jeoujq5e 278 16 vulnerable vulnerable JJ work_mairtkvvofcdpp7xx5jeoujq5e 278 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 278 18 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 278 19 pathogenesis pathogenesis NN work_mairtkvvofcdpp7xx5jeoujq5e 278 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 279 1 However however RB work_mairtkvvofcdpp7xx5jeoujq5e 279 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 279 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 279 4 underlying underlying JJ work_mairtkvvofcdpp7xx5jeoujq5e 279 5 cause cause NN work_mairtkvvofcdpp7xx5jeoujq5e 279 6 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 279 7 metabolic metabolic JJ work_mairtkvvofcdpp7xx5jeoujq5e 279 8 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 279 9 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 279 10 still still RB work_mairtkvvofcdpp7xx5jeoujq5e 279 11 unknown unknown JJ work_mairtkvvofcdpp7xx5jeoujq5e 279 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 280 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 280 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 280 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 280 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 280 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 280 6 per- per- RB work_mairtkvvofcdpp7xx5jeoujq5e 280 7 formed form VBD work_mairtkvvofcdpp7xx5jeoujq5e 280 8 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 280 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 280 10 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 280 11 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 280 12 profile profile NN work_mairtkvvofcdpp7xx5jeoujq5e 280 13 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 280 14 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 280 15 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 280 16 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 280 17 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 280 18 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 280 19 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 280 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 281 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 281 2 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 281 3 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 281 4 showed show VBD work_mairtkvvofcdpp7xx5jeoujq5e 281 5 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 281 6 most most JJS work_mairtkvvofcdpp7xx5jeoujq5e 281 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 281 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 281 9 GWAS gwas NN work_mairtkvvofcdpp7xx5jeoujq5e 281 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 281 11 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 281 12 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 281 13 disrupt disrupt VBP work_mairtkvvofcdpp7xx5jeoujq5e 281 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 281 15 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 281 16 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 281 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 282 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 282 2 identified identify VBD work_mairtkvvofcdpp7xx5jeoujq5e 282 3 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 282 4 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 282 5 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 282 6 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 282 7 transcript transcript JJ work_mairtkvvofcdpp7xx5jeoujq5e 282 8 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 282 9 resolution resolution NN work_mairtkvvofcdpp7xx5jeoujq5e 282 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 283 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 283 2 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 283 3 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 283 4 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 283 5 depicts depict VBZ work_mairtkvvofcdpp7xx5jeoujq5e 283 6 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 283 7 there there EX work_mairtkvvofcdpp7xx5jeoujq5e 283 8 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 283 9 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 283 10 intrinsic intrinsic JJ work_mairtkvvofcdpp7xx5jeoujq5e 283 11 rela- rela- JJ work_mairtkvvofcdpp7xx5jeoujq5e 283 12 tionship tionship NN work_mairtkvvofcdpp7xx5jeoujq5e 283 13 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 283 14 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 283 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 283 16 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 283 17 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 283 18 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 283 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 284 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 284 2 large large JJ work_mairtkvvofcdpp7xx5jeoujq5e 284 3 scale scale NN work_mairtkvvofcdpp7xx5jeoujq5e 284 4 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 284 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 284 6 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 284 7 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 284 8 Figure Figure NNP work_mairtkvvofcdpp7xx5jeoujq5e 284 9 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 284 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 285 1 Proposed propose VBN work_mairtkvvofcdpp7xx5jeoujq5e 285 2 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 285 3 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 285 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 285 5 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 285 6 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 285 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 285 8 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 285 9 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 285 10 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 285 11 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 285 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 286 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 286 2 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 286 3 1Scientific 1scientific CD work_mairtkvvofcdpp7xx5jeoujq5e 286 4 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 286 5 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 286 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 286 7 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 286 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 286 9 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 286 10 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 286 11 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 286 12 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NNP work_mairtkvvofcdpp7xx5jeoujq5e 286 13 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 286 14 reveals reveal VBZ work_mairtkvvofcdpp7xx5jeoujq5e 286 15 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 286 16 during during IN work_mairtkvvofcdpp7xx5jeoujq5e 286 17 hypoxic hypoxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 286 18 condition condition NN work_mairtkvvofcdpp7xx5jeoujq5e 286 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 286 20 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 286 21 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 286 22 release release VBP work_mairtkvvofcdpp7xx5jeoujq5e 286 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 286 24 inflammatory inflammatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 286 25 cytokines cytokine NNS work_mairtkvvofcdpp7xx5jeoujq5e 286 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 286 27 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 286 28 can can MD work_mairtkvvofcdpp7xx5jeoujq5e 286 29 be be VB work_mairtkvvofcdpp7xx5jeoujq5e 286 30 assessed assess VBN work_mairtkvvofcdpp7xx5jeoujq5e 286 31 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 286 32 astrocytes astrocytes NNPS work_mairtkvvofcdpp7xx5jeoujq5e 286 33 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 286 34 microglia microglia NNP work_mairtkvvofcdpp7xx5jeoujq5e 286 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 287 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 287 2 increased increase VBN work_mairtkvvofcdpp7xx5jeoujq5e 287 3 cytokine cytokine NN work_mairtkvvofcdpp7xx5jeoujq5e 287 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 287 5 ROS ros JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 6 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 287 7 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 287 8 affect affect VB work_mairtkvvofcdpp7xx5jeoujq5e 287 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 287 10 structural structural JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 11 integ- integ- JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 12 rity rity NN work_mairtkvvofcdpp7xx5jeoujq5e 287 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 287 14 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 287 16 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 17 smooth smooth JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 18 muscle muscle NN work_mairtkvvofcdpp7xx5jeoujq5e 287 19 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 287 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 287 21 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 287 22 eventually eventually RB work_mairtkvvofcdpp7xx5jeoujq5e 287 23 increase increase VBP work_mairtkvvofcdpp7xx5jeoujq5e 287 24 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 287 25 permeability permeability NN work_mairtkvvofcdpp7xx5jeoujq5e 287 26 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 287 27 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 287 28 BBB BBB NNP work_mairtkvvofcdpp7xx5jeoujq5e 287 29 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 287 30 allows allow VBZ work_mairtkvvofcdpp7xx5jeoujq5e 287 31 toxic toxic JJ work_mairtkvvofcdpp7xx5jeoujq5e 287 32 invaders invader NNS work_mairtkvvofcdpp7xx5jeoujq5e 287 33 inside inside IN work_mairtkvvofcdpp7xx5jeoujq5e 287 34 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 287 35 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 287 36 . . . work_mairtkvvofcdpp7xx5jeoujq5e 288 1 These these DT work_mairtkvvofcdpp7xx5jeoujq5e 288 2 events event NNS work_mairtkvvofcdpp7xx5jeoujq5e 288 3 further further RB work_mairtkvvofcdpp7xx5jeoujq5e 288 4 enhance enhance VB work_mairtkvvofcdpp7xx5jeoujq5e 288 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 288 6 inflammatory inflammatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 288 7 response response NN work_mairtkvvofcdpp7xx5jeoujq5e 288 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 288 9 it -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 288 10 impairs impair VBZ work_mairtkvvofcdpp7xx5jeoujq5e 288 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 288 12 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 288 13 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 288 14 pressure pressure NN work_mairtkvvofcdpp7xx5jeoujq5e 288 15 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 288 16 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 288 17 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 288 18 reduction reduction NN work_mairtkvvofcdpp7xx5jeoujq5e 288 19 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 288 20 regional regional JJ work_mairtkvvofcdpp7xx5jeoujq5e 288 21 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 288 22 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 288 23 flow flow NN work_mairtkvvofcdpp7xx5jeoujq5e 288 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 289 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 289 2 communication communication NN work_mairtkvvofcdpp7xx5jeoujq5e 289 3 loss loss NN work_mairtkvvofcdpp7xx5jeoujq5e 289 4 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 289 5 glia glia NN work_mairtkvvofcdpp7xx5jeoujq5e 289 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 289 7 vasculature vasculature NN work_mairtkvvofcdpp7xx5jeoujq5e 289 8 influences influence NNS work_mairtkvvofcdpp7xx5jeoujq5e 289 9 insulin insulin VBP work_mairtkvvofcdpp7xx5jeoujq5e 289 10 resistance resistance NN work_mairtkvvofcdpp7xx5jeoujq5e 289 11 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 289 12 additionally additionally RB work_mairtkvvofcdpp7xx5jeoujq5e 289 13 induces induce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 289 14 inflammation inflammation NN work_mairtkvvofcdpp7xx5jeoujq5e 289 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 289 16 reduces reduce VBZ work_mairtkvvofcdpp7xx5jeoujq5e 289 17 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 289 18 glucose glucose NN work_mairtkvvofcdpp7xx5jeoujq5e 289 19 uptake uptake NN work_mairtkvvofcdpp7xx5jeoujq5e 289 20 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 289 21 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 289 22 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 289 23 glucose glucose VB work_mairtkvvofcdpp7xx5jeoujq5e 289 24 hypo hypo NNP work_mairtkvvofcdpp7xx5jeoujq5e 289 25 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 289 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 290 1 However however RB work_mairtkvvofcdpp7xx5jeoujq5e 290 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 290 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 290 4 reduced reduce VBN work_mairtkvvofcdpp7xx5jeoujq5e 290 5 levels level NNS work_mairtkvvofcdpp7xx5jeoujq5e 290 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 290 7 glucose glucose NN work_mairtkvvofcdpp7xx5jeoujq5e 290 8 influence influence VBP work_mairtkvvofcdpp7xx5jeoujq5e 290 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 290 10 lactate lactate JJ work_mairtkvvofcdpp7xx5jeoujq5e 290 11 shuttle shuttle NN work_mairtkvvofcdpp7xx5jeoujq5e 290 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 290 13 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 290 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 290 15 turn turn NN work_mairtkvvofcdpp7xx5jeoujq5e 290 16 resulted result VBD work_mairtkvvofcdpp7xx5jeoujq5e 290 17 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 290 18 diminished diminished JJ work_mairtkvvofcdpp7xx5jeoujq5e 290 19 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 290 20 phosphorylation phosphorylation NN work_mairtkvvofcdpp7xx5jeoujq5e 290 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 291 1 All all PDT work_mairtkvvofcdpp7xx5jeoujq5e 291 2 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 291 3 above above JJ work_mairtkvvofcdpp7xx5jeoujq5e 291 4 events event NNS work_mairtkvvofcdpp7xx5jeoujq5e 291 5 impose impose VBP work_mairtkvvofcdpp7xx5jeoujq5e 291 6 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 291 7 greater great JJR work_mairtkvvofcdpp7xx5jeoujq5e 291 8 meta- meta- JJ work_mairtkvvofcdpp7xx5jeoujq5e 291 9 bolic bolic NN work_mairtkvvofcdpp7xx5jeoujq5e 291 10 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 291 11 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 291 12 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 291 13 neural neural JJ work_mairtkvvofcdpp7xx5jeoujq5e 291 14 population population NN work_mairtkvvofcdpp7xx5jeoujq5e 291 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 292 1 Along along IN work_mairtkvvofcdpp7xx5jeoujq5e 292 2 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 292 3 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 292 4 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 292 5 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 292 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 292 7 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 292 8 additional additional JJ work_mairtkvvofcdpp7xx5jeoujq5e 292 9 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 292 10 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 292 11 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 292 12 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 292 13 aggrega- aggrega- NN work_mairtkvvofcdpp7xx5jeoujq5e 292 14 tion tion NN work_mairtkvvofcdpp7xx5jeoujq5e 292 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 292 16 genetic genetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 292 17 risk risk NN work_mairtkvvofcdpp7xx5jeoujq5e 292 18 factors factor NNS work_mairtkvvofcdpp7xx5jeoujq5e 292 19 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 292 20 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 292 21 load load NN work_mairtkvvofcdpp7xx5jeoujq5e 292 22 expands expand VBZ work_mairtkvvofcdpp7xx5jeoujq5e 292 23 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 292 24 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 292 25 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 292 26 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 292 27 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 292 28 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 292 29 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 292 30 higher high JJR work_mairtkvvofcdpp7xx5jeoujq5e 292 31 rate rate NN work_mairtkvvofcdpp7xx5jeoujq5e 292 32 compared compare VBN work_mairtkvvofcdpp7xx5jeoujq5e 292 33 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 292 34 others other NNS work_mairtkvvofcdpp7xx5jeoujq5e 292 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 293 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 293 2 shows show VBZ work_mairtkvvofcdpp7xx5jeoujq5e 293 3 imbalance imbalance NN work_mairtkvvofcdpp7xx5jeoujq5e 293 4 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 293 5 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 293 6 supply supply NN work_mairtkvvofcdpp7xx5jeoujq5e 293 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 293 8 demand demand NN work_mairtkvvofcdpp7xx5jeoujq5e 293 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 293 10 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 293 11 drastically drastically RB work_mairtkvvofcdpp7xx5jeoujq5e 293 12 hampers hamper VBZ work_mairtkvvofcdpp7xx5jeoujq5e 293 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 293 14 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 293 15 craving craving NN work_mairtkvvofcdpp7xx5jeoujq5e 293 16 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 293 17 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 293 18 leads lead VBZ work_mairtkvvofcdpp7xx5jeoujq5e 293 19 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 293 20 selective selective JJ work_mairtkvvofcdpp7xx5jeoujq5e 293 21 neurodegeneration neurodegeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 293 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 294 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 294 2 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 294 3 suggests suggest VBZ work_mairtkvvofcdpp7xx5jeoujq5e 294 4 that that IN work_mairtkvvofcdpp7xx5jeoujq5e 294 5 constant constant JJ work_mairtkvvofcdpp7xx5jeoujq5e 294 6 monitoring monitoring NN work_mairtkvvofcdpp7xx5jeoujq5e 294 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 294 8 restoration restoration NN work_mairtkvvofcdpp7xx5jeoujq5e 294 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 294 10 vasculature vasculature NN work_mairtkvvofcdpp7xx5jeoujq5e 294 11 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 294 12 secure secure VB work_mairtkvvofcdpp7xx5jeoujq5e 294 13 these these DT work_mairtkvvofcdpp7xx5jeoujq5e 294 14 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 294 15 before before IN work_mairtkvvofcdpp7xx5jeoujq5e 294 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 294 17 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 294 18 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 294 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 295 1 Methods method NNS work_mairtkvvofcdpp7xx5jeoujq5e 295 2 Variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 295 3 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 295 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 296 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 296 2 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 296 3 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 296 4 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 296 5 samples sample NNS work_mairtkvvofcdpp7xx5jeoujq5e 296 6 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 296 7 retrieved retrieve VBN work_mairtkvvofcdpp7xx5jeoujq5e 296 8 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 296 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 296 10 SRA SRA NNP work_mairtkvvofcdpp7xx5jeoujq5e 296 11 database database NN work_mairtkvvofcdpp7xx5jeoujq5e 296 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 296 13 reads read NNS work_mairtkvvofcdpp7xx5jeoujq5e 296 14 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 296 15 preproc- preproc- VBN work_mairtkvvofcdpp7xx5jeoujq5e 296 16 essed esse VBN work_mairtkvvofcdpp7xx5jeoujq5e 296 17 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 296 18 remove remove VB work_mairtkvvofcdpp7xx5jeoujq5e 296 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 296 20 adapter adapter NN work_mairtkvvofcdpp7xx5jeoujq5e 296 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 296 22 hexamer hexamer NN work_mairtkvvofcdpp7xx5jeoujq5e 296 23 contamination contamination NN work_mairtkvvofcdpp7xx5jeoujq5e 296 24 , , , work_mairtkvvofcdpp7xx5jeoujq5e 296 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 296 26 low low JJ work_mairtkvvofcdpp7xx5jeoujq5e 296 27 Phred phred JJ work_mairtkvvofcdpp7xx5jeoujq5e 296 28 quality quality NN work_mairtkvvofcdpp7xx5jeoujq5e 296 29 reads read VBZ work_mairtkvvofcdpp7xx5jeoujq5e 296 30 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 296 31 Q Q NNP work_mairtkvvofcdpp7xx5jeoujq5e 296 32 < < XX work_mairtkvvofcdpp7xx5jeoujq5e 296 33 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 296 34 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 296 35 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 296 36 Trim Trim NNP work_mairtkvvofcdpp7xx5jeoujq5e 296 37 Galore49 Galore49 NNP work_mairtkvvofcdpp7xx5jeoujq5e 296 38 . . . work_mairtkvvofcdpp7xx5jeoujq5e 297 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 297 2 preprocessed preprocessed JJ work_mairtkvvofcdpp7xx5jeoujq5e 297 3 FASTQ FASTQ NNP work_mairtkvvofcdpp7xx5jeoujq5e 297 4 files file NNS work_mairtkvvofcdpp7xx5jeoujq5e 297 5 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 297 6 subjected subject VBN work_mairtkvvofcdpp7xx5jeoujq5e 297 7 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 297 8 spliced spliced JJ work_mairtkvvofcdpp7xx5jeoujq5e 297 9 alignment alignment NN work_mairtkvvofcdpp7xx5jeoujq5e 297 10 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 297 11 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 297 12 hg38 hg38 NNP work_mairtkvvofcdpp7xx5jeoujq5e 297 13 genomic genomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 297 14 annotation annotation NN work_mairtkvvofcdpp7xx5jeoujq5e 297 15 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 297 16 STAR2.650 star2.650 NN work_mairtkvvofcdpp7xx5jeoujq5e 297 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 298 1 Details detail NNS work_mairtkvvofcdpp7xx5jeoujq5e 298 2 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 298 3 samples sample NNS work_mairtkvvofcdpp7xx5jeoujq5e 298 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 298 5 processed process VBN work_mairtkvvofcdpp7xx5jeoujq5e 298 6 reads read NNS work_mairtkvvofcdpp7xx5jeoujq5e 298 7 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 298 8 tabulated tabulate VBN work_mairtkvvofcdpp7xx5jeoujq5e 298 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 298 10 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 298 11 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 298 12   _SP work_mairtkvvofcdpp7xx5jeoujq5e 298 13 S1 S1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 298 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 299 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 299 2 duplicates duplicate NNS work_mairtkvvofcdpp7xx5jeoujq5e 299 3 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 299 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 299 5 aligned align VBN work_mairtkvvofcdpp7xx5jeoujq5e 299 6 files file NNS work_mairtkvvofcdpp7xx5jeoujq5e 299 7 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 299 8 discarded discard VBN work_mairtkvvofcdpp7xx5jeoujq5e 299 9 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 299 10 Picard Picard NNP work_mairtkvvofcdpp7xx5jeoujq5e 299 11 Tools Tools NNP work_mairtkvvofcdpp7xx5jeoujq5e 299 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 299 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 299 14 aligned align VBN work_mairtkvvofcdpp7xx5jeoujq5e 299 15 files file NNS work_mairtkvvofcdpp7xx5jeoujq5e 299 16 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 299 17 subjected subject VBN work_mairtkvvofcdpp7xx5jeoujq5e 299 18 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 299 19 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 299 20 calling calling NN work_mairtkvvofcdpp7xx5jeoujq5e 299 21 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 299 22 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 299 23 GATK51 GATK51 NNP work_mairtkvvofcdpp7xx5jeoujq5e 299 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 300 1 For for IN work_mairtkvvofcdpp7xx5jeoujq5e 300 2 evaluating evaluate VBG work_mairtkvvofcdpp7xx5jeoujq5e 300 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 300 4 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 300 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 300 6 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 300 7 used use VBD work_mairtkvvofcdpp7xx5jeoujq5e 300 8 stringent stringent JJ work_mairtkvvofcdpp7xx5jeoujq5e 300 9 filtering filter VBG work_mairtkvvofcdpp7xx5jeoujq5e 300 10 criteria criterion NNS work_mairtkvvofcdpp7xx5jeoujq5e 300 11 such such JJ work_mairtkvvofcdpp7xx5jeoujq5e 300 12 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 300 13 minimum minimum JJ work_mairtkvvofcdpp7xx5jeoujq5e 300 14 read read NN work_mairtkvvofcdpp7xx5jeoujq5e 300 15 depth depth NN work_mairtkvvofcdpp7xx5jeoujq5e 300 16 > > XX work_mairtkvvofcdpp7xx5jeoujq5e 300 17 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 300 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 300 19 Phred phre VBN work_mairtkvvofcdpp7xx5jeoujq5e 300 20 score score NN work_mairtkvvofcdpp7xx5jeoujq5e 300 21 > > XX work_mairtkvvofcdpp7xx5jeoujq5e 300 22 30 30 CD work_mairtkvvofcdpp7xx5jeoujq5e 300 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 300 24 Ts Ts NNP work_mairtkvvofcdpp7xx5jeoujq5e 300 25 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 300 26 Tv Tv NNP work_mairtkvvofcdpp7xx5jeoujq5e 300 27 > > NN work_mairtkvvofcdpp7xx5jeoujq5e 300 28 2.5 2.5 CD work_mairtkvvofcdpp7xx5jeoujq5e 300 29 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 300 30 Padj Padj NNP work_mairtkvvofcdpp7xx5jeoujq5e 300 31 value value NN work_mairtkvvofcdpp7xx5jeoujq5e 300 32 < < XX work_mairtkvvofcdpp7xx5jeoujq5e 300 33 0.05 0.05 CD work_mairtkvvofcdpp7xx5jeoujq5e 300 34 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 300 35 order order NN work_mairtkvvofcdpp7xx5jeoujq5e 300 36 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 300 37 avoid avoid VB work_mairtkvvofcdpp7xx5jeoujq5e 300 38 false false JJ work_mairtkvvofcdpp7xx5jeoujq5e 300 39 positive positive JJ work_mairtkvvofcdpp7xx5jeoujq5e 300 40 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 300 41 call52 call52 NN work_mairtkvvofcdpp7xx5jeoujq5e 300 42 . . . work_mairtkvvofcdpp7xx5jeoujq5e 301 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 301 2 compared compare VBD work_mairtkvvofcdpp7xx5jeoujq5e 301 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 301 4 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 301 5 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 301 6 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 301 7 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 301 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 301 9 eQTL eqtl NN work_mairtkvvofcdpp7xx5jeoujq5e 301 10 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 301 11 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 301 12 various various JJ work_mairtkvvofcdpp7xx5jeoujq5e 301 13 neurological neurological JJ work_mairtkvvofcdpp7xx5jeoujq5e 301 14 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 301 15 listed list VBN work_mairtkvvofcdpp7xx5jeoujq5e 301 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 301 17 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 301 18 Table Table NNP work_mairtkvvofcdpp7xx5jeoujq5e 301 19   _SP work_mairtkvvofcdpp7xx5jeoujq5e 301 20 S2 s2 NN work_mairtkvvofcdpp7xx5jeoujq5e 301 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 302 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 302 2 VGs vg NNS work_mairtkvvofcdpp7xx5jeoujq5e 302 3 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 302 4 compared compare VBN work_mairtkvvofcdpp7xx5jeoujq5e 302 5 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 302 6 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 302 7 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 302 8 profiles profile NNS work_mairtkvvofcdpp7xx5jeoujq5e 302 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 302 10 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 302 11 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 302 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 302 13 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 302 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 302 15 obtained obtain VBN work_mairtkvvofcdpp7xx5jeoujq5e 302 16 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 302 17 various various JJ work_mairtkvvofcdpp7xx5jeoujq5e 302 18 literature literature NN work_mairtkvvofcdpp7xx5jeoujq5e 302 19 sources source NNS work_mairtkvvofcdpp7xx5jeoujq5e 302 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 302 21 Gene Gene NNP work_mairtkvvofcdpp7xx5jeoujq5e 302 22 Expression Expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 302 23 Omnibus Omnibus NNP work_mairtkvvofcdpp7xx5jeoujq5e 302 24 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 302 25 GEO GEO NNP work_mairtkvvofcdpp7xx5jeoujq5e 302 26 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 302 27 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 302 28 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 302 29 HumanMine HumanMine NNP work_mairtkvvofcdpp7xx5jeoujq5e 302 30 database53 database53 VBZ work_mairtkvvofcdpp7xx5jeoujq5e 302 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 303 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 303 2 comparison comparison NN work_mairtkvvofcdpp7xx5jeoujq5e 303 3 also also RB work_mairtkvvofcdpp7xx5jeoujq5e 303 4 assists assist VBZ work_mairtkvvofcdpp7xx5jeoujq5e 303 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 303 6 confirming confirm VBG work_mairtkvvofcdpp7xx5jeoujq5e 303 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 303 8 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 303 9 already already RB work_mairtkvvofcdpp7xx5jeoujq5e 303 10 reported report VBN work_mairtkvvofcdpp7xx5jeoujq5e 303 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 303 12 GWAS GWAS NNP work_mairtkvvofcdpp7xx5jeoujq5e 303 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 303 14 any any DT work_mairtkvvofcdpp7xx5jeoujq5e 303 15 novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 303 16 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 303 17 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 303 18 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 303 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 303 20 current current JJ work_mairtkvvofcdpp7xx5jeoujq5e 303 21 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 303 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 304 1 GWAS gwa VBN work_mairtkvvofcdpp7xx5jeoujq5e 304 2 provide provide VBP work_mairtkvvofcdpp7xx5jeoujq5e 304 3 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 304 4 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 304 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 304 6 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 304 7 predominantly predominantly RB work_mairtkvvofcdpp7xx5jeoujq5e 304 8 present present JJ work_mairtkvvofcdpp7xx5jeoujq5e 304 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 304 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 304 11 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 304 12 population population NN work_mairtkvvofcdpp7xx5jeoujq5e 304 13 but but CC work_mairtkvvofcdpp7xx5jeoujq5e 304 14 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 304 15 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 304 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 304 17 effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 304 18 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 304 19 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 304 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 305 1 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 305 2 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 305 3 work work NN work_mairtkvvofcdpp7xx5jeoujq5e 305 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 305 5 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 305 6 predict predict VBP work_mairtkvvofcdpp7xx5jeoujq5e 305 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 305 8 effects effect NNS work_mairtkvvofcdpp7xx5jeoujq5e 305 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 305 10 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 305 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 305 12 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 305 13 binding binding JJ work_mairtkvvofcdpp7xx5jeoujq5e 305 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 305 15 epi epi JJ work_mairtkvvofcdpp7xx5jeoujq5e 305 16 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 305 17 transcriptomic transcriptomic JJ work_mairtkvvofcdpp7xx5jeoujq5e 305 18 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 305 19 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 305 20 HaploReg54 HaploReg54 NNP work_mairtkvvofcdpp7xx5jeoujq5e 305 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 305 22 SNP2TFBS55 snp2tfbs55 NN work_mairtkvvofcdpp7xx5jeoujq5e 305 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 305 24 GWAS4D56 gwas4d56 CD work_mairtkvvofcdpp7xx5jeoujq5e 305 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 305 26 RMBase57 RMBase57 NNP work_mairtkvvofcdpp7xx5jeoujq5e 305 27 data- data- JJ work_mairtkvvofcdpp7xx5jeoujq5e 305 28 bases basis NNS work_mairtkvvofcdpp7xx5jeoujq5e 305 29 as as RB work_mairtkvvofcdpp7xx5jeoujq5e 305 30 well well RB work_mairtkvvofcdpp7xx5jeoujq5e 305 31 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 305 32 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 305 33 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 305 34 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 305 35 deep deep JJ work_mairtkvvofcdpp7xx5jeoujq5e 305 36 learning learning NN work_mairtkvvofcdpp7xx5jeoujq5e 305 37 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 305 38 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 305 39 xQTL xQTL NNP work_mairtkvvofcdpp7xx5jeoujq5e 305 40 analysis58–60 analysis58–60 NNP work_mairtkvvofcdpp7xx5jeoujq5e 305 41 . . . work_mairtkvvofcdpp7xx5jeoujq5e 306 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 306 2 xQTL xqtl NN work_mairtkvvofcdpp7xx5jeoujq5e 306 3 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 306 4 comprises comprise VBZ work_mairtkvvofcdpp7xx5jeoujq5e 306 5 411 411 CD work_mairtkvvofcdpp7xx5jeoujq5e 306 6 control control NN work_mairtkvvofcdpp7xx5jeoujq5e 306 7 samples sample NNS work_mairtkvvofcdpp7xx5jeoujq5e 306 8 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 306 9 frontal frontal JJ work_mairtkvvofcdpp7xx5jeoujq5e 306 10 cortex cortex NNP work_mairtkvvofcdpp7xx5jeoujq5e 306 11 area area NN work_mairtkvvofcdpp7xx5jeoujq5e 306 12 procured procure VBD work_mairtkvvofcdpp7xx5jeoujq5e 306 13 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 306 14 old old JJ work_mairtkvvofcdpp7xx5jeoujq5e 306 15 aged aged JJ work_mairtkvvofcdpp7xx5jeoujq5e 306 16 people people NNS work_mairtkvvofcdpp7xx5jeoujq5e 306 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 306 18 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 306 19 provides provide VBZ work_mairtkvvofcdpp7xx5jeoujq5e 306 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 306 21 effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 306 22 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 306 23 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 306 24 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 306 25 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 306 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 306 27 histone histone JJ work_mairtkvvofcdpp7xx5jeoujq5e 306 28 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 306 29 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 306 30 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 306 31 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 306 32 . . . work_mairtkvvofcdpp7xx5jeoujq5e 307 1 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 307 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 307 3 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 307 4 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 307 5 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 307 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 307 7 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 307 8 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 307 9 usage usage NN work_mairtkvvofcdpp7xx5jeoujq5e 307 10 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 307 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 308 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 308 2 preproc- preproc- NN work_mairtkvvofcdpp7xx5jeoujq5e 308 3 essed esse VBD work_mairtkvvofcdpp7xx5jeoujq5e 308 4 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 308 5 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 308 6 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 308 7 sample sample NN work_mairtkvvofcdpp7xx5jeoujq5e 308 8 reads read NNS work_mairtkvvofcdpp7xx5jeoujq5e 308 9 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 308 10 subjected subject VBN work_mairtkvvofcdpp7xx5jeoujq5e 308 11 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 308 12 alignment alignment NN work_mairtkvvofcdpp7xx5jeoujq5e 308 13 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 308 14 free free JJ work_mairtkvvofcdpp7xx5jeoujq5e 308 15 transcriptome transcriptome NN work_mairtkvvofcdpp7xx5jeoujq5e 308 16 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 308 17 lightweight lightweight JJ work_mairtkvvofcdpp7xx5jeoujq5e 308 18 mapping mapping NN work_mairtkvvofcdpp7xx5jeoujq5e 308 19 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 308 20 Salmon61 Salmon61 NNP work_mairtkvvofcdpp7xx5jeoujq5e 308 21 . . . work_mairtkvvofcdpp7xx5jeoujq5e 309 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 309 2 procedure procedure NN work_mairtkvvofcdpp7xx5jeoujq5e 309 3 maps map VBZ work_mairtkvvofcdpp7xx5jeoujq5e 309 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 309 5 preprocessed preprocessed JJ work_mairtkvvofcdpp7xx5jeoujq5e 309 6 reads read VBZ work_mairtkvvofcdpp7xx5jeoujq5e 309 7 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 309 8 ensembl ensembl NNP work_mairtkvvofcdpp7xx5jeoujq5e 309 9 mRNA mRNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 309 10 hg38 hg38 NNP work_mairtkvvofcdpp7xx5jeoujq5e 309 11 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 309 12 sequences sequences NNPS work_mairtkvvofcdpp7xx5jeoujq5e 309 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 309 14 counts count VBZ work_mairtkvvofcdpp7xx5jeoujq5e 309 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 309 16 overlapping overlap VBG work_mairtkvvofcdpp7xx5jeoujq5e 309 17 reads read NNS work_mairtkvvofcdpp7xx5jeoujq5e 309 18 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 309 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 309 20 given give VBN work_mairtkvvofcdpp7xx5jeoujq5e 309 21 transcripts transcript NNS work_mairtkvvofcdpp7xx5jeoujq5e 309 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 310 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 310 2 imported import VBD work_mairtkvvofcdpp7xx5jeoujq5e 310 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 310 4 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 310 5 abundance abundance NN work_mairtkvvofcdpp7xx5jeoujq5e 310 6 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 310 7 tximport62 tximport62 NNP work_mairtkvvofcdpp7xx5jeoujq5e 310 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 310 9 order order NN work_mairtkvvofcdpp7xx5jeoujq5e 310 10 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 310 11 identify identify VB work_mairtkvvofcdpp7xx5jeoujq5e 310 12 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 310 13 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 310 14 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 310 15 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 310 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 311 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 311 2 used use VBD work_mairtkvvofcdpp7xx5jeoujq5e 311 3 negative negative JJ work_mairtkvvofcdpp7xx5jeoujq5e 311 4 binomial binomial NN work_mairtkvvofcdpp7xx5jeoujq5e 311 5 generalized generalize VBD work_mairtkvvofcdpp7xx5jeoujq5e 311 6 linear linear JJ work_mairtkvvofcdpp7xx5jeoujq5e 311 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 311 8 dispersion dispersion NN work_mairtkvvofcdpp7xx5jeoujq5e 311 9 model model NN work_mairtkvvofcdpp7xx5jeoujq5e 311 10 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 311 11 DESeq DESeq NNP work_mairtkvvofcdpp7xx5jeoujq5e 311 12 263 263 CD work_mairtkvvofcdpp7xx5jeoujq5e 311 13 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 311 14 identify identify VB work_mairtkvvofcdpp7xx5jeoujq5e 311 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 311 16 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 311 17 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 311 18 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 311 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 312 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 312 2 analyzed analyze VBD work_mairtkvvofcdpp7xx5jeoujq5e 312 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 312 4 variance variance NN work_mairtkvvofcdpp7xx5jeoujq5e 312 5 within within IN work_mairtkvvofcdpp7xx5jeoujq5e 312 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 312 7 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 312 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 312 9 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 312 10 replicates replicate NNS work_mairtkvvofcdpp7xx5jeoujq5e 312 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 313 1 Using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 313 2 statistical statistical JJ work_mairtkvvofcdpp7xx5jeoujq5e 313 3 parameters parameter NNS work_mairtkvvofcdpp7xx5jeoujq5e 313 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 313 5 False false JJ work_mairtkvvofcdpp7xx5jeoujq5e 313 6 discovery discovery NN work_mairtkvvofcdpp7xx5jeoujq5e 313 7 rate rate NN work_mairtkvvofcdpp7xx5jeoujq5e 313 8 < < XX work_mairtkvvofcdpp7xx5jeoujq5e 313 9 0.05 0.05 CD work_mairtkvvofcdpp7xx5jeoujq5e 313 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 313 11 minimum minimum JJ work_mairtkvvofcdpp7xx5jeoujq5e 313 12 fold fold JJ work_mairtkvvofcdpp7xx5jeoujq5e 313 13 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 313 14 |log2 |log2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 313 15 FC| FC| NNP work_mairtkvvofcdpp7xx5jeoujq5e 313 16 > > XX work_mairtkvvofcdpp7xx5jeoujq5e 313 17 1 1 LS work_mairtkvvofcdpp7xx5jeoujq5e 313 18 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 313 19 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 313 20 filtered filter VBD work_mairtkvvofcdpp7xx5jeoujq5e 313 21 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 313 22 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 313 23 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 313 24 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 313 25 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 313 26 transcripts transcript NNS work_mairtkvvofcdpp7xx5jeoujq5e 313 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 314 1 Further further RB work_mairtkvvofcdpp7xx5jeoujq5e 314 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 314 3 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 314 4 Salmon Salmon NNP work_mairtkvvofcdpp7xx5jeoujq5e 314 5 count count NN work_mairtkvvofcdpp7xx5jeoujq5e 314 6 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 314 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 314 8 we -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 314 9 performed perform VBD work_mairtkvvofcdpp7xx5jeoujq5e 314 10 differen- differen- NNP work_mairtkvvofcdpp7xx5jeoujq5e 314 11 tial tial NNP work_mairtkvvofcdpp7xx5jeoujq5e 314 12 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 314 13 usage usage NN work_mairtkvvofcdpp7xx5jeoujq5e 314 14 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 314 15 DRIMSeq DRIMSeq NNP work_mairtkvvofcdpp7xx5jeoujq5e 314 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 314 17 stageR64 stager64 CD work_mairtkvvofcdpp7xx5jeoujq5e 314 18 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 314 19 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 314 20 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 314 21 identify identify VB work_mairtkvvofcdpp7xx5jeoujq5e 314 22 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 314 23 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 314 24 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 314 25 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 314 26 two two CD work_mairtkvvofcdpp7xx5jeoujq5e 314 27 different different JJ work_mairtkvvofcdpp7xx5jeoujq5e 314 28 conditions condition NNS work_mairtkvvofcdpp7xx5jeoujq5e 314 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 315 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 315 2 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 315 3 aids aid VBZ work_mairtkvvofcdpp7xx5jeoujq5e 315 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 315 5 understanding understand VBG work_mairtkvvofcdpp7xx5jeoujq5e 315 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 315 7 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 315 8 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 315 9 profiles profile NNS work_mairtkvvofcdpp7xx5jeoujq5e 315 10 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 315 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 315 12 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 315 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 315 14 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 315 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 315 16 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 315 17 proportions proportion NNS work_mairtkvvofcdpp7xx5jeoujq5e 315 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 316 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 316 2 overall overall JJ work_mairtkvvofcdpp7xx5jeoujq5e 316 3 workflow workflow NN work_mairtkvvofcdpp7xx5jeoujq5e 316 4 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 316 5 variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 316 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 316 7 differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 316 8 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 316 9 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 316 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 316 11 depicted depict VBN work_mairtkvvofcdpp7xx5jeoujq5e 316 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 316 13 Supplementary Supplementary NNP work_mairtkvvofcdpp7xx5jeoujq5e 316 14 Fig Fig NNP work_mairtkvvofcdpp7xx5jeoujq5e 316 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 317 1 S1 S1 NNS work_mairtkvvofcdpp7xx5jeoujq5e 317 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 318 1 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 318 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 318 3 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 318 4 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 318 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 319 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 319 2 large large JJ work_mairtkvvofcdpp7xx5jeoujq5e 319 3 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 319 4 scale scale NN work_mairtkvvofcdpp7xx5jeoujq5e 319 5 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 319 6 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 319 7 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 319 8 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 319 9 decipher decipher VB work_mairtkvvofcdpp7xx5jeoujq5e 319 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 319 11 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 319 12 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 319 13 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 319 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 319 15 given give VBN work_mairtkvvofcdpp7xx5jeoujq5e 319 16 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 319 17 set set NN work_mairtkvvofcdpp7xx5jeoujq5e 319 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 320 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 320 2 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 320 3 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 320 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 320 5 pathway pathway JJ work_mairtkvvofcdpp7xx5jeoujq5e 320 6 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 320 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 320 8 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 320 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 320 10 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 320 12 predicted predict VBD work_mairtkvvofcdpp7xx5jeoujq5e 320 13 VGs vg NNS work_mairtkvvofcdpp7xx5jeoujq5e 320 14 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 320 15 carried carry VBN work_mairtkvvofcdpp7xx5jeoujq5e 320 16 out out RP work_mairtkvvofcdpp7xx5jeoujq5e 320 17 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 320 18 InterMine InterMine NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 320 20 KEGG KEGG NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 320 22 Reactome Reactome NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 23 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 320 24 ClueGO ClueGO NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 25 Cytoscape Cytoscape NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 26 app23,65 app23,65 NNP work_mairtkvvofcdpp7xx5jeoujq5e 320 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 321 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 321 2 have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 321 3 built build VBN work_mairtkvvofcdpp7xx5jeoujq5e 321 4 hippocam- hippocam- IN work_mairtkvvofcdpp7xx5jeoujq5e 321 5 pus pus NNP work_mairtkvvofcdpp7xx5jeoujq5e 321 6 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 321 7 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 321 8 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 321 9 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 321 10 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 321 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 321 12 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 321 13 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 321 14 obtained obtain VBN work_mairtkvvofcdpp7xx5jeoujq5e 321 15 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 321 16 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 321 17 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 321 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 321 19 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 321 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 321 21 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 321 22 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 321 23 HumanBase66 humanbase66 NN work_mairtkvvofcdpp7xx5jeoujq5e 321 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 322 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 322 2 assists assist NNS work_mairtkvvofcdpp7xx5jeoujq5e 322 3 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 322 4 identifying identify VBG work_mairtkvvofcdpp7xx5jeoujq5e 322 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 322 6 potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 322 7 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 322 8 hubs hub NNS work_mairtkvvofcdpp7xx5jeoujq5e 322 9 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 322 10 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 322 11 various various JJ work_mairtkvvofcdpp7xx5jeoujq5e 322 12 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 322 13 measures measure NNS work_mairtkvvofcdpp7xx5jeoujq5e 322 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 323 1 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 323 2 constructed construct VBD work_mairtkvvofcdpp7xx5jeoujq5e 323 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 323 4 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 323 5 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 323 6 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 323 7 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 323 8 identifying identify VBG work_mairtkvvofcdpp7xx5jeoujq5e 323 9 interactions interaction NNS work_mairtkvvofcdpp7xx5jeoujq5e 323 10 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 323 11 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 323 13 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 323 15 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 16 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 323 17 ReactomeFI ReactomeFI NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 18 Cytoscape Cytoscape NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 19 app app NN work_mairtkvvofcdpp7xx5jeoujq5e 323 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 323 21 TRRUST TRRUST NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 22 v2 v2 VBP work_mairtkvvofcdpp7xx5jeoujq5e 323 23 database67,68 database67,68 NNP work_mairtkvvofcdpp7xx5jeoujq5e 323 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 324 1 TRRUST2 TRRUST2 NNS work_mairtkvvofcdpp7xx5jeoujq5e 324 2 provides provide VBZ work_mairtkvvofcdpp7xx5jeoujq5e 324 3 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 324 4 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 324 5 that that WDT work_mairtkvvofcdpp7xx5jeoujq5e 324 6 includes include VBZ work_mairtkvvofcdpp7xx5jeoujq5e 324 7 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 324 8 target target NN work_mairtkvvofcdpp7xx5jeoujq5e 324 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 324 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 324 11 their -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 324 12 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 324 13 association association NN work_mairtkvvofcdpp7xx5jeoujq5e 324 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 325 1 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 325 2 type type NN work_mairtkvvofcdpp7xx5jeoujq5e 325 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 325 4 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 325 5 helps help VBZ work_mairtkvvofcdpp7xx5jeoujq5e 325 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 325 7 understanding understand VBG work_mairtkvvofcdpp7xx5jeoujq5e 325 8 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 325 9 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 325 10 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 325 11 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 325 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 325 13 DG DG NNP work_mairtkvvofcdpp7xx5jeoujq5e 325 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 326 1 Received receive VBN work_mairtkvvofcdpp7xx5jeoujq5e 326 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 326 3 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 326 4 April April NNP work_mairtkvvofcdpp7xx5jeoujq5e 326 5 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 326 6 ; ; : work_mairtkvvofcdpp7xx5jeoujq5e 326 7 Accepted accept VBN work_mairtkvvofcdpp7xx5jeoujq5e 326 8 : : : work_mairtkvvofcdpp7xx5jeoujq5e 326 9 9 9 CD work_mairtkvvofcdpp7xx5jeoujq5e 326 10 November November NNP work_mairtkvvofcdpp7xx5jeoujq5e 326 11 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 326 12 ; ; : work_mairtkvvofcdpp7xx5jeoujq5e 326 13 Published publish VBN work_mairtkvvofcdpp7xx5jeoujq5e 326 14 : : : work_mairtkvvofcdpp7xx5jeoujq5e 326 15 xx xx CD work_mairtkvvofcdpp7xx5jeoujq5e 326 16 xx xx NNP work_mairtkvvofcdpp7xx5jeoujq5e 326 17 xxxx xxxx NNP work_mairtkvvofcdpp7xx5jeoujq5e 326 18 References References NNP work_mairtkvvofcdpp7xx5jeoujq5e 326 19 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 326 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 327 1 Martin Martin NNP work_mairtkvvofcdpp7xx5jeoujq5e 327 2 Prince Prince NNP work_mairtkvvofcdpp7xx5jeoujq5e 327 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 327 4 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 327 5 et et FW work_mairtkvvofcdpp7xx5jeoujq5e 327 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 327 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 328 1 World World NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 2 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 3 Report Report NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 4 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 328 5 The The NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 6 Global Global NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 7 Impact Impact NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 328 9 Dementia Dementia NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 10 An An NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 11 AnAlysIs AnAlysIs NNP work_mairtkvvofcdpp7xx5jeoujq5e 328 12 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 328 13 prevAlence prevalence NN work_mairtkvvofcdpp7xx5jeoujq5e 328 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 328 15 IncIDence incidence NN work_mairtkvvofcdpp7xx5jeoujq5e 328 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 328 17 cosT cosT NNS work_mairtkvvofcdpp7xx5jeoujq5e 328 18 AnD and CC work_mairtkvvofcdpp7xx5jeoujq5e 328 19 TrenDs trends CD work_mairtkvvofcdpp7xx5jeoujq5e 328 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 329 1 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 329 2 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 329 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 329 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 330 1 2 2 LS work_mairtkvvofcdpp7xx5jeoujq5e 330 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 331 1 Padurariu Padurariu NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 5 Ciobica Ciobica NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 7 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 9 Mavroudis Mavroudis NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 11 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 13 Fotiou Fotiou NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 15 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 16 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 331 17 Baloyannis Baloyannis NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 331 19 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 20 Hippocampal Hippocampal NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 21 Neuronal Neuronal NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 22 Loss Loss NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 23 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 331 24 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 331 25 Ca1 ca1 NN work_mairtkvvofcdpp7xx5jeoujq5e 331 26 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 331 27 Ca3 ca3 NN work_mairtkvvofcdpp7xx5jeoujq5e 331 28 Areas Areas NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 29 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 331 30 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 31 ’ ' '' work_mairtkvvofcdpp7xx5jeoujq5e 331 32 S S NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 33 Disease Disease NNP work_mairtkvvofcdpp7xx5jeoujq5e 331 34 Patients Patients NNPS work_mairtkvvofcdpp7xx5jeoujq5e 331 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 332 1 24 24 CD work_mairtkvvofcdpp7xx5jeoujq5e 332 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 332 3 152–158 152–158 CD work_mairtkvvofcdpp7xx5jeoujq5e 332 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 332 5 2012 2012 CD work_mairtkvvofcdpp7xx5jeoujq5e 332 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 332 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 333 1 3 3 LS work_mairtkvvofcdpp7xx5jeoujq5e 333 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 334 1 Wang Wang NNP work_mairtkvvofcdpp7xx5jeoujq5e 334 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 334 3 X. X. NNP work_mairtkvvofcdpp7xx5jeoujq5e 334 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 334 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 334 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 335 1 High high JJ work_mairtkvvofcdpp7xx5jeoujq5e 335 2 intrinsic intrinsic JJ work_mairtkvvofcdpp7xx5jeoujq5e 335 3 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 335 4 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 335 5 may may MD work_mairtkvvofcdpp7xx5jeoujq5e 335 6 underlie underlie VB work_mairtkvvofcdpp7xx5jeoujq5e 335 7 selective selective JJ work_mairtkvvofcdpp7xx5jeoujq5e 335 8 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 335 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 335 10 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 335 11 hippocampal hippocampal NNP work_mairtkvvofcdpp7xx5jeoujq5e 335 12 CA1 CA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 335 13 region region NN work_mairtkvvofcdpp7xx5jeoujq5e 335 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 336 1 Mol Mol NNP work_mairtkvvofcdpp7xx5jeoujq5e 336 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 337 1 Brain Brain NNP work_mairtkvvofcdpp7xx5jeoujq5e 337 2 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 337 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 338 1 140 140 CD work_mairtkvvofcdpp7xx5jeoujq5e 338 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 338 3 120–126 120–126 CD work_mairtkvvofcdpp7xx5jeoujq5e 338 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 338 5 2005 2005 CD work_mairtkvvofcdpp7xx5jeoujq5e 338 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 338 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 339 1 4 4 LS work_mairtkvvofcdpp7xx5jeoujq5e 339 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 340 1 Kish Kish NNP work_mairtkvvofcdpp7xx5jeoujq5e 340 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 340 3 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 340 4 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 340 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 340 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 340 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 341 1 Brain Brain NNP work_mairtkvvofcdpp7xx5jeoujq5e 341 2 Cytochrome Cytochrome NNP work_mairtkvvofcdpp7xx5jeoujq5e 341 3 Oxidase Oxidase NNP work_mairtkvvofcdpp7xx5jeoujq5e 341 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 341 5 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 341 6 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 341 7 Disease Disease NNP work_mairtkvvofcdpp7xx5jeoujq5e 341 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 342 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 342 2 Neurochem Neurochem NNP work_mairtkvvofcdpp7xx5jeoujq5e 342 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 343 1 59 59 CD work_mairtkvvofcdpp7xx5jeoujq5e 343 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 343 3 776–779 776–779 CD work_mairtkvvofcdpp7xx5jeoujq5e 343 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 343 5 1992 1992 CD work_mairtkvvofcdpp7xx5jeoujq5e 343 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 343 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 344 1 5 5 CD work_mairtkvvofcdpp7xx5jeoujq5e 344 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 345 1 Morrison Morrison NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 345 3 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 4 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 345 6 Cao Cao NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 345 8 X.-C. X.-C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 9 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 345 10 Kish Kish NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 345 12 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 13 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 14 Ornithine Ornithine NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 15 Decarboxylase Decarboxylase NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 345 17 Human Human NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 18 Brain Brain NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 19 : : : work_mairtkvvofcdpp7xx5jeoujq5e 345 20 Influence influence NN work_mairtkvvofcdpp7xx5jeoujq5e 345 21 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 345 22 Aging age VBG work_mairtkvvofcdpp7xx5jeoujq5e 345 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 345 24 Regional Regional NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 25 Distribution Distribution NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 345 27 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 345 28 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 29 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 345 30 Disease Disease NNP work_mairtkvvofcdpp7xx5jeoujq5e 345 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 346 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 346 2 Neurochem Neurochem NNP work_mairtkvvofcdpp7xx5jeoujq5e 346 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 347 1 71 71 CD work_mairtkvvofcdpp7xx5jeoujq5e 347 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 347 3 288–294 288–294 CD work_mairtkvvofcdpp7xx5jeoujq5e 347 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 347 5 2002 2002 CD work_mairtkvvofcdpp7xx5jeoujq5e 347 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 347 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 348 1 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 348 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 349 1 Wang Wang NNP work_mairtkvvofcdpp7xx5jeoujq5e 349 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 349 3 X. X. NNP work_mairtkvvofcdpp7xx5jeoujq5e 349 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 349 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 349 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 350 1 Genome genome RB work_mairtkvvofcdpp7xx5jeoujq5e 350 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 350 3 wide wide RB work_mairtkvvofcdpp7xx5jeoujq5e 350 4 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 350 5 profiling profiling NN work_mairtkvvofcdpp7xx5jeoujq5e 350 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 350 7 region region NN work_mairtkvvofcdpp7xx5jeoujq5e 350 8 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 350 9 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 350 10 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 350 11 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 350 12 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 350 13 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 350 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 350 15 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 350 16 hippocampus hippocampus NN work_mairtkvvofcdpp7xx5jeoujq5e 350 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 351 1 Genomics Genomics NNP work_mairtkvvofcdpp7xx5jeoujq5e 351 2 90 90 CD work_mairtkvvofcdpp7xx5jeoujq5e 351 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 351 4 201–212 201–212 CD work_mairtkvvofcdpp7xx5jeoujq5e 351 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 351 6 2007 2007 CD work_mairtkvvofcdpp7xx5jeoujq5e 351 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 351 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 352 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 352 2 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 352 3 2Scientific 2scientific CD work_mairtkvvofcdpp7xx5jeoujq5e 352 4 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 352 5 | | NNP work_mairtkvvofcdpp7xx5jeoujq5e 352 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 352 7 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 352 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 352 9 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 352 10 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 352 11 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 352 12 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NNP work_mairtkvvofcdpp7xx5jeoujq5e 352 13 7 7 CD work_mairtkvvofcdpp7xx5jeoujq5e 352 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 353 1 Wang Wang NNP work_mairtkvvofcdpp7xx5jeoujq5e 353 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 353 3 X. X. NNP work_mairtkvvofcdpp7xx5jeoujq5e 354 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 354 2 Michaelis Michaelis NNP work_mairtkvvofcdpp7xx5jeoujq5e 354 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 354 4 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 354 5 K. K. NNP work_mairtkvvofcdpp7xx5jeoujq5e 354 6 Selective Selective NNP work_mairtkvvofcdpp7xx5jeoujq5e 354 7 neuronal neuronal JJ work_mairtkvvofcdpp7xx5jeoujq5e 354 8 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 354 9 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 354 10 oxidative oxidative JJ work_mairtkvvofcdpp7xx5jeoujq5e 354 11 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 354 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 354 13 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 354 14 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 354 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 355 1 Front front NN work_mairtkvvofcdpp7xx5jeoujq5e 355 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 356 1 Aging age VBG work_mairtkvvofcdpp7xx5jeoujq5e 356 2 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 356 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 357 1 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 357 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 357 3 12 12 CD work_mairtkvvofcdpp7xx5jeoujq5e 357 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 357 5 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 357 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 357 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 358 1 8 8 LS work_mairtkvvofcdpp7xx5jeoujq5e 358 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 359 1 Su Su NNP work_mairtkvvofcdpp7xx5jeoujq5e 359 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 359 3 B. B. NNP work_mairtkvvofcdpp7xx5jeoujq5e 359 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 359 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 359 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 360 1 Abnormal abnormal JJ work_mairtkvvofcdpp7xx5jeoujq5e 360 2 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 360 3 dynamics dynamic NNS work_mairtkvvofcdpp7xx5jeoujq5e 360 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 360 5 neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 360 6 diseases disease NNS work_mairtkvvofcdpp7xx5jeoujq5e 360 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 361 1 Biochim Biochim NNP work_mairtkvvofcdpp7xx5jeoujq5e 361 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 362 1 Biophys Biophys NNP work_mairtkvvofcdpp7xx5jeoujq5e 362 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 363 1 Acta Acta NNP work_mairtkvvofcdpp7xx5jeoujq5e 363 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 363 3 Mol Mol NNP work_mairtkvvofcdpp7xx5jeoujq5e 363 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 364 1 Basis Basis NNP work_mairtkvvofcdpp7xx5jeoujq5e 364 2 Dis Dis NNP work_mairtkvvofcdpp7xx5jeoujq5e 364 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 365 1 1802 1802 CD work_mairtkvvofcdpp7xx5jeoujq5e 365 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 365 3 135–142 135–142 CD work_mairtkvvofcdpp7xx5jeoujq5e 365 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 365 5 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 365 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 365 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 366 1 9 9 CD work_mairtkvvofcdpp7xx5jeoujq5e 366 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 367 1 Stanika Stanika NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 367 3 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 4 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 367 6 Winters Winters NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 367 8 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 9 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 367 11 Pivovarova Pivovarova NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 367 13 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 367 14 B. B. NNP work_mairtkvvofcdpp7xx5jeoujq5e 368 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 368 2 Andrews Andrews NNP work_mairtkvvofcdpp7xx5jeoujq5e 368 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 368 4 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 368 5 B. B. NNP work_mairtkvvofcdpp7xx5jeoujq5e 369 1 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 369 2 NMDA NMDA NNP work_mairtkvvofcdpp7xx5jeoujq5e 369 3 receptor receptor NN work_mairtkvvofcdpp7xx5jeoujq5e 369 4 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 369 5 dependent dependent JJ work_mairtkvvofcdpp7xx5jeoujq5e 369 6 calcium calcium NN work_mairtkvvofcdpp7xx5jeoujq5e 369 7 loading loading NN work_mairtkvvofcdpp7xx5jeoujq5e 369 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 369 9 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 369 10 dysfunction dysfunction NN work_mairtkvvofcdpp7xx5jeoujq5e 369 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 369 12 CA1 CA1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 369 13 vs. vs. IN work_mairtkvvofcdpp7xx5jeoujq5e 369 14 CA3 CA3 NNP work_mairtkvvofcdpp7xx5jeoujq5e 369 15 hippocampal hippocampal JJ work_mairtkvvofcdpp7xx5jeoujq5e 369 16 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 369 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 370 1 Neurobiol Neurobiol NNP work_mairtkvvofcdpp7xx5jeoujq5e 370 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 371 1 Dis Dis NNP work_mairtkvvofcdpp7xx5jeoujq5e 371 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 372 1 37 37 CD work_mairtkvvofcdpp7xx5jeoujq5e 372 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 372 3 403–411 403–411 CD work_mairtkvvofcdpp7xx5jeoujq5e 372 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 372 5 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 372 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 372 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 373 1 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 373 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 374 1 Liu Liu NNP work_mairtkvvofcdpp7xx5jeoujq5e 374 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 374 3 Y. Y. NNP work_mairtkvvofcdpp7xx5jeoujq5e 374 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 374 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 374 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 375 1 NMDA NMDA NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 2 Receptor Receptor NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 3 Subunits subunit NNS work_mairtkvvofcdpp7xx5jeoujq5e 375 4 Have have VBP work_mairtkvvofcdpp7xx5jeoujq5e 375 5 Differential differential JJ work_mairtkvvofcdpp7xx5jeoujq5e 375 6 Roles role NNS work_mairtkvvofcdpp7xx5jeoujq5e 375 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 375 8 Mediating Mediating NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 9 Excitotoxic Excitotoxic NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 10 Neuronal Neuronal NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 11 Death Death NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 12 Both both CC work_mairtkvvofcdpp7xx5jeoujq5e 375 13 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 375 14 Vitro Vitro NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 375 16 In in IN work_mairtkvvofcdpp7xx5jeoujq5e 375 17 Vivo Vivo NNP work_mairtkvvofcdpp7xx5jeoujq5e 375 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 376 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 376 2 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 376 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 377 1 27 27 CD work_mairtkvvofcdpp7xx5jeoujq5e 377 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 377 3 2846–2857 2846–2857 CD work_mairtkvvofcdpp7xx5jeoujq5e 377 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 377 5 2007 2007 CD work_mairtkvvofcdpp7xx5jeoujq5e 377 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 377 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 378 1 11 11 CD work_mairtkvvofcdpp7xx5jeoujq5e 378 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 379 1 Guttula Guttula NNP work_mairtkvvofcdpp7xx5jeoujq5e 379 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 379 3 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 379 4 V. V. NNP work_mairtkvvofcdpp7xx5jeoujq5e 379 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 379 6 Allam Allam NNP work_mairtkvvofcdpp7xx5jeoujq5e 379 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 379 8 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 380 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 380 2 Gumpeny Gumpeny NNP work_mairtkvvofcdpp7xx5jeoujq5e 380 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 380 4 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 380 5 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 380 6 Analyzing Analyzing NNP work_mairtkvvofcdpp7xx5jeoujq5e 380 7 microarray microarray JJ work_mairtkvvofcdpp7xx5jeoujq5e 380 8 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 380 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 380 10 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 380 11 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 380 12 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 380 13 cluster cluster NN work_mairtkvvofcdpp7xx5jeoujq5e 380 14 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 380 15 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 380 16 identify identify VB work_mairtkvvofcdpp7xx5jeoujq5e 380 17 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 380 18 biomarker biomarker NN work_mairtkvvofcdpp7xx5jeoujq5e 380 19 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 380 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 381 1 Int Int NNP work_mairtkvvofcdpp7xx5jeoujq5e 381 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 382 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 382 2 Alzheimers Alzheimers NNP work_mairtkvvofcdpp7xx5jeoujq5e 382 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 383 1 Dis Dis NNP work_mairtkvvofcdpp7xx5jeoujq5e 383 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 384 1 2012 2012 CD work_mairtkvvofcdpp7xx5jeoujq5e 384 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 384 3 649456 649456 CD work_mairtkvvofcdpp7xx5jeoujq5e 384 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 384 5 2012 2012 CD work_mairtkvvofcdpp7xx5jeoujq5e 384 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 384 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 385 1 12 12 CD work_mairtkvvofcdpp7xx5jeoujq5e 385 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 386 1 Lanke Lanke NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 386 3 V. V. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 386 5 Moolamalla Moolamalla NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 386 7 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 8 T. T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 9 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 386 11 Roy Roy NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 386 13 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 14 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 386 15 Vinod Vinod NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 16 , , , work_mairtkvvofcdpp7xx5jeoujq5e 386 17 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 18 K. K. NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 19 Integrative Integrative NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 20 Analysis Analysis NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 21 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 386 22 Hippocampus Hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 23 Gene Gene NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 24 Expression Expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 25 Profiles Profiles NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 26 Identifies Identifies NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 27 Network Network NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 28 Alterations Alterations NNPS work_mairtkvvofcdpp7xx5jeoujq5e 386 29 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 386 30 Aging Aging NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 31 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 386 32 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 33 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 386 34 Disease Disease NNP work_mairtkvvofcdpp7xx5jeoujq5e 386 35 . . . work_mairtkvvofcdpp7xx5jeoujq5e 387 1 Front front NN work_mairtkvvofcdpp7xx5jeoujq5e 387 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 388 1 Aging age VBG work_mairtkvvofcdpp7xx5jeoujq5e 388 2 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 388 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 389 1 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 389 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 389 3 153 153 CD work_mairtkvvofcdpp7xx5jeoujq5e 389 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 389 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 389 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 389 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 390 1 13 13 CD work_mairtkvvofcdpp7xx5jeoujq5e 390 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 391 1 Chatterjee Chatterjee NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 391 3 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 391 5 Roy Roy NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 391 7 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 391 9 Bhattacharyya Bhattacharyya NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 391 11 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 12 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 391 13 Bandyopadhyay Bandyopadhyay NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 391 15 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 16 Biological Biological NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 17 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 391 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 391 19 Parkinson Parkinson NNP work_mairtkvvofcdpp7xx5jeoujq5e 391 20 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 391 21 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 391 22 : : : work_mairtkvvofcdpp7xx5jeoujq5e 391 23 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 391 24 insight insight NN work_mairtkvvofcdpp7xx5jeoujq5e 391 25 into into IN work_mairtkvvofcdpp7xx5jeoujq5e 391 26 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 391 27 epigenetic epigenetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 391 28 mechanisms mechanism NNS work_mairtkvvofcdpp7xx5jeoujq5e 391 29 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 391 30 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 391 31 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 391 32 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 391 33 . . . work_mairtkvvofcdpp7xx5jeoujq5e 392 1 BMC BMC NNP work_mairtkvvofcdpp7xx5jeoujq5e 392 2 Genomics Genomics NNP work_mairtkvvofcdpp7xx5jeoujq5e 392 3 18 18 CD work_mairtkvvofcdpp7xx5jeoujq5e 392 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 392 5 721 721 CD work_mairtkvvofcdpp7xx5jeoujq5e 392 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 392 7 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 392 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 392 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 393 1 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 393 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 394 1 Raj Raj NNP work_mairtkvvofcdpp7xx5jeoujq5e 394 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 394 3 T. T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 394 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 394 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 394 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 395 1 Integrative integrative JJ work_mairtkvvofcdpp7xx5jeoujq5e 395 2 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 395 3 analyses analysis NNS work_mairtkvvofcdpp7xx5jeoujq5e 395 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 395 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 395 6 aging age VBG work_mairtkvvofcdpp7xx5jeoujq5e 395 7 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 395 8 implicate implicate VBP work_mairtkvvofcdpp7xx5jeoujq5e 395 9 altered alter VBN work_mairtkvvofcdpp7xx5jeoujq5e 395 10 splicing splicing NN work_mairtkvvofcdpp7xx5jeoujq5e 395 11 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 395 12 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 395 13 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 395 14 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 395 15 susceptibility susceptibility NN work_mairtkvvofcdpp7xx5jeoujq5e 395 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 396 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 396 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 397 1 Genet Genet NNP work_mairtkvvofcdpp7xx5jeoujq5e 397 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 398 1 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 398 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 398 3 https://doi.org/10.1038/s41588-018-0238-1 https://doi.org/10.1038/s41588-018-0238-1 CD work_mairtkvvofcdpp7xx5jeoujq5e 398 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 398 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 398 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 398 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 399 1 15 15 CD work_mairtkvvofcdpp7xx5jeoujq5e 399 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 400 1 Carr Carr NNP work_mairtkvvofcdpp7xx5jeoujq5e 400 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 400 3 F. F. NNP work_mairtkvvofcdpp7xx5jeoujq5e 400 4 Neurodegeneration Neurodegeneration NNP work_mairtkvvofcdpp7xx5jeoujq5e 400 5 : : : work_mairtkvvofcdpp7xx5jeoujq5e 400 6 selective selective JJ work_mairtkvvofcdpp7xx5jeoujq5e 400 7 vulnerability vulnerability NN work_mairtkvvofcdpp7xx5jeoujq5e 400 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 401 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 401 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 402 1 Rev. Rev. NNP work_mairtkvvofcdpp7xx5jeoujq5e 403 1 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 403 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 404 1 16 16 CD work_mairtkvvofcdpp7xx5jeoujq5e 404 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 404 3 123 123 CD work_mairtkvvofcdpp7xx5jeoujq5e 404 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 404 5 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 404 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 404 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 405 1 16 16 CD work_mairtkvvofcdpp7xx5jeoujq5e 405 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 406 1 Simonian Simonian NNP work_mairtkvvofcdpp7xx5jeoujq5e 406 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 406 3 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 406 4 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 407 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 407 2 Coyle Coyle NNP work_mairtkvvofcdpp7xx5jeoujq5e 407 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 407 4 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 407 5 T. T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 407 6 Oxidative Oxidative NNP work_mairtkvvofcdpp7xx5jeoujq5e 407 7 Stress Stress NNP work_mairtkvvofcdpp7xx5jeoujq5e 407 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 407 9 Neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 407 10 Diseases Diseases NNPS work_mairtkvvofcdpp7xx5jeoujq5e 407 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 408 1 Annu Annu NNP work_mairtkvvofcdpp7xx5jeoujq5e 408 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 409 1 Rev. Rev. NNP work_mairtkvvofcdpp7xx5jeoujq5e 410 1 Pharmacol Pharmacol NNP work_mairtkvvofcdpp7xx5jeoujq5e 410 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 411 1 Toxicol Toxicol NNP work_mairtkvvofcdpp7xx5jeoujq5e 411 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 412 1 36 36 CD work_mairtkvvofcdpp7xx5jeoujq5e 412 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 412 3 83–106 83–106 NNP work_mairtkvvofcdpp7xx5jeoujq5e 412 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 412 5 1996 1996 CD work_mairtkvvofcdpp7xx5jeoujq5e 412 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 412 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 413 1 17 17 CD work_mairtkvvofcdpp7xx5jeoujq5e 413 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 414 1 Settembre Settembre NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 414 3 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 414 5 Fraldi Fraldi NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 414 7 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 414 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 414 9 Medina Medina NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 414 11 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 12 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 13 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 414 14 Ballabio Ballabio NNP work_mairtkvvofcdpp7xx5jeoujq5e 414 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 414 16 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 415 1 Signals signal NNS work_mairtkvvofcdpp7xx5jeoujq5e 415 2 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 415 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 415 4 lysosome lysosome NN work_mairtkvvofcdpp7xx5jeoujq5e 415 5 : : : work_mairtkvvofcdpp7xx5jeoujq5e 415 6 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 415 7 control control NN work_mairtkvvofcdpp7xx5jeoujq5e 415 8 centre centre NN work_mairtkvvofcdpp7xx5jeoujq5e 415 9 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 415 10 cellular cellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 415 11 clearance clearance NN work_mairtkvvofcdpp7xx5jeoujq5e 415 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 415 13 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 415 14 metabolism metabolism NN work_mairtkvvofcdpp7xx5jeoujq5e 415 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 416 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 416 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 417 1 Rev. Rev. NNP work_mairtkvvofcdpp7xx5jeoujq5e 418 1 Mol Mol NNP work_mairtkvvofcdpp7xx5jeoujq5e 418 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 419 1 Cell Cell NNP work_mairtkvvofcdpp7xx5jeoujq5e 419 2 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 419 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 420 1 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 420 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 420 3 283–296 283–296 CD work_mairtkvvofcdpp7xx5jeoujq5e 420 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 420 5 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 420 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 420 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 421 1 18 18 CD work_mairtkvvofcdpp7xx5jeoujq5e 421 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 422 1 Magistri Magistri NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 5 Velmeshev Velmeshev NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 7 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 9 Makhmutova Makhmutova NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 11 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 12 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 422 13 Faghihi Faghihi NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 15 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 16 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 17 Transcriptomics Transcriptomics NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 18 Profiling Profiling NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 19 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 422 20 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 21 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 422 22 Disease Disease NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 23 Reveal Reveal NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 24 Neurovascular Neurovascular NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 25 Defects Defects NNPS work_mairtkvvofcdpp7xx5jeoujq5e 422 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 27 Altered Altered NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 28 Amyloid Amyloid NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 29 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 422 30 β β NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 31 Homeostasis Homeostasis NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 32 , , , work_mairtkvvofcdpp7xx5jeoujq5e 422 33 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 422 34 Deregulated deregulate VBD work_mairtkvvofcdpp7xx5jeoujq5e 422 35 Expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 422 36 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 422 37 Long Long NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 38 Noncoding Noncoding NNP work_mairtkvvofcdpp7xx5jeoujq5e 422 39 RNAs rna NNS work_mairtkvvofcdpp7xx5jeoujq5e 422 40 . . . work_mairtkvvofcdpp7xx5jeoujq5e 423 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 423 2 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 423 3 ’s ’s , work_mairtkvvofcdpp7xx5jeoujq5e 423 4 Dis Dis NNP work_mairtkvvofcdpp7xx5jeoujq5e 423 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 424 1 48 48 CD work_mairtkvvofcdpp7xx5jeoujq5e 424 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 424 3 647–665 647–665 CD work_mairtkvvofcdpp7xx5jeoujq5e 424 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 424 5 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 424 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 424 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 425 1 19 19 CD work_mairtkvvofcdpp7xx5jeoujq5e 425 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 426 1 Lambert Lambert NNP work_mairtkvvofcdpp7xx5jeoujq5e 426 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 426 3 J.-C. J.-C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 426 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 426 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 426 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 427 1 Meta meta JJ work_mairtkvvofcdpp7xx5jeoujq5e 427 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 427 3 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 427 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 427 5 74,046 74,046 CD work_mairtkvvofcdpp7xx5jeoujq5e 427 6 individuals individual NNS work_mairtkvvofcdpp7xx5jeoujq5e 427 7 identifies identifie NNS work_mairtkvvofcdpp7xx5jeoujq5e 427 8 11 11 CD work_mairtkvvofcdpp7xx5jeoujq5e 427 9 new new JJ work_mairtkvvofcdpp7xx5jeoujq5e 427 10 susceptibility susceptibility NN work_mairtkvvofcdpp7xx5jeoujq5e 427 11 loci loci NN work_mairtkvvofcdpp7xx5jeoujq5e 427 12 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 427 13 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 427 14 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 427 15 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 427 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 428 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 428 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 429 1 Genet Genet NNP work_mairtkvvofcdpp7xx5jeoujq5e 429 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 430 1 45 45 CD work_mairtkvvofcdpp7xx5jeoujq5e 430 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 430 3 1452–1458 1452–1458 CD work_mairtkvvofcdpp7xx5jeoujq5e 430 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 430 5 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 430 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 430 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 431 1 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 431 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 432 1 Huang Huang NNP work_mairtkvvofcdpp7xx5jeoujq5e 432 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 432 3 K. K. NNP work_mairtkvvofcdpp7xx5jeoujq5e 432 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 432 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 432 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 433 1 A a DT work_mairtkvvofcdpp7xx5jeoujq5e 433 2 common common JJ work_mairtkvvofcdpp7xx5jeoujq5e 433 3 haplotype haplotype NN work_mairtkvvofcdpp7xx5jeoujq5e 433 4 lowers lower NNS work_mairtkvvofcdpp7xx5jeoujq5e 433 5 PU.1 PU.1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 433 6 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 433 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 433 8 myeloid myeloid JJ work_mairtkvvofcdpp7xx5jeoujq5e 433 9 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 433 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 433 11 delays delay NNS work_mairtkvvofcdpp7xx5jeoujq5e 433 12 onset onset NN work_mairtkvvofcdpp7xx5jeoujq5e 433 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 433 14 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 433 15 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 433 16 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 433 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 434 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 434 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 435 1 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 435 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 436 1 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 436 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 436 3 1052–1061 1052–1061 CD work_mairtkvvofcdpp7xx5jeoujq5e 436 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 436 5 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 436 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 436 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 437 1 21 21 CD work_mairtkvvofcdpp7xx5jeoujq5e 437 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 438 1 Fritsche Fritsche NNP work_mairtkvvofcdpp7xx5jeoujq5e 438 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 438 3 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 438 4 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 438 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 438 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 438 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 439 1 Seven seven CD work_mairtkvvofcdpp7xx5jeoujq5e 439 2 new new JJ work_mairtkvvofcdpp7xx5jeoujq5e 439 3 loci loci NN work_mairtkvvofcdpp7xx5jeoujq5e 439 4 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 439 5 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 439 6 age age NN work_mairtkvvofcdpp7xx5jeoujq5e 439 7 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 439 8 related relate VBN work_mairtkvvofcdpp7xx5jeoujq5e 439 9 macular macular JJ work_mairtkvvofcdpp7xx5jeoujq5e 439 10 degeneration degeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 439 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 440 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 440 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 441 1 Genet Genet NNP work_mairtkvvofcdpp7xx5jeoujq5e 441 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 442 1 45(433–9 45(433–9 LS work_mairtkvvofcdpp7xx5jeoujq5e 442 2 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 442 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 442 4 439e1–2 439e1–2 CD work_mairtkvvofcdpp7xx5jeoujq5e 442 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 442 6 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 442 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 442 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 443 1 22 22 CD work_mairtkvvofcdpp7xx5jeoujq5e 443 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 444 1 Frazer Frazer NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 444 3 K. K. NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 4 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 444 6 Murray Murray NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 444 8 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 9 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 444 11 Schork Schork NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 444 13 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 444 14 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 445 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 445 2 Topol Topol NNP work_mairtkvvofcdpp7xx5jeoujq5e 445 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 445 4 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 445 5 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 446 1 Human human JJ work_mairtkvvofcdpp7xx5jeoujq5e 446 2 genetic genetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 446 3 variation variation NN work_mairtkvvofcdpp7xx5jeoujq5e 446 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 446 5 its -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 446 6 contribution contribution NN work_mairtkvvofcdpp7xx5jeoujq5e 446 7 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 446 8 complex complex JJ work_mairtkvvofcdpp7xx5jeoujq5e 446 9 traits trait NNS work_mairtkvvofcdpp7xx5jeoujq5e 446 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 447 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 447 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 448 1 Rev. Rev. NNP work_mairtkvvofcdpp7xx5jeoujq5e 449 1 Genet Genet NNP work_mairtkvvofcdpp7xx5jeoujq5e 449 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 450 1 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 450 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 450 3 241–251 241–251 CD work_mairtkvvofcdpp7xx5jeoujq5e 450 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 450 5 2009 2009 CD work_mairtkvvofcdpp7xx5jeoujq5e 450 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 450 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 451 1 23 23 CD work_mairtkvvofcdpp7xx5jeoujq5e 451 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 452 1 Smith Smith NNP work_mairtkvvofcdpp7xx5jeoujq5e 452 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 452 3 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 452 4 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 452 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 452 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 452 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 453 1 InterMine InterMine NNP work_mairtkvvofcdpp7xx5jeoujq5e 453 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 453 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 453 4 flexible flexible JJ work_mairtkvvofcdpp7xx5jeoujq5e 453 5 data data NN work_mairtkvvofcdpp7xx5jeoujq5e 453 6 warehouse warehouse NN work_mairtkvvofcdpp7xx5jeoujq5e 453 7 system system NN work_mairtkvvofcdpp7xx5jeoujq5e 453 8 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 453 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 453 10 integration integration NN work_mairtkvvofcdpp7xx5jeoujq5e 453 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 453 12 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 453 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 453 14 heterogeneous heterogeneous JJ work_mairtkvvofcdpp7xx5jeoujq5e 453 15 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 453 16 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 453 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 454 1 Bioinformatics Bioinformatics NNP work_mairtkvvofcdpp7xx5jeoujq5e 454 2 28 28 CD work_mairtkvvofcdpp7xx5jeoujq5e 454 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 454 4 3163–3165 3163–3165 CD work_mairtkvvofcdpp7xx5jeoujq5e 454 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 454 6 2012 2012 CD work_mairtkvvofcdpp7xx5jeoujq5e 454 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 454 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 455 1 24 24 CD work_mairtkvvofcdpp7xx5jeoujq5e 455 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 456 1 Brandner Brandner NNP work_mairtkvvofcdpp7xx5jeoujq5e 456 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 456 3 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 456 4 Nanog Nanog NNP work_mairtkvvofcdpp7xx5jeoujq5e 456 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 456 6 Gli Gli NNP work_mairtkvvofcdpp7xx5jeoujq5e 456 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 456 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 456 9 p53 p53 NN work_mairtkvvofcdpp7xx5jeoujq5e 456 10 : : : work_mairtkvvofcdpp7xx5jeoujq5e 456 11 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 456 12 new new JJ work_mairtkvvofcdpp7xx5jeoujq5e 456 13 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 456 14 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 456 15 stemness stemness NN work_mairtkvvofcdpp7xx5jeoujq5e 456 16 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 456 17 development development NN work_mairtkvvofcdpp7xx5jeoujq5e 456 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 456 19 cancer cancer NN work_mairtkvvofcdpp7xx5jeoujq5e 456 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 457 1 EMBO EMBO NNP work_mairtkvvofcdpp7xx5jeoujq5e 457 2 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 458 1 29 29 CD work_mairtkvvofcdpp7xx5jeoujq5e 458 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 458 3 2475–6 2475–6 CD work_mairtkvvofcdpp7xx5jeoujq5e 458 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 458 5 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 458 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 458 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 459 1 25 25 CD work_mairtkvvofcdpp7xx5jeoujq5e 459 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 460 1 Farley Farley NNP work_mairtkvvofcdpp7xx5jeoujq5e 460 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 460 3 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 460 4 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 460 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 460 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 460 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 461 1 Transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 461 2 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 461 3 Pebbled pebble VBN work_mairtkvvofcdpp7xx5jeoujq5e 461 4 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 461 5 RREB1 RREB1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 461 6 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 461 7 injury injury NN work_mairtkvvofcdpp7xx5jeoujq5e 461 8 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 461 9 induced induce VBN work_mairtkvvofcdpp7xx5jeoujq5e 461 10 axon axon JJ work_mairtkvvofcdpp7xx5jeoujq5e 461 11 degeneration degeneration NN work_mairtkvvofcdpp7xx5jeoujq5e 461 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 462 1 Proc Proc NNP work_mairtkvvofcdpp7xx5jeoujq5e 462 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 463 1 Natl Natl NNP work_mairtkvvofcdpp7xx5jeoujq5e 463 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 464 1 Acad Acad NNS work_mairtkvvofcdpp7xx5jeoujq5e 464 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 465 1 Sci Sci NNP work_mairtkvvofcdpp7xx5jeoujq5e 465 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 466 1 USA USA NNP work_mairtkvvofcdpp7xx5jeoujq5e 466 2 115 115 CD work_mairtkvvofcdpp7xx5jeoujq5e 466 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 466 4 1358–1363 1358–1363 CD work_mairtkvvofcdpp7xx5jeoujq5e 466 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 466 6 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 466 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 466 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 467 1 26 26 CD work_mairtkvvofcdpp7xx5jeoujq5e 467 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 468 1 Chureau Chureau NNP work_mairtkvvofcdpp7xx5jeoujq5e 468 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 468 3 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 468 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 468 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 468 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 469 1 Ftx Ftx NNP work_mairtkvvofcdpp7xx5jeoujq5e 469 2 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 469 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 469 4 non non JJ work_mairtkvvofcdpp7xx5jeoujq5e 469 5 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 469 6 coding coding JJ work_mairtkvvofcdpp7xx5jeoujq5e 469 7 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 469 8 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 469 9 affects affect VBZ work_mairtkvvofcdpp7xx5jeoujq5e 469 10 Xist xist NN work_mairtkvvofcdpp7xx5jeoujq5e 469 11 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 469 12 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 469 13 chromatin chromatin NN work_mairtkvvofcdpp7xx5jeoujq5e 469 14 structure structure NN work_mairtkvvofcdpp7xx5jeoujq5e 469 15 within within IN work_mairtkvvofcdpp7xx5jeoujq5e 469 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 469 17 X x NN work_mairtkvvofcdpp7xx5jeoujq5e 469 18 - - NN work_mairtkvvofcdpp7xx5jeoujq5e 469 19 inactivation inactivation JJ work_mairtkvvofcdpp7xx5jeoujq5e 469 20 center center NN work_mairtkvvofcdpp7xx5jeoujq5e 469 21 region region NN work_mairtkvvofcdpp7xx5jeoujq5e 469 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 470 1 Hum hum UH work_mairtkvvofcdpp7xx5jeoujq5e 470 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 471 1 Mol Mol NNP work_mairtkvvofcdpp7xx5jeoujq5e 471 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 472 1 Genet Genet NNP work_mairtkvvofcdpp7xx5jeoujq5e 472 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 473 1 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 473 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 473 3 705–18 705–18 CD work_mairtkvvofcdpp7xx5jeoujq5e 473 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 473 5 2011 2011 CD work_mairtkvvofcdpp7xx5jeoujq5e 473 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 473 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 474 1 27 27 CD work_mairtkvvofcdpp7xx5jeoujq5e 474 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 475 1 Hamada Hamada NNP work_mairtkvvofcdpp7xx5jeoujq5e 475 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 475 3 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 475 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 475 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 475 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 476 1 Essential essential JJ work_mairtkvvofcdpp7xx5jeoujq5e 476 2 role role NN work_mairtkvvofcdpp7xx5jeoujq5e 476 3 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 476 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 476 5 nuclear nuclear JJ work_mairtkvvofcdpp7xx5jeoujq5e 476 6 isoform isoform NN work_mairtkvvofcdpp7xx5jeoujq5e 476 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 476 8 RBFOX1 rbfox1 NN work_mairtkvvofcdpp7xx5jeoujq5e 476 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 476 10 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 476 11 candidate candidate NN work_mairtkvvofcdpp7xx5jeoujq5e 476 12 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 476 13 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 476 14 autism autism NN work_mairtkvvofcdpp7xx5jeoujq5e 476 15 spectrum spectrum NN work_mairtkvvofcdpp7xx5jeoujq5e 476 16 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 476 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 476 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 476 19 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 476 20 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 476 21 development development NN work_mairtkvvofcdpp7xx5jeoujq5e 476 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 477 1 Sci Sci NNP work_mairtkvvofcdpp7xx5jeoujq5e 477 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 478 1 Rep. Rep. NNP work_mairtkvvofcdpp7xx5jeoujq5e 478 2 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 478 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 478 4 30805 30805 CD work_mairtkvvofcdpp7xx5jeoujq5e 478 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 478 6 2016 2016 CD work_mairtkvvofcdpp7xx5jeoujq5e 478 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 478 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 479 1 28 28 CD work_mairtkvvofcdpp7xx5jeoujq5e 479 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 480 1 Alkallas Alkallas NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 480 3 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 480 5 Fish Fish NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 480 7 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 480 9 Goodarzi Goodarzi NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 480 11 H. H. NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 12 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 480 13 Najafabadi Najafabadi NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 480 15 H. H. NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 16 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 17 Inference Inference NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 18 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 480 19 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 20 decay decay NN work_mairtkvvofcdpp7xx5jeoujq5e 480 21 rate rate NN work_mairtkvvofcdpp7xx5jeoujq5e 480 22 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 480 23 transcriptional transcriptional JJ work_mairtkvvofcdpp7xx5jeoujq5e 480 24 profiling profiling NN work_mairtkvvofcdpp7xx5jeoujq5e 480 25 highlights highlight NNS work_mairtkvvofcdpp7xx5jeoujq5e 480 26 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 480 27 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 480 28 programs program NNS work_mairtkvvofcdpp7xx5jeoujq5e 480 29 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 480 30 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 480 31 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 480 32 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 480 33 . . . work_mairtkvvofcdpp7xx5jeoujq5e 481 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 481 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 482 1 Commun Commun VBN work_mairtkvvofcdpp7xx5jeoujq5e 482 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 483 1 8 8 CD work_mairtkvvofcdpp7xx5jeoujq5e 483 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 483 3 909 909 CD work_mairtkvvofcdpp7xx5jeoujq5e 483 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 483 5 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 483 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 483 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 484 1 29 29 CD work_mairtkvvofcdpp7xx5jeoujq5e 484 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 485 1 Wetzel Wetzel NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 485 3 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 4 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 485 6 Bohn Bohn NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 485 8 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 9 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 485 11 Kazee Kazee NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 485 13 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 14 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 15 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 485 16 Hamill Hamill NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 485 18 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 19 W. W. NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 20 Glucocorticoid Glucocorticoid NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 21 receptor receptor NN work_mairtkvvofcdpp7xx5jeoujq5e 485 22 mRNA mrna NN work_mairtkvvofcdpp7xx5jeoujq5e 485 23 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 485 24 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 25 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 485 26 diseased disease VBD work_mairtkvvofcdpp7xx5jeoujq5e 485 27 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 485 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 486 1 Brain Brain NNP work_mairtkvvofcdpp7xx5jeoujq5e 486 2 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 486 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 487 1 679 679 CD work_mairtkvvofcdpp7xx5jeoujq5e 487 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 487 3 72–81 72–81 NNP work_mairtkvvofcdpp7xx5jeoujq5e 487 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 487 5 1995 1995 CD work_mairtkvvofcdpp7xx5jeoujq5e 487 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 487 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 488 1 30 30 CD work_mairtkvvofcdpp7xx5jeoujq5e 488 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 489 1 Lu Lu NNP work_mairtkvvofcdpp7xx5jeoujq5e 489 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 489 3 T. T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 489 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 489 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 489 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 490 1 REST rest NN work_mairtkvvofcdpp7xx5jeoujq5e 490 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 490 3 stress stress VBP work_mairtkvvofcdpp7xx5jeoujq5e 490 4 resistance resistance NN work_mairtkvvofcdpp7xx5jeoujq5e 490 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 490 6 ageing age VBG work_mairtkvvofcdpp7xx5jeoujq5e 490 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 490 8 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 490 9 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 490 10 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 490 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 491 1 Nature nature NN work_mairtkvvofcdpp7xx5jeoujq5e 491 2 507 507 CD work_mairtkvvofcdpp7xx5jeoujq5e 491 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 491 4 448–454 448–454 CD work_mairtkvvofcdpp7xx5jeoujq5e 491 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 491 6 2014 2014 CD work_mairtkvvofcdpp7xx5jeoujq5e 491 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 491 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 492 1 31 31 CD work_mairtkvvofcdpp7xx5jeoujq5e 492 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 493 1 Li Li NNP work_mairtkvvofcdpp7xx5jeoujq5e 493 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 493 3 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 493 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 493 5 Zhao Zhao NNP work_mairtkvvofcdpp7xx5jeoujq5e 493 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 493 7 C.-T. C.-T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 493 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 493 9 Wang Wang NNP work_mairtkvvofcdpp7xx5jeoujq5e 493 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 493 11 Y. Y. NNP work_mairtkvvofcdpp7xx5jeoujq5e 494 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 494 2 Yuan Yuan NNP work_mairtkvvofcdpp7xx5jeoujq5e 494 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 494 4 X.-B. X.-B. NNP work_mairtkvvofcdpp7xx5jeoujq5e 495 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 495 2 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 495 3 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 495 4 Cux1 Cux1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 495 5 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 495 6 dendritic dendritic JJ work_mairtkvvofcdpp7xx5jeoujq5e 495 7 morphology morphology NN work_mairtkvvofcdpp7xx5jeoujq5e 495 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 495 9 cortical cortical JJ work_mairtkvvofcdpp7xx5jeoujq5e 495 10 pyramidal pyramidal NN work_mairtkvvofcdpp7xx5jeoujq5e 495 11 neurons neuron NNS work_mairtkvvofcdpp7xx5jeoujq5e 495 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 496 1 PLoS plos ADD work_mairtkvvofcdpp7xx5jeoujq5e 496 2 One one CD work_mairtkvvofcdpp7xx5jeoujq5e 496 3 5 5 CD work_mairtkvvofcdpp7xx5jeoujq5e 496 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 496 5 e10596 e10596 NN work_mairtkvvofcdpp7xx5jeoujq5e 496 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 496 7 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 496 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 496 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 497 1 32 32 CD work_mairtkvvofcdpp7xx5jeoujq5e 497 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 498 1 Acquaah Acquaah NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 498 3 Mensah Mensah NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 498 5 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 6 K. K. NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 498 8 Agu Agu NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 498 10 N. N. NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 498 12 Khan Khan NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 498 14 T. T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 15 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 498 16 Gardner Gardner NNP work_mairtkvvofcdpp7xx5jeoujq5e 498 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 498 18 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 499 1 A a DT work_mairtkvvofcdpp7xx5jeoujq5e 499 2 Regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 499 3 Role role NN work_mairtkvvofcdpp7xx5jeoujq5e 499 4 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 499 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 499 6 Insulin Insulin NNP work_mairtkvvofcdpp7xx5jeoujq5e 499 7 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 499 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 499 9 BDNF BDNF NNP work_mairtkvvofcdpp7xx5jeoujq5e 499 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 499 11 Linked link VBN work_mairtkvvofcdpp7xx5jeoujq5e 499 12 RORA rora NN work_mairtkvvofcdpp7xx5jeoujq5e 499 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 499 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 499 15 Hippocampus Hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 499 16 : : : work_mairtkvvofcdpp7xx5jeoujq5e 499 17 Implications implication NNS work_mairtkvvofcdpp7xx5jeoujq5e 499 18 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 499 19 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 499 20 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 499 21 Disease Disease NNP work_mairtkvvofcdpp7xx5jeoujq5e 499 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 500 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 500 2 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 500 3 ’s ’s , work_mairtkvvofcdpp7xx5jeoujq5e 500 4 Dis Dis NNP work_mairtkvvofcdpp7xx5jeoujq5e 500 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 501 1 44 44 CD work_mairtkvvofcdpp7xx5jeoujq5e 501 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 501 3 827–838 827–838 CD work_mairtkvvofcdpp7xx5jeoujq5e 501 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 501 5 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 501 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 501 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 502 1 33 33 CD work_mairtkvvofcdpp7xx5jeoujq5e 502 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 503 1 Horn Horn NNP work_mairtkvvofcdpp7xx5jeoujq5e 503 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 503 3 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 503 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 503 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 503 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 504 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 504 2 Conserved Conserved NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 3 Mitochondrial Mitochondrial NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 4 Twin Twin NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 5 Cx Cx NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 6 9 9 CD work_mairtkvvofcdpp7xx5jeoujq5e 504 7 C c NN work_mairtkvvofcdpp7xx5jeoujq5e 504 8 Protein Protein NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 9 Cmc2 Cmc2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 10 Is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 504 11 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 504 12 Cmc1 Cmc1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 13 Homologue Homologue NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 14 Essential Essential NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 15 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 504 16 Cytochrome Cytochrome NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 17 c c NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 18 Oxidase Oxidase NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 19 Biogenesis Biogenesis NNP work_mairtkvvofcdpp7xx5jeoujq5e 504 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 505 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 505 2 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 505 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 506 1 Chem Chem NNP work_mairtkvvofcdpp7xx5jeoujq5e 506 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 507 1 285 285 CD work_mairtkvvofcdpp7xx5jeoujq5e 507 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 507 3 15088–15099 15088–15099 CD work_mairtkvvofcdpp7xx5jeoujq5e 507 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 507 5 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 507 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 507 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 508 1 34 34 CD work_mairtkvvofcdpp7xx5jeoujq5e 508 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 509 1 Legati Legati NNP work_mairtkvvofcdpp7xx5jeoujq5e 509 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 509 3 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 509 4 et et FW work_mairtkvvofcdpp7xx5jeoujq5e 509 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 509 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 510 1 New new JJ work_mairtkvvofcdpp7xx5jeoujq5e 510 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 510 3 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 510 4 pathomechanisms pathomechanism NNS work_mairtkvvofcdpp7xx5jeoujq5e 510 5 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 510 6 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 510 7 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 510 8 unraveled unravel VBN work_mairtkvvofcdpp7xx5jeoujq5e 510 9 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 510 10 NGS NGS NNP work_mairtkvvofcdpp7xx5jeoujq5e 510 11 technologies technology NNS work_mairtkvvofcdpp7xx5jeoujq5e 510 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 511 1 Biochim Biochim NNP work_mairtkvvofcdpp7xx5jeoujq5e 511 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 512 1 Biophys Biophys NNP work_mairtkvvofcdpp7xx5jeoujq5e 512 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 513 1 Acta Acta NNP work_mairtkvvofcdpp7xx5jeoujq5e 513 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 513 3 Bioenerg Bioenerg NNP work_mairtkvvofcdpp7xx5jeoujq5e 513 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 514 1 1857 1857 CD work_mairtkvvofcdpp7xx5jeoujq5e 514 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 514 3 1326–1335 1326–1335 CD work_mairtkvvofcdpp7xx5jeoujq5e 514 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 514 5 2016 2016 CD work_mairtkvvofcdpp7xx5jeoujq5e 514 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 514 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 515 1 35 35 CD work_mairtkvvofcdpp7xx5jeoujq5e 515 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 516 1 Weil Weil NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 516 3 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 516 5 Laplantine Laplantine NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 516 7 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 516 9 Curic Curic NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 516 11 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 12 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 516 13 Génin Génin NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 516 15 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 16 Role Role NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 17 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 516 18 Optineurin Optineurin NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 19 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 516 20 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 516 21 Mitochondrial Mitochondrial NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 22 Dysfunction Dysfunction NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 23 : : : work_mairtkvvofcdpp7xx5jeoujq5e 516 24 Potential potential JJ work_mairtkvvofcdpp7xx5jeoujq5e 516 25 Implications implication NNS work_mairtkvvofcdpp7xx5jeoujq5e 516 26 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 516 27 Neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 516 28 Diseases Diseases NNPS work_mairtkvvofcdpp7xx5jeoujq5e 516 29 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 516 30 Cancer Cancer NNP work_mairtkvvofcdpp7xx5jeoujq5e 516 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 517 1 Front front NN work_mairtkvvofcdpp7xx5jeoujq5e 517 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 518 1 Immunol immunol NN work_mairtkvvofcdpp7xx5jeoujq5e 518 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 519 1 9 9 CD work_mairtkvvofcdpp7xx5jeoujq5e 519 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 519 3 1243 1243 CD work_mairtkvvofcdpp7xx5jeoujq5e 519 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 519 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 519 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 519 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 520 1 36 36 CD work_mairtkvvofcdpp7xx5jeoujq5e 520 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 521 1 Liu Liu NNP work_mairtkvvofcdpp7xx5jeoujq5e 521 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 521 3 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 521 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 521 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 521 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 522 1 Flotillin-1 Flotillin-1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 522 2 downregulates downregulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 522 3 K(+ k(+ NN work_mairtkvvofcdpp7xx5jeoujq5e 522 4 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 522 5 current current JJ work_mairtkvvofcdpp7xx5jeoujq5e 522 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 522 7 directly directly RB work_mairtkvvofcdpp7xx5jeoujq5e 522 8 coupling couple VBG work_mairtkvvofcdpp7xx5jeoujq5e 522 9 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 522 10 Kv2.1 Kv2.1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 522 11 subunit subunit NNP work_mairtkvvofcdpp7xx5jeoujq5e 522 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 523 1 Protein Protein NNP work_mairtkvvofcdpp7xx5jeoujq5e 523 2 Cell Cell NNP work_mairtkvvofcdpp7xx5jeoujq5e 523 3 7 7 CD work_mairtkvvofcdpp7xx5jeoujq5e 523 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 523 5 455–60 455–60 CD work_mairtkvvofcdpp7xx5jeoujq5e 523 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 523 7 2016 2016 CD work_mairtkvvofcdpp7xx5jeoujq5e 523 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 523 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 524 1 37 37 CD work_mairtkvvofcdpp7xx5jeoujq5e 524 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 525 1 Matsunaga Matsunaga NNP work_mairtkvvofcdpp7xx5jeoujq5e 525 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 525 3 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 525 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 525 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 525 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 526 1 Periostin Periostin NNP work_mairtkvvofcdpp7xx5jeoujq5e 526 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 526 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 526 4 neurite neurite NN work_mairtkvvofcdpp7xx5jeoujq5e 526 5 outgrowth outgrowth NN work_mairtkvvofcdpp7xx5jeoujq5e 526 6 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 526 7 promoting promote VBG work_mairtkvvofcdpp7xx5jeoujq5e 526 8 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 526 9 , , , work_mairtkvvofcdpp7xx5jeoujq5e 526 10 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 526 11 expressed express VBN work_mairtkvvofcdpp7xx5jeoujq5e 526 12 at at IN work_mairtkvvofcdpp7xx5jeoujq5e 526 13 high high JJ work_mairtkvvofcdpp7xx5jeoujq5e 526 14 levels level NNS work_mairtkvvofcdpp7xx5jeoujq5e 526 15 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 526 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 526 17 primate primate JJ work_mairtkvvofcdpp7xx5jeoujq5e 526 18 cerebral cerebral JJ work_mairtkvvofcdpp7xx5jeoujq5e 526 19 cortex cortex NN work_mairtkvvofcdpp7xx5jeoujq5e 526 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 527 1 Dev Dev NNP work_mairtkvvofcdpp7xx5jeoujq5e 527 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 528 1 Growth growth NN work_mairtkvvofcdpp7xx5jeoujq5e 528 2 Differ Differ NNP work_mairtkvvofcdpp7xx5jeoujq5e 528 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 529 1 57 57 CD work_mairtkvvofcdpp7xx5jeoujq5e 529 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 529 3 200–208 200–208 CD work_mairtkvvofcdpp7xx5jeoujq5e 529 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 529 5 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 529 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 529 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 530 1 38 38 CD work_mairtkvvofcdpp7xx5jeoujq5e 530 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 531 1 Zhou Zhou NNP work_mairtkvvofcdpp7xx5jeoujq5e 531 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 531 3 H. H. NNP work_mairtkvvofcdpp7xx5jeoujq5e 531 4 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 531 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 531 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 531 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 532 1 AIP1 AIP1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 2 Mediates Mediates NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 3 Vascular Vascular NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 4 Endothelial Endothelial NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 5 Cell Cell NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 6 Growth Growth NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 7 Factor Factor NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 8 Receptor-3–Dependent Receptor-3–Dependent NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 9 Angiogenic Angiogenic NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 532 11 Lymphangiogenic Lymphangiogenic NNP work_mairtkvvofcdpp7xx5jeoujq5e 532 12 Responses response NNS work_mairtkvvofcdpp7xx5jeoujq5e 532 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 533 1 Arterioscler Arterioscler NNP work_mairtkvvofcdpp7xx5jeoujq5e 533 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 534 1 Thromb Thromb NNP work_mairtkvvofcdpp7xx5jeoujq5e 534 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 535 1 Vasc Vasc NNP work_mairtkvvofcdpp7xx5jeoujq5e 535 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 536 1 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 536 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 537 1 34 34 CD work_mairtkvvofcdpp7xx5jeoujq5e 537 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 537 3 603–615 603–615 CD work_mairtkvvofcdpp7xx5jeoujq5e 537 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 537 5 2014 2014 CD work_mairtkvvofcdpp7xx5jeoujq5e 537 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 537 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 538 1 39 39 CD work_mairtkvvofcdpp7xx5jeoujq5e 538 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 539 1 Kim Kim NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 539 3 W. W. NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 539 5 Cheon Cheon NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 539 7 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 8 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 9 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 539 10 Kim Kim NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 539 12 J.-E. J.-E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 13 Mitochondrial Mitochondrial NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 14 CCAR2 CCAR2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 15 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 539 16 DBC1 DBC1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 539 17 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 539 18 required require VBN work_mairtkvvofcdpp7xx5jeoujq5e 539 19 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 539 20 cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 539 21 survival survival NN work_mairtkvvofcdpp7xx5jeoujq5e 539 22 against against IN work_mairtkvvofcdpp7xx5jeoujq5e 539 23 rotenone rotenone NN work_mairtkvvofcdpp7xx5jeoujq5e 539 24 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 539 25 induced induce VBN work_mairtkvvofcdpp7xx5jeoujq5e 539 26 mitochondrial mitochondrial NN work_mairtkvvofcdpp7xx5jeoujq5e 539 27 stress stress NN work_mairtkvvofcdpp7xx5jeoujq5e 539 28 . . . work_mairtkvvofcdpp7xx5jeoujq5e 540 1 Biochem Biochem NNP work_mairtkvvofcdpp7xx5jeoujq5e 540 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 541 1 Biophys Biophys NNP work_mairtkvvofcdpp7xx5jeoujq5e 541 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 542 1 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 542 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 543 1 Commun Commun VBN work_mairtkvvofcdpp7xx5jeoujq5e 543 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 544 1 485 485 CD work_mairtkvvofcdpp7xx5jeoujq5e 544 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 544 3 782–789 782–789 CD work_mairtkvvofcdpp7xx5jeoujq5e 544 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 544 5 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 544 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 544 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 545 1 40 40 CD work_mairtkvvofcdpp7xx5jeoujq5e 545 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 546 1 Tafti Tafti NNP work_mairtkvvofcdpp7xx5jeoujq5e 546 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 546 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 546 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 546 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 546 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 547 1 Major Major NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 2 Histocompatibility Histocompatibility NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 3 Class Class NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 4 II II NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 5 Molecules Molecules NNPS work_mairtkvvofcdpp7xx5jeoujq5e 547 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 547 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 547 8 CNS CNS NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 9 : : : work_mairtkvvofcdpp7xx5jeoujq5e 547 10 Increased increase VBN work_mairtkvvofcdpp7xx5jeoujq5e 547 11 Microglial Microglial NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 12 Expression Expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 13 at at IN work_mairtkvvofcdpp7xx5jeoujq5e 547 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 547 15 Onset Onset NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 16 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 547 17 Narcolepsy Narcolepsy NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 18 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 547 19 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 547 20 Canine Canine NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 21 Model Model NNP work_mairtkvvofcdpp7xx5jeoujq5e 547 22 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 547 23 1996 1996 CD work_mairtkvvofcdpp7xx5jeoujq5e 547 24 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 547 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 548 1 41 41 CD work_mairtkvvofcdpp7xx5jeoujq5e 548 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 549 1 Zhou Zhou NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 3 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 5 Gu Gu NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 7 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 9 He He NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 11 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 13 Zhang Zhang NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 15 H. H. NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 16 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 549 17 Zhou Zhou NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 549 19 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 20 MDM2 MDM2 NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 21 regulates regulate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 549 22 vascular vascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 549 23 endothelial endothelial JJ work_mairtkvvofcdpp7xx5jeoujq5e 549 24 growth growth NN work_mairtkvvofcdpp7xx5jeoujq5e 549 25 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 549 26 mRNA mRNA . work_mairtkvvofcdpp7xx5jeoujq5e 549 27 stabilization stabilization NN work_mairtkvvofcdpp7xx5jeoujq5e 549 28 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 549 29 hypoxia hypoxia NNP work_mairtkvvofcdpp7xx5jeoujq5e 549 30 . . . work_mairtkvvofcdpp7xx5jeoujq5e 550 1 Mol Mol NNP work_mairtkvvofcdpp7xx5jeoujq5e 550 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 551 1 Cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 551 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 552 1 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 552 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 553 1 31 31 CD work_mairtkvvofcdpp7xx5jeoujq5e 553 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 553 3 4928–37 4928–37 CD work_mairtkvvofcdpp7xx5jeoujq5e 553 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 553 5 2011 2011 CD work_mairtkvvofcdpp7xx5jeoujq5e 553 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 553 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 554 1 42 42 CD work_mairtkvvofcdpp7xx5jeoujq5e 554 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 555 1 Mairet Mairet NNP work_mairtkvvofcdpp7xx5jeoujq5e 555 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 555 3 Coello Coello NNP work_mairtkvvofcdpp7xx5jeoujq5e 555 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 555 5 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 555 6 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 555 7 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 555 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 556 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 556 2 CAMKK2-AMPK CAMKK2-AMPK NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 3 Kinase Kinase NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 4 Pathway Pathway NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 5 Mediates mediate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 556 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 556 7 Synaptotoxic Synaptotoxic NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 8 Effects Effects NNPS work_mairtkvvofcdpp7xx5jeoujq5e 556 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 556 10 Aβ Aβ NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 11 Oligomers Oligomers NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 12 through through IN work_mairtkvvofcdpp7xx5jeoujq5e 556 13 Tau Tau NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 14 Phosphorylation Phosphorylation NNP work_mairtkvvofcdpp7xx5jeoujq5e 556 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 557 1 Neuron Neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 557 2 78 78 CD work_mairtkvvofcdpp7xx5jeoujq5e 557 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 557 4 94–108 94–108 CD work_mairtkvvofcdpp7xx5jeoujq5e 557 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 557 6 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 557 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 557 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 558 1 43 43 CD work_mairtkvvofcdpp7xx5jeoujq5e 558 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 559 1 Lemercier lemercier RBR work_mairtkvvofcdpp7xx5jeoujq5e 559 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 559 3 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 559 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 559 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 559 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 560 1 Involvement involvement NN work_mairtkvvofcdpp7xx5jeoujq5e 560 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 560 3 retinoblastoma retinoblastoma NN work_mairtkvvofcdpp7xx5jeoujq5e 560 4 protein protein NN work_mairtkvvofcdpp7xx5jeoujq5e 560 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 560 6 HBP1 HBP1 NNP work_mairtkvvofcdpp7xx5jeoujq5e 560 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 560 8 histone histone NN work_mairtkvvofcdpp7xx5jeoujq5e 560 9 H1(0 h1(0 NN work_mairtkvvofcdpp7xx5jeoujq5e 560 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 560 11 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 560 12 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 560 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 561 1 Mol Mol NNP work_mairtkvvofcdpp7xx5jeoujq5e 561 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 562 1 Cell cell NN work_mairtkvvofcdpp7xx5jeoujq5e 562 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 563 1 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 563 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 564 1 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 564 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 564 3 6627–37 6627–37 PRP work_mairtkvvofcdpp7xx5jeoujq5e 564 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 564 5 2000 2000 CD work_mairtkvvofcdpp7xx5jeoujq5e 564 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 564 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 565 1 44 44 CD work_mairtkvvofcdpp7xx5jeoujq5e 565 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 566 1 Metea Metea NNP work_mairtkvvofcdpp7xx5jeoujq5e 566 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 566 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 566 4 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 566 5 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 566 6 Newman Newman NNP work_mairtkvvofcdpp7xx5jeoujq5e 566 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 566 8 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 566 9 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 566 10 Glial Glial NNP work_mairtkvvofcdpp7xx5jeoujq5e 566 11 cells cell NNS work_mairtkvvofcdpp7xx5jeoujq5e 566 12 dilate dilate VBP work_mairtkvvofcdpp7xx5jeoujq5e 566 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 566 14 constrict constrict VBP work_mairtkvvofcdpp7xx5jeoujq5e 566 15 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 566 16 vessels vessel NNS work_mairtkvvofcdpp7xx5jeoujq5e 566 17 : : : work_mairtkvvofcdpp7xx5jeoujq5e 566 18 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 566 19 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 566 20 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 566 21 neurovascular neurovascular JJ work_mairtkvvofcdpp7xx5jeoujq5e 566 22 coupling coupling NN work_mairtkvvofcdpp7xx5jeoujq5e 566 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 567 1 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 567 2 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 567 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 568 1 26 26 CD work_mairtkvvofcdpp7xx5jeoujq5e 568 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 568 3 2862–70 2862–70 CD work_mairtkvvofcdpp7xx5jeoujq5e 568 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 568 5 2006 2006 CD work_mairtkvvofcdpp7xx5jeoujq5e 568 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 568 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 569 1 45 45 CD work_mairtkvvofcdpp7xx5jeoujq5e 569 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 570 1 Bélanger Bélanger NNP work_mairtkvvofcdpp7xx5jeoujq5e 570 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 570 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 570 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 570 5 Allaman Allaman NNP work_mairtkvvofcdpp7xx5jeoujq5e 570 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 570 7 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 571 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 571 2 Magistretti Magistretti NNP work_mairtkvvofcdpp7xx5jeoujq5e 571 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 571 4 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 571 5 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 1 Brain Brain NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 2 Energy Energy NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 3 Metabolism Metabolism NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 4 : : : work_mairtkvvofcdpp7xx5jeoujq5e 572 5 Focus focus VB work_mairtkvvofcdpp7xx5jeoujq5e 572 6 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 572 7 Astrocyte Astrocyte NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 8 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 572 9 Neuron Neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 10 Metabolic Metabolic NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 11 Cooperation Cooperation NNP work_mairtkvvofcdpp7xx5jeoujq5e 572 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 573 1 Cell Cell NNP work_mairtkvvofcdpp7xx5jeoujq5e 573 2 Metab Metab NNP work_mairtkvvofcdpp7xx5jeoujq5e 573 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 574 1 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 574 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 574 3 724–738 724–738 CD work_mairtkvvofcdpp7xx5jeoujq5e 574 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 574 5 2011 2011 CD work_mairtkvvofcdpp7xx5jeoujq5e 574 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 574 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 575 1 46 46 CD work_mairtkvvofcdpp7xx5jeoujq5e 575 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 576 1 Alvarez Alvarez NNP work_mairtkvvofcdpp7xx5jeoujq5e 576 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 576 3 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 576 4 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 576 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 576 6 Katayama Katayama NNP work_mairtkvvofcdpp7xx5jeoujq5e 576 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 576 8 T. T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 576 9 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 576 10 Prat Prat NNP work_mairtkvvofcdpp7xx5jeoujq5e 576 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 576 12 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 576 13 Glial glial JJ work_mairtkvvofcdpp7xx5jeoujq5e 576 14 influence influence NN work_mairtkvvofcdpp7xx5jeoujq5e 576 15 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 576 16 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 576 17 blood blood NN work_mairtkvvofcdpp7xx5jeoujq5e 576 18 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 576 19 barrier barrier NN work_mairtkvvofcdpp7xx5jeoujq5e 576 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 577 1 Glia Glia NNP work_mairtkvvofcdpp7xx5jeoujq5e 577 2 61 61 CD work_mairtkvvofcdpp7xx5jeoujq5e 577 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 577 4 1939–58 1939–58 CD work_mairtkvvofcdpp7xx5jeoujq5e 577 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 577 6 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 577 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 577 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 578 1 47 47 CD work_mairtkvvofcdpp7xx5jeoujq5e 578 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 579 1 Sweeney Sweeney NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 579 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 4 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 579 6 Sagare Sagare NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 579 8 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 9 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 10 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 579 11 Zlokovic Zlokovic NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 579 13 B. B. NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 14 V. V. NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 15 Blood Blood NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 16 – – : work_mairtkvvofcdpp7xx5jeoujq5e 579 17 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 579 18 barrier barrier NN work_mairtkvvofcdpp7xx5jeoujq5e 579 19 breakdown breakdown NN work_mairtkvvofcdpp7xx5jeoujq5e 579 20 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 579 21 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 579 22 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 579 23 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 579 24 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 579 25 neurodegenerative neurodegenerative JJ work_mairtkvvofcdpp7xx5jeoujq5e 579 26 disorders disorder NNS work_mairtkvvofcdpp7xx5jeoujq5e 579 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 580 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 580 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 581 1 Rev. Rev. NNP work_mairtkvvofcdpp7xx5jeoujq5e 582 1 Neurol Neurol NNP work_mairtkvvofcdpp7xx5jeoujq5e 582 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 583 1 https://doi.org/10.1038/nrneurol.2017.188 https://doi.org/10.1038/nrneurol.2017.188 NNP work_mairtkvvofcdpp7xx5jeoujq5e 583 2 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 583 3 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 583 4 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 583 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 584 1 48 48 CD work_mairtkvvofcdpp7xx5jeoujq5e 584 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 585 1 Irier Irier NNP work_mairtkvvofcdpp7xx5jeoujq5e 585 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 585 3 H. H. NNP work_mairtkvvofcdpp7xx5jeoujq5e 585 4 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 586 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 586 2 Jin Jin NNP work_mairtkvvofcdpp7xx5jeoujq5e 586 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 586 4 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 586 5 Dynamics Dynamics NNP work_mairtkvvofcdpp7xx5jeoujq5e 586 6 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 586 7 DNA DNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 586 8 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 586 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 586 10 aging age VBG work_mairtkvvofcdpp7xx5jeoujq5e 586 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 586 12 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 586 13 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 586 14 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 586 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 587 1 DNA DNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 587 2 Cell Cell NNP work_mairtkvvofcdpp7xx5jeoujq5e 587 3 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 587 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 588 1 31(Suppl 31(suppl ADD work_mairtkvvofcdpp7xx5jeoujq5e 588 2 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 588 3 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 588 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 588 5 S42–8 S42–8 NNP work_mairtkvvofcdpp7xx5jeoujq5e 588 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 588 7 2012 2012 CD work_mairtkvvofcdpp7xx5jeoujq5e 588 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 588 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 589 1 49 49 CD work_mairtkvvofcdpp7xx5jeoujq5e 589 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 590 1 Martin Martin NNP work_mairtkvvofcdpp7xx5jeoujq5e 590 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 590 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 590 4 Cutadapt Cutadapt NNP work_mairtkvvofcdpp7xx5jeoujq5e 590 5 removes remove VBZ work_mairtkvvofcdpp7xx5jeoujq5e 590 6 adapter adapter VBP work_mairtkvvofcdpp7xx5jeoujq5e 590 7 sequences sequence NNS work_mairtkvvofcdpp7xx5jeoujq5e 590 8 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 590 9 high high JJ work_mairtkvvofcdpp7xx5jeoujq5e 590 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 590 11 throughput throughput NN work_mairtkvvofcdpp7xx5jeoujq5e 590 12 sequencing sequencing NN work_mairtkvvofcdpp7xx5jeoujq5e 590 13 reads read NNS work_mairtkvvofcdpp7xx5jeoujq5e 590 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 591 1 EMBnet.journal EMBnet.journal NNP work_mairtkvvofcdpp7xx5jeoujq5e 591 2 17 17 CD work_mairtkvvofcdpp7xx5jeoujq5e 591 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 591 4 10 10 CD work_mairtkvvofcdpp7xx5jeoujq5e 591 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 591 6 2011 2011 CD work_mairtkvvofcdpp7xx5jeoujq5e 591 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 591 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 592 1 50 50 CD work_mairtkvvofcdpp7xx5jeoujq5e 592 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 593 1 Dobin Dobin NNP work_mairtkvvofcdpp7xx5jeoujq5e 593 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 593 3 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 593 4 et et FW work_mairtkvvofcdpp7xx5jeoujq5e 593 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 593 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 594 1 STAR STAR NNP work_mairtkvvofcdpp7xx5jeoujq5e 594 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 594 3 ultrafast ultrafast NNP work_mairtkvvofcdpp7xx5jeoujq5e 594 4 universal universal JJ work_mairtkvvofcdpp7xx5jeoujq5e 594 5 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 594 6 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 594 7 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 594 8 aligner aligner NN work_mairtkvvofcdpp7xx5jeoujq5e 594 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 595 1 Bioinformatics Bioinformatics NNP work_mairtkvvofcdpp7xx5jeoujq5e 595 2 29 29 CD work_mairtkvvofcdpp7xx5jeoujq5e 595 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 595 4 15–21 15–21 NNP work_mairtkvvofcdpp7xx5jeoujq5e 595 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 595 6 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 595 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 595 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 596 1 51 51 CD work_mairtkvvofcdpp7xx5jeoujq5e 596 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 597 1 McKenna McKenna NNP work_mairtkvvofcdpp7xx5jeoujq5e 597 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 597 3 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 597 4 et et FW work_mairtkvvofcdpp7xx5jeoujq5e 597 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 597 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 598 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 598 2 Genome Genome NNP work_mairtkvvofcdpp7xx5jeoujq5e 598 3 Analysis Analysis NNP work_mairtkvvofcdpp7xx5jeoujq5e 598 4 Toolkit Toolkit NNPS work_mairtkvvofcdpp7xx5jeoujq5e 598 5 : : : work_mairtkvvofcdpp7xx5jeoujq5e 598 6 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 598 7 MapReduce MapReduce NNP work_mairtkvvofcdpp7xx5jeoujq5e 598 8 framework framework NN work_mairtkvvofcdpp7xx5jeoujq5e 598 9 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 598 10 analyzing analyze VBG work_mairtkvvofcdpp7xx5jeoujq5e 598 11 next next JJ work_mairtkvvofcdpp7xx5jeoujq5e 598 12 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 598 13 generation generation NN work_mairtkvvofcdpp7xx5jeoujq5e 598 14 DNA dna NN work_mairtkvvofcdpp7xx5jeoujq5e 598 15 sequencing sequencing NN work_mairtkvvofcdpp7xx5jeoujq5e 598 16 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 598 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 599 1 Genome Genome NNP work_mairtkvvofcdpp7xx5jeoujq5e 599 2 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 599 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 600 1 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 600 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 600 3 1297–303 1297–303 CD work_mairtkvvofcdpp7xx5jeoujq5e 600 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 600 5 2010 2010 CD work_mairtkvvofcdpp7xx5jeoujq5e 600 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 600 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 601 1 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NN work_mairtkvvofcdpp7xx5jeoujq5e 601 2 https://doi.org/10.1038/s41588-018-0238-1 https://doi.org/10.1038/s41588-018-0238-1 NN work_mairtkvvofcdpp7xx5jeoujq5e 601 3 https://doi.org/10.1038/nrneurol.2017.188 https://doi.org/10.1038/nrneurol.2017.188 NN work_mairtkvvofcdpp7xx5jeoujq5e 601 4 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 601 5 3Scientific 3scientific JJ work_mairtkvvofcdpp7xx5jeoujq5e 601 6 RepoRtS report NNS work_mairtkvvofcdpp7xx5jeoujq5e 601 7 | | JJ work_mairtkvvofcdpp7xx5jeoujq5e 601 8 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 601 9 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 601 10 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 601 11 9:18509 9:18509 CD work_mairtkvvofcdpp7xx5jeoujq5e 601 12 | | CD work_mairtkvvofcdpp7xx5jeoujq5e 601 13 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 601 14 www.nature.com/scientificreportswww.nature.com/scientificreports/ www.nature.com/scientificreportswww.nature.com/scientificreports/ NNP work_mairtkvvofcdpp7xx5jeoujq5e 601 15 52 52 CD work_mairtkvvofcdpp7xx5jeoujq5e 601 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 602 1 Quinn Quinn NNP work_mairtkvvofcdpp7xx5jeoujq5e 602 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 602 3 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 602 4 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 602 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 602 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 602 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 603 1 Development development NN work_mairtkvvofcdpp7xx5jeoujq5e 603 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 603 3 Strategies Strategies NNPS work_mairtkvvofcdpp7xx5jeoujq5e 603 4 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 603 5 SNP SNP NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 6 Detection Detection NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 7 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 603 8 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 9 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 603 10 Seq Seq NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 11 Data Data NNPS work_mairtkvvofcdpp7xx5jeoujq5e 603 12 : : : work_mairtkvvofcdpp7xx5jeoujq5e 603 13 Application application NN work_mairtkvvofcdpp7xx5jeoujq5e 603 14 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 603 15 Lymphoblastoid Lymphoblastoid NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 16 Cell Cell NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 17 Lines Lines NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 603 19 Evaluation Evaluation NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 20 Using Using NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 21 1000 1000 CD work_mairtkvvofcdpp7xx5jeoujq5e 603 22 Genomes Genomes NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 23 Data Data NNP work_mairtkvvofcdpp7xx5jeoujq5e 603 24 . . . work_mairtkvvofcdpp7xx5jeoujq5e 604 1 PLoS plos ADD work_mairtkvvofcdpp7xx5jeoujq5e 604 2 One one CD work_mairtkvvofcdpp7xx5jeoujq5e 604 3 8 8 CD work_mairtkvvofcdpp7xx5jeoujq5e 604 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 604 5 e58815 e58815 NNP work_mairtkvvofcdpp7xx5jeoujq5e 604 6 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 604 7 2013 2013 CD work_mairtkvvofcdpp7xx5jeoujq5e 604 8 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 604 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 605 1 53 53 CD work_mairtkvvofcdpp7xx5jeoujq5e 605 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 606 1 Kalderimis Kalderimis NNP work_mairtkvvofcdpp7xx5jeoujq5e 606 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 606 3 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 606 4 et et FW work_mairtkvvofcdpp7xx5jeoujq5e 606 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 606 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 607 1 InterMine intermine NN work_mairtkvvofcdpp7xx5jeoujq5e 607 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 607 3 extensive extensive JJ work_mairtkvvofcdpp7xx5jeoujq5e 607 4 web web NN work_mairtkvvofcdpp7xx5jeoujq5e 607 5 services service NNS work_mairtkvvofcdpp7xx5jeoujq5e 607 6 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 607 7 modern modern JJ work_mairtkvvofcdpp7xx5jeoujq5e 607 8 biology biology NN work_mairtkvvofcdpp7xx5jeoujq5e 607 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 608 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 608 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 608 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 608 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 609 1 42 42 CD work_mairtkvvofcdpp7xx5jeoujq5e 609 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 609 3 W468–W472 W468–W472 NNP work_mairtkvvofcdpp7xx5jeoujq5e 609 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 609 5 2014 2014 CD work_mairtkvvofcdpp7xx5jeoujq5e 609 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 609 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 610 1 54 54 CD work_mairtkvvofcdpp7xx5jeoujq5e 610 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 611 1 Ward Ward NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 611 3 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 4 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 5 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 611 6 Kellis Kellis NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 611 8 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 9 HaploReg HaploReg NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 10 : : : work_mairtkvvofcdpp7xx5jeoujq5e 611 11 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 611 12 resource resource NN work_mairtkvvofcdpp7xx5jeoujq5e 611 13 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 611 14 exploring explore VBG work_mairtkvvofcdpp7xx5jeoujq5e 611 15 chromatin chromatin NNP work_mairtkvvofcdpp7xx5jeoujq5e 611 16 states state NNS work_mairtkvvofcdpp7xx5jeoujq5e 611 17 , , , work_mairtkvvofcdpp7xx5jeoujq5e 611 18 conservation conservation NN work_mairtkvvofcdpp7xx5jeoujq5e 611 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 611 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 611 21 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 611 22 motif motif NN work_mairtkvvofcdpp7xx5jeoujq5e 611 23 alterations alteration NNS work_mairtkvvofcdpp7xx5jeoujq5e 611 24 within within IN work_mairtkvvofcdpp7xx5jeoujq5e 611 25 sets set NNS work_mairtkvvofcdpp7xx5jeoujq5e 611 26 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 611 27 genetically genetically RB work_mairtkvvofcdpp7xx5jeoujq5e 611 28 linked link VBN work_mairtkvvofcdpp7xx5jeoujq5e 611 29 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 611 30 . . . work_mairtkvvofcdpp7xx5jeoujq5e 612 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 612 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 612 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 612 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 613 1 40 40 CD work_mairtkvvofcdpp7xx5jeoujq5e 613 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 613 3 D930–4 D930–4 NNP work_mairtkvvofcdpp7xx5jeoujq5e 613 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 613 5 2012 2012 CD work_mairtkvvofcdpp7xx5jeoujq5e 613 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 613 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 614 1 55 55 CD work_mairtkvvofcdpp7xx5jeoujq5e 614 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 615 1 Kumar Kumar NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 615 3 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 615 5 Ambrosini Ambrosini NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 615 7 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 8 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 615 9 Bucher Bucher NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 615 11 P. P. NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 12 SNP2TFBS SNP2TFBS NNP work_mairtkvvofcdpp7xx5jeoujq5e 615 13 - - : work_mairtkvvofcdpp7xx5jeoujq5e 615 14 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 615 15 database database NN work_mairtkvvofcdpp7xx5jeoujq5e 615 16 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 615 17 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 615 18 SNPs snp NNS work_mairtkvvofcdpp7xx5jeoujq5e 615 19 affecting affect VBG work_mairtkvvofcdpp7xx5jeoujq5e 615 20 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 615 21 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 615 22 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 615 23 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 615 24 site site NN work_mairtkvvofcdpp7xx5jeoujq5e 615 25 affinity affinity NN work_mairtkvvofcdpp7xx5jeoujq5e 615 26 . . . work_mairtkvvofcdpp7xx5jeoujq5e 616 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 616 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 616 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 616 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 617 1 45 45 CD work_mairtkvvofcdpp7xx5jeoujq5e 617 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 617 3 D139–D144 D139–D144 NNP work_mairtkvvofcdpp7xx5jeoujq5e 617 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 617 5 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 617 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 617 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 618 1 56 56 CD work_mairtkvvofcdpp7xx5jeoujq5e 618 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 619 1 Huang Huang NNP work_mairtkvvofcdpp7xx5jeoujq5e 619 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 619 3 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 619 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 619 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 619 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 620 1 GWAS4D GWAS4D NNP work_mairtkvvofcdpp7xx5jeoujq5e 620 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 620 3 multidimensional multidimensional JJ work_mairtkvvofcdpp7xx5jeoujq5e 620 4 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 620 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 620 6 context context NN work_mairtkvvofcdpp7xx5jeoujq5e 620 7 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 620 8 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 620 9 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 620 10 variant variant NN work_mairtkvvofcdpp7xx5jeoujq5e 620 11 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 620 12 human human JJ work_mairtkvvofcdpp7xx5jeoujq5e 620 13 complex complex JJ work_mairtkvvofcdpp7xx5jeoujq5e 620 14 diseases disease NNS work_mairtkvvofcdpp7xx5jeoujq5e 620 15 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 620 16 traits trait NNS work_mairtkvvofcdpp7xx5jeoujq5e 620 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 621 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 621 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 621 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 621 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 622 1 46 46 CD work_mairtkvvofcdpp7xx5jeoujq5e 622 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 622 3 W114–W120 w114–w120 NN work_mairtkvvofcdpp7xx5jeoujq5e 622 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 622 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 622 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 622 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 623 1 57 57 CD work_mairtkvvofcdpp7xx5jeoujq5e 623 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 624 1 Xuan Xuan NNP work_mairtkvvofcdpp7xx5jeoujq5e 624 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 624 3 J.-J. J.-J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 625 1 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 625 2 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 625 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 626 1 RMBase RMBase NNP work_mairtkvvofcdpp7xx5jeoujq5e 626 2 v2.0 v2.0 XX work_mairtkvvofcdpp7xx5jeoujq5e 626 3 : : : work_mairtkvvofcdpp7xx5jeoujq5e 626 4 deciphering decipher VBG work_mairtkvvofcdpp7xx5jeoujq5e 626 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 626 6 map map NN work_mairtkvvofcdpp7xx5jeoujq5e 626 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 626 8 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 626 9 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 626 10 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 626 11 epitranscriptome epitranscriptome NN work_mairtkvvofcdpp7xx5jeoujq5e 626 12 sequencing sequencing NN work_mairtkvvofcdpp7xx5jeoujq5e 626 13 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 626 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 627 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 627 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 627 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 627 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 628 1 46 46 CD work_mairtkvvofcdpp7xx5jeoujq5e 628 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 628 3 D327–D334 d327–d334 CD work_mairtkvvofcdpp7xx5jeoujq5e 628 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 628 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 628 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 628 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 629 1 58 58 CD work_mairtkvvofcdpp7xx5jeoujq5e 629 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 630 1 Zhou Zhou NNP work_mairtkvvofcdpp7xx5jeoujq5e 630 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 630 3 J. J. NNP work_mairtkvvofcdpp7xx5jeoujq5e 631 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 631 2 Troyanskaya Troyanskaya NNP work_mairtkvvofcdpp7xx5jeoujq5e 631 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 631 4 O. O. NNP work_mairtkvvofcdpp7xx5jeoujq5e 631 5 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 631 6 Predicting Predicting NNP work_mairtkvvofcdpp7xx5jeoujq5e 631 7 effects effect NNS work_mairtkvvofcdpp7xx5jeoujq5e 631 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 631 9 noncoding noncode VBG work_mairtkvvofcdpp7xx5jeoujq5e 631 10 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 631 11 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 631 12 deep deep JJ work_mairtkvvofcdpp7xx5jeoujq5e 631 13 learning learning NN work_mairtkvvofcdpp7xx5jeoujq5e 631 14 – – : work_mairtkvvofcdpp7xx5jeoujq5e 631 15 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 631 16 sequence sequence NN work_mairtkvvofcdpp7xx5jeoujq5e 631 17 model model NN work_mairtkvvofcdpp7xx5jeoujq5e 631 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 632 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 632 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 633 1 Methods method NNS work_mairtkvvofcdpp7xx5jeoujq5e 633 2 12 12 CD work_mairtkvvofcdpp7xx5jeoujq5e 633 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 633 4 931–934 931–934 CD work_mairtkvvofcdpp7xx5jeoujq5e 633 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 633 6 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 633 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 633 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 634 1 59 59 CD work_mairtkvvofcdpp7xx5jeoujq5e 634 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 635 1 Dayem Dayem NNP work_mairtkvvofcdpp7xx5jeoujq5e 635 2 Ullah Ullah NNP work_mairtkvvofcdpp7xx5jeoujq5e 635 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 635 4 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 636 1 Z. Z. NNP work_mairtkvvofcdpp7xx5jeoujq5e 636 2 et et FW work_mairtkvvofcdpp7xx5jeoujq5e 636 3 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 636 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 637 1 SNPnexus snpnexus NN work_mairtkvvofcdpp7xx5jeoujq5e 637 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 637 3 assessing assess VBG work_mairtkvvofcdpp7xx5jeoujq5e 637 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 637 5 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 637 6 relevance relevance NN work_mairtkvvofcdpp7xx5jeoujq5e 637 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 637 8 genetic genetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 637 9 variation variation NN work_mairtkvvofcdpp7xx5jeoujq5e 637 10 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 637 11 facilitate facilitate VB work_mairtkvvofcdpp7xx5jeoujq5e 637 12 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 637 13 promise promise NN work_mairtkvvofcdpp7xx5jeoujq5e 637 14 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 637 15 precision precision NN work_mairtkvvofcdpp7xx5jeoujq5e 637 16 medicine medicine NN work_mairtkvvofcdpp7xx5jeoujq5e 637 17 . . . work_mairtkvvofcdpp7xx5jeoujq5e 638 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 638 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 638 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 638 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 639 1 46 46 CD work_mairtkvvofcdpp7xx5jeoujq5e 639 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 639 3 W109–W113 w109–w113 CD work_mairtkvvofcdpp7xx5jeoujq5e 639 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 639 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 639 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 639 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 640 1 60 60 CD work_mairtkvvofcdpp7xx5jeoujq5e 640 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 641 1 Ng ng RB work_mairtkvvofcdpp7xx5jeoujq5e 641 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 641 3 B. B. NNP work_mairtkvvofcdpp7xx5jeoujq5e 641 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 641 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 641 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 642 1 An an DT work_mairtkvvofcdpp7xx5jeoujq5e 642 2 xQTL xqtl NN work_mairtkvvofcdpp7xx5jeoujq5e 642 3 map map NN work_mairtkvvofcdpp7xx5jeoujq5e 642 4 integrates integrate VBZ work_mairtkvvofcdpp7xx5jeoujq5e 642 5 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 642 6 genetic genetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 642 7 architecture architecture NN work_mairtkvvofcdpp7xx5jeoujq5e 642 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 642 9 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 642 10 human human JJ work_mairtkvvofcdpp7xx5jeoujq5e 642 11 brain brain NN work_mairtkvvofcdpp7xx5jeoujq5e 642 12 ’s ’ VBZ work_mairtkvvofcdpp7xx5jeoujq5e 642 13 transcriptome transcriptome NN work_mairtkvvofcdpp7xx5jeoujq5e 642 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 642 15 epigenome epigenome NN work_mairtkvvofcdpp7xx5jeoujq5e 642 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 643 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 643 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 644 1 Neurosci Neurosci NNP work_mairtkvvofcdpp7xx5jeoujq5e 644 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 645 1 20 20 CD work_mairtkvvofcdpp7xx5jeoujq5e 645 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 645 3 1418–1426 1418–1426 CD work_mairtkvvofcdpp7xx5jeoujq5e 645 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 645 5 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 645 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 645 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 646 1 61 61 CD work_mairtkvvofcdpp7xx5jeoujq5e 646 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 647 1 Patro Patro NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 3 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 5 Duggal Duggal NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 7 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 9 Love Love NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 11 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 12 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 13 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 14 Irizarry Irizarry NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 647 16 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 647 17 A. A. NNP work_mairtkvvofcdpp7xx5jeoujq5e 648 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 648 2 Kingsford Kingsford NNP work_mairtkvvofcdpp7xx5jeoujq5e 648 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 648 4 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 648 5 Salmon Salmon NNP work_mairtkvvofcdpp7xx5jeoujq5e 648 6 provides provide VBZ work_mairtkvvofcdpp7xx5jeoujq5e 648 7 fast fast JJ work_mairtkvvofcdpp7xx5jeoujq5e 648 8 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 648 9 bias bias NN work_mairtkvvofcdpp7xx5jeoujq5e 648 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 648 11 aware aware JJ work_mairtkvvofcdpp7xx5jeoujq5e 648 12 quantification quantification NN work_mairtkvvofcdpp7xx5jeoujq5e 648 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 648 14 transcript transcript JJ work_mairtkvvofcdpp7xx5jeoujq5e 648 15 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 648 16 . . . work_mairtkvvofcdpp7xx5jeoujq5e 649 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 649 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 650 1 Methods method NNS work_mairtkvvofcdpp7xx5jeoujq5e 650 2 14 14 CD work_mairtkvvofcdpp7xx5jeoujq5e 650 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 650 4 417–419 417–419 CD work_mairtkvvofcdpp7xx5jeoujq5e 650 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 650 6 2017 2017 CD work_mairtkvvofcdpp7xx5jeoujq5e 650 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 650 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 651 1 62 62 CD work_mairtkvvofcdpp7xx5jeoujq5e 651 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 652 1 Soneson Soneson NNP work_mairtkvvofcdpp7xx5jeoujq5e 652 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 652 3 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 652 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 652 5 Love Love NNP work_mairtkvvofcdpp7xx5jeoujq5e 652 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 652 7 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 652 8 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 653 1 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 653 2 Robinson Robinson NNP work_mairtkvvofcdpp7xx5jeoujq5e 653 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 653 4 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 653 5 D. D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 653 6 Differential Differential NNP work_mairtkvvofcdpp7xx5jeoujq5e 653 7 analyses analyse VBZ work_mairtkvvofcdpp7xx5jeoujq5e 653 8 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 653 9 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 653 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 653 11 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 653 12 : : : work_mairtkvvofcdpp7xx5jeoujq5e 653 13 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 653 14 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 653 15 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 653 16 estimates estimate NNS work_mairtkvvofcdpp7xx5jeoujq5e 653 17 improve improve VBP work_mairtkvvofcdpp7xx5jeoujq5e 653 18 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 653 19 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 653 20 level level NN work_mairtkvvofcdpp7xx5jeoujq5e 653 21 inferences inference NNS work_mairtkvvofcdpp7xx5jeoujq5e 653 22 . . . work_mairtkvvofcdpp7xx5jeoujq5e 654 1 F1000Research F1000Research NNP work_mairtkvvofcdpp7xx5jeoujq5e 654 2 4 4 CD work_mairtkvvofcdpp7xx5jeoujq5e 654 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 654 4 1521 1521 CD work_mairtkvvofcdpp7xx5jeoujq5e 654 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 654 6 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 654 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 654 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 655 1 63 63 CD work_mairtkvvofcdpp7xx5jeoujq5e 655 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 656 1 Love love NN work_mairtkvvofcdpp7xx5jeoujq5e 656 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 656 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 4 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 656 6 Huber Huber NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 656 8 W. W. NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 9 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 656 10 Anders Anders NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 656 12 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 13 Moderated moderate VBD work_mairtkvvofcdpp7xx5jeoujq5e 656 14 estimation estimation NN work_mairtkvvofcdpp7xx5jeoujq5e 656 15 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 656 16 fold fold JJ work_mairtkvvofcdpp7xx5jeoujq5e 656 17 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 656 18 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 656 19 dispersion dispersion NN work_mairtkvvofcdpp7xx5jeoujq5e 656 20 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 656 21 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 22 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 656 23 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 656 24 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 656 25 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 656 26 DESeq DESeq NNP work_mairtkvvofcdpp7xx5jeoujq5e 656 27 . . . work_mairtkvvofcdpp7xx5jeoujq5e 657 1 2 2 LS work_mairtkvvofcdpp7xx5jeoujq5e 657 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 658 1 Genome Genome NNP work_mairtkvvofcdpp7xx5jeoujq5e 658 2 Biol Biol NNP work_mairtkvvofcdpp7xx5jeoujq5e 658 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 659 1 15 15 CD work_mairtkvvofcdpp7xx5jeoujq5e 659 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 659 3 550 550 CD work_mairtkvvofcdpp7xx5jeoujq5e 659 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 659 5 2014 2014 CD work_mairtkvvofcdpp7xx5jeoujq5e 659 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 659 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 660 1 64 64 CD work_mairtkvvofcdpp7xx5jeoujq5e 660 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 661 1 Love love NN work_mairtkvvofcdpp7xx5jeoujq5e 661 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 661 3 M. M. NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 4 I. I. NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 661 6 Soneson Soneson NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 661 8 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 9 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 661 10 Patro Patro NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 661 12 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 13 Swimming Swimming NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 14 downstream downstream NN work_mairtkvvofcdpp7xx5jeoujq5e 661 15 : : : work_mairtkvvofcdpp7xx5jeoujq5e 661 16 statistical statistical JJ work_mairtkvvofcdpp7xx5jeoujq5e 661 17 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 661 18 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 661 19 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 661 20 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 661 21 usage usage NN work_mairtkvvofcdpp7xx5jeoujq5e 661 22 following follow VBG work_mairtkvvofcdpp7xx5jeoujq5e 661 23 Salmon Salmon NNP work_mairtkvvofcdpp7xx5jeoujq5e 661 24 quantification quantification NN work_mairtkvvofcdpp7xx5jeoujq5e 661 25 . . . work_mairtkvvofcdpp7xx5jeoujq5e 662 1 F1000Research F1000Research NNP work_mairtkvvofcdpp7xx5jeoujq5e 662 2 7 7 CD work_mairtkvvofcdpp7xx5jeoujq5e 662 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 662 4 952 952 CD work_mairtkvvofcdpp7xx5jeoujq5e 662 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 662 6 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 662 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 662 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 663 1 65 65 CD work_mairtkvvofcdpp7xx5jeoujq5e 663 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 664 1 Bindea Bindea NNP work_mairtkvvofcdpp7xx5jeoujq5e 664 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 664 3 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 664 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 664 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 664 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 665 1 ClueGO ClueGO NNP work_mairtkvvofcdpp7xx5jeoujq5e 665 2 : : : work_mairtkvvofcdpp7xx5jeoujq5e 665 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 665 4 Cytoscape Cytoscape NNP work_mairtkvvofcdpp7xx5jeoujq5e 665 5 plug plug NN work_mairtkvvofcdpp7xx5jeoujq5e 665 6 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 665 7 in in NN work_mairtkvvofcdpp7xx5jeoujq5e 665 8 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 665 9 decipher decipher NN work_mairtkvvofcdpp7xx5jeoujq5e 665 10 functionally functionally RB work_mairtkvvofcdpp7xx5jeoujq5e 665 11 grouped group VBN work_mairtkvvofcdpp7xx5jeoujq5e 665 12 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 665 13 ontology ontology NN work_mairtkvvofcdpp7xx5jeoujq5e 665 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 665 15 pathway pathway JJ work_mairtkvvofcdpp7xx5jeoujq5e 665 16 annotation annotation NN work_mairtkvvofcdpp7xx5jeoujq5e 665 17 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 665 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 666 1 Bioinformatics Bioinformatics NNP work_mairtkvvofcdpp7xx5jeoujq5e 666 2 25 25 CD work_mairtkvvofcdpp7xx5jeoujq5e 666 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 666 4 1091–3 1091–3 CD work_mairtkvvofcdpp7xx5jeoujq5e 666 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 666 6 2009 2009 CD work_mairtkvvofcdpp7xx5jeoujq5e 666 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 666 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 667 1 66 66 CD work_mairtkvvofcdpp7xx5jeoujq5e 667 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 668 1 Greene Greene NNP work_mairtkvvofcdpp7xx5jeoujq5e 668 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 668 3 C. C. NNP work_mairtkvvofcdpp7xx5jeoujq5e 668 4 S. S. NNP work_mairtkvvofcdpp7xx5jeoujq5e 668 5 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 668 6 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 668 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 669 1 Understanding understand VBG work_mairtkvvofcdpp7xx5jeoujq5e 669 2 multicellular multicellular JJ work_mairtkvvofcdpp7xx5jeoujq5e 669 3 function function NN work_mairtkvvofcdpp7xx5jeoujq5e 669 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 669 5 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 669 6 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 669 7 human human JJ work_mairtkvvofcdpp7xx5jeoujq5e 669 8 tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 669 9 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 669 10 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 669 11 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 669 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 670 1 Nat Nat NNP work_mairtkvvofcdpp7xx5jeoujq5e 670 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 671 1 Genet Genet NNP work_mairtkvvofcdpp7xx5jeoujq5e 671 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 672 1 47 47 CD work_mairtkvvofcdpp7xx5jeoujq5e 672 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 672 3 569–576 569–576 CD work_mairtkvvofcdpp7xx5jeoujq5e 672 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 672 5 2015 2015 CD work_mairtkvvofcdpp7xx5jeoujq5e 672 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 672 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 673 1 67 67 CD work_mairtkvvofcdpp7xx5jeoujq5e 673 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 674 1 Wu Wu NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 3 G. G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 4 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 5 Dawson Dawson NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 7 E. E. NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 9 Duong Duong NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 10 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 11 A. a. NN work_mairtkvvofcdpp7xx5jeoujq5e 674 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 13 Haw Haw NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 14 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 15 R. R. NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 16 & & CC work_mairtkvvofcdpp7xx5jeoujq5e 674 17 Stein Stein NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 18 , , , work_mairtkvvofcdpp7xx5jeoujq5e 674 19 L. L. NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 20 ReactomeFIViz ReactomeFIViz NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 21 : : : work_mairtkvvofcdpp7xx5jeoujq5e 674 22 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 674 23 Cytoscape Cytoscape NNP work_mairtkvvofcdpp7xx5jeoujq5e 674 24 app app NN work_mairtkvvofcdpp7xx5jeoujq5e 674 25 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 674 26 pathway pathway NN work_mairtkvvofcdpp7xx5jeoujq5e 674 27 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 674 28 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 674 29 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 674 30 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 674 31 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 674 32 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 674 33 . . . work_mairtkvvofcdpp7xx5jeoujq5e 675 1 F1000Research F1000Research NNP work_mairtkvvofcdpp7xx5jeoujq5e 675 2 3 3 CD work_mairtkvvofcdpp7xx5jeoujq5e 675 3 , , , work_mairtkvvofcdpp7xx5jeoujq5e 675 4 146 146 CD work_mairtkvvofcdpp7xx5jeoujq5e 675 5 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 675 6 2014 2014 CD work_mairtkvvofcdpp7xx5jeoujq5e 675 7 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 675 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 676 1 68 68 CD work_mairtkvvofcdpp7xx5jeoujq5e 676 2 . . . work_mairtkvvofcdpp7xx5jeoujq5e 677 1 Han Han NNP work_mairtkvvofcdpp7xx5jeoujq5e 677 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 677 3 H. H. NNP work_mairtkvvofcdpp7xx5jeoujq5e 677 4 et et NNP work_mairtkvvofcdpp7xx5jeoujq5e 677 5 al al NNP work_mairtkvvofcdpp7xx5jeoujq5e 677 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 678 1 TRRUST TRRUST NNP work_mairtkvvofcdpp7xx5jeoujq5e 678 2 v2 v2 NN work_mairtkvvofcdpp7xx5jeoujq5e 678 3 : : : work_mairtkvvofcdpp7xx5jeoujq5e 678 4 an an DT work_mairtkvvofcdpp7xx5jeoujq5e 678 5 expanded expand VBN work_mairtkvvofcdpp7xx5jeoujq5e 678 6 reference reference NN work_mairtkvvofcdpp7xx5jeoujq5e 678 7 database database NN work_mairtkvvofcdpp7xx5jeoujq5e 678 8 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 678 9 human human NN work_mairtkvvofcdpp7xx5jeoujq5e 678 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 678 11 mouse mouse NN work_mairtkvvofcdpp7xx5jeoujq5e 678 12 transcriptional transcriptional JJ work_mairtkvvofcdpp7xx5jeoujq5e 678 13 regulatory regulatory JJ work_mairtkvvofcdpp7xx5jeoujq5e 678 14 interactions interaction NNS work_mairtkvvofcdpp7xx5jeoujq5e 678 15 . . . work_mairtkvvofcdpp7xx5jeoujq5e 679 1 Nucleic Nucleic NNP work_mairtkvvofcdpp7xx5jeoujq5e 679 2 Acids Acids NNPS work_mairtkvvofcdpp7xx5jeoujq5e 679 3 Res Res NNP work_mairtkvvofcdpp7xx5jeoujq5e 679 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 680 1 46 46 CD work_mairtkvvofcdpp7xx5jeoujq5e 680 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 680 3 D380–D386 D380–D386 NNP work_mairtkvvofcdpp7xx5jeoujq5e 680 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 680 5 2018 2018 CD work_mairtkvvofcdpp7xx5jeoujq5e 680 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 680 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 681 1 Acknowledgements acknowledgement NNS work_mairtkvvofcdpp7xx5jeoujq5e 681 2 We -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 681 3 thank thank VBP work_mairtkvvofcdpp7xx5jeoujq5e 681 4 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 681 5 Bioinformatics Bioinformatics NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 6 facility facility NN work_mairtkvvofcdpp7xx5jeoujq5e 681 7 , , , work_mairtkvvofcdpp7xx5jeoujq5e 681 8 Department Department NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 681 10 Biotechnology Biotechnology NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 681 12 Indian Indian NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 13 Institute Institute NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 14 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 681 15 Technology Technology NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 16 Madras Madras NNP work_mairtkvvofcdpp7xx5jeoujq5e 681 17 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 681 18 computational computational JJ work_mairtkvvofcdpp7xx5jeoujq5e 681 19 facilities facility NNS work_mairtkvvofcdpp7xx5jeoujq5e 681 20 . . . work_mairtkvvofcdpp7xx5jeoujq5e 682 1 SAPD SAPD NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 2 thank thank VBP work_mairtkvvofcdpp7xx5jeoujq5e 682 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 682 4 Ministry Ministry NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 682 6 Human Human NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 7 Resource Resource NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 8 Development Development NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 682 10 MHRD MHRD NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 682 12 , , , work_mairtkvvofcdpp7xx5jeoujq5e 682 13 India India NNP work_mairtkvvofcdpp7xx5jeoujq5e 682 14 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 682 15 providing provide VBG work_mairtkvvofcdpp7xx5jeoujq5e 682 16 research research NN work_mairtkvvofcdpp7xx5jeoujq5e 682 17 fellowship fellowship NN work_mairtkvvofcdpp7xx5jeoujq5e 682 18 . . . work_mairtkvvofcdpp7xx5jeoujq5e 683 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 683 2 work work NN work_mairtkvvofcdpp7xx5jeoujq5e 683 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 683 4 partially partially RB work_mairtkvvofcdpp7xx5jeoujq5e 683 5 supported support VBN work_mairtkvvofcdpp7xx5jeoujq5e 683 6 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 683 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 683 8 Department Department NNP work_mairtkvvofcdpp7xx5jeoujq5e 683 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 683 10 Biotechnology Biotechnology NNP work_mairtkvvofcdpp7xx5jeoujq5e 683 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 683 12 Government Government NNP work_mairtkvvofcdpp7xx5jeoujq5e 683 13 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 683 14 India India NNP work_mairtkvvofcdpp7xx5jeoujq5e 683 15 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 683 16 MMG MMG NNP work_mairtkvvofcdpp7xx5jeoujq5e 683 17 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 683 18 No no UH work_mairtkvvofcdpp7xx5jeoujq5e 683 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 684 1 BT BT NNP work_mairtkvvofcdpp7xx5jeoujq5e 684 2 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 684 3 PR16710 PR16710 NNP work_mairtkvvofcdpp7xx5jeoujq5e 684 4 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 684 5 BID/7/680/2016 BID/7/680/2016 , work_mairtkvvofcdpp7xx5jeoujq5e 684 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 684 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 685 1 SAPD SAPD NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 2 thank thank VBP work_mairtkvvofcdpp7xx5jeoujq5e 685 3 Sherlyn Sherlyn NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 4 Jemimah Jemimah NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 5 , , , work_mairtkvvofcdpp7xx5jeoujq5e 685 6 Prabakaran Prabakaran NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 7 R R NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 685 9 Dhanusha Dhanusha NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 10 yesudhas yesudha NNS work_mairtkvvofcdpp7xx5jeoujq5e 685 11 , , , work_mairtkvvofcdpp7xx5jeoujq5e 685 12 Ranjith Ranjith NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 13 Ravi Ravi NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 685 15 Neela Neela NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 16 Devi Devi NNP work_mairtkvvofcdpp7xx5jeoujq5e 685 17 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 685 18 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 685 19 discussion discussion NN work_mairtkvvofcdpp7xx5jeoujq5e 685 20 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 685 21 fine fine JJ work_mairtkvvofcdpp7xx5jeoujq5e 685 22 images image NNS work_mairtkvvofcdpp7xx5jeoujq5e 685 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 686 1 Author author NN work_mairtkvvofcdpp7xx5jeoujq5e 686 2 contributions contribution NNS work_mairtkvvofcdpp7xx5jeoujq5e 686 3 M.M.G. M.M.G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 687 1 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 687 2 S.A.P.D. S.A.P.D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 688 1 conceived conceive VBD work_mairtkvvofcdpp7xx5jeoujq5e 688 2 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 688 3 project project NN work_mairtkvvofcdpp7xx5jeoujq5e 688 4 . . . work_mairtkvvofcdpp7xx5jeoujq5e 689 1 S.A.P.D. S.A.P.D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 690 1 carried carry VBN work_mairtkvvofcdpp7xx5jeoujq5e 690 2 out out RP work_mairtkvvofcdpp7xx5jeoujq5e 690 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 690 4 computations computation NNS work_mairtkvvofcdpp7xx5jeoujq5e 690 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 691 1 S.A.P.D. S.A.P.D. NNP work_mairtkvvofcdpp7xx5jeoujq5e 691 2 , , , work_mairtkvvofcdpp7xx5jeoujq5e 691 3 Y.T. Y.T. NNP work_mairtkvvofcdpp7xx5jeoujq5e 692 1 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 692 2 M.M.G. M.M.G. NNPS work_mairtkvvofcdpp7xx5jeoujq5e 693 1 contributed contribute VBD work_mairtkvvofcdpp7xx5jeoujq5e 693 2 toward toward IN work_mairtkvvofcdpp7xx5jeoujq5e 693 3 discussions discussion NNS work_mairtkvvofcdpp7xx5jeoujq5e 693 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 693 5 manuscript manuscript NN work_mairtkvvofcdpp7xx5jeoujq5e 693 6 preparation preparation NN work_mairtkvvofcdpp7xx5jeoujq5e 693 7 . . . work_mairtkvvofcdpp7xx5jeoujq5e 694 1 All all DT work_mairtkvvofcdpp7xx5jeoujq5e 694 2 authors author NNS work_mairtkvvofcdpp7xx5jeoujq5e 694 3 read read VBP work_mairtkvvofcdpp7xx5jeoujq5e 694 4 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 694 5 finalized finalize VBD work_mairtkvvofcdpp7xx5jeoujq5e 694 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 694 7 manuscript manuscript NN work_mairtkvvofcdpp7xx5jeoujq5e 694 8 . . . work_mairtkvvofcdpp7xx5jeoujq5e 695 1 competing compete VBG work_mairtkvvofcdpp7xx5jeoujq5e 695 2 interests interest NNS work_mairtkvvofcdpp7xx5jeoujq5e 695 3 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 695 4 authors author NNS work_mairtkvvofcdpp7xx5jeoujq5e 695 5 declare declare VBP work_mairtkvvofcdpp7xx5jeoujq5e 695 6 no no DT work_mairtkvvofcdpp7xx5jeoujq5e 695 7 competing compete VBG work_mairtkvvofcdpp7xx5jeoujq5e 695 8 interests interest NNS work_mairtkvvofcdpp7xx5jeoujq5e 695 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 696 1 Additional additional JJ work_mairtkvvofcdpp7xx5jeoujq5e 696 2 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 696 3 Supplementary supplementary JJ work_mairtkvvofcdpp7xx5jeoujq5e 696 4 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 696 5 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 696 6 available available JJ work_mairtkvvofcdpp7xx5jeoujq5e 696 7 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 696 8 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 696 9 paper paper NN work_mairtkvvofcdpp7xx5jeoujq5e 696 10 at at IN work_mairtkvvofcdpp7xx5jeoujq5e 696 11 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 696 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 697 1 Correspondence correspondence NN work_mairtkvvofcdpp7xx5jeoujq5e 697 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 697 3 requests request NNS work_mairtkvvofcdpp7xx5jeoujq5e 697 4 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 697 5 materials material NNS work_mairtkvvofcdpp7xx5jeoujq5e 697 6 should should MD work_mairtkvvofcdpp7xx5jeoujq5e 697 7 be be VB work_mairtkvvofcdpp7xx5jeoujq5e 697 8 addressed address VBN work_mairtkvvofcdpp7xx5jeoujq5e 697 9 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 697 10 M.M.G. M.M.G. NNP work_mairtkvvofcdpp7xx5jeoujq5e 698 1 Reprints reprint NNS work_mairtkvvofcdpp7xx5jeoujq5e 698 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 698 3 permissions permission NNS work_mairtkvvofcdpp7xx5jeoujq5e 698 4 information information NN work_mairtkvvofcdpp7xx5jeoujq5e 698 5 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 698 6 available available JJ work_mairtkvvofcdpp7xx5jeoujq5e 698 7 at at IN work_mairtkvvofcdpp7xx5jeoujq5e 698 8 www.nature.com/reprints www.nature.com/reprint NNS work_mairtkvvofcdpp7xx5jeoujq5e 698 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 699 1 Publisher publisher NN work_mairtkvvofcdpp7xx5jeoujq5e 699 2 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 699 3 note note NN work_mairtkvvofcdpp7xx5jeoujq5e 699 4 Springer Springer NNP work_mairtkvvofcdpp7xx5jeoujq5e 699 5 Nature Nature NNP work_mairtkvvofcdpp7xx5jeoujq5e 699 6 remains remain VBZ work_mairtkvvofcdpp7xx5jeoujq5e 699 7 neutral neutral JJ work_mairtkvvofcdpp7xx5jeoujq5e 699 8 with with IN work_mairtkvvofcdpp7xx5jeoujq5e 699 9 regard regard NN work_mairtkvvofcdpp7xx5jeoujq5e 699 10 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 699 11 jurisdictional jurisdictional JJ work_mairtkvvofcdpp7xx5jeoujq5e 699 12 claims claim NNS work_mairtkvvofcdpp7xx5jeoujq5e 699 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 699 14 published publish VBN work_mairtkvvofcdpp7xx5jeoujq5e 699 15 maps map NNS work_mairtkvvofcdpp7xx5jeoujq5e 699 16 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 699 17 institutional institutional JJ work_mairtkvvofcdpp7xx5jeoujq5e 699 18 affiliations affiliation NNS work_mairtkvvofcdpp7xx5jeoujq5e 699 19 . . . work_mairtkvvofcdpp7xx5jeoujq5e 700 1 Open open JJ work_mairtkvvofcdpp7xx5jeoujq5e 700 2 Access access NN work_mairtkvvofcdpp7xx5jeoujq5e 700 3 This this DT work_mairtkvvofcdpp7xx5jeoujq5e 700 4 article article NN work_mairtkvvofcdpp7xx5jeoujq5e 700 5 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 700 6 licensed license VBN work_mairtkvvofcdpp7xx5jeoujq5e 700 7 under under IN work_mairtkvvofcdpp7xx5jeoujq5e 700 8 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 700 9 Creative Creative NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 10 Commons Commons NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 11 Attribution Attribution NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 12 4.0 4.0 CD work_mairtkvvofcdpp7xx5jeoujq5e 700 13 International International NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 14 License License NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 15 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 16 which which WDT work_mairtkvvofcdpp7xx5jeoujq5e 700 17 permits permit VBZ work_mairtkvvofcdpp7xx5jeoujq5e 700 18 use use NN work_mairtkvvofcdpp7xx5jeoujq5e 700 19 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 20 sharing sharing NN work_mairtkvvofcdpp7xx5jeoujq5e 700 21 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 22 adaptation adaptation NN work_mairtkvvofcdpp7xx5jeoujq5e 700 23 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 24 distribution distribution NN work_mairtkvvofcdpp7xx5jeoujq5e 700 25 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 700 26 reproduction reproduction NN work_mairtkvvofcdpp7xx5jeoujq5e 700 27 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 700 28 any any DT work_mairtkvvofcdpp7xx5jeoujq5e 700 29 medium medium NN work_mairtkvvofcdpp7xx5jeoujq5e 700 30 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 700 31 format format NN work_mairtkvvofcdpp7xx5jeoujq5e 700 32 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 33 as as RB work_mairtkvvofcdpp7xx5jeoujq5e 700 34 long long RB work_mairtkvvofcdpp7xx5jeoujq5e 700 35 as as IN work_mairtkvvofcdpp7xx5jeoujq5e 700 36 you -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 700 37 give give VBP work_mairtkvvofcdpp7xx5jeoujq5e 700 38 appropriate appropriate JJ work_mairtkvvofcdpp7xx5jeoujq5e 700 39 credit credit NN work_mairtkvvofcdpp7xx5jeoujq5e 700 40 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 700 41 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 700 42 original original JJ work_mairtkvvofcdpp7xx5jeoujq5e 700 43 author(s author(s NN work_mairtkvvofcdpp7xx5jeoujq5e 700 44 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 700 45 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 700 46 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 700 47 source source NN work_mairtkvvofcdpp7xx5jeoujq5e 700 48 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 49 provide provide VB work_mairtkvvofcdpp7xx5jeoujq5e 700 50 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 700 51 link link NN work_mairtkvvofcdpp7xx5jeoujq5e 700 52 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 700 53 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 700 54 Cre- Cre- NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 55 ative ative JJ work_mairtkvvofcdpp7xx5jeoujq5e 700 56 Commons Commons NNP work_mairtkvvofcdpp7xx5jeoujq5e 700 57 license license NN work_mairtkvvofcdpp7xx5jeoujq5e 700 58 , , , work_mairtkvvofcdpp7xx5jeoujq5e 700 59 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 700 60 indicate indicate VBP work_mairtkvvofcdpp7xx5jeoujq5e 700 61 if if IN work_mairtkvvofcdpp7xx5jeoujq5e 700 62 changes change NNS work_mairtkvvofcdpp7xx5jeoujq5e 700 63 were be VBD work_mairtkvvofcdpp7xx5jeoujq5e 700 64 made make VBN work_mairtkvvofcdpp7xx5jeoujq5e 700 65 . . . work_mairtkvvofcdpp7xx5jeoujq5e 701 1 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 701 2 images image NNS work_mairtkvvofcdpp7xx5jeoujq5e 701 3 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 701 4 other other JJ work_mairtkvvofcdpp7xx5jeoujq5e 701 5 third third JJ work_mairtkvvofcdpp7xx5jeoujq5e 701 6 party party NN work_mairtkvvofcdpp7xx5jeoujq5e 701 7 material material NN work_mairtkvvofcdpp7xx5jeoujq5e 701 8 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 701 9 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 701 10 article article NN work_mairtkvvofcdpp7xx5jeoujq5e 701 11 are be VBP work_mairtkvvofcdpp7xx5jeoujq5e 701 12 included include VBN work_mairtkvvofcdpp7xx5jeoujq5e 701 13 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 701 14 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 701 15 article article NN work_mairtkvvofcdpp7xx5jeoujq5e 701 16 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 701 17 Creative Creative NNP work_mairtkvvofcdpp7xx5jeoujq5e 701 18 Commons Commons NNP work_mairtkvvofcdpp7xx5jeoujq5e 701 19 license license NN work_mairtkvvofcdpp7xx5jeoujq5e 701 20 , , , work_mairtkvvofcdpp7xx5jeoujq5e 701 21 unless unless IN work_mairtkvvofcdpp7xx5jeoujq5e 701 22 indicated indicate VBN work_mairtkvvofcdpp7xx5jeoujq5e 701 23 otherwise otherwise RB work_mairtkvvofcdpp7xx5jeoujq5e 701 24 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 701 25 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 701 26 credit credit NN work_mairtkvvofcdpp7xx5jeoujq5e 701 27 line line NN work_mairtkvvofcdpp7xx5jeoujq5e 701 28 to to IN work_mairtkvvofcdpp7xx5jeoujq5e 701 29 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 701 30 material material NN work_mairtkvvofcdpp7xx5jeoujq5e 701 31 . . . work_mairtkvvofcdpp7xx5jeoujq5e 702 1 If if IN work_mairtkvvofcdpp7xx5jeoujq5e 702 2 material material NN work_mairtkvvofcdpp7xx5jeoujq5e 702 3 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 702 4 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 702 5 included include VBN work_mairtkvvofcdpp7xx5jeoujq5e 702 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 702 7 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 702 8 article article NN work_mairtkvvofcdpp7xx5jeoujq5e 702 9 ’s ’s POS work_mairtkvvofcdpp7xx5jeoujq5e 702 10 Creative Creative NNP work_mairtkvvofcdpp7xx5jeoujq5e 702 11 Commons Commons NNP work_mairtkvvofcdpp7xx5jeoujq5e 702 12 license license NN work_mairtkvvofcdpp7xx5jeoujq5e 702 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 702 14 your -PRON- PRP$ work_mairtkvvofcdpp7xx5jeoujq5e 702 15 intended intended JJ work_mairtkvvofcdpp7xx5jeoujq5e 702 16 use use NN work_mairtkvvofcdpp7xx5jeoujq5e 702 17 is be VBZ work_mairtkvvofcdpp7xx5jeoujq5e 702 18 not not RB work_mairtkvvofcdpp7xx5jeoujq5e 702 19 per- per- RB work_mairtkvvofcdpp7xx5jeoujq5e 702 20 mitted mitte VBN work_mairtkvvofcdpp7xx5jeoujq5e 702 21 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 702 22 statutory statutory JJ work_mairtkvvofcdpp7xx5jeoujq5e 702 23 regulation regulation NN work_mairtkvvofcdpp7xx5jeoujq5e 702 24 or or CC work_mairtkvvofcdpp7xx5jeoujq5e 702 25 exceeds exceed VBZ work_mairtkvvofcdpp7xx5jeoujq5e 702 26 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 702 27 permitted permit VBN work_mairtkvvofcdpp7xx5jeoujq5e 702 28 use use NN work_mairtkvvofcdpp7xx5jeoujq5e 702 29 , , , work_mairtkvvofcdpp7xx5jeoujq5e 702 30 you -PRON- PRP work_mairtkvvofcdpp7xx5jeoujq5e 702 31 will will MD work_mairtkvvofcdpp7xx5jeoujq5e 702 32 need need VB work_mairtkvvofcdpp7xx5jeoujq5e 702 33 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 702 34 obtain obtain VB work_mairtkvvofcdpp7xx5jeoujq5e 702 35 permission permission NN work_mairtkvvofcdpp7xx5jeoujq5e 702 36 directly directly RB work_mairtkvvofcdpp7xx5jeoujq5e 702 37 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 702 38 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 702 39 copyright copyright NN work_mairtkvvofcdpp7xx5jeoujq5e 702 40 holder holder NN work_mairtkvvofcdpp7xx5jeoujq5e 702 41 . . . work_mairtkvvofcdpp7xx5jeoujq5e 703 1 To to TO work_mairtkvvofcdpp7xx5jeoujq5e 703 2 view view VB work_mairtkvvofcdpp7xx5jeoujq5e 703 3 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 703 4 copy copy NN work_mairtkvvofcdpp7xx5jeoujq5e 703 5 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 703 6 this this DT work_mairtkvvofcdpp7xx5jeoujq5e 703 7 license license NN work_mairtkvvofcdpp7xx5jeoujq5e 703 8 , , , work_mairtkvvofcdpp7xx5jeoujq5e 703 9 visit visit VB work_mairtkvvofcdpp7xx5jeoujq5e 703 10 http://creativecommons.org/licenses/by/4.0/. http://creativecommons.org/licenses/by/4.0/. NNP work_mairtkvvofcdpp7xx5jeoujq5e 704 1 © © LS work_mairtkvvofcdpp7xx5jeoujq5e 704 2 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 704 3 Author(s author(s NN work_mairtkvvofcdpp7xx5jeoujq5e 704 4 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 704 5 2019 2019 CD work_mairtkvvofcdpp7xx5jeoujq5e 704 6 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 704 7 https://doi.org/10.1038/s41598-019-54782-y https://doi.org/10.1038/s41598-019-54782-y NNP work_mairtkvvofcdpp7xx5jeoujq5e 704 8 http://www.nature.com/reprints http://www.nature.com/reprint NNS work_mairtkvvofcdpp7xx5jeoujq5e 704 9 http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/ ADD work_mairtkvvofcdpp7xx5jeoujq5e 704 10 Investigating investigate VBG work_mairtkvvofcdpp7xx5jeoujq5e 704 11 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 704 12 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 704 13 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 704 14 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 704 15 Alzheimer Alzheimer NNP work_mairtkvvofcdpp7xx5jeoujq5e 704 16 disease disease NN work_mairtkvvofcdpp7xx5jeoujq5e 704 17 using use VBG work_mairtkvvofcdpp7xx5jeoujq5e 704 18 transcriptome transcriptome DT work_mairtkvvofcdpp7xx5jeoujq5e 704 19 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 704 20 Results result NNS work_mairtkvvofcdpp7xx5jeoujq5e 704 21 Variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 704 22 calling calling NN work_mairtkvvofcdpp7xx5jeoujq5e 704 23 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 704 24 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 704 25 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 704 26 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 704 27 seq seq NN work_mairtkvvofcdpp7xx5jeoujq5e 704 28 data datum NNS work_mairtkvvofcdpp7xx5jeoujq5e 704 29 . . . work_mairtkvvofcdpp7xx5jeoujq5e 705 1 Effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 705 2 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 705 3 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 705 4 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 705 5 methylation methylation NN work_mairtkvvofcdpp7xx5jeoujq5e 705 6 , , , work_mairtkvvofcdpp7xx5jeoujq5e 705 7 histone histone JJ work_mairtkvvofcdpp7xx5jeoujq5e 705 8 acetylation acetylation NN work_mairtkvvofcdpp7xx5jeoujq5e 705 9 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 705 10 transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 705 11 factor factor NN work_mairtkvvofcdpp7xx5jeoujq5e 705 12 binding bind VBG work_mairtkvvofcdpp7xx5jeoujq5e 705 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 706 1 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 706 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 706 3 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 706 4 transcript transcript NNP work_mairtkvvofcdpp7xx5jeoujq5e 706 5 expression expression NNP work_mairtkvvofcdpp7xx5jeoujq5e 706 6 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 706 7 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 706 8 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 706 9 RNA RNA NNP work_mairtkvvofcdpp7xx5jeoujq5e 706 10 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 706 11 seq seq NNP work_mairtkvvofcdpp7xx5jeoujq5e 706 12 . . . work_mairtkvvofcdpp7xx5jeoujq5e 707 1 Novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 707 2 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 707 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 708 1 Known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 708 2 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 708 3 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 708 4 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 708 5 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 708 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 709 1 Functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 709 2 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 709 3 studies study NNS work_mairtkvvofcdpp7xx5jeoujq5e 709 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 709 5 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 709 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 709 7 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 709 8 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 709 9 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 709 10 . . . work_mairtkvvofcdpp7xx5jeoujq5e 710 1 Tissue tissue NN work_mairtkvvofcdpp7xx5jeoujq5e 710 2 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 710 3 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 710 4 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 710 5 - - NN work_mairtkvvofcdpp7xx5jeoujq5e 710 6 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 710 7 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 710 8 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 710 9 interaction interaction NN work_mairtkvvofcdpp7xx5jeoujq5e 710 10 networks network NNS work_mairtkvvofcdpp7xx5jeoujq5e 710 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 711 1 Transcription transcription NN work_mairtkvvofcdpp7xx5jeoujq5e 711 2 factors factor NNS work_mairtkvvofcdpp7xx5jeoujq5e 711 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 712 1 Novel novel JJ work_mairtkvvofcdpp7xx5jeoujq5e 712 2 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 712 3 . . . work_mairtkvvofcdpp7xx5jeoujq5e 713 1 Known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 713 2 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 713 3 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 713 4 DGs DGs NNP work_mairtkvvofcdpp7xx5jeoujq5e 713 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 714 1 Hypothesis hypothesis NN work_mairtkvvofcdpp7xx5jeoujq5e 714 2 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 714 3 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 714 4 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 714 5 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 714 6 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 714 7 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 714 8 neuron neuron NNP work_mairtkvvofcdpp7xx5jeoujq5e 714 9 . . . work_mairtkvvofcdpp7xx5jeoujq5e 715 1 Discussion discussion NN work_mairtkvvofcdpp7xx5jeoujq5e 715 2 Conclusion Conclusion NNP work_mairtkvvofcdpp7xx5jeoujq5e 715 3 Methods method NNS work_mairtkvvofcdpp7xx5jeoujq5e 715 4 Variant variant JJ work_mairtkvvofcdpp7xx5jeoujq5e 715 5 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 715 6 . . . work_mairtkvvofcdpp7xx5jeoujq5e 716 1 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 716 2 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 716 3 / / SYM work_mairtkvvofcdpp7xx5jeoujq5e 716 4 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 716 5 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 716 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 716 7 differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 716 8 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 716 9 usage usage NN work_mairtkvvofcdpp7xx5jeoujq5e 716 10 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 716 11 . . . work_mairtkvvofcdpp7xx5jeoujq5e 717 1 Network network NN work_mairtkvvofcdpp7xx5jeoujq5e 717 2 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 717 3 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 717 4 analysis analysis NN work_mairtkvvofcdpp7xx5jeoujq5e 717 5 . . . work_mairtkvvofcdpp7xx5jeoujq5e 718 1 Acknowledgements Acknowledgements NNPS work_mairtkvvofcdpp7xx5jeoujq5e 718 2 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 718 3 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 718 4 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 718 5 a a LS work_mairtkvvofcdpp7xx5jeoujq5e 718 6 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 718 7 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 718 8 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 718 9 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 718 10 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 718 11 affected affect VBN work_mairtkvvofcdpp7xx5jeoujq5e 718 12 by by IN work_mairtkvvofcdpp7xx5jeoujq5e 718 13 VG VG NNP work_mairtkvvofcdpp7xx5jeoujq5e 718 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 718 15 b b NNP work_mairtkvvofcdpp7xx5jeoujq5e 718 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 718 17 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 718 18 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 718 19 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 718 20 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 718 21 disrupting disrupt VBG work_mairtkvvofcdpp7xx5jeoujq5e 718 22 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 718 23 . . . work_mairtkvvofcdpp7xx5jeoujq5e 719 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 719 2 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 719 3 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 719 4 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 719 5 proportion proportion NN work_mairtkvvofcdpp7xx5jeoujq5e 719 6 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 719 7 transcript transcript JJ work_mairtkvvofcdpp7xx5jeoujq5e 719 8 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 719 9 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 719 10 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 11 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 719 12 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 13 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 719 14 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 719 15 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 16 b b NN work_mairtkvvofcdpp7xx5jeoujq5e 719 17 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 18 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 719 19 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 719 20 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 719 21 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 719 22 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 719 23 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 24 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 719 25 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 719 26 , , , work_mairtkvvofcdpp7xx5jeoujq5e 719 27 −downregulation −downregulation NNP work_mairtkvvofcdpp7xx5jeoujq5e 719 28 , , , work_mairtkvvofcdpp7xx5jeoujq5e 719 29 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 30 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 719 31 /− /− NN work_mairtkvvofcdpp7xx5jeoujq5e 719 32 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 719 33 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 719 34 brackets bracket NNS work_mairtkvvofcdpp7xx5jeoujq5e 719 35 refer refer VBP work_mairtkvvofcdpp7xx5jeoujq5e 719 36 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 719 37 fold fold VB work_mairtkvvofcdpp7xx5jeoujq5e 719 38 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 719 39 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 40 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 719 41 . . . work_mairtkvvofcdpp7xx5jeoujq5e 720 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 720 2 3 3 CD work_mairtkvvofcdpp7xx5jeoujq5e 720 3 Differential differential NN work_mairtkvvofcdpp7xx5jeoujq5e 720 4 gene gene NN work_mairtkvvofcdpp7xx5jeoujq5e 720 5 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 720 6 transcript transcript NN work_mairtkvvofcdpp7xx5jeoujq5e 720 7 expression expression NN work_mairtkvvofcdpp7xx5jeoujq5e 720 8 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 720 9 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 10 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 720 11 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 12 novel novel NN work_mairtkvvofcdpp7xx5jeoujq5e 720 13 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 720 14 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 15 b b NN work_mairtkvvofcdpp7xx5jeoujq5e 720 16 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 17 known know VBN work_mairtkvvofcdpp7xx5jeoujq5e 720 18 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 720 19 - - HYPH work_mairtkvvofcdpp7xx5jeoujq5e 720 20 associated associate VBN work_mairtkvvofcdpp7xx5jeoujq5e 720 21 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 720 22 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 23 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 720 24 upregulation upregulation NN work_mairtkvvofcdpp7xx5jeoujq5e 720 25 , , , work_mairtkvvofcdpp7xx5jeoujq5e 720 26 −downregulation −downregulation NNP work_mairtkvvofcdpp7xx5jeoujq5e 720 27 , , , work_mairtkvvofcdpp7xx5jeoujq5e 720 28 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 29 + + CC work_mairtkvvofcdpp7xx5jeoujq5e 720 30 /− /− NN work_mairtkvvofcdpp7xx5jeoujq5e 720 31 number number NN work_mairtkvvofcdpp7xx5jeoujq5e 720 32 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 720 33 brackets bracket NNS work_mairtkvvofcdpp7xx5jeoujq5e 720 34 refer refer VBP work_mairtkvvofcdpp7xx5jeoujq5e 720 35 to to TO work_mairtkvvofcdpp7xx5jeoujq5e 720 36 fold fold VB work_mairtkvvofcdpp7xx5jeoujq5e 720 37 change change NN work_mairtkvvofcdpp7xx5jeoujq5e 720 38 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 39 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 720 40 . . . work_mairtkvvofcdpp7xx5jeoujq5e 721 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 721 2 4 4 CD work_mairtkvvofcdpp7xx5jeoujq5e 721 3 ( ( -LRB- work_mairtkvvofcdpp7xx5jeoujq5e 721 4 a a DT work_mairtkvvofcdpp7xx5jeoujq5e 721 5 ) ) -RRB- work_mairtkvvofcdpp7xx5jeoujq5e 721 6 Functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 721 7 enrichment enrichment NN work_mairtkvvofcdpp7xx5jeoujq5e 721 8 study study NN work_mairtkvvofcdpp7xx5jeoujq5e 721 9 based base VBN work_mairtkvvofcdpp7xx5jeoujq5e 721 10 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 721 11 biological biological JJ work_mairtkvvofcdpp7xx5jeoujq5e 721 12 functions function NNS work_mairtkvvofcdpp7xx5jeoujq5e 721 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 722 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 722 2 5 5 CD work_mairtkvvofcdpp7xx5jeoujq5e 722 3 The the DT work_mairtkvvofcdpp7xx5jeoujq5e 722 4 functional functional JJ work_mairtkvvofcdpp7xx5jeoujq5e 722 5 interactions interaction NNS work_mairtkvvofcdpp7xx5jeoujq5e 722 6 between between IN work_mairtkvvofcdpp7xx5jeoujq5e 722 7 important important JJ work_mairtkvvofcdpp7xx5jeoujq5e 722 8 differentially differentially RB work_mairtkvvofcdpp7xx5jeoujq5e 722 9 expressed express VBD work_mairtkvvofcdpp7xx5jeoujq5e 722 10 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 722 11 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 722 12 TFs tf NNS work_mairtkvvofcdpp7xx5jeoujq5e 722 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 723 1 Figure figure NN work_mairtkvvofcdpp7xx5jeoujq5e 723 2 6 6 CD work_mairtkvvofcdpp7xx5jeoujq5e 723 3 Proposed propose VBN work_mairtkvvofcdpp7xx5jeoujq5e 723 4 mechanism mechanism NN work_mairtkvvofcdpp7xx5jeoujq5e 723 5 for for IN work_mairtkvvofcdpp7xx5jeoujq5e 723 6 the the DT work_mairtkvvofcdpp7xx5jeoujq5e 723 7 energy energy NN work_mairtkvvofcdpp7xx5jeoujq5e 723 8 crisis crisis NN work_mairtkvvofcdpp7xx5jeoujq5e 723 9 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 723 10 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 723 11 neuron neuron NN work_mairtkvvofcdpp7xx5jeoujq5e 723 12 in in IN work_mairtkvvofcdpp7xx5jeoujq5e 723 13 AD ad NN work_mairtkvvofcdpp7xx5jeoujq5e 723 14 . . . work_mairtkvvofcdpp7xx5jeoujq5e 724 1 Table table NN work_mairtkvvofcdpp7xx5jeoujq5e 724 2 1 1 CD work_mairtkvvofcdpp7xx5jeoujq5e 724 3 Effect effect NN work_mairtkvvofcdpp7xx5jeoujq5e 724 4 of of IN work_mairtkvvofcdpp7xx5jeoujq5e 724 5 predicted predict VBN work_mairtkvvofcdpp7xx5jeoujq5e 724 6 variants variant NNS work_mairtkvvofcdpp7xx5jeoujq5e 724 7 on on IN work_mairtkvvofcdpp7xx5jeoujq5e 724 8 epigenetic epigenetic JJ work_mairtkvvofcdpp7xx5jeoujq5e 724 9 modifications modification NNS work_mairtkvvofcdpp7xx5jeoujq5e 724 10 and and CC work_mairtkvvofcdpp7xx5jeoujq5e 724 11 TF TF NNP work_mairtkvvofcdpp7xx5jeoujq5e 724 12 binding binding NN work_mairtkvvofcdpp7xx5jeoujq5e 724 13 . . . work_mairtkvvofcdpp7xx5jeoujq5e 725 1 Table table NN work_mairtkvvofcdpp7xx5jeoujq5e 725 2 2 2 CD work_mairtkvvofcdpp7xx5jeoujq5e 725 3 Hub Hub NNP work_mairtkvvofcdpp7xx5jeoujq5e 725 4 genes gene NNS work_mairtkvvofcdpp7xx5jeoujq5e 725 5 identified identify VBN work_mairtkvvofcdpp7xx5jeoujq5e 725 6 from from IN work_mairtkvvofcdpp7xx5jeoujq5e 725 7 hippocampus hippocampus NNP work_mairtkvvofcdpp7xx5jeoujq5e 725 8 specific specific JJ work_mairtkvvofcdpp7xx5jeoujq5e 725 9 co co JJ work_mairtkvvofcdpp7xx5jeoujq5e 725 10 - - JJ work_mairtkvvofcdpp7xx5jeoujq5e 725 11 expression expression JJ work_mairtkvvofcdpp7xx5jeoujq5e 725 12 network network NN work_mairtkvvofcdpp7xx5jeoujq5e 725 13 . . .