id sid tid token lemma pos work_kkta46aprvda3kxuww62zfddua 1 1 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 1 2 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 1 3 from from IN work_kkta46aprvda3kxuww62zfddua 1 4 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 1 5 : : : work_kkta46aprvda3kxuww62zfddua 1 6 The the DT work_kkta46aprvda3kxuww62zfddua 1 7 beauty beauty NN work_kkta46aprvda3kxuww62zfddua 1 8 of of IN work_kkta46aprvda3kxuww62zfddua 1 9 a a DT work_kkta46aprvda3kxuww62zfddua 1 10 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 1 11 motor motor NN work_kkta46aprvda3kxuww62zfddua 1 12 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 1 13 et et FW work_kkta46aprvda3kxuww62zfddua 1 14 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 1 15 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 1 16 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 1 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 1 18 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 1 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 1 20 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 1 21 Contents Contents NNP work_kkta46aprvda3kxuww62zfddua 1 22 lists list NNS work_kkta46aprvda3kxuww62zfddua 1 23 available available JJ work_kkta46aprvda3kxuww62zfddua 1 24 at at IN work_kkta46aprvda3kxuww62zfddua 1 25 ScienceDirect ScienceDirect NNP work_kkta46aprvda3kxuww62zfddua 1 26 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 1 27 et et FW work_kkta46aprvda3kxuww62zfddua 1 28 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 1 29 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 1 30 journal journal NNP work_kkta46aprvda3kxuww62zfddua 1 31 homepage homepage NN work_kkta46aprvda3kxuww62zfddua 1 32 : : : work_kkta46aprvda3kxuww62zfddua 1 33 www.elsevier.com/locate/bbabio www.elsevier.com/locate/bbabio `` work_kkta46aprvda3kxuww62zfddua 1 34 Review Review NNP work_kkta46aprvda3kxuww62zfddua 1 35 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 1 36 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 1 37 from from IN work_kkta46aprvda3kxuww62zfddua 1 38 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 1 39 : : : work_kkta46aprvda3kxuww62zfddua 1 40 The the DT work_kkta46aprvda3kxuww62zfddua 1 41 beauty beauty NN work_kkta46aprvda3kxuww62zfddua 1 42 of of IN work_kkta46aprvda3kxuww62zfddua 1 43 a a DT work_kkta46aprvda3kxuww62zfddua 1 44 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 1 45 motor motor NN work_kkta46aprvda3kxuww62zfddua 1 46 Gerhard Gerhard NNP work_kkta46aprvda3kxuww62zfddua 1 47 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 1 48 a,⁎ a,⁎ NNP work_kkta46aprvda3kxuww62zfddua 1 49 , , , work_kkta46aprvda3kxuww62zfddua 1 50 Malathy Malathy NNP work_kkta46aprvda3kxuww62zfddua 1 51 Sony Sony NNP work_kkta46aprvda3kxuww62zfddua 1 52 Subramanian Subramanian NNP work_kkta46aprvda3kxuww62zfddua 1 53 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 1 54 a a DT work_kkta46aprvda3kxuww62zfddua 1 55 , , , 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G. NNP work_kkta46aprvda3kxuww62zfddua 5 17 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 5 18 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 5 19 , , , work_kkta46aprvda3kxuww62zfddua 5 20 v v NNP work_kkta46aprvda3kxuww62zfddua 5 21 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 5 22 V. V. NNP work_kkta46aprvda3kxuww62zfddua 5 23 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 5 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 5 25 . . . work_kkta46aprvda3kxuww62zfddua 6 1 http://dx.doi.org/10.1016/j.bbabio.2014.03.004 http://dx.doi.org/10.1016/j.bbabio.2014.03.004 NNP work_kkta46aprvda3kxuww62zfddua 6 2 0005 0005 CD work_kkta46aprvda3kxuww62zfddua 6 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 6 4 2728/ 2728/ CD work_kkta46aprvda3kxuww62zfddua 6 5 © © CD work_kkta46aprvda3kxuww62zfddua 6 6 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 6 7 Elsevier Elsevier NNP work_kkta46aprvda3kxuww62zfddua 6 8 B.V. B.V. NNP work_kkta46aprvda3kxuww62zfddua 6 9 All all DT work_kkta46aprvda3kxuww62zfddua 6 10 rights right NNS work_kkta46aprvda3kxuww62zfddua 6 11 reserved reserve VBN work_kkta46aprvda3kxuww62zfddua 6 12 . . . work_kkta46aprvda3kxuww62zfddua 7 1 a a DT work_kkta46aprvda3kxuww62zfddua 7 2 b b NNP work_kkta46aprvda3kxuww62zfddua 7 3 s s NNP work_kkta46aprvda3kxuww62zfddua 7 4 t t NNP work_kkta46aprvda3kxuww62zfddua 7 5 r r NNP work_kkta46aprvda3kxuww62zfddua 7 6 a a NNP work_kkta46aprvda3kxuww62zfddua 7 7 c c NN work_kkta46aprvda3kxuww62zfddua 7 8 t t NN work_kkta46aprvda3kxuww62zfddua 7 9 a a NN work_kkta46aprvda3kxuww62zfddua 7 10 r r NN work_kkta46aprvda3kxuww62zfddua 7 11 t t NN work_kkta46aprvda3kxuww62zfddua 7 12 i i NN work_kkta46aprvda3kxuww62zfddua 7 13 c c NN work_kkta46aprvda3kxuww62zfddua 7 14 l l NN work_kkta46aprvda3kxuww62zfddua 7 15 e e NNP work_kkta46aprvda3kxuww62zfddua 7 16 i i NNP work_kkta46aprvda3kxuww62zfddua 7 17 n n CC work_kkta46aprvda3kxuww62zfddua 7 18 f f NNP work_kkta46aprvda3kxuww62zfddua 7 19 o o XX work_kkta46aprvda3kxuww62zfddua 7 20 Article article NN work_kkta46aprvda3kxuww62zfddua 7 21 history history NN work_kkta46aprvda3kxuww62zfddua 7 22 : : : work_kkta46aprvda3kxuww62zfddua 7 23 Received receive VBN work_kkta46aprvda3kxuww62zfddua 7 24 13 13 CD work_kkta46aprvda3kxuww62zfddua 7 25 November November NNP work_kkta46aprvda3kxuww62zfddua 7 26 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 7 27 Received receive VBD work_kkta46aprvda3kxuww62zfddua 7 28 in in IN work_kkta46aprvda3kxuww62zfddua 7 29 revised revise VBN work_kkta46aprvda3kxuww62zfddua 7 30 form form NN work_kkta46aprvda3kxuww62zfddua 7 31 7 7 CD work_kkta46aprvda3kxuww62zfddua 7 32 March March NNP work_kkta46aprvda3kxuww62zfddua 7 33 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 7 34 Accepted accept VBD work_kkta46aprvda3kxuww62zfddua 7 35 11 11 CD work_kkta46aprvda3kxuww62zfddua 7 36 March March NNP work_kkta46aprvda3kxuww62zfddua 7 37 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 7 38 Available available JJ work_kkta46aprvda3kxuww62zfddua 7 39 online online JJ work_kkta46aprvda3kxuww62zfddua 7 40 17 17 CD work_kkta46aprvda3kxuww62zfddua 7 41 March March NNP work_kkta46aprvda3kxuww62zfddua 7 42 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 7 43 Keywords Keywords NNPS work_kkta46aprvda3kxuww62zfddua 7 44 : : : work_kkta46aprvda3kxuww62zfddua 7 45 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 7 46 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 7 47 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 7 48 Energy energy NN work_kkta46aprvda3kxuww62zfddua 7 49 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 7 50 Methanogenesis Methanogenesis NNP work_kkta46aprvda3kxuww62zfddua 7 51 Rotary Rotary NNP work_kkta46aprvda3kxuww62zfddua 7 52 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 7 53 c c NNP work_kkta46aprvda3kxuww62zfddua 7 54 ring ring NN work_kkta46aprvda3kxuww62zfddua 7 55 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 7 56 live live VB work_kkta46aprvda3kxuww62zfddua 7 57 under under IN work_kkta46aprvda3kxuww62zfddua 7 58 different different JJ work_kkta46aprvda3kxuww62zfddua 7 59 environmental environmental JJ work_kkta46aprvda3kxuww62zfddua 7 60 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 7 61 , , , work_kkta46aprvda3kxuww62zfddua 7 62 such such JJ work_kkta46aprvda3kxuww62zfddua 7 63 as as IN work_kkta46aprvda3kxuww62zfddua 7 64 high high JJ work_kkta46aprvda3kxuww62zfddua 7 65 salinity salinity NN work_kkta46aprvda3kxuww62zfddua 7 66 , , , work_kkta46aprvda3kxuww62zfddua 7 67 extreme extreme JJ work_kkta46aprvda3kxuww62zfddua 7 68 pHs ph NNS work_kkta46aprvda3kxuww62zfddua 7 69 and and CC work_kkta46aprvda3kxuww62zfddua 7 70 cold cold JJ work_kkta46aprvda3kxuww62zfddua 7 71 or or CC work_kkta46aprvda3kxuww62zfddua 7 72 hot hot JJ work_kkta46aprvda3kxuww62zfddua 7 73 tem- tem- NN work_kkta46aprvda3kxuww62zfddua 7 74 peratures perature NNS work_kkta46aprvda3kxuww62zfddua 7 75 . . . work_kkta46aprvda3kxuww62zfddua 8 1 How how WRB work_kkta46aprvda3kxuww62zfddua 8 2 energy energy NN work_kkta46aprvda3kxuww62zfddua 8 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 8 4 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 8 5 under under IN work_kkta46aprvda3kxuww62zfddua 8 6 such such JJ work_kkta46aprvda3kxuww62zfddua 8 7 harsh harsh JJ work_kkta46aprvda3kxuww62zfddua 8 8 environmental environmental JJ work_kkta46aprvda3kxuww62zfddua 8 9 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 8 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 8 11 a a DT work_kkta46aprvda3kxuww62zfddua 8 12 major major JJ work_kkta46aprvda3kxuww62zfddua 8 13 question question NN work_kkta46aprvda3kxuww62zfddua 8 14 in in IN work_kkta46aprvda3kxuww62zfddua 8 15 cellular cellular JJ work_kkta46aprvda3kxuww62zfddua 8 16 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 8 17 of of IN work_kkta46aprvda3kxuww62zfddua 8 18 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 8 19 . . . work_kkta46aprvda3kxuww62zfddua 9 1 The the DT work_kkta46aprvda3kxuww62zfddua 9 2 key key JJ work_kkta46aprvda3kxuww62zfddua 9 3 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 9 4 in in IN work_kkta46aprvda3kxuww62zfddua 9 5 energy energy NN work_kkta46aprvda3kxuww62zfddua 9 6 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 9 7 are be VBP work_kkta46aprvda3kxuww62zfddua 9 8 the the DT work_kkta46aprvda3kxuww62zfddua 9 9 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 9 10 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 9 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 9 12 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 9 13 , , , work_kkta46aprvda3kxuww62zfddua 9 14 a a DT work_kkta46aprvda3kxuww62zfddua 9 15 class class NN work_kkta46aprvda3kxuww62zfddua 9 16 of of IN work_kkta46aprvda3kxuww62zfddua 9 17 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 9 18 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 9 19 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 9 20 from from IN work_kkta46aprvda3kxuww62zfddua 9 21 the the DT work_kkta46aprvda3kxuww62zfddua 9 22 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 9 23 ATP atp NN work_kkta46aprvda3kxuww62zfddua 9 24 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 9 25 ATP atp NN work_kkta46aprvda3kxuww62zfddua 9 26 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 9 27 found find VBD work_kkta46aprvda3kxuww62zfddua 9 28 in in IN work_kkta46aprvda3kxuww62zfddua 9 29 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 9 30 , , , work_kkta46aprvda3kxuww62zfddua 9 31 mitochondria mitochondrion NNS work_kkta46aprvda3kxuww62zfddua 9 32 and and CC work_kkta46aprvda3kxuww62zfddua 9 33 chloro- chloro- NN work_kkta46aprvda3kxuww62zfddua 9 34 plasts plast NNS work_kkta46aprvda3kxuww62zfddua 9 35 and and CC work_kkta46aprvda3kxuww62zfddua 9 36 the the DT work_kkta46aprvda3kxuww62zfddua 9 37 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 9 38 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 9 39 of of IN work_kkta46aprvda3kxuww62zfddua 9 40 eukaryotes eukaryote NNS work_kkta46aprvda3kxuww62zfddua 9 41 . . . work_kkta46aprvda3kxuww62zfddua 10 1 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 10 2 ATP atp NN work_kkta46aprvda3kxuww62zfddua 10 3 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 10 4 have have VBP work_kkta46aprvda3kxuww62zfddua 10 5 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 10 6 structural structural JJ work_kkta46aprvda3kxuww62zfddua 10 7 features feature NNS work_kkta46aprvda3kxuww62zfddua 10 8 such such JJ work_kkta46aprvda3kxuww62zfddua 10 9 as as IN work_kkta46aprvda3kxuww62zfddua 10 10 a a DT work_kkta46aprvda3kxuww62zfddua 10 11 collar- collar- NN work_kkta46aprvda3kxuww62zfddua 10 12 like like IN work_kkta46aprvda3kxuww62zfddua 10 13 structure structure NN work_kkta46aprvda3kxuww62zfddua 10 14 , , , work_kkta46aprvda3kxuww62zfddua 10 15 an an DT work_kkta46aprvda3kxuww62zfddua 10 16 extended extended JJ work_kkta46aprvda3kxuww62zfddua 10 17 central central JJ work_kkta46aprvda3kxuww62zfddua 10 18 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 10 19 , , , work_kkta46aprvda3kxuww62zfddua 10 20 and and CC work_kkta46aprvda3kxuww62zfddua 10 21 two two CD work_kkta46aprvda3kxuww62zfddua 10 22 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 10 23 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 10 24 possibly possibly RB work_kkta46aprvda3kxuww62zfddua 10 25 stabilizing stabilize VBG work_kkta46aprvda3kxuww62zfddua 10 26 the the DT work_kkta46aprvda3kxuww62zfddua 10 27 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 10 28 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 10 29 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 10 30 dur- dur- VBZ work_kkta46aprvda3kxuww62zfddua 10 31 ing e VBG work_kkta46aprvda3kxuww62zfddua 10 32 rotation rotation NN work_kkta46aprvda3kxuww62zfddua 10 33 in in IN work_kkta46aprvda3kxuww62zfddua 10 34 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 10 35 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 10 36 / / SYM work_kkta46aprvda3kxuww62zfddua 10 37 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 10 38 at at IN work_kkta46aprvda3kxuww62zfddua 10 39 high high JJ work_kkta46aprvda3kxuww62zfddua 10 40 temperatures temperature NNS work_kkta46aprvda3kxuww62zfddua 10 41 as as RB work_kkta46aprvda3kxuww62zfddua 10 42 well well RB work_kkta46aprvda3kxuww62zfddua 10 43 as as IN work_kkta46aprvda3kxuww62zfddua 10 44 to to TO work_kkta46aprvda3kxuww62zfddua 10 45 provide provide VB work_kkta46aprvda3kxuww62zfddua 10 46 the the DT work_kkta46aprvda3kxuww62zfddua 10 47 storage storage NN work_kkta46aprvda3kxuww62zfddua 10 48 of of IN work_kkta46aprvda3kxuww62zfddua 10 49 transient transient JJ work_kkta46aprvda3kxuww62zfddua 10 50 elastic elastic JJ work_kkta46aprvda3kxuww62zfddua 10 51 energy energy NN work_kkta46aprvda3kxuww62zfddua 10 52 during during IN work_kkta46aprvda3kxuww62zfddua 10 53 ion ion NN work_kkta46aprvda3kxuww62zfddua 10 54 - - HYPH work_kkta46aprvda3kxuww62zfddua 10 55 pumping pumping NN work_kkta46aprvda3kxuww62zfddua 10 56 and and CC work_kkta46aprvda3kxuww62zfddua 10 57 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 10 58 synthesis/-hydrolysis synthesis/-hydrolysis NN work_kkta46aprvda3kxuww62zfddua 10 59 . . . work_kkta46aprvda3kxuww62zfddua 11 1 High high JJ work_kkta46aprvda3kxuww62zfddua 11 2 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 11 3 structures structure NNS work_kkta46aprvda3kxuww62zfddua 11 4 of of IN work_kkta46aprvda3kxuww62zfddua 11 5 individual individual JJ work_kkta46aprvda3kxuww62zfddua 11 6 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 11 7 and and CC work_kkta46aprvda3kxuww62zfddua 11 8 subcomplexes subcomplexe NNS work_kkta46aprvda3kxuww62zfddua 11 9 have have VBP work_kkta46aprvda3kxuww62zfddua 11 10 been be VBN work_kkta46aprvda3kxuww62zfddua 11 11 obtained obtain VBN work_kkta46aprvda3kxuww62zfddua 11 12 in 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work_kkta46aprvda3kxuww62zfddua 12 1 An an DT work_kkta46aprvda3kxuww62zfddua 12 2 outstanding outstanding JJ work_kkta46aprvda3kxuww62zfddua 12 3 feature feature NN work_kkta46aprvda3kxuww62zfddua 12 4 of of IN work_kkta46aprvda3kxuww62zfddua 12 5 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 12 6 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 12 7 ATP atp NN work_kkta46aprvda3kxuww62zfddua 12 8 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 12 9 is be VBZ work_kkta46aprvda3kxuww62zfddua 12 10 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 12 11 diversity diversity NN work_kkta46aprvda3kxuww62zfddua 12 12 in in IN work_kkta46aprvda3kxuww62zfddua 12 13 size size NN work_kkta46aprvda3kxuww62zfddua 12 14 of of IN work_kkta46aprvda3kxuww62zfddua 12 15 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 12 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 12 17 and and CC work_kkta46aprvda3kxuww62zfddua 12 18 the the DT work_kkta46aprvda3kxuww62zfddua 12 19 coupling coupling NN work_kkta46aprvda3kxuww62zfddua 12 20 ion ion NN work_kkta46aprvda3kxuww62zfddua 12 21 used use VBN work_kkta46aprvda3kxuww62zfddua 12 22 for for IN work_kkta46aprvda3kxuww62zfddua 12 23 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 12 24 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 12 25 with with IN work_kkta46aprvda3kxuww62zfddua 12 26 H+ H+ NNP work_kkta46aprvda3kxuww62zfddua 12 27 , , , work_kkta46aprvda3kxuww62zfddua 12 28 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 12 29 or or CC work_kkta46aprvda3kxuww62zfddua 12 30 even even RB work_kkta46aprvda3kxuww62zfddua 12 31 H+ h+ ADD work_kkta46aprvda3kxuww62zfddua 12 32 and and CC work_kkta46aprvda3kxuww62zfddua 12 33 Na+ na+ RB work_kkta46aprvda3kxuww62zfddua 12 34 using use VBG work_kkta46aprvda3kxuww62zfddua 12 35 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 12 36 . . . work_kkta46aprvda3kxuww62zfddua 13 1 The the DT work_kkta46aprvda3kxuww62zfddua 13 2 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 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of IN work_kkta46aprvda3kxuww62zfddua 13 23 the the DT work_kkta46aprvda3kxuww62zfddua 13 24 cell cell NN work_kkta46aprvda3kxuww62zfddua 13 25 are be VBP work_kkta46aprvda3kxuww62zfddua 13 26 discussed discuss VBN work_kkta46aprvda3kxuww62zfddua 13 27 . . . work_kkta46aprvda3kxuww62zfddua 14 1 © © LS work_kkta46aprvda3kxuww62zfddua 14 2 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 14 3 Elsevier Elsevier NNP work_kkta46aprvda3kxuww62zfddua 14 4 B.V. B.V. NNP work_kkta46aprvda3kxuww62zfddua 14 5 All all DT work_kkta46aprvda3kxuww62zfddua 14 6 rights right NNS work_kkta46aprvda3kxuww62zfddua 14 7 reserved reserve VBN work_kkta46aprvda3kxuww62zfddua 14 8 . . . work_kkta46aprvda3kxuww62zfddua 15 1 1 1 LS work_kkta46aprvda3kxuww62zfddua 15 2 . . . work_kkta46aprvda3kxuww62zfddua 16 1 Introduction introduction NN work_kkta46aprvda3kxuww62zfddua 16 2 Life Life NNP work_kkta46aprvda3kxuww62zfddua 16 3 under under IN work_kkta46aprvda3kxuww62zfddua 16 4 extreme extreme JJ work_kkta46aprvda3kxuww62zfddua 16 5 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 16 6 — — : work_kkta46aprvda3kxuww62zfddua 16 7 some some DT work_kkta46aprvda3kxuww62zfddua 16 8 like like VBP work_kkta46aprvda3kxuww62zfddua 16 9 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 16 10 salty salty JJ work_kkta46aprvda3kxuww62zfddua 16 11 , , , work_kkta46aprvda3kxuww62zfddua 16 12 some some DT work_kkta46aprvda3kxuww62zfddua 16 13 acidic acidic JJ work_kkta46aprvda3kxuww62zfddua 16 14 , , , work_kkta46aprvda3kxuww62zfddua 16 15 some some DT work_kkta46aprvda3kxuww62zfddua 16 16 cold cold JJ work_kkta46aprvda3kxuww62zfddua 16 17 or or CC work_kkta46aprvda3kxuww62zfddua 16 18 hot hot JJ work_kkta46aprvda3kxuww62zfddua 16 19 ! ! . work_kkta46aprvda3kxuww62zfddua 17 1 Adaptation adaptation NN work_kkta46aprvda3kxuww62zfddua 17 2 of of IN work_kkta46aprvda3kxuww62zfddua 17 3 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 17 4 to to IN work_kkta46aprvda3kxuww62zfddua 17 5 different different JJ work_kkta46aprvda3kxuww62zfddua 17 6 environmental environmental JJ work_kkta46aprvda3kxuww62zfddua 17 7 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 17 8 requires require VBZ work_kkta46aprvda3kxuww62zfddua 17 9 special special JJ work_kkta46aprvda3kxuww62zfddua 17 10 cellular cellular JJ work_kkta46aprvda3kxuww62zfddua 17 11 adaptation adaptation NN work_kkta46aprvda3kxuww62zfddua 17 12 mechanisms mechanism NNS work_kkta46aprvda3kxuww62zfddua 17 13 to to TO work_kkta46aprvda3kxuww62zfddua 17 14 confer confer VB work_kkta46aprvda3kxuww62zfddua 17 15 life life NN work_kkta46aprvda3kxuww62zfddua 17 16 and and CC work_kkta46aprvda3kxuww62zfddua 17 17 stabil- stabil- JJ work_kkta46aprvda3kxuww62zfddua 17 18 ity ity NN work_kkta46aprvda3kxuww62zfddua 17 19 of of IN work_kkta46aprvda3kxuww62zfddua 17 20 proteins protein NNS work_kkta46aprvda3kxuww62zfddua 17 21 at at IN work_kkta46aprvda3kxuww62zfddua 17 22 temperatures temperature NNS work_kkta46aprvda3kxuww62zfddua 17 23 at at IN work_kkta46aprvda3kxuww62zfddua 17 24 or or CC work_kkta46aprvda3kxuww62zfddua 17 25 above above IN work_kkta46aprvda3kxuww62zfddua 17 26 100 100 CD work_kkta46aprvda3kxuww62zfddua 17 27 ° ° NNS work_kkta46aprvda3kxuww62zfddua 17 28 C C NNP work_kkta46aprvda3kxuww62zfddua 17 29 , , , work_kkta46aprvda3kxuww62zfddua 17 30 at at IN work_kkta46aprvda3kxuww62zfddua 17 31 salt salt NN work_kkta46aprvda3kxuww62zfddua 17 32 concentrations concentration NNS work_kkta46aprvda3kxuww62zfddua 17 33 up up IN work_kkta46aprvda3kxuww62zfddua 17 34 to to TO work_kkta46aprvda3kxuww62zfddua 17 35 5 5 CD work_kkta46aprvda3kxuww62zfddua 17 36 M m CD work_kkta46aprvda3kxuww62zfddua 17 37 or or CC work_kkta46aprvda3kxuww62zfddua 17 38 at at IN work_kkta46aprvda3kxuww62zfddua 17 39 pHs ph NNS work_kkta46aprvda3kxuww62zfddua 17 40 ranging range VBG work_kkta46aprvda3kxuww62zfddua 17 41 from from IN work_kkta46aprvda3kxuww62zfddua 17 42 1 1 CD work_kkta46aprvda3kxuww62zfddua 17 43 to to IN work_kkta46aprvda3kxuww62zfddua 17 44 12 12 CD work_kkta46aprvda3kxuww62zfddua 17 45 . . . work_kkta46aprvda3kxuww62zfddua 18 1 Ever ever RB work_kkta46aprvda3kxuww62zfddua 18 2 since since IN work_kkta46aprvda3kxuww62zfddua 18 3 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 18 4 have have VBP work_kkta46aprvda3kxuww62zfddua 18 5 been be VBN work_kkta46aprvda3kxuww62zfddua 18 6 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 18 7 , , , work_kkta46aprvda3kxuww62zfddua 18 8 especially especially RB work_kkta46aprvda3kxuww62zfddua 18 9 the the DT work_kkta46aprvda3kxuww62zfddua 18 10 hyperthermophilic hyperthermophilic NN work_kkta46aprvda3kxuww62zfddua 18 11 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 18 12 have have VBP work_kkta46aprvda3kxuww62zfddua 18 13 attracted attract VBN work_kkta46aprvda3kxuww62zfddua 18 14 much much JJ work_kkta46aprvda3kxuww62zfddua 18 15 interest interest NN work_kkta46aprvda3kxuww62zfddua 18 16 . . . work_kkta46aprvda3kxuww62zfddua 19 1 Hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 19 2 organisms organism NNS work_kkta46aprvda3kxuww62zfddua 19 3 , , , work_kkta46aprvda3kxuww62zfddua 19 4 which which WDT work_kkta46aprvda3kxuww62zfddua 19 5 are be VBP work_kkta46aprvda3kxuww62zfddua 19 6 defined define VBN work_kkta46aprvda3kxuww62zfddua 19 7 as as IN work_kkta46aprvda3kxuww62zfddua 19 8 having have VBG work_kkta46aprvda3kxuww62zfddua 19 9 opti- opti- AFX work_kkta46aprvda3kxuww62zfddua 19 10 mal mal JJ work_kkta46aprvda3kxuww62zfddua 19 11 growth growth NN work_kkta46aprvda3kxuww62zfddua 19 12 temperatures temperature NNS work_kkta46aprvda3kxuww62zfddua 19 13 above above IN work_kkta46aprvda3kxuww62zfddua 19 14 or or CC work_kkta46aprvda3kxuww62zfddua 19 15 at at IN work_kkta46aprvda3kxuww62zfddua 19 16 80 80 CD work_kkta46aprvda3kxuww62zfddua 19 17 ° ° NNS work_kkta46aprvda3kxuww62zfddua 19 18 C C NNP work_kkta46aprvda3kxuww62zfddua 19 19 , , , work_kkta46aprvda3kxuww62zfddua 19 20 were be VBD work_kkta46aprvda3kxuww62zfddua 19 21 discovered discover VBN work_kkta46aprvda3kxuww62zfddua 19 22 over over IN work_kkta46aprvda3kxuww62zfddua 19 23 30 30 CD work_kkta46aprvda3kxuww62zfddua 19 24 years year NNS work_kkta46aprvda3kxuww62zfddua 19 25 ago ago RB work_kkta46aprvda3kxuww62zfddua 19 26 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 19 27 1 1 CD work_kkta46aprvda3kxuww62zfddua 19 28 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 19 29 . . . work_kkta46aprvda3kxuww62zfddua 20 1 Since since IN work_kkta46aprvda3kxuww62zfddua 20 2 then then RB work_kkta46aprvda3kxuww62zfddua 20 3 more more JJR work_kkta46aprvda3kxuww62zfddua 20 4 than than IN work_kkta46aprvda3kxuww62zfddua 20 5 70 70 CD work_kkta46aprvda3kxuww62zfddua 20 6 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 20 7 species specie NNS work_kkta46aprvda3kxuww62zfddua 20 8 have have VBP work_kkta46aprvda3kxuww62zfddua 20 9 been be VBN work_kkta46aprvda3kxuww62zfddua 20 10 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 20 11 . . . work_kkta46aprvda3kxuww62zfddua 21 1 The the DT work_kkta46aprvda3kxuww62zfddua 21 2 world world NN work_kkta46aprvda3kxuww62zfddua 21 3 records record VBZ work_kkta46aprvda3kxuww62zfddua 21 4 in in IN work_kkta46aprvda3kxuww62zfddua 21 5 growth growth NN work_kkta46aprvda3kxuww62zfddua 21 6 at at IN work_kkta46aprvda3kxuww62zfddua 21 7 high high JJ work_kkta46aprvda3kxuww62zfddua 21 8 temperatures temperature NNS work_kkta46aprvda3kxuww62zfddua 21 9 are be VBP work_kkta46aprvda3kxuww62zfddua 21 10 held hold VBN work_kkta46aprvda3kxuww62zfddua 21 11 by by IN work_kkta46aprvda3kxuww62zfddua 21 12 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 21 13 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 21 14 , , , work_kkta46aprvda3kxuww62zfddua 21 15 which which WDT work_kkta46aprvda3kxuww62zfddua 21 16 grows grow VBZ work_kkta46aprvda3kxuww62zfddua 21 17 at at IN work_kkta46aprvda3kxuww62zfddua 21 18 an an DT work_kkta46aprvda3kxuww62zfddua 21 19 optimal optimal JJ work_kkta46aprvda3kxuww62zfddua 21 20 temperature temperature NN work_kkta46aprvda3kxuww62zfddua 21 21 of of IN work_kkta46aprvda3kxuww62zfddua 21 22 100 100 CD work_kkta46aprvda3kxuww62zfddua 21 23 ° ° NNS work_kkta46aprvda3kxuww62zfddua 21 24 C C NNP work_kkta46aprvda3kxuww62zfddua 21 25 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 21 26 2 2 CD work_kkta46aprvda3kxuww62zfddua 21 27 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 21 28 , , , work_kkta46aprvda3kxuww62zfddua 21 29 Pyrodictium Pyrodictium NNP work_kkta46aprvda3kxuww62zfddua 21 30 occultum occultum NN work_kkta46aprvda3kxuww62zfddua 21 31 , , , work_kkta46aprvda3kxuww62zfddua 21 32 which which WDT work_kkta46aprvda3kxuww62zfddua 21 33 grows grow VBZ work_kkta46aprvda3kxuww62zfddua 21 34 from from IN work_kkta46aprvda3kxuww62zfddua 21 35 98 98 CD work_kkta46aprvda3kxuww62zfddua 21 36 ° ° , work_kkta46aprvda3kxuww62zfddua 21 37 C C NNP work_kkta46aprvda3kxuww62zfddua 21 38 to to IN work_kkta46aprvda3kxuww62zfddua 21 39 105 105 CD work_kkta46aprvda3kxuww62zfddua 21 40 ° ° NNS work_kkta46aprvda3kxuww62zfddua 21 41 C C NNP work_kkta46aprvda3kxuww62zfddua 21 42 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 21 43 3 3 CD work_kkta46aprvda3kxuww62zfddua 21 44 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 21 45 , , , work_kkta46aprvda3kxuww62zfddua 21 46 Hyperthermus Hyperthermus NNP work_kkta46aprvda3kxuww62zfddua 21 47 butylicus butylicus NN work_kkta46aprvda3kxuww62zfddua 21 48 , , , work_kkta46aprvda3kxuww62zfddua 21 49 which which WDT work_kkta46aprvda3kxuww62zfddua 21 50 grows grow VBZ work_kkta46aprvda3kxuww62zfddua 21 51 up up IN work_kkta46aprvda3kxuww62zfddua 21 52 to to TO work_kkta46aprvda3kxuww62zfddua 21 53 108 108 CD work_kkta46aprvda3kxuww62zfddua 21 54 ° ° , work_kkta46aprvda3kxuww62zfddua 21 55 C C NNP work_kkta46aprvda3kxuww62zfddua 21 56 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 21 57 4 4 CD work_kkta46aprvda3kxuww62zfddua 21 58 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 21 59 , , , work_kkta46aprvda3kxuww62zfddua 21 60 Methanopyrus Methanopyrus NNP work_kkta46aprvda3kxuww62zfddua 21 61 kandleri kandleri NN work_kkta46aprvda3kxuww62zfddua 21 62 , , , work_kkta46aprvda3kxuww62zfddua 21 63 which which WDT work_kkta46aprvda3kxuww62zfddua 21 64 grows grow VBZ work_kkta46aprvda3kxuww62zfddua 21 65 up up IN work_kkta46aprvda3kxuww62zfddua 21 66 to to TO work_kkta46aprvda3kxuww62zfddua 21 67 113 113 CD work_kkta46aprvda3kxuww62zfddua 21 68 ° ° NNS work_kkta46aprvda3kxuww62zfddua 21 69 C C NNP work_kkta46aprvda3kxuww62zfddua 21 70 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 21 71 5 5 CD work_kkta46aprvda3kxuww62zfddua 21 72 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 21 73 and and CC work_kkta46aprvda3kxuww62zfddua 21 74 Pyrolobus Pyrolobus NNP work_kkta46aprvda3kxuww62zfddua 21 75 fumarii fumarii NNS work_kkta46aprvda3kxuww62zfddua 21 76 , , , work_kkta46aprvda3kxuww62zfddua 21 77 which which WDT work_kkta46aprvda3kxuww62zfddua 21 78 grows grow VBZ work_kkta46aprvda3kxuww62zfddua 21 79 between between IN work_kkta46aprvda3kxuww62zfddua 21 80 90 90 CD work_kkta46aprvda3kxuww62zfddua 21 81 ° ° NNS work_kkta46aprvda3kxuww62zfddua 21 82 C C NNP work_kkta46aprvda3kxuww62zfddua 21 83 and and CC work_kkta46aprvda3kxuww62zfddua 21 84 113 113 CD work_kkta46aprvda3kxuww62zfddua 21 85 ° ° , work_kkta46aprvda3kxuww62zfddua 21 86 C C NNP work_kkta46aprvda3kxuww62zfddua 21 87 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 21 88 at at IN work_kkta46aprvda3kxuww62zfddua 21 89 a a DT work_kkta46aprvda3kxuww62zfddua 21 90 pressure pressure NN work_kkta46aprvda3kxuww62zfddua 21 91 of of IN work_kkta46aprvda3kxuww62zfddua 21 92 25.000 25.000 CD work_kkta46aprvda3kxuww62zfddua 21 93 kPa kPa NNS work_kkta46aprvda3kxuww62zfddua 21 94 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 21 95 and and CC work_kkta46aprvda3kxuww62zfddua 21 96 that that DT work_kkta46aprvda3kxuww62zfddua 21 97 can can MD work_kkta46aprvda3kxuww62zfddua 21 98 also also RB work_kkta46aprvda3kxuww62zfddua 21 99 withstand withstand VB work_kkta46aprvda3kxuww62zfddua 21 100 autoclaving autoclave VBG work_kkta46aprvda3kxuww62zfddua 21 101 at at IN work_kkta46aprvda3kxuww62zfddua 21 102 121 121 CD work_kkta46aprvda3kxuww62zfddua 21 103 ° ° NNS work_kkta46aprvda3kxuww62zfddua 21 104 C C NNP work_kkta46aprvda3kxuww62zfddua 21 105 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 21 106 6 6 CD work_kkta46aprvda3kxuww62zfddua 21 107 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 21 108 . . . work_kkta46aprvda3kxuww62zfddua 22 1 So so IN work_kkta46aprvda3kxuww62zfddua 22 2 far far RB work_kkta46aprvda3kxuww62zfddua 22 3 no no DT work_kkta46aprvda3kxuww62zfddua 22 4 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 22 5 organism organism NN work_kkta46aprvda3kxuww62zfddua 22 6 has have VBZ work_kkta46aprvda3kxuww62zfddua 22 7 yet yet RB work_kkta46aprvda3kxuww62zfddua 22 8 been be VBN work_kkta46aprvda3kxuww62zfddua 22 9 discovered discover VBN work_kkta46aprvda3kxuww62zfddua 22 10 growing grow VBG work_kkta46aprvda3kxuww62zfddua 22 11 at at IN work_kkta46aprvda3kxuww62zfddua 22 12 temperatures temperature NNS work_kkta46aprvda3kxuww62zfddua 22 13 above above IN work_kkta46aprvda3kxuww62zfddua 22 14 121 121 CD work_kkta46aprvda3kxuww62zfddua 22 15 ° ° NNS work_kkta46aprvda3kxuww62zfddua 22 16 C C NNP work_kkta46aprvda3kxuww62zfddua 22 17 , , , work_kkta46aprvda3kxuww62zfddua 22 18 iences ience NNS work_kkta46aprvda3kxuww62zfddua 22 19 , , , work_kkta46aprvda3kxuww62zfddua 22 20 Nanyang Nanyang NNP work_kkta46aprvda3kxuww62zfddua 22 21 Technological Technological NNP work_kkta46aprvda3kxuww62zfddua 22 22 el el NNP work_kkta46aprvda3kxuww62zfddua 22 23 . . . work_kkta46aprvda3kxuww62zfddua 23 1 : : : work_kkta46aprvda3kxuww62zfddua 23 2 +65 +65 NNP work_kkta46aprvda3kxuww62zfddua 23 3 6316 6316 CD work_kkta46aprvda3kxuww62zfddua 23 4 2989 2989 CD work_kkta46aprvda3kxuww62zfddua 23 5 ; ; : work_kkta46aprvda3kxuww62zfddua 23 6 fax fax NN work_kkta46aprvda3kxuww62zfddua 23 7 : : : work_kkta46aprvda3kxuww62zfddua 23 8 +65 +65 NN work_kkta46aprvda3kxuww62zfddua 23 9 ergetics ergetics NNPS work_kkta46aprvda3kxuww62zfddua 23 10 , , , work_kkta46aprvda3kxuww62zfddua 23 11 Institute Institute NNP work_kkta46aprvda3kxuww62zfddua 23 12 of of IN work_kkta46aprvda3kxuww62zfddua 23 13 Molecular Molecular NNP work_kkta46aprvda3kxuww62zfddua 23 14 urt urt NNP work_kkta46aprvda3kxuww62zfddua 23 15 / / SYM work_kkta46aprvda3kxuww62zfddua 23 16 Main Main NNP work_kkta46aprvda3kxuww62zfddua 23 17 , , , work_kkta46aprvda3kxuww62zfddua 23 18 Max Max NNP work_kkta46aprvda3kxuww62zfddua 23 19 - - HYPH work_kkta46aprvda3kxuww62zfddua 23 20 von von NNP work_kkta46aprvda3kxuww62zfddua 23 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 23 22 Laue Laue NNP work_kkta46aprvda3kxuww62zfddua 23 23 - - HYPH work_kkta46aprvda3kxuww62zfddua 23 24 Str.9 Str.9 NNP work_kkta46aprvda3kxuww62zfddua 23 25 , , , work_kkta46aprvda3kxuww62zfddua 23 26 49 49 CD work_kkta46aprvda3kxuww62zfddua 23 27 69 69 CD work_kkta46aprvda3kxuww62zfddua 23 28 79829306 79829306 CD work_kkta46aprvda3kxuww62zfddua 23 29 . . . work_kkta46aprvda3kxuww62zfddua 23 30 mueller@bio.uni-frankfurt.de mueller@bio.uni-frankfurt.de NNP work_kkta46aprvda3kxuww62zfddua 23 31 but but CC work_kkta46aprvda3kxuww62zfddua 23 32 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 23 33 existence existence NN work_kkta46aprvda3kxuww62zfddua 23 34 is be VBZ work_kkta46aprvda3kxuww62zfddua 23 35 not not RB work_kkta46aprvda3kxuww62zfddua 23 36 impossible impossible JJ work_kkta46aprvda3kxuww62zfddua 23 37 . . . work_kkta46aprvda3kxuww62zfddua 24 1 Hyperthermophiles hyperthermophile NNS work_kkta46aprvda3kxuww62zfddua 24 2 are be VBP work_kkta46aprvda3kxuww62zfddua 24 3 the the DT work_kkta46aprvda3kxuww62zfddua 24 4 deepest deep JJS work_kkta46aprvda3kxuww62zfddua 24 5 branching branching NN work_kkta46aprvda3kxuww62zfddua 24 6 organisms organism NNS work_kkta46aprvda3kxuww62zfddua 24 7 of of IN work_kkta46aprvda3kxuww62zfddua 24 8 the the DT work_kkta46aprvda3kxuww62zfddua 24 9 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 24 10 and and CC work_kkta46aprvda3kxuww62zfddua 24 11 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 24 12 16S 16s CD work_kkta46aprvda3kxuww62zfddua 24 13 rRNA rrna RB work_kkta46aprvda3kxuww62zfddua 24 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 24 15 based base VBN work_kkta46aprvda3kxuww62zfddua 24 16 phylogenetic phylogenetic JJ work_kkta46aprvda3kxuww62zfddua 24 17 trees tree NNS work_kkta46aprvda3kxuww62zfddua 24 18 and and CC work_kkta46aprvda3kxuww62zfddua 24 19 are be VBP work_kkta46aprvda3kxuww62zfddua 24 20 considered consider VBN work_kkta46aprvda3kxuww62zfddua 24 21 therefore therefore RB work_kkta46aprvda3kxuww62zfddua 24 22 to to TO work_kkta46aprvda3kxuww62zfddua 24 23 represent represent VB work_kkta46aprvda3kxuww62zfddua 24 24 “ " `` work_kkta46aprvda3kxuww62zfddua 24 25 early early JJ work_kkta46aprvda3kxuww62zfddua 24 26 organisms organism NNS work_kkta46aprvda3kxuww62zfddua 24 27 ” " '' work_kkta46aprvda3kxuww62zfddua 24 28 adapted adapt VBN work_kkta46aprvda3kxuww62zfddua 24 29 to to IN work_kkta46aprvda3kxuww62zfddua 24 30 the the DT work_kkta46aprvda3kxuww62zfddua 24 31 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 24 32 similar similar JJ work_kkta46aprvda3kxuww62zfddua 24 33 to to IN work_kkta46aprvda3kxuww62zfddua 24 34 those those DT work_kkta46aprvda3kxuww62zfddua 24 35 found find VBN work_kkta46aprvda3kxuww62zfddua 24 36 on on IN work_kkta46aprvda3kxuww62zfddua 24 37 the the DT work_kkta46aprvda3kxuww62zfddua 24 38 early early JJ work_kkta46aprvda3kxuww62zfddua 24 39 earth earth NN work_kkta46aprvda3kxuww62zfddua 24 40 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 24 41 1,7–10 1,7–10 CD work_kkta46aprvda3kxuww62zfddua 24 42 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 24 43 . . . work_kkta46aprvda3kxuww62zfddua 25 1 Hyperthermophiles hyperthermophile NNS work_kkta46aprvda3kxuww62zfddua 25 2 were be VBD work_kkta46aprvda3kxuww62zfddua 25 3 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 25 4 from from IN work_kkta46aprvda3kxuww62zfddua 25 5 geothermal- geothermal- NNP work_kkta46aprvda3kxuww62zfddua 25 6 ly ly JJ work_kkta46aprvda3kxuww62zfddua 25 7 heated heated JJ work_kkta46aprvda3kxuww62zfddua 25 8 environments environment NNS work_kkta46aprvda3kxuww62zfddua 25 9 like like IN work_kkta46aprvda3kxuww62zfddua 25 10 submarine submarine NN work_kkta46aprvda3kxuww62zfddua 25 11 hydrothermal hydrothermal NN work_kkta46aprvda3kxuww62zfddua 25 12 vents vent NNS work_kkta46aprvda3kxuww62zfddua 25 13 , , , work_kkta46aprvda3kxuww62zfddua 25 14 from from IN work_kkta46aprvda3kxuww62zfddua 25 15 the the DT work_kkta46aprvda3kxuww62zfddua 25 16 walls wall NNS work_kkta46aprvda3kxuww62zfddua 25 17 of of IN work_kkta46aprvda3kxuww62zfddua 25 18 “ " `` work_kkta46aprvda3kxuww62zfddua 25 19 black black JJ work_kkta46aprvda3kxuww62zfddua 25 20 smoker smoker NN work_kkta46aprvda3kxuww62zfddua 25 21 ” " '' work_kkta46aprvda3kxuww62zfddua 25 22 hydrothermal hydrothermal JJ work_kkta46aprvda3kxuww62zfddua 25 23 vent vent NN work_kkta46aprvda3kxuww62zfddua 25 24 chimneys chimney NNS work_kkta46aprvda3kxuww62zfddua 25 25 , , , work_kkta46aprvda3kxuww62zfddua 25 26 hot hot JJ work_kkta46aprvda3kxuww62zfddua 25 27 marine marine JJ work_kkta46aprvda3kxuww62zfddua 25 28 sediments sediment NNS work_kkta46aprvda3kxuww62zfddua 25 29 or or CC work_kkta46aprvda3kxuww62zfddua 25 30 hot hot JJ work_kkta46aprvda3kxuww62zfddua 25 31 springs spring NNS work_kkta46aprvda3kxuww62zfddua 25 32 , , , work_kkta46aprvda3kxuww62zfddua 25 33 where where WRB work_kkta46aprvda3kxuww62zfddua 25 34 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 25 35 gas gas NN work_kkta46aprvda3kxuww62zfddua 25 36 is be VBZ work_kkta46aprvda3kxuww62zfddua 25 37 found find VBN work_kkta46aprvda3kxuww62zfddua 25 38 at at IN work_kkta46aprvda3kxuww62zfddua 25 39 high high JJ work_kkta46aprvda3kxuww62zfddua 25 40 levels level NNS work_kkta46aprvda3kxuww62zfddua 25 41 due due JJ work_kkta46aprvda3kxuww62zfddua 25 42 to to IN work_kkta46aprvda3kxuww62zfddua 25 43 volcanic volcanic JJ work_kkta46aprvda3kxuww62zfddua 25 44 outgassing outgas VBG work_kkta46aprvda3kxuww62zfddua 25 45 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 25 46 11–15 11–15 CD work_kkta46aprvda3kxuww62zfddua 25 47 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 25 48 or or CC work_kkta46aprvda3kxuww62zfddua 25 49 by by IN work_kkta46aprvda3kxuww62zfddua 25 50 abiotic abiotic JJ work_kkta46aprvda3kxuww62zfddua 25 51 production production NN work_kkta46aprvda3kxuww62zfddua 25 52 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 25 53 11,16 11,16 CD work_kkta46aprvda3kxuww62zfddua 25 54 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 25 55 . . . work_kkta46aprvda3kxuww62zfddua 26 1 This this DT work_kkta46aprvda3kxuww62zfddua 26 2 review review NN work_kkta46aprvda3kxuww62zfddua 26 3 will will MD work_kkta46aprvda3kxuww62zfddua 26 4 introduce introduce VB work_kkta46aprvda3kxuww62zfddua 26 5 the the DT work_kkta46aprvda3kxuww62zfddua 26 6 strategies strategy NNS work_kkta46aprvda3kxuww62zfddua 26 7 of of IN work_kkta46aprvda3kxuww62zfddua 26 8 energy energy NN work_kkta46aprvda3kxuww62zfddua 26 9 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 26 10 in in IN work_kkta46aprvda3kxuww62zfddua 26 11 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 26 12 and and CC work_kkta46aprvda3kxuww62zfddua 26 13 the the DT work_kkta46aprvda3kxuww62zfddua 26 14 key key JJ work_kkta46aprvda3kxuww62zfddua 26 15 component component NN work_kkta46aprvda3kxuww62zfddua 26 16 in in IN work_kkta46aprvda3kxuww62zfddua 26 17 cellular cellular JJ work_kkta46aprvda3kxuww62zfddua 26 18 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 26 19 , , , work_kkta46aprvda3kxuww62zfddua 26 20 the the DT work_kkta46aprvda3kxuww62zfddua 26 21 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 26 22 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 26 23 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 26 24 . . . work_kkta46aprvda3kxuww62zfddua 27 1 Unlike unlike IN work_kkta46aprvda3kxuww62zfddua 27 2 energy energy NN work_kkta46aprvda3kxuww62zfddua 27 3 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 27 4 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 27 5 in in IN work_kkta46aprvda3kxuww62zfddua 27 6 eukaryotes eukaryote NNS work_kkta46aprvda3kxuww62zfddua 27 7 and and CC work_kkta46aprvda3kxuww62zfddua 27 8 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 27 9 , , , work_kkta46aprvda3kxuww62zfddua 27 10 in in IN work_kkta46aprvda3kxuww62zfddua 27 11 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 27 12 , , , work_kkta46aprvda3kxuww62zfddua 27 13 like like IN work_kkta46aprvda3kxuww62zfddua 27 14 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 27 15 , , , work_kkta46aprvda3kxuww62zfddua 27 16 metabolism metabolism NN work_kkta46aprvda3kxuww62zfddua 27 17 is be VBZ work_kkta46aprvda3kxuww62zfddua 27 18 coupled couple VBN work_kkta46aprvda3kxuww62zfddua 27 19 to to IN work_kkta46aprvda3kxuww62zfddua 27 20 the the DT work_kkta46aprvda3kxuww62zfddua 27 21 generation generation NN work_kkta46aprvda3kxuww62zfddua 27 22 of of IN work_kkta46aprvda3kxuww62zfddua 27 23 a a DT work_kkta46aprvda3kxuww62zfddua 27 24 H+- H+- NNP work_kkta46aprvda3kxuww62zfddua 27 25 and/or and/or CC work_kkta46aprvda3kxuww62zfddua 27 26 Na+-gradient Na+-gradient NNP work_kkta46aprvda3kxuww62zfddua 27 27 across across IN work_kkta46aprvda3kxuww62zfddua 27 28 the the DT work_kkta46aprvda3kxuww62zfddua 27 29 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 27 30 , , , work_kkta46aprvda3kxuww62zfddua 27 31 and and CC work_kkta46aprvda3kxuww62zfddua 27 32 both both DT work_kkta46aprvda3kxuww62zfddua 27 33 ion ion NN work_kkta46aprvda3kxuww62zfddua 27 34 gradients gradient NNS work_kkta46aprvda3kxuww62zfddua 27 35 drive drive VBP work_kkta46aprvda3kxuww62zfddua 27 36 the the DT work_kkta46aprvda3kxuww62zfddua 27 37 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 27 38 of of IN work_kkta46aprvda3kxuww62zfddua 27 39 ATP atp NN work_kkta46aprvda3kxuww62zfddua 27 40 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 27 41 17 17 CD work_kkta46aprvda3kxuww62zfddua 27 42 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 27 43 . . . work_kkta46aprvda3kxuww62zfddua 28 1 The the DT work_kkta46aprvda3kxuww62zfddua 28 2 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 28 3 ATP atp NN work_kkta46aprvda3kxuww62zfddua 28 4 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 28 5 , , , work_kkta46aprvda3kxuww62zfddua 28 6 catalyzing catalyze VBG work_kkta46aprvda3kxuww62zfddua 28 7 the the DT work_kkta46aprvda3kxuww62zfddua 28 8 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 28 9 of of IN work_kkta46aprvda3kxuww62zfddua 28 10 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 28 11 , , , work_kkta46aprvda3kxuww62zfddua 28 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 28 13 composed compose VBN work_kkta46aprvda3kxuww62zfddua 28 14 of of IN work_kkta46aprvda3kxuww62zfddua 28 15 nine nine CD work_kkta46aprvda3kxuww62zfddua 28 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 28 17 in in IN work_kkta46aprvda3kxuww62zfddua 28 18 a a DT work_kkta46aprvda3kxuww62zfddua 28 19 proposed propose VBN work_kkta46aprvda3kxuww62zfddua 28 20 stoichiometry stoichiometry NN work_kkta46aprvda3kxuww62zfddua 28 21 of of IN work_kkta46aprvda3kxuww62zfddua 28 22 A3 A3 NNP work_kkta46aprvda3kxuww62zfddua 28 23 : : : work_kkta46aprvda3kxuww62zfddua 28 24 B3 b3 NN work_kkta46aprvda3kxuww62zfddua 28 25 : : : work_kkta46aprvda3kxuww62zfddua 28 26 C c NN work_kkta46aprvda3kxuww62zfddua 28 27 : : : work_kkta46aprvda3kxuww62zfddua 28 28 D d NN work_kkta46aprvda3kxuww62zfddua 28 29 : : : work_kkta46aprvda3kxuww62zfddua 28 30 E2 e2 NN work_kkta46aprvda3kxuww62zfddua 28 31 : : : work_kkta46aprvda3kxuww62zfddua 28 32 F f NN work_kkta46aprvda3kxuww62zfddua 28 33 : : : work_kkta46aprvda3kxuww62zfddua 28 34 H2 h2 NN work_kkta46aprvda3kxuww62zfddua 28 35 : : : work_kkta46aprvda3kxuww62zfddua 28 36 a a DT work_kkta46aprvda3kxuww62zfddua 28 37 : : : work_kkta46aprvda3kxuww62zfddua 28 38 cx cx NNP work_kkta46aprvda3kxuww62zfddua 28 39 . . . work_kkta46aprvda3kxuww62zfddua 29 1 The the DT work_kkta46aprvda3kxuww62zfddua 29 2 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 29 3 possesses possess VBZ work_kkta46aprvda3kxuww62zfddua 29 4 a a DT work_kkta46aprvda3kxuww62zfddua 29 5 water water NN work_kkta46aprvda3kxuww62zfddua 29 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 29 7 soluble soluble JJ work_kkta46aprvda3kxuww62zfddua 29 8 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 29 9 sector sector NN work_kkta46aprvda3kxuww62zfddua 29 10 , , , work_kkta46aprvda3kxuww62zfddua 29 11 containing contain VBG work_kkta46aprvda3kxuww62zfddua 29 12 the the DT work_kkta46aprvda3kxuww62zfddua 29 13 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 29 14 sites site NNS work_kkta46aprvda3kxuww62zfddua 29 15 , , , work_kkta46aprvda3kxuww62zfddua 29 16 and and CC work_kkta46aprvda3kxuww62zfddua 29 17 an an DT work_kkta46aprvda3kxuww62zfddua 29 18 integral integral JJ work_kkta46aprvda3kxuww62zfddua 29 19 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 29 20 AO AO NNP work_kkta46aprvda3kxuww62zfddua 29 21 domain domain NN work_kkta46aprvda3kxuww62zfddua 29 22 , , , work_kkta46aprvda3kxuww62zfddua 29 23 involved involve VBN work_kkta46aprvda3kxuww62zfddua 29 24 in in IN work_kkta46aprvda3kxuww62zfddua 29 25 ion ion NN work_kkta46aprvda3kxuww62zfddua 29 26 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 29 27 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 29 28 18 18 CD work_kkta46aprvda3kxuww62zfddua 29 29 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 29 30 . . . work_kkta46aprvda3kxuww62zfddua 30 1 A a DT work_kkta46aprvda3kxuww62zfddua 30 2 variety variety NN work_kkta46aprvda3kxuww62zfddua 30 3 of of IN work_kkta46aprvda3kxuww62zfddua 30 4 structural structural JJ work_kkta46aprvda3kxuww62zfddua 30 5 approaches approach NNS work_kkta46aprvda3kxuww62zfddua 30 6 have have VBP work_kkta46aprvda3kxuww62zfddua 30 7 given give VBN work_kkta46aprvda3kxuww62zfddua 30 8 a a DT work_kkta46aprvda3kxuww62zfddua 30 9 deeper deep JJR work_kkta46aprvda3kxuww62zfddua 30 10 insight insight NN work_kkta46aprvda3kxuww62zfddua 30 11 into into IN work_kkta46aprvda3kxuww62zfddua 30 12 the the DT work_kkta46aprvda3kxuww62zfddua 30 13 structural structural JJ work_kkta46aprvda3kxuww62zfddua 30 14 details detail NNS work_kkta46aprvda3kxuww62zfddua 30 15 of of IN work_kkta46aprvda3kxuww62zfddua 30 16 individual individual JJ work_kkta46aprvda3kxuww62zfddua 30 17 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 30 18 ATP atp NN work_kkta46aprvda3kxuww62zfddua 30 19 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 30 20 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 30 21 as as RB work_kkta46aprvda3kxuww62zfddua 30 22 well well RB work_kkta46aprvda3kxuww62zfddua 30 23 as as IN work_kkta46aprvda3kxuww62zfddua 30 24 subcomplexes subcomplexe NNS work_kkta46aprvda3kxuww62zfddua 30 25 , , , work_kkta46aprvda3kxuww62zfddua 30 26 and and CC work_kkta46aprvda3kxuww62zfddua 30 27 have have VBP work_kkta46aprvda3kxuww62zfddua 30 28 revealed reveal VBN work_kkta46aprvda3kxuww62zfddua 30 29 important important JJ work_kkta46aprvda3kxuww62zfddua 30 30 evolutionary evolutionary JJ work_kkta46aprvda3kxuww62zfddua 30 31 structural structural JJ work_kkta46aprvda3kxuww62zfddua 30 32 de- de- NN work_kkta46aprvda3kxuww62zfddua 30 33 tails tail NNS work_kkta46aprvda3kxuww62zfddua 30 34 that that WDT work_kkta46aprvda3kxuww62zfddua 30 35 lead lead VBP work_kkta46aprvda3kxuww62zfddua 30 36 to to IN work_kkta46aprvda3kxuww62zfddua 30 37 variations variation NNS work_kkta46aprvda3kxuww62zfddua 30 38 in in IN work_kkta46aprvda3kxuww62zfddua 30 39 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 30 40 recognition recognition NN work_kkta46aprvda3kxuww62zfddua 30 41 and and CC work_kkta46aprvda3kxuww62zfddua 30 42 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 30 43 of of IN work_kkta46aprvda3kxuww62zfddua 30 44 ATP atp NN work_kkta46aprvda3kxuww62zfddua 30 45 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 30 46 and/or and/or CC work_kkta46aprvda3kxuww62zfddua 30 47 ATP atp NN work_kkta46aprvda3kxuww62zfddua 30 48 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 30 49 of of IN work_kkta46aprvda3kxuww62zfddua 30 50 the the DT work_kkta46aprvda3kxuww62zfddua 30 51 biological biological JJ work_kkta46aprvda3kxuww62zfddua 30 52 nanomachine nanomachine NN work_kkta46aprvda3kxuww62zfddua 30 53 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 30 54 ATP atp NN work_kkta46aprvda3kxuww62zfddua 30 55 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 30 56 , , , work_kkta46aprvda3kxuww62zfddua 30 57 when when WRB work_kkta46aprvda3kxuww62zfddua 30 58 compared compare VBN work_kkta46aprvda3kxuww62zfddua 30 59 with with IN work_kkta46aprvda3kxuww62zfddua 30 60 the the DT work_kkta46aprvda3kxuww62zfddua 30 61 evolutionary evolutionary JJ work_kkta46aprvda3kxuww62zfddua 30 62 related relate VBN work_kkta46aprvda3kxuww62zfddua 30 63 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 30 64 ATP atp NN work_kkta46aprvda3kxuww62zfddua 30 65 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 30 66 and and CC work_kkta46aprvda3kxuww62zfddua 30 67 eukaryotic eukaryotic JJ work_kkta46aprvda3kxuww62zfddua 30 68 V1VO v1vo NN work_kkta46aprvda3kxuww62zfddua 30 69 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 30 70 . . . work_kkta46aprvda3kxuww62zfddua 31 1 http://crossmark.crossref.org/dialog/?doi=10.1016/j.bbabio.2014.03.004&domain=pdf http://crossmark.crossref.org/dialog/?doi=10.1016/j.bbabio.2014.03.004&domain=pdf NNP work_kkta46aprvda3kxuww62zfddua 31 2 http://dx.doi.org/10.1016/j.bbabio.2014.03.004 http://dx.doi.org/10.1016/j.bbabio.2014.03.004 NNP work_kkta46aprvda3kxuww62zfddua 31 3 mailto:ggrueber@ntu.edu.sg mailto:ggrueber@ntu.edu.sg NNP work_kkta46aprvda3kxuww62zfddua 31 4 mailto:vmueller@bio.uni-frankfurt.de mailto:vmueller@bio.uni-frankfurt.de NNP work_kkta46aprvda3kxuww62zfddua 31 5 http://dx.doi.org/10.1016/j.bbabio.2014.03.004 http://dx.doi.org/10.1016/j.bbabio.2014.03.004 NNP work_kkta46aprvda3kxuww62zfddua 31 6 http://www.sciencedirect.com/science/journal/00052728 http://www.sciencedirect.com/science/journal/00052728 NFP work_kkta46aprvda3kxuww62zfddua 31 7 941G. 941g. CD work_kkta46aprvda3kxuww62zfddua 32 1 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 32 2 et et FW work_kkta46aprvda3kxuww62zfddua 32 3 al al NNP work_kkta46aprvda3kxuww62zfddua 32 4 . . . work_kkta46aprvda3kxuww62zfddua 33 1 / / NFP work_kkta46aprvda3kxuww62zfddua 33 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 33 3 et et NN work_kkta46aprvda3kxuww62zfddua 33 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 33 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 33 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 33 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 33 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 33 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 33 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 33 11 2 2 CD work_kkta46aprvda3kxuww62zfddua 33 12 . . . work_kkta46aprvda3kxuww62zfddua 34 1 Energy energy NN work_kkta46aprvda3kxuww62zfddua 34 2 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 34 3 in in IN work_kkta46aprvda3kxuww62zfddua 34 4 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 34 5 The the DT work_kkta46aprvda3kxuww62zfddua 34 6 principle principle JJ work_kkta46aprvda3kxuww62zfddua 34 7 mechanisms mechanism NNS work_kkta46aprvda3kxuww62zfddua 34 8 of of IN work_kkta46aprvda3kxuww62zfddua 34 9 energy energy NN work_kkta46aprvda3kxuww62zfddua 34 10 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 34 11 known know VBN work_kkta46aprvda3kxuww62zfddua 34 12 to to IN work_kkta46aprvda3kxuww62zfddua 34 13 date date NN work_kkta46aprvda3kxuww62zfddua 34 14 , , , work_kkta46aprvda3kxuww62zfddua 34 15 e. e. NNP work_kkta46aprvda3kxuww62zfddua 34 16 g. g. NNP work_kkta46aprvda3kxuww62zfddua 34 17 chemiosmosis chemiosmosis NNP work_kkta46aprvda3kxuww62zfddua 34 18 or or CC work_kkta46aprvda3kxuww62zfddua 34 19 substrate substrate VB work_kkta46aprvda3kxuww62zfddua 34 20 level level NN work_kkta46aprvda3kxuww62zfddua 34 21 phosphorylation phosphorylation NN work_kkta46aprvda3kxuww62zfddua 34 22 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 34 23 SLP SLP NNP work_kkta46aprvda3kxuww62zfddua 34 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 34 25 were be VBD work_kkta46aprvda3kxuww62zfddua 34 26 invented invent VBN work_kkta46aprvda3kxuww62zfddua 34 27 very very RB work_kkta46aprvda3kxuww62zfddua 34 28 early early RB work_kkta46aprvda3kxuww62zfddua 34 29 in in IN work_kkta46aprvda3kxuww62zfddua 34 30 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 34 31 and and CC work_kkta46aprvda3kxuww62zfddua 34 32 are be VBP work_kkta46aprvda3kxuww62zfddua 34 33 found find VBN work_kkta46aprvda3kxuww62zfddua 34 34 also also RB work_kkta46aprvda3kxuww62zfddua 34 35 in in IN work_kkta46aprvda3kxuww62zfddua 34 36 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 34 37 , , , work_kkta46aprvda3kxuww62zfddua 34 38 but but CC work_kkta46aprvda3kxuww62zfddua 34 39 due due IN work_kkta46aprvda3kxuww62zfddua 34 40 to to IN work_kkta46aprvda3kxuww62zfddua 34 41 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 34 42 phylogenetic phylogenetic JJ work_kkta46aprvda3kxuww62zfddua 34 43 position position NN work_kkta46aprvda3kxuww62zfddua 34 44 , , , work_kkta46aprvda3kxuww62zfddua 34 45 very very RB work_kkta46aprvda3kxuww62zfddua 34 46 close close JJ work_kkta46aprvda3kxuww62zfddua 34 47 to to IN work_kkta46aprvda3kxuww62zfddua 34 48 the the DT work_kkta46aprvda3kxuww62zfddua 34 49 root root NN work_kkta46aprvda3kxuww62zfddua 34 50 of of IN work_kkta46aprvda3kxuww62zfddua 34 51 the the DT work_kkta46aprvda3kxuww62zfddua 34 52 tree tree NN work_kkta46aprvda3kxuww62zfddua 34 53 of of IN work_kkta46aprvda3kxuww62zfddua 34 54 life life NN work_kkta46aprvda3kxuww62zfddua 34 55 , , , work_kkta46aprvda3kxuww62zfddua 34 56 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 34 57 is be VBZ work_kkta46aprvda3kxuww62zfddua 34 58 hypothesized hypothesize VBN work_kkta46aprvda3kxuww62zfddua 34 59 that that IN work_kkta46aprvda3kxuww62zfddua 34 60 ancient ancient JJ work_kkta46aprvda3kxuww62zfddua 34 61 forms form NNS work_kkta46aprvda3kxuww62zfddua 34 62 of of IN work_kkta46aprvda3kxuww62zfddua 34 63 chemiosmosis chemiosmosis NN work_kkta46aprvda3kxuww62zfddua 34 64 are be VBP work_kkta46aprvda3kxuww62zfddua 34 65 present present JJ work_kkta46aprvda3kxuww62zfddua 34 66 in in IN work_kkta46aprvda3kxuww62zfddua 34 67 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 34 68 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 34 69 19 19 CD work_kkta46aprvda3kxuww62zfddua 34 70 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 34 71 . . . work_kkta46aprvda3kxuww62zfddua 35 1 Up up IN work_kkta46aprvda3kxuww62zfddua 35 2 to to IN work_kkta46aprvda3kxuww62zfddua 35 3 now now RB work_kkta46aprvda3kxuww62zfddua 35 4 five five CD work_kkta46aprvda3kxuww62zfddua 35 5 phyla phylum NNS work_kkta46aprvda3kxuww62zfddua 35 6 are be VBP work_kkta46aprvda3kxuww62zfddua 35 7 present present JJ work_kkta46aprvda3kxuww62zfddua 35 8 in in IN work_kkta46aprvda3kxuww62zfddua 35 9 the the DT work_kkta46aprvda3kxuww62zfddua 35 10 domain domain NN work_kkta46aprvda3kxuww62zfddua 35 11 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 35 12 . . . work_kkta46aprvda3kxuww62zfddua 36 1 The the DT work_kkta46aprvda3kxuww62zfddua 36 2 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 36 3 , , , work_kkta46aprvda3kxuww62zfddua 36 4 containing contain VBG work_kkta46aprvda3kxuww62zfddua 36 5 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 36 6 , , , work_kkta46aprvda3kxuww62zfddua 36 7 hyperthermophilic hyperthermophilic NN work_kkta46aprvda3kxuww62zfddua 36 8 and and CC work_kkta46aprvda3kxuww62zfddua 36 9 halophilic halophilic JJ work_kkta46aprvda3kxuww62zfddua 36 10 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 36 11 , , , work_kkta46aprvda3kxuww62zfddua 36 12 and and CC work_kkta46aprvda3kxuww62zfddua 36 13 Crenarchaeota Crenarchaeota NNP work_kkta46aprvda3kxuww62zfddua 36 14 with with IN work_kkta46aprvda3kxuww62zfddua 36 15 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 36 16 having have VBG work_kkta46aprvda3kxuww62zfddua 36 17 a a DT work_kkta46aprvda3kxuww62zfddua 36 18 sulfur sulfur NN work_kkta46aprvda3kxuww62zfddua 36 19 metabolism metabolism NN work_kkta46aprvda3kxuww62zfddua 36 20 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 36 21 including include VBG work_kkta46aprvda3kxuww62zfddua 36 22 some some DT work_kkta46aprvda3kxuww62zfddua 36 23 hyperthermophiles hyperthermophile NNS work_kkta46aprvda3kxuww62zfddua 36 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 36 25 , , , work_kkta46aprvda3kxuww62zfddua 36 26 are be VBP work_kkta46aprvda3kxuww62zfddua 36 27 the the DT work_kkta46aprvda3kxuww62zfddua 36 28 two two CD work_kkta46aprvda3kxuww62zfddua 36 29 major major JJ work_kkta46aprvda3kxuww62zfddua 36 30 phyla phylum NNS work_kkta46aprvda3kxuww62zfddua 36 31 of of IN work_kkta46aprvda3kxuww62zfddua 36 32 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 36 33 . . . work_kkta46aprvda3kxuww62zfddua 37 1 Thaumarchaeota Thaumarchaeota NNP work_kkta46aprvda3kxuww62zfddua 37 2 are be VBP work_kkta46aprvda3kxuww62zfddua 37 3 closely closely RB work_kkta46aprvda3kxuww62zfddua 37 4 related related JJ work_kkta46aprvda3kxuww62zfddua 37 5 to to IN work_kkta46aprvda3kxuww62zfddua 37 6 the the DT work_kkta46aprvda3kxuww62zfddua 37 7 Crenarchaeota Crenarchaeota NNP work_kkta46aprvda3kxuww62zfddua 37 8 and and CC work_kkta46aprvda3kxuww62zfddua 37 9 contain contain VB work_kkta46aprvda3kxuww62zfddua 37 10 ammonia ammonia NN work_kkta46aprvda3kxuww62zfddua 37 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 37 12 oxidizing oxidize VBG work_kkta46aprvda3kxuww62zfddua 37 13 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 37 14 . . . work_kkta46aprvda3kxuww62zfddua 38 1 The the DT work_kkta46aprvda3kxuww62zfddua 38 2 phyla phyla NN work_kkta46aprvda3kxuww62zfddua 38 3 Nanoarchaeota Nanoarchaeota NNP work_kkta46aprvda3kxuww62zfddua 38 4 and and CC work_kkta46aprvda3kxuww62zfddua 38 5 Korarchaeota Korarchaeota NNP work_kkta46aprvda3kxuww62zfddua 38 6 are be VBP work_kkta46aprvda3kxuww62zfddua 38 7 represented represent VBN work_kkta46aprvda3kxuww62zfddua 38 8 only only RB work_kkta46aprvda3kxuww62zfddua 38 9 by by IN work_kkta46aprvda3kxuww62zfddua 38 10 one one CD work_kkta46aprvda3kxuww62zfddua 38 11 species specie NNS work_kkta46aprvda3kxuww62zfddua 38 12 Nanoarchaeum nanoarchaeum JJ work_kkta46aprvda3kxuww62zfddua 38 13 equitans equitan NNS work_kkta46aprvda3kxuww62zfddua 38 14 and and CC work_kkta46aprvda3kxuww62zfddua 38 15 Korarchaeum Korarchaeum NNP work_kkta46aprvda3kxuww62zfddua 38 16 cryptofilum cryptofilum NN work_kkta46aprvda3kxuww62zfddua 38 17 , , , work_kkta46aprvda3kxuww62zfddua 38 18 respectively respectively RB work_kkta46aprvda3kxuww62zfddua 38 19 which which WDT work_kkta46aprvda3kxuww62zfddua 38 20 are be VBP work_kkta46aprvda3kxuww62zfddua 38 21 very very RB work_kkta46aprvda3kxuww62zfddua 38 22 close close JJ work_kkta46aprvda3kxuww62zfddua 38 23 to to IN work_kkta46aprvda3kxuww62zfddua 38 24 the the DT work_kkta46aprvda3kxuww62zfddua 38 25 root root NN work_kkta46aprvda3kxuww62zfddua 38 26 of of IN work_kkta46aprvda3kxuww62zfddua 38 27 the the DT work_kkta46aprvda3kxuww62zfddua 38 28 tree tree NN work_kkta46aprvda3kxuww62zfddua 38 29 of of IN work_kkta46aprvda3kxuww62zfddua 38 30 life life NN work_kkta46aprvda3kxuww62zfddua 38 31 . . . work_kkta46aprvda3kxuww62zfddua 39 1 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 39 2 are be VBP work_kkta46aprvda3kxuww62zfddua 39 3 physiologically physiologically RB work_kkta46aprvda3kxuww62zfddua 39 4 enormously enormously RB work_kkta46aprvda3kxuww62zfddua 39 5 heteroge- heteroge- JJ work_kkta46aprvda3kxuww62zfddua 39 6 neous neous JJ work_kkta46aprvda3kxuww62zfddua 39 7 . . . work_kkta46aprvda3kxuww62zfddua 40 1 They -PRON- PRP work_kkta46aprvda3kxuww62zfddua 40 2 can can MD work_kkta46aprvda3kxuww62zfddua 40 3 grow grow VB work_kkta46aprvda3kxuww62zfddua 40 4 heterotrophically heterotrophically RB work_kkta46aprvda3kxuww62zfddua 40 5 on on IN work_kkta46aprvda3kxuww62zfddua 40 6 various various JJ work_kkta46aprvda3kxuww62zfddua 40 7 compounds compound NNS work_kkta46aprvda3kxuww62zfddua 40 8 and and CC work_kkta46aprvda3kxuww62zfddua 40 9 use use VB work_kkta46aprvda3kxuww62zfddua 40 10 substrate substrate JJ work_kkta46aprvda3kxuww62zfddua 40 11 level level NN work_kkta46aprvda3kxuww62zfddua 40 12 phosphorylation phosphorylation NN work_kkta46aprvda3kxuww62zfddua 40 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 40 14 SLP SLP NNP work_kkta46aprvda3kxuww62zfddua 40 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 40 16 to to TO work_kkta46aprvda3kxuww62zfddua 40 17 synthesize synthesize VB work_kkta46aprvda3kxuww62zfddua 40 18 ATP atp NN work_kkta46aprvda3kxuww62zfddua 40 19 in in IN work_kkta46aprvda3kxuww62zfddua 40 20 combination combination NN work_kkta46aprvda3kxuww62zfddua 40 21 with with IN work_kkta46aprvda3kxuww62zfddua 40 22 chemiosmosis chemiosmosis NN work_kkta46aprvda3kxuww62zfddua 40 23 . . . work_kkta46aprvda3kxuww62zfddua 41 1 Under under IN work_kkta46aprvda3kxuww62zfddua 41 2 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 41 3 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 41 4 energy energy NN work_kkta46aprvda3kxuww62zfddua 41 5 can can MD work_kkta46aprvda3kxuww62zfddua 41 6 be be VB work_kkta46aprvda3kxuww62zfddua 41 7 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 41 8 by by IN work_kkta46aprvda3kxuww62zfddua 41 9 fermentation fermentation NN work_kkta46aprvda3kxuww62zfddua 41 10 , , , work_kkta46aprvda3kxuww62zfddua 41 11 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 41 12 respiration respiration NN work_kkta46aprvda3kxuww62zfddua 41 13 with with IN work_kkta46aprvda3kxuww62zfddua 41 14 nitrate nitrate JJ work_kkta46aprvda3kxuww62zfddua 41 15 , , , work_kkta46aprvda3kxuww62zfddua 41 16 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 41 17 photores- photores- NNP work_kkta46aprvda3kxuww62zfddua 41 18 piration piration NN work_kkta46aprvda3kxuww62zfddua 41 19 using use VBG work_kkta46aprvda3kxuww62zfddua 41 20 bacteriorhodopsin bacteriorhodopsin NN work_kkta46aprvda3kxuww62zfddua 41 21 as as RB work_kkta46aprvda3kxuww62zfddua 41 22 well well RB work_kkta46aprvda3kxuww62zfddua 41 23 as as IN work_kkta46aprvda3kxuww62zfddua 41 24 proton proton NNP work_kkta46aprvda3kxuww62zfddua 41 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 41 26 pumping pump VBG work_kkta46aprvda3kxuww62zfddua 41 27 hydroge- hydroge- NN work_kkta46aprvda3kxuww62zfddua 41 28 nases nase NNS work_kkta46aprvda3kxuww62zfddua 41 29 and and CC work_kkta46aprvda3kxuww62zfddua 41 30 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 41 31 ion ion NN work_kkta46aprvda3kxuww62zfddua 41 32 - - HYPH work_kkta46aprvda3kxuww62zfddua 41 33 pumping pump VBG work_kkta46aprvda3kxuww62zfddua 41 34 methyltransfer methyltransfer NN work_kkta46aprvda3kxuww62zfddua 41 35 reactions reaction NNS work_kkta46aprvda3kxuww62zfddua 41 36 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 41 37 19,20 19,20 CD work_kkta46aprvda3kxuww62zfddua 41 38 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 41 39 . . . work_kkta46aprvda3kxuww62zfddua 42 1 Especially especially RB work_kkta46aprvda3kxuww62zfddua 42 2 the the DT work_kkta46aprvda3kxuww62zfddua 42 3 hydrogenases hydrogenase NNS work_kkta46aprvda3kxuww62zfddua 42 4 are be VBP work_kkta46aprvda3kxuww62zfddua 42 5 of of IN work_kkta46aprvda3kxuww62zfddua 42 6 great great JJ work_kkta46aprvda3kxuww62zfddua 42 7 interest interest NN work_kkta46aprvda3kxuww62zfddua 42 8 since since IN work_kkta46aprvda3kxuww62zfddua 42 9 hydrogen hydrogen NNP work_kkta46aprvda3kxuww62zfddua 42 10 certainly certainly RB work_kkta46aprvda3kxuww62zfddua 42 11 was be VBD work_kkta46aprvda3kxuww62zfddua 42 12 around around RB work_kkta46aprvda3kxuww62zfddua 42 13 in in IN work_kkta46aprvda3kxuww62zfddua 42 14 early early JJ work_kkta46aprvda3kxuww62zfddua 42 15 earth earth NN work_kkta46aprvda3kxuww62zfddua 42 16 and and CC work_kkta46aprvda3kxuww62zfddua 42 17 is be VBZ work_kkta46aprvda3kxuww62zfddua 42 18 used use VBN work_kkta46aprvda3kxuww62zfddua 42 19 by by IN work_kkta46aprvda3kxuww62zfddua 42 20 a a DT work_kkta46aprvda3kxuww62zfddua 42 21 number number NN work_kkta46aprvda3kxuww62zfddua 42 22 of of IN work_kkta46aprvda3kxuww62zfddua 42 23 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 42 24 as as IN work_kkta46aprvda3kxuww62zfddua 42 25 an an DT work_kkta46aprvda3kxuww62zfddua 42 26 electron electron NN work_kkta46aprvda3kxuww62zfddua 42 27 donor donor NN work_kkta46aprvda3kxuww62zfddua 42 28 . . . work_kkta46aprvda3kxuww62zfddua 43 1 In in IN work_kkta46aprvda3kxuww62zfddua 43 2 the the DT work_kkta46aprvda3kxuww62zfddua 43 3 following follow VBG work_kkta46aprvda3kxuww62zfddua 43 4 section section NN work_kkta46aprvda3kxuww62zfddua 43 5 a a DT work_kkta46aprvda3kxuww62zfddua 43 6 brief brief JJ work_kkta46aprvda3kxuww62zfddua 43 7 introduction introduction NN work_kkta46aprvda3kxuww62zfddua 43 8 to to IN work_kkta46aprvda3kxuww62zfddua 43 9 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 43 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 43 11 dependent dependent JJ work_kkta46aprvda3kxuww62zfddua 43 12 energy energy NN work_kkta46aprvda3kxuww62zfddua 43 13 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 43 14 mechanisms mechanism NNS work_kkta46aprvda3kxuww62zfddua 43 15 will will MD work_kkta46aprvda3kxuww62zfddua 43 16 be be VB work_kkta46aprvda3kxuww62zfddua 43 17 given give VBN work_kkta46aprvda3kxuww62zfddua 43 18 . . . work_kkta46aprvda3kxuww62zfddua 44 1 For for IN work_kkta46aprvda3kxuww62zfddua 44 2 more more RBR work_kkta46aprvda3kxuww62zfddua 44 3 comprehensive comprehensive JJ work_kkta46aprvda3kxuww62zfddua 44 4 reviews review NNS work_kkta46aprvda3kxuww62zfddua 44 5 , , , work_kkta46aprvda3kxuww62zfddua 44 6 the the DT work_kkta46aprvda3kxuww62zfddua 44 7 reader reader NN work_kkta46aprvda3kxuww62zfddua 44 8 is be VBZ work_kkta46aprvda3kxuww62zfddua 44 9 referred refer VBN work_kkta46aprvda3kxuww62zfddua 44 10 to to IN work_kkta46aprvda3kxuww62zfddua 44 11 recent recent JJ work_kkta46aprvda3kxuww62zfddua 44 12 reviews review NNS work_kkta46aprvda3kxuww62zfddua 44 13 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 44 14 20–22 20–22 CD work_kkta46aprvda3kxuww62zfddua 44 15 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 44 16 . . . work_kkta46aprvda3kxuww62zfddua 45 1 P. P. NNP work_kkta46aprvda3kxuww62zfddua 45 2 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 45 3 , , , work_kkta46aprvda3kxuww62zfddua 45 4 a a DT work_kkta46aprvda3kxuww62zfddua 45 5 hyperthermophilic hyperthermophilic NN work_kkta46aprvda3kxuww62zfddua 45 6 strictly strictly RB work_kkta46aprvda3kxuww62zfddua 45 7 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 45 8 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 45 9 that that WDT work_kkta46aprvda3kxuww62zfddua 45 10 belongs belong VBZ work_kkta46aprvda3kxuww62zfddua 45 11 to to IN work_kkta46aprvda3kxuww62zfddua 45 12 the the DT work_kkta46aprvda3kxuww62zfddua 45 13 phylum phylum NN work_kkta46aprvda3kxuww62zfddua 45 14 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 45 15 , , , work_kkta46aprvda3kxuww62zfddua 45 16 conserves conserve VBZ work_kkta46aprvda3kxuww62zfddua 45 17 energy energy NN work_kkta46aprvda3kxuww62zfddua 45 18 for for IN work_kkta46aprvda3kxuww62zfddua 45 19 growth growth NN work_kkta46aprvda3kxuww62zfddua 45 20 by by IN work_kkta46aprvda3kxuww62zfddua 45 21 fermentation fermentation NN work_kkta46aprvda3kxuww62zfddua 45 22 of of IN work_kkta46aprvda3kxuww62zfddua 45 23 carbohydrates carbohydrate NNS work_kkta46aprvda3kxuww62zfddua 45 24 and and CC work_kkta46aprvda3kxuww62zfddua 45 25 peptides peptide NNS work_kkta46aprvda3kxuww62zfddua 45 26 to to IN work_kkta46aprvda3kxuww62zfddua 45 27 CO2 CO2 NNP work_kkta46aprvda3kxuww62zfddua 45 28 , , , work_kkta46aprvda3kxuww62zfddua 45 29 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 45 30 and and CC work_kkta46aprvda3kxuww62zfddua 45 31 organic organic JJ work_kkta46aprvda3kxuww62zfddua 45 32 acids acid NNS work_kkta46aprvda3kxuww62zfddua 45 33 , , , work_kkta46aprvda3kxuww62zfddua 45 34 e.g. e.g. RB work_kkta46aprvda3kxuww62zfddua 46 1 acetate acetate NNP work_kkta46aprvda3kxuww62zfddua 46 2 , , , work_kkta46aprvda3kxuww62zfddua 46 3 in in IN work_kkta46aprvda3kxuww62zfddua 46 4 the the DT work_kkta46aprvda3kxuww62zfddua 46 5 absence absence NN work_kkta46aprvda3kxuww62zfddua 46 6 of of IN work_kkta46aprvda3kxuww62zfddua 46 7 elemental elemental JJ work_kkta46aprvda3kxuww62zfddua 46 8 sulfur sulfur NN work_kkta46aprvda3kxuww62zfddua 46 9 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 46 10 2 2 CD work_kkta46aprvda3kxuww62zfddua 46 11 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 46 12 . . . work_kkta46aprvda3kxuww62zfddua 47 1 Hydrogen Hydrogen NNP work_kkta46aprvda3kxuww62zfddua 47 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 47 3 evolved evolve VBN work_kkta46aprvda3kxuww62zfddua 47 4 by by IN work_kkta46aprvda3kxuww62zfddua 47 5 hydrogenases hydrogenase NNS work_kkta46aprvda3kxuww62zfddua 47 6 with with IN work_kkta46aprvda3kxuww62zfddua 47 7 reduced reduced JJ work_kkta46aprvda3kxuww62zfddua 47 8 ferredoxin ferredoxin NN work_kkta46aprvda3kxuww62zfddua 47 9 as as IN work_kkta46aprvda3kxuww62zfddua 47 10 an an DT work_kkta46aprvda3kxuww62zfddua 47 11 electron electron NN work_kkta46aprvda3kxuww62zfddua 47 12 donor donor NN work_kkta46aprvda3kxuww62zfddua 47 13 . . . work_kkta46aprvda3kxuww62zfddua 48 1 Ferredoxin ferredoxin NN work_kkta46aprvda3kxuww62zfddua 48 2 plays play VBZ work_kkta46aprvda3kxuww62zfddua 48 3 a a DT work_kkta46aprvda3kxuww62zfddua 48 4 central central JJ work_kkta46aprvda3kxuww62zfddua 48 5 role role NN work_kkta46aprvda3kxuww62zfddua 48 6 in in IN work_kkta46aprvda3kxuww62zfddua 48 7 the the DT work_kkta46aprvda3kxuww62zfddua 48 8 energy energy NN work_kkta46aprvda3kxuww62zfddua 48 9 metabolism metabolism NN work_kkta46aprvda3kxuww62zfddua 48 10 of of IN work_kkta46aprvda3kxuww62zfddua 48 11 many many JJ work_kkta46aprvda3kxuww62zfddua 48 12 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 48 13 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 48 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 48 15 and and CC work_kkta46aprvda3kxuww62zfddua 48 16 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 48 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 48 18 . . . work_kkta46aprvda3kxuww62zfddua 49 1 It -PRON- PRP work_kkta46aprvda3kxuww62zfddua 49 2 has have VBZ work_kkta46aprvda3kxuww62zfddua 49 3 a a DT work_kkta46aprvda3kxuww62zfddua 49 4 redox redox JJ work_kkta46aprvda3kxuww62zfddua 49 5 potential potential NN work_kkta46aprvda3kxuww62zfddua 49 6 well well RB work_kkta46aprvda3kxuww62zfddua 49 7 below below IN work_kkta46aprvda3kxuww62zfddua 49 8 −400 −400 NNP work_kkta46aprvda3kxuww62zfddua 49 9 mV mV NNP work_kkta46aprvda3kxuww62zfddua 49 10 , , , work_kkta46aprvda3kxuww62zfddua 49 11 up up IN work_kkta46aprvda3kxuww62zfddua 49 12 to to IN work_kkta46aprvda3kxuww62zfddua 49 13 −500 −500 NNP work_kkta46aprvda3kxuww62zfddua 49 14 mV mV NNP work_kkta46aprvda3kxuww62zfddua 49 15 , , , work_kkta46aprvda3kxuww62zfddua 49 16 and and CC work_kkta46aprvda3kxuww62zfddua 49 17 thus thus RB work_kkta46aprvda3kxuww62zfddua 49 18 can can MD work_kkta46aprvda3kxuww62zfddua 49 19 be be VB work_kkta46aprvda3kxuww62zfddua 49 20 used use VBN work_kkta46aprvda3kxuww62zfddua 49 21 to to TO work_kkta46aprvda3kxuww62zfddua 49 22 reduce reduce VB work_kkta46aprvda3kxuww62zfddua 49 23 pro- pro- NN work_kkta46aprvda3kxuww62zfddua 49 24 tons ton NNS work_kkta46aprvda3kxuww62zfddua 49 25 to to IN work_kkta46aprvda3kxuww62zfddua 49 26 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 49 27 gas gas NN work_kkta46aprvda3kxuww62zfddua 49 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 49 29 E0′ e0′ ADD work_kkta46aprvda3kxuww62zfddua 49 30 = = NFP work_kkta46aprvda3kxuww62zfddua 49 31 −414 −414 NNP work_kkta46aprvda3kxuww62zfddua 49 32 mV mV NNP work_kkta46aprvda3kxuww62zfddua 49 33 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 49 34 . . . work_kkta46aprvda3kxuww62zfddua 50 1 This this DT work_kkta46aprvda3kxuww62zfddua 50 2 exergonic exergonic JJ work_kkta46aprvda3kxuww62zfddua 50 3 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 50 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 50 5 used use VBN work_kkta46aprvda3kxuww62zfddua 50 6 to to TO work_kkta46aprvda3kxuww62zfddua 50 7 pump pump VB work_kkta46aprvda3kxuww62zfddua 50 8 ions ion NNS work_kkta46aprvda3kxuww62zfddua 50 9 out out IN work_kkta46aprvda3kxuww62zfddua 50 10 of of IN work_kkta46aprvda3kxuww62zfddua 50 11 the the DT work_kkta46aprvda3kxuww62zfddua 50 12 cell cell NN work_kkta46aprvda3kxuww62zfddua 50 13 , , , work_kkta46aprvda3kxuww62zfddua 50 14 most most RBS work_kkta46aprvda3kxuww62zfddua 50 15 likely likely JJ work_kkta46aprvda3kxuww62zfddua 50 16 Na+ na+ UH work_kkta46aprvda3kxuww62zfddua 50 17 , , , work_kkta46aprvda3kxuww62zfddua 50 18 and and CC work_kkta46aprvda3kxuww62zfddua 50 19 the the DT work_kkta46aprvda3kxuww62zfddua 50 20 electrochemical electrochemical JJ work_kkta46aprvda3kxuww62zfddua 50 21 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 50 22 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 50 23 established establish VBN work_kkta46aprvda3kxuww62zfddua 50 24 is be VBZ work_kkta46aprvda3kxuww62zfddua 50 25 then then RB work_kkta46aprvda3kxuww62zfddua 50 26 used use VBN work_kkta46aprvda3kxuww62zfddua 50 27 to to TO work_kkta46aprvda3kxuww62zfddua 50 28 drive drive VB work_kkta46aprvda3kxuww62zfddua 50 29 ATP atp NN work_kkta46aprvda3kxuww62zfddua 50 30 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 50 31 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 50 32 21 21 CD work_kkta46aprvda3kxuww62zfddua 50 33 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 50 34 . . . work_kkta46aprvda3kxuww62zfddua 51 1 This this DT work_kkta46aprvda3kxuww62zfddua 51 2 multisubunit multisubunit NN work_kkta46aprvda3kxuww62zfddua 51 3 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 51 4 - - HYPH work_kkta46aprvda3kxuww62zfddua 51 5 bound bind VBN work_kkta46aprvda3kxuww62zfddua 51 6 hydrogenase hydrogenase NN work_kkta46aprvda3kxuww62zfddua 51 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 51 8 Mbh Mbh NNP work_kkta46aprvda3kxuww62zfddua 51 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 51 10 has have VBZ work_kkta46aprvda3kxuww62zfddua 51 11 eight eight CD work_kkta46aprvda3kxuww62zfddua 51 12 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 51 13 comprising comprise VBG work_kkta46aprvda3kxuww62zfddua 51 14 a a DT work_kkta46aprvda3kxuww62zfddua 51 15 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 51 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 51 17 oxidizing oxidize VBG work_kkta46aprvda3kxuww62zfddua 51 18 module module NN work_kkta46aprvda3kxuww62zfddua 51 19 as as RB work_kkta46aprvda3kxuww62zfddua 51 20 well well RB work_kkta46aprvda3kxuww62zfddua 51 21 as as IN work_kkta46aprvda3kxuww62zfddua 51 22 Na+/H+ Na+/H+ NNP work_kkta46aprvda3kxuww62zfddua 51 23 antiporter antiporter NN work_kkta46aprvda3kxuww62zfddua 51 24 modules module NNS work_kkta46aprvda3kxuww62zfddua 51 25 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 51 26 22 22 CD work_kkta46aprvda3kxuww62zfddua 51 27 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 51 28 . . . work_kkta46aprvda3kxuww62zfddua 52 1 Thus thus RB work_kkta46aprvda3kxuww62zfddua 52 2 , , , work_kkta46aprvda3kxuww62zfddua 52 3 for for IN work_kkta46aprvda3kxuww62zfddua 52 4 the the DT work_kkta46aprvda3kxuww62zfddua 52 5 subunit subunit JJ work_kkta46aprvda3kxuww62zfddua 52 6 composition composition NN work_kkta46aprvda3kxuww62zfddua 52 7 the the DT work_kkta46aprvda3kxuww62zfddua 52 8 Mbh Mbh NNP work_kkta46aprvda3kxuww62zfddua 52 9 resembles resemble VBZ work_kkta46aprvda3kxuww62zfddua 52 10 modern modern JJ work_kkta46aprvda3kxuww62zfddua 52 11 complex complex NN work_kkta46aprvda3kxuww62zfddua 52 12 I -PRON- PRP work_kkta46aprvda3kxuww62zfddua 52 13 enzymes enzyme VBZ work_kkta46aprvda3kxuww62zfddua 52 14 and and CC work_kkta46aprvda3kxuww62zfddua 52 15 indeed indeed RB work_kkta46aprvda3kxuww62zfddua 52 16 , , , work_kkta46aprvda3kxuww62zfddua 52 17 hydrogenases hydrogenase NNS work_kkta46aprvda3kxuww62zfddua 52 18 are be VBP work_kkta46aprvda3kxuww62zfddua 52 19 the the DT work_kkta46aprvda3kxuww62zfddua 52 20 evolu- evolu- NNP work_kkta46aprvda3kxuww62zfddua 52 21 tionary tionary JJ work_kkta46aprvda3kxuww62zfddua 52 22 precursor precursor NN work_kkta46aprvda3kxuww62zfddua 52 23 of of IN work_kkta46aprvda3kxuww62zfddua 52 24 complex complex NN work_kkta46aprvda3kxuww62zfddua 52 25 I -PRON- PRP work_kkta46aprvda3kxuww62zfddua 52 26 found find VBD work_kkta46aprvda3kxuww62zfddua 52 27 in in IN work_kkta46aprvda3kxuww62zfddua 52 28 mitochondria mitochondria NNP work_kkta46aprvda3kxuww62zfddua 52 29 or or CC work_kkta46aprvda3kxuww62zfddua 52 30 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 52 31 membranes membrane NNS work_kkta46aprvda3kxuww62zfddua 52 32 . . . work_kkta46aprvda3kxuww62zfddua 53 1 In in IN work_kkta46aprvda3kxuww62zfddua 53 2 P. P. NNP work_kkta46aprvda3kxuww62zfddua 53 3 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 53 4 , , , work_kkta46aprvda3kxuww62zfddua 53 5 the the DT work_kkta46aprvda3kxuww62zfddua 53 6 hydrogenase hydrogenase NN work_kkta46aprvda3kxuww62zfddua 53 7 is be VBZ work_kkta46aprvda3kxuww62zfddua 53 8 used use VBN work_kkta46aprvda3kxuww62zfddua 53 9 to to TO work_kkta46aprvda3kxuww62zfddua 53 10 generate generate VB work_kkta46aprvda3kxuww62zfddua 53 11 an an DT work_kkta46aprvda3kxuww62zfddua 53 12 elec- elec- NNP work_kkta46aprvda3kxuww62zfddua 53 13 trochemical trochemical NNP work_kkta46aprvda3kxuww62zfddua 53 14 ion ion NN work_kkta46aprvda3kxuww62zfddua 53 15 potential potential NN work_kkta46aprvda3kxuww62zfddua 53 16 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 53 17 ΔeμNa ΔeμNa NNP work_kkta46aprvda3kxuww62zfddua 53 18 þ þ NNP work_kkta46aprvda3kxuww62zfddua 53 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 53 20 for for IN work_kkta46aprvda3kxuww62zfddua 53 21 transport transport NN work_kkta46aprvda3kxuww62zfddua 53 22 processes process NNS work_kkta46aprvda3kxuww62zfddua 53 23 and and CC work_kkta46aprvda3kxuww62zfddua 53 24 other other JJ work_kkta46aprvda3kxuww62zfddua 53 25 energy energy NN work_kkta46aprvda3kxuww62zfddua 53 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 53 27 consuming consume VBG work_kkta46aprvda3kxuww62zfddua 53 28 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 53 29 reactions reaction NNS work_kkta46aprvda3kxuww62zfddua 53 30 but but CC work_kkta46aprvda3kxuww62zfddua 53 31 most most JJS work_kkta46aprvda3kxuww62zfddua 53 32 of of IN work_kkta46aprvda3kxuww62zfddua 53 33 the the DT work_kkta46aprvda3kxuww62zfddua 53 34 cellular cellular JJ work_kkta46aprvda3kxuww62zfddua 53 35 ATP atp NN work_kkta46aprvda3kxuww62zfddua 53 36 is be VBZ work_kkta46aprvda3kxuww62zfddua 53 37 generated generate VBN work_kkta46aprvda3kxuww62zfddua 53 38 by by IN work_kkta46aprvda3kxuww62zfddua 53 39 substrate substrate JJ work_kkta46aprvda3kxuww62zfddua 53 40 level level NN work_kkta46aprvda3kxuww62zfddua 53 41 phosphorylation phosphorylation NN work_kkta46aprvda3kxuww62zfddua 53 42 during during IN work_kkta46aprvda3kxuww62zfddua 53 43 glycolysis glycolysis NN work_kkta46aprvda3kxuww62zfddua 53 44 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 53 45 21 21 CD work_kkta46aprvda3kxuww62zfddua 53 46 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 53 47 . . . work_kkta46aprvda3kxuww62zfddua 54 1 This this DT work_kkta46aprvda3kxuww62zfddua 54 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 54 3 different different JJ work_kkta46aprvda3kxuww62zfddua 54 4 in in IN work_kkta46aprvda3kxuww62zfddua 54 5 Thermococcus Thermococcus NNP work_kkta46aprvda3kxuww62zfddua 54 6 onnurineus onnurineus NN work_kkta46aprvda3kxuww62zfddua 54 7 that that WDT work_kkta46aprvda3kxuww62zfddua 54 8 can can MD work_kkta46aprvda3kxuww62zfddua 54 9 grow grow VB work_kkta46aprvda3kxuww62zfddua 54 10 by by IN work_kkta46aprvda3kxuww62zfddua 54 11 oxidation oxidation NN work_kkta46aprvda3kxuww62zfddua 54 12 of of IN work_kkta46aprvda3kxuww62zfddua 54 13 formate formate NN work_kkta46aprvda3kxuww62zfddua 54 14 to to IN work_kkta46aprvda3kxuww62zfddua 54 15 carbon carbon NN work_kkta46aprvda3kxuww62zfddua 54 16 dioxide dioxide NN work_kkta46aprvda3kxuww62zfddua 54 17 and and CC work_kkta46aprvda3kxuww62zfddua 54 18 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 54 19 . . . work_kkta46aprvda3kxuww62zfddua 55 1 This this DT work_kkta46aprvda3kxuww62zfddua 55 2 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 55 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 55 4 close close JJ work_kkta46aprvda3kxuww62zfddua 55 5 to to IN work_kkta46aprvda3kxuww62zfddua 55 6 the the DT work_kkta46aprvda3kxuww62zfddua 55 7 thermodynamic thermodynamic JJ work_kkta46aprvda3kxuww62zfddua 55 8 equilibrium equilibrium NN work_kkta46aprvda3kxuww62zfddua 55 9 and and CC work_kkta46aprvda3kxuww62zfddua 55 10 actually actually RB work_kkta46aprvda3kxuww62zfddua 55 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 55 12 the the DT work_kkta46aprvda3kxuww62zfddua 55 13 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 55 14 with with IN work_kkta46aprvda3kxuww62zfddua 55 15 the the DT work_kkta46aprvda3kxuww62zfddua 55 16 lowest low JJS work_kkta46aprvda3kxuww62zfddua 55 17 ΔG δg NN work_kkta46aprvda3kxuww62zfddua 55 18 known know VBN work_kkta46aprvda3kxuww62zfddua 55 19 to to TO work_kkta46aprvda3kxuww62zfddua 55 20 sustain sustain VB work_kkta46aprvda3kxuww62zfddua 55 21 life life NN work_kkta46aprvda3kxuww62zfddua 55 22 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 55 23 −2.6 −2.6 NNP work_kkta46aprvda3kxuww62zfddua 55 24 kJ kJ NNP work_kkta46aprvda3kxuww62zfddua 55 25 / / SYM work_kkta46aprvda3kxuww62zfddua 55 26 mol mol NNP work_kkta46aprvda3kxuww62zfddua 55 27 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 55 28 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 55 29 23,24 23,24 CD work_kkta46aprvda3kxuww62zfddua 55 30 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 55 31 . . . work_kkta46aprvda3kxuww62zfddua 56 1 The the DT work_kkta46aprvda3kxuww62zfddua 56 2 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 56 3 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 56 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 56 5 simple simple JJ work_kkta46aprvda3kxuww62zfddua 56 6 and and CC work_kkta46aprvda3kxuww62zfddua 56 7 involves involve VBZ work_kkta46aprvda3kxuww62zfddua 56 8 a a DT work_kkta46aprvda3kxuww62zfddua 56 9 formate formate NN work_kkta46aprvda3kxuww62zfddua 56 10 dehydrogenase dehydrogenase NN work_kkta46aprvda3kxuww62zfddua 56 11 that that WDT work_kkta46aprvda3kxuww62zfddua 56 12 oxidizes oxidize VBZ work_kkta46aprvda3kxuww62zfddua 56 13 formate formate NN work_kkta46aprvda3kxuww62zfddua 56 14 and and CC work_kkta46aprvda3kxuww62zfddua 56 15 channels channel VBZ work_kkta46aprvda3kxuww62zfddua 56 16 electrons electron NNS work_kkta46aprvda3kxuww62zfddua 56 17 to to IN work_kkta46aprvda3kxuww62zfddua 56 18 a a DT work_kkta46aprvda3kxuww62zfddua 56 19 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 56 20 - - HYPH work_kkta46aprvda3kxuww62zfddua 56 21 bound bind VBN work_kkta46aprvda3kxuww62zfddua 56 22 hydrogenase hydrogenase NN work_kkta46aprvda3kxuww62zfddua 56 23 , , , work_kkta46aprvda3kxuww62zfddua 56 24 very very RB work_kkta46aprvda3kxuww62zfddua 56 25 simi- simi- NN work_kkta46aprvda3kxuww62zfddua 56 26 lar lar NN work_kkta46aprvda3kxuww62zfddua 56 27 to to IN work_kkta46aprvda3kxuww62zfddua 56 28 the the DT work_kkta46aprvda3kxuww62zfddua 56 29 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 56 30 described describe VBN work_kkta46aprvda3kxuww62zfddua 56 31 above above IN work_kkta46aprvda3kxuww62zfddua 56 32 for for IN work_kkta46aprvda3kxuww62zfddua 56 33 P. P. NNP work_kkta46aprvda3kxuww62zfddua 56 34 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 56 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 56 36 22,23 22,23 CD work_kkta46aprvda3kxuww62zfddua 56 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 56 38 . . . work_kkta46aprvda3kxuww62zfddua 57 1 Electron Electron NNP work_kkta46aprvda3kxuww62zfddua 57 2 trans- trans- NN work_kkta46aprvda3kxuww62zfddua 57 3 fer fer NNP work_kkta46aprvda3kxuww62zfddua 57 4 to to IN work_kkta46aprvda3kxuww62zfddua 57 5 protons proton NNS work_kkta46aprvda3kxuww62zfddua 57 6 leads lead VBZ work_kkta46aprvda3kxuww62zfddua 57 7 to to IN work_kkta46aprvda3kxuww62zfddua 57 8 the the DT work_kkta46aprvda3kxuww62zfddua 57 9 generation generation NN work_kkta46aprvda3kxuww62zfddua 57 10 of of IN work_kkta46aprvda3kxuww62zfddua 57 11 an an DT work_kkta46aprvda3kxuww62zfddua 57 12 ion ion NN work_kkta46aprvda3kxuww62zfddua 57 13 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 57 14 that that WDT work_kkta46aprvda3kxuww62zfddua 57 15 then then RB work_kkta46aprvda3kxuww62zfddua 57 16 drives drive VBZ work_kkta46aprvda3kxuww62zfddua 57 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 57 18 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 57 19 . . . work_kkta46aprvda3kxuww62zfddua 58 1 Although although IN work_kkta46aprvda3kxuww62zfddua 58 2 this this DT work_kkta46aprvda3kxuww62zfddua 58 3 has have VBZ work_kkta46aprvda3kxuww62zfddua 58 4 not not RB work_kkta46aprvda3kxuww62zfddua 58 5 been be VBN work_kkta46aprvda3kxuww62zfddua 58 6 addressed address VBN work_kkta46aprvda3kxuww62zfddua 58 7 experimentally experimentally RB work_kkta46aprvda3kxuww62zfddua 58 8 , , , work_kkta46aprvda3kxuww62zfddua 58 9 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 58 10 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 58 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 58 12 suggested suggest VBN work_kkta46aprvda3kxuww62zfddua 58 13 to to TO work_kkta46aprvda3kxuww62zfddua 58 14 involve involve VB work_kkta46aprvda3kxuww62zfddua 58 15 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 58 16 as as IN work_kkta46aprvda3kxuww62zfddua 58 17 a a DT work_kkta46aprvda3kxuww62zfddua 58 18 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 58 19 ion ion NN work_kkta46aprvda3kxuww62zfddua 58 20 . . . work_kkta46aprvda3kxuww62zfddua 59 1 A a DT work_kkta46aprvda3kxuww62zfddua 59 2 unique unique JJ work_kkta46aprvda3kxuww62zfddua 59 3 pathway pathway NN work_kkta46aprvda3kxuww62zfddua 59 4 that that WDT work_kkta46aprvda3kxuww62zfddua 59 5 allows allow VBZ work_kkta46aprvda3kxuww62zfddua 59 6 growth growth NN work_kkta46aprvda3kxuww62zfddua 59 7 under under IN work_kkta46aprvda3kxuww62zfddua 59 8 strictly strictly RB work_kkta46aprvda3kxuww62zfddua 59 9 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 59 10 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 59 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 59 12 methanogenesis methanogenesis NN work_kkta46aprvda3kxuww62zfddua 59 13 . . . work_kkta46aprvda3kxuww62zfddua 60 1 Methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 60 2 use use VBP work_kkta46aprvda3kxuww62zfddua 60 3 only only JJ work_kkta46aprvda3kxuww62zfddua 60 4 chemiosmosis chemiosmosis NN work_kkta46aprvda3kxuww62zfddua 60 5 for for IN work_kkta46aprvda3kxuww62zfddua 60 6 energy energy NN work_kkta46aprvda3kxuww62zfddua 60 7 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 60 8 and and CC work_kkta46aprvda3kxuww62zfddua 60 9 couple couple NN work_kkta46aprvda3kxuww62zfddua 60 10 methanogenesis methanogenesis NN work_kkta46aprvda3kxuww62zfddua 60 11 to to IN work_kkta46aprvda3kxuww62zfddua 60 12 the the DT work_kkta46aprvda3kxuww62zfddua 60 13 generation generation NN work_kkta46aprvda3kxuww62zfddua 60 14 of of IN work_kkta46aprvda3kxuww62zfddua 60 15 two two CD work_kkta46aprvda3kxuww62zfddua 60 16 primary primary JJ work_kkta46aprvda3kxuww62zfddua 60 17 ion ion NN work_kkta46aprvda3kxuww62zfddua 60 18 gradients gradient NNS work_kkta46aprvda3kxuww62zfddua 60 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 60 20 25 25 CD work_kkta46aprvda3kxuww62zfddua 60 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 60 22 . . . work_kkta46aprvda3kxuww62zfddua 61 1 One one CD work_kkta46aprvda3kxuww62zfddua 61 2 of of IN work_kkta46aprvda3kxuww62zfddua 61 3 these these DT work_kkta46aprvda3kxuww62zfddua 61 4 ion ion NN work_kkta46aprvda3kxuww62zfddua 61 5 gradients gradient NNS work_kkta46aprvda3kxuww62zfddua 61 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 61 7 a a DT work_kkta46aprvda3kxuww62zfddua 61 8 primary primary JJ work_kkta46aprvda3kxuww62zfddua 61 9 , , , work_kkta46aprvda3kxuww62zfddua 61 10 electrochemical electrochemical JJ work_kkta46aprvda3kxuww62zfddua 61 11 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 61 12 ion ion NN work_kkta46aprvda3kxuww62zfddua 61 13 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 61 14 established establish VBN work_kkta46aprvda3kxuww62zfddua 61 15 by by IN work_kkta46aprvda3kxuww62zfddua 61 16 the the DT work_kkta46aprvda3kxuww62zfddua 61 17 methyltetrahydromethanopterin methyltetrahydromethanopterin NN work_kkta46aprvda3kxuww62zfddua 61 18 – – : work_kkta46aprvda3kxuww62zfddua 61 19 coenzyme coenzyme NNS work_kkta46aprvda3kxuww62zfddua 61 20 M M NNP work_kkta46aprvda3kxuww62zfddua 61 21 methyltransferase methyltransferase NN work_kkta46aprvda3kxuww62zfddua 61 22 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 61 23 Mtr Mtr NNP work_kkta46aprvda3kxuww62zfddua 61 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 61 25 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 61 26 26,27 26,27 CD work_kkta46aprvda3kxuww62zfddua 61 27 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 61 28 . . . work_kkta46aprvda3kxuww62zfddua 62 1 This this DT work_kkta46aprvda3kxuww62zfddua 62 2 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 62 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 62 4 common common JJ work_kkta46aprvda3kxuww62zfddua 62 5 to to IN work_kkta46aprvda3kxuww62zfddua 62 6 every every DT work_kkta46aprvda3kxuww62zfddua 62 7 methanogen methanogen NN work_kkta46aprvda3kxuww62zfddua 62 8 . . . work_kkta46aprvda3kxuww62zfddua 63 1 Some some DT work_kkta46aprvda3kxuww62zfddua 63 2 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 63 3 also also RB work_kkta46aprvda3kxuww62zfddua 63 4 have have VBP work_kkta46aprvda3kxuww62zfddua 63 5 an an DT work_kkta46aprvda3kxuww62zfddua 63 6 additional additional JJ work_kkta46aprvda3kxuww62zfddua 63 7 electron electron NN work_kkta46aprvda3kxuww62zfddua 63 8 transport transport NN work_kkta46aprvda3kxuww62zfddua 63 9 chain(s chain(s . work_kkta46aprvda3kxuww62zfddua 63 10 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 63 11 that that DT work_kkta46aprvda3kxuww62zfddua 63 12 includes include VBZ work_kkta46aprvda3kxuww62zfddua 63 13 cytochromes cytochrome NNS work_kkta46aprvda3kxuww62zfddua 63 14 and and CC work_kkta46aprvda3kxuww62zfddua 63 15 have have VBP work_kkta46aprvda3kxuww62zfddua 63 16 evolved evolve VBN work_kkta46aprvda3kxuww62zfddua 63 17 a a DT work_kkta46aprvda3kxuww62zfddua 63 18 second second JJ work_kkta46aprvda3kxuww62zfddua 63 19 , , , work_kkta46aprvda3kxuww62zfddua 63 20 additional additional JJ work_kkta46aprvda3kxuww62zfddua 63 21 mecha- mecha- NN work_kkta46aprvda3kxuww62zfddua 63 22 nism nism NN work_kkta46aprvda3kxuww62zfddua 63 23 to to TO work_kkta46aprvda3kxuww62zfddua 63 24 energize energize VB work_kkta46aprvda3kxuww62zfddua 63 25 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 63 26 membranes membrane NNS work_kkta46aprvda3kxuww62zfddua 63 27 . . . work_kkta46aprvda3kxuww62zfddua 64 1 This this DT work_kkta46aprvda3kxuww62zfddua 64 2 proton proton NNP work_kkta46aprvda3kxuww62zfddua 64 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 64 4 motive motive NN work_kkta46aprvda3kxuww62zfddua 64 5 electron electron NNP work_kkta46aprvda3kxuww62zfddua 64 6 trans- trans- NNP work_kkta46aprvda3kxuww62zfddua 64 7 port port NN work_kkta46aprvda3kxuww62zfddua 64 8 chain chain NN work_kkta46aprvda3kxuww62zfddua 64 9 leads lead VBZ work_kkta46aprvda3kxuww62zfddua 64 10 to to IN work_kkta46aprvda3kxuww62zfddua 64 11 a a DT work_kkta46aprvda3kxuww62zfddua 64 12 heterodisulfide heterodisulfide NN work_kkta46aprvda3kxuww62zfddua 64 13 of of IN work_kkta46aprvda3kxuww62zfddua 64 14 coenzyme coenzyme NNS work_kkta46aprvda3kxuww62zfddua 64 15 M M NNP work_kkta46aprvda3kxuww62zfddua 64 16 and and CC work_kkta46aprvda3kxuww62zfddua 64 17 coenzyme coenzyme NNS work_kkta46aprvda3kxuww62zfddua 64 18 B B NNP work_kkta46aprvda3kxuww62zfddua 64 19 as as IN work_kkta46aprvda3kxuww62zfddua 64 20 an an DT work_kkta46aprvda3kxuww62zfddua 64 21 electron electron NN work_kkta46aprvda3kxuww62zfddua 64 22 acceptor acceptor NN work_kkta46aprvda3kxuww62zfddua 64 23 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 64 24 28,29 28,29 CD work_kkta46aprvda3kxuww62zfddua 64 25 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 64 26 . . . work_kkta46aprvda3kxuww62zfddua 65 1 Therefore therefore RB work_kkta46aprvda3kxuww62zfddua 65 2 , , , work_kkta46aprvda3kxuww62zfddua 65 3 methanogenic methanogenic NNP work_kkta46aprvda3kxuww62zfddua 65 4 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 65 5 , , , work_kkta46aprvda3kxuww62zfddua 65 6 which which WDT work_kkta46aprvda3kxuww62zfddua 65 7 have have VBP work_kkta46aprvda3kxuww62zfddua 65 8 a a DT work_kkta46aprvda3kxuww62zfddua 65 9 methyltetrahydromethanopterin methyltetrahydromethanopterin NN work_kkta46aprvda3kxuww62zfddua 65 10 – – : work_kkta46aprvda3kxuww62zfddua 65 11 coenzyme coenzyme NNS work_kkta46aprvda3kxuww62zfddua 65 12 M M NNP work_kkta46aprvda3kxuww62zfddua 65 13 methyl- methyl- NN work_kkta46aprvda3kxuww62zfddua 65 14 transferase transferase NN work_kkta46aprvda3kxuww62zfddua 65 15 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 65 16 Mtr Mtr NNP work_kkta46aprvda3kxuww62zfddua 65 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 65 18 and and CC work_kkta46aprvda3kxuww62zfddua 65 19 a a DT work_kkta46aprvda3kxuww62zfddua 65 20 proton proton NNP work_kkta46aprvda3kxuww62zfddua 65 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 65 22 motive motive NN work_kkta46aprvda3kxuww62zfddua 65 23 electron electron NNP work_kkta46aprvda3kxuww62zfddua 65 24 transport transport NN work_kkta46aprvda3kxuww62zfddua 65 25 chain chain NN work_kkta46aprvda3kxuww62zfddua 65 26 with with IN work_kkta46aprvda3kxuww62zfddua 65 27 cy- cy- NN work_kkta46aprvda3kxuww62zfddua 65 28 tochromes tochrome NNS work_kkta46aprvda3kxuww62zfddua 65 29 , , , work_kkta46aprvda3kxuww62zfddua 65 30 couple couple NN work_kkta46aprvda3kxuww62zfddua 65 31 methanogenesis methanogenesis NN work_kkta46aprvda3kxuww62zfddua 65 32 to to IN work_kkta46aprvda3kxuww62zfddua 65 33 a a DT work_kkta46aprvda3kxuww62zfddua 65 34 proton proton NNP work_kkta46aprvda3kxuww62zfddua 65 35 and and CC work_kkta46aprvda3kxuww62zfddua 65 36 a a DT work_kkta46aprvda3kxuww62zfddua 65 37 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 65 38 ion ion NN work_kkta46aprvda3kxuww62zfddua 65 39 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 65 40 at at IN work_kkta46aprvda3kxuww62zfddua 65 41 the the DT work_kkta46aprvda3kxuww62zfddua 65 42 same same JJ work_kkta46aprvda3kxuww62zfddua 65 43 time time NN work_kkta46aprvda3kxuww62zfddua 65 44 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 65 45 30 30 CD work_kkta46aprvda3kxuww62zfddua 65 46 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 65 47 . . . work_kkta46aprvda3kxuww62zfddua 66 1 3 3 LS work_kkta46aprvda3kxuww62zfddua 66 2 . . . work_kkta46aprvda3kxuww62zfddua 67 1 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 67 2 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 67 3 from from IN work_kkta46aprvda3kxuww62zfddua 67 4 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 67 5 Despite despite IN work_kkta46aprvda3kxuww62zfddua 67 6 all all PDT work_kkta46aprvda3kxuww62zfddua 67 7 the the DT work_kkta46aprvda3kxuww62zfddua 67 8 differences difference NNS work_kkta46aprvda3kxuww62zfddua 67 9 in in IN work_kkta46aprvda3kxuww62zfddua 67 10 how how WRB work_kkta46aprvda3kxuww62zfddua 67 11 the the DT work_kkta46aprvda3kxuww62zfddua 67 12 electrochemical electrochemical JJ work_kkta46aprvda3kxuww62zfddua 67 13 ion ion NN work_kkta46aprvda3kxuww62zfddua 67 14 potential potential NN work_kkta46aprvda3kxuww62zfddua 67 15 to to TO work_kkta46aprvda3kxuww62zfddua 67 16 drive drive VB work_kkta46aprvda3kxuww62zfddua 67 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 67 18 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 67 19 is be VBZ work_kkta46aprvda3kxuww62zfddua 67 20 generated generate VBN work_kkta46aprvda3kxuww62zfddua 67 21 , , , work_kkta46aprvda3kxuww62zfddua 67 22 all all DT work_kkta46aprvda3kxuww62zfddua 67 23 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 67 24 have have VBP work_kkta46aprvda3kxuww62zfddua 67 25 an an DT work_kkta46aprvda3kxuww62zfddua 67 26 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 67 27 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 67 28 . . . work_kkta46aprvda3kxuww62zfddua 68 1 The the DT work_kkta46aprvda3kxuww62zfddua 68 2 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 68 3 catalyzes catalyze VBZ work_kkta46aprvda3kxuww62zfddua 68 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 68 5 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 68 6 according accord VBG work_kkta46aprvda3kxuww62zfddua 68 7 to to IN work_kkta46aprvda3kxuww62zfddua 68 8 Eq Eq NNP work_kkta46aprvda3kxuww62zfddua 68 9 . . . work_kkta46aprvda3kxuww62zfddua 69 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 69 2 1 1 CD work_kkta46aprvda3kxuww62zfddua 69 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 69 4 , , , work_kkta46aprvda3kxuww62zfddua 69 5 at at IN work_kkta46aprvda3kxuww62zfddua 69 6 the the DT work_kkta46aprvda3kxuww62zfddua 69 7 expense expense NN work_kkta46aprvda3kxuww62zfddua 69 8 of of IN work_kkta46aprvda3kxuww62zfddua 69 9 the the DT work_kkta46aprvda3kxuww62zfddua 69 10 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 69 11 electrical electrical JJ work_kkta46aprvda3kxuww62zfddua 69 12 ion ion NN work_kkta46aprvda3kxuww62zfddua 69 13 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 69 14 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 69 15 31,32 31,32 CD work_kkta46aprvda3kxuww62zfddua 69 16 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 69 17 : : : work_kkta46aprvda3kxuww62zfddua 69 18 ADP ADP NNP work_kkta46aprvda3kxuww62zfddua 69 19 þ þ NNP work_kkta46aprvda3kxuww62zfddua 69 20 Pi Pi NNP work_kkta46aprvda3kxuww62zfddua 69 21 þ þ NN work_kkta46aprvda3kxuww62zfddua 69 22 n n NN work_kkta46aprvda3kxuww62zfddua 69 23 ionsout↔ATP ionsout↔ATP NNP work_kkta46aprvda3kxuww62zfddua 69 24 þ þ NNP work_kkta46aprvda3kxuww62zfddua 69 25 n n NN work_kkta46aprvda3kxuww62zfddua 69 26 ionsin ionsin NN work_kkta46aprvda3kxuww62zfddua 69 27 : : : work_kkta46aprvda3kxuww62zfddua 69 28 ð1Þ ð1þ XX work_kkta46aprvda3kxuww62zfddua 69 29 Since since IN work_kkta46aprvda3kxuww62zfddua 69 30 the the DT work_kkta46aprvda3kxuww62zfddua 69 31 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 69 32 of of IN work_kkta46aprvda3kxuww62zfddua 69 33 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 69 34 has have VBZ work_kkta46aprvda3kxuww62zfddua 69 35 such such PDT work_kkta46aprvda3kxuww62zfddua 69 36 a a DT work_kkta46aprvda3kxuww62zfddua 69 37 wide wide JJ work_kkta46aprvda3kxuww62zfddua 69 38 variety variety NN work_kkta46aprvda3kxuww62zfddua 69 39 of of IN work_kkta46aprvda3kxuww62zfddua 69 40 differ- differ- JJ work_kkta46aprvda3kxuww62zfddua 69 41 ent ent NN work_kkta46aprvda3kxuww62zfddua 69 42 mechanisms mechanism NNS work_kkta46aprvda3kxuww62zfddua 69 43 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 69 44 was be VBD work_kkta46aprvda3kxuww62zfddua 69 45 thought think VBN work_kkta46aprvda3kxuww62zfddua 69 46 that that IN work_kkta46aprvda3kxuww62zfddua 69 47 the the DT work_kkta46aprvda3kxuww62zfddua 69 48 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 69 49 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 69 50 of of IN work_kkta46aprvda3kxuww62zfddua 69 51 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 69 52 are be VBP work_kkta46aprvda3kxuww62zfddua 69 53 different different JJ work_kkta46aprvda3kxuww62zfddua 69 54 in in IN work_kkta46aprvda3kxuww62zfddua 69 55 different different JJ work_kkta46aprvda3kxuww62zfddua 69 56 tribes tribe NNS work_kkta46aprvda3kxuww62zfddua 69 57 ! ! . work_kkta46aprvda3kxuww62zfddua 70 1 The the DT work_kkta46aprvda3kxuww62zfddua 70 2 activity activity NN work_kkta46aprvda3kxuww62zfddua 70 3 of of IN work_kkta46aprvda3kxuww62zfddua 70 4 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 70 5 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 70 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 70 7 rather rather RB work_kkta46aprvda3kxuww62zfddua 70 8 easy easy JJ work_kkta46aprvda3kxuww62zfddua 70 9 to to TO work_kkta46aprvda3kxuww62zfddua 70 10 analyze analyze VB work_kkta46aprvda3kxuww62zfddua 70 11 . . . work_kkta46aprvda3kxuww62zfddua 71 1 ATP atp NN work_kkta46aprvda3kxuww62zfddua 71 2 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 71 3 can can MD work_kkta46aprvda3kxuww62zfddua 71 4 be be VB work_kkta46aprvda3kxuww62zfddua 71 5 measured measure VBN work_kkta46aprvda3kxuww62zfddua 71 6 by by IN work_kkta46aprvda3kxuww62zfddua 71 7 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 71 8 release release NN work_kkta46aprvda3kxuww62zfddua 71 9 from from IN work_kkta46aprvda3kxuww62zfddua 71 10 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 71 11 or or CC work_kkta46aprvda3kxuww62zfddua 71 12 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 71 13 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 71 14 can can MD work_kkta46aprvda3kxuww62zfddua 71 15 be be VB work_kkta46aprvda3kxuww62zfddua 71 16 studied study VBN work_kkta46aprvda3kxuww62zfddua 71 17 by by IN work_kkta46aprvda3kxuww62zfddua 71 18 artificial artificial JJ work_kkta46aprvda3kxuww62zfddua 71 19 pH pH NNP work_kkta46aprvda3kxuww62zfddua 71 20 jumps jump NNS work_kkta46aprvda3kxuww62zfddua 71 21 in in IN work_kkta46aprvda3kxuww62zfddua 71 22 whole whole JJ work_kkta46aprvda3kxuww62zfddua 71 23 cells cell NNS work_kkta46aprvda3kxuww62zfddua 71 24 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 71 25 33 33 CD work_kkta46aprvda3kxuww62zfddua 71 26 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 71 27 . . . work_kkta46aprvda3kxuww62zfddua 72 1 Thus thus RB work_kkta46aprvda3kxuww62zfddua 72 2 , , , work_kkta46aprvda3kxuww62zfddua 72 3 the the DT work_kkta46aprvda3kxuww62zfddua 72 4 presence presence NN work_kkta46aprvda3kxuww62zfddua 72 5 of of IN work_kkta46aprvda3kxuww62zfddua 72 6 the the DT work_kkta46aprvda3kxuww62zfddua 72 7 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 72 8 was be VBD work_kkta46aprvda3kxuww62zfddua 72 9 demonstrated demonstrate VBN work_kkta46aprvda3kxuww62zfddua 72 10 rather rather RB work_kkta46aprvda3kxuww62zfddua 72 11 early early RB work_kkta46aprvda3kxuww62zfddua 72 12 in in IN work_kkta46aprvda3kxuww62zfddua 72 13 time time NN work_kkta46aprvda3kxuww62zfddua 72 14 . . . work_kkta46aprvda3kxuww62zfddua 73 1 The the DT work_kkta46aprvda3kxuww62zfddua 73 2 nature nature NN work_kkta46aprvda3kxuww62zfddua 73 3 of of IN work_kkta46aprvda3kxuww62zfddua 73 4 the the DT work_kkta46aprvda3kxuww62zfddua 73 5 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 73 6 was be VBD work_kkta46aprvda3kxuww62zfddua 73 7 then then RB work_kkta46aprvda3kxuww62zfddua 73 8 addressed address VBN work_kkta46aprvda3kxuww62zfddua 73 9 by by IN work_kkta46aprvda3kxuww62zfddua 73 10 attempts attempt NNS work_kkta46aprvda3kxuww62zfddua 73 11 to to TO work_kkta46aprvda3kxuww62zfddua 73 12 purify purify VB work_kkta46aprvda3kxuww62zfddua 73 13 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 73 14 from from IN work_kkta46aprvda3kxuww62zfddua 73 15 different different JJ work_kkta46aprvda3kxuww62zfddua 73 16 sources source NNS work_kkta46aprvda3kxuww62zfddua 73 17 . . . work_kkta46aprvda3kxuww62zfddua 74 1 Interestingly interestingly RB work_kkta46aprvda3kxuww62zfddua 74 2 , , , work_kkta46aprvda3kxuww62zfddua 74 3 despite despite IN work_kkta46aprvda3kxuww62zfddua 74 4 all all PDT work_kkta46aprvda3kxuww62zfddua 74 5 the the DT work_kkta46aprvda3kxuww62zfddua 74 6 attempts attempt NNS work_kkta46aprvda3kxuww62zfddua 74 7 in in IN work_kkta46aprvda3kxuww62zfddua 74 8 the the DT work_kkta46aprvda3kxuww62zfddua 74 9 1970–1980s 1970–1980s CD work_kkta46aprvda3kxuww62zfddua 74 10 , , , work_kkta46aprvda3kxuww62zfddua 74 11 there there EX work_kkta46aprvda3kxuww62zfddua 74 12 was be VBD work_kkta46aprvda3kxuww62zfddua 74 13 no no DT work_kkta46aprvda3kxuww62zfddua 74 14 clear clear JJ work_kkta46aprvda3kxuww62zfddua 74 15 picture picture NN work_kkta46aprvda3kxuww62zfddua 74 16 on on IN work_kkta46aprvda3kxuww62zfddua 74 17 the the DT work_kkta46aprvda3kxuww62zfddua 74 18 subunit subunit JJ work_kkta46aprvda3kxuww62zfddua 74 19 composition composition NN work_kkta46aprvda3kxuww62zfddua 74 20 of of IN work_kkta46aprvda3kxuww62zfddua 74 21 the the DT work_kkta46aprvda3kxuww62zfddua 74 22 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 74 23 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 74 24 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 74 25 . . . work_kkta46aprvda3kxuww62zfddua 75 1 All all DT work_kkta46aprvda3kxuww62zfddua 75 2 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 75 3 prepara- prepara- JJ work_kkta46aprvda3kxuww62zfddua 75 4 tions tion NNS work_kkta46aprvda3kxuww62zfddua 75 5 varied vary VBN work_kkta46aprvda3kxuww62zfddua 75 6 in in IN work_kkta46aprvda3kxuww62zfddua 75 7 polypeptide polypeptide NN work_kkta46aprvda3kxuww62zfddua 75 8 compositions composition NNS work_kkta46aprvda3kxuww62zfddua 75 9 and and CC work_kkta46aprvda3kxuww62zfddua 75 10 the the DT work_kkta46aprvda3kxuww62zfddua 75 11 idea idea NN work_kkta46aprvda3kxuww62zfddua 75 12 arose arise VBD work_kkta46aprvda3kxuww62zfddua 75 13 , , , work_kkta46aprvda3kxuww62zfddua 75 14 that that IN work_kkta46aprvda3kxuww62zfddua 75 15 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 75 16 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 75 17 from from IN work_kkta46aprvda3kxuww62zfddua 75 18 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 75 19 differ differ NNP work_kkta46aprvda3kxuww62zfddua 75 20 in in IN work_kkta46aprvda3kxuww62zfddua 75 21 subunit subunit JJ work_kkta46aprvda3kxuww62zfddua 75 22 composition composition NN work_kkta46aprvda3kxuww62zfddua 75 23 and and CC work_kkta46aprvda3kxuww62zfddua 75 24 thus thus RB work_kkta46aprvda3kxuww62zfddua 75 25 in in IN work_kkta46aprvda3kxuww62zfddua 75 26 struc- struc- NNP work_kkta46aprvda3kxuww62zfddua 75 27 ture ture NN work_kkta46aprvda3kxuww62zfddua 75 28 and and CC work_kkta46aprvda3kxuww62zfddua 75 29 function function NN work_kkta46aprvda3kxuww62zfddua 75 30 . . . work_kkta46aprvda3kxuww62zfddua 76 1 Genes gene NNS work_kkta46aprvda3kxuww62zfddua 76 2 had have VBD work_kkta46aprvda3kxuww62zfddua 76 3 been be VBN work_kkta46aprvda3kxuww62zfddua 76 4 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 76 5 , , , work_kkta46aprvda3kxuww62zfddua 76 6 but but CC work_kkta46aprvda3kxuww62zfddua 76 7 only only RB work_kkta46aprvda3kxuww62zfddua 76 8 single single JJ work_kkta46aprvda3kxuww62zfddua 76 9 genes gene NNS work_kkta46aprvda3kxuww62zfddua 76 10 , , , work_kkta46aprvda3kxuww62zfddua 76 11 not not RB work_kkta46aprvda3kxuww62zfddua 76 12 the the DT work_kkta46aprvda3kxuww62zfddua 76 13 entire entire JJ work_kkta46aprvda3kxuww62zfddua 76 14 collection collection NN work_kkta46aprvda3kxuww62zfddua 76 15 that that WDT work_kkta46aprvda3kxuww62zfddua 76 16 encodes encode VBZ work_kkta46aprvda3kxuww62zfddua 76 17 the the DT work_kkta46aprvda3kxuww62zfddua 76 18 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 76 19 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 76 20 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 76 21 . . . work_kkta46aprvda3kxuww62zfddua 77 1 This this DT work_kkta46aprvda3kxuww62zfddua 77 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 77 3 due due JJ work_kkta46aprvda3kxuww62zfddua 77 4 to to IN work_kkta46aprvda3kxuww62zfddua 77 5 the the DT work_kkta46aprvda3kxuww62zfddua 77 6 fact fact NN work_kkta46aprvda3kxuww62zfddua 77 7 that that IN work_kkta46aprvda3kxuww62zfddua 77 8 genes gene NNS work_kkta46aprvda3kxuww62zfddua 77 9 had have VBD work_kkta46aprvda3kxuww62zfddua 77 10 been be VBN work_kkta46aprvda3kxuww62zfddua 77 11 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 77 12 from from IN work_kkta46aprvda3kxuww62zfddua 77 13 Crenachaeota Crenachaeota NNP work_kkta46aprvda3kxuww62zfddua 77 14 in in IN work_kkta46aprvda3kxuww62zfddua 77 15 which which WDT work_kkta46aprvda3kxuww62zfddua 77 16 , , , work_kkta46aprvda3kxuww62zfddua 77 17 as as IN work_kkta46aprvda3kxuww62zfddua 77 18 determined determine VBN work_kkta46aprvda3kxuww62zfddua 77 19 later later RB work_kkta46aprvda3kxuww62zfddua 77 20 by by IN work_kkta46aprvda3kxuww62zfddua 77 21 genome genome JJ work_kkta46aprvda3kxuww62zfddua 77 22 sequencing sequencing NN work_kkta46aprvda3kxuww62zfddua 77 23 , , , work_kkta46aprvda3kxuww62zfddua 77 24 the the DT work_kkta46aprvda3kxuww62zfddua 77 25 genes gene NNS work_kkta46aprvda3kxuww62zfddua 77 26 are be VBP work_kkta46aprvda3kxuww62zfddua 77 27 spread spread VBN work_kkta46aprvda3kxuww62zfddua 77 28 over over IN work_kkta46aprvda3kxuww62zfddua 77 29 the the DT work_kkta46aprvda3kxuww62zfddua 77 30 genome genome JJ work_kkta46aprvda3kxuww62zfddua 77 31 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 77 32 34 34 CD work_kkta46aprvda3kxuww62zfddua 77 33 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 77 34 . . . work_kkta46aprvda3kxuww62zfddua 78 1 In in IN work_kkta46aprvda3kxuww62zfddua 78 2 contrast contrast NN work_kkta46aprvda3kxuww62zfddua 78 3 , , , work_kkta46aprvda3kxuww62zfddua 78 4 the the DT work_kkta46aprvda3kxuww62zfddua 78 5 euryarchaeon euryarchaeon NN work_kkta46aprvda3kxuww62zfddua 78 6 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 78 7 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 78 8 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 78 9 contained contain VBD work_kkta46aprvda3kxuww62zfddua 78 10 all all DT work_kkta46aprvda3kxuww62zfddua 78 11 genes gene NNS work_kkta46aprvda3kxuww62zfddua 78 12 in in IN work_kkta46aprvda3kxuww62zfddua 78 13 a a DT work_kkta46aprvda3kxuww62zfddua 78 14 cluster cluster NN work_kkta46aprvda3kxuww62zfddua 78 15 , , , work_kkta46aprvda3kxuww62zfddua 78 16 actually actually RB work_kkta46aprvda3kxuww62zfddua 78 17 in in IN work_kkta46aprvda3kxuww62zfddua 78 18 an an DT work_kkta46aprvda3kxuww62zfddua 78 19 operon operon NN work_kkta46aprvda3kxuww62zfddua 78 20 , , , work_kkta46aprvda3kxuww62zfddua 78 21 and and CC work_kkta46aprvda3kxuww62zfddua 78 22 this this DT work_kkta46aprvda3kxuww62zfddua 78 23 allowed allow VBN work_kkta46aprvda3kxuww62zfddua 78 24 for for IN work_kkta46aprvda3kxuww62zfddua 78 25 the the DT work_kkta46aprvda3kxuww62zfddua 78 26 first first JJ work_kkta46aprvda3kxuww62zfddua 78 27 time time NN work_kkta46aprvda3kxuww62zfddua 78 28 a a DT work_kkta46aprvda3kxuww62zfddua 78 29 proposal proposal NN work_kkta46aprvda3kxuww62zfddua 78 30 on on IN work_kkta46aprvda3kxuww62zfddua 78 31 the the DT work_kkta46aprvda3kxuww62zfddua 78 32 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 78 33 composition composition NN work_kkta46aprvda3kxuww62zfddua 78 34 and and CC work_kkta46aprvda3kxuww62zfddua 78 35 topology topology NN work_kkta46aprvda3kxuww62zfddua 78 36 in in IN work_kkta46aprvda3kxuww62zfddua 78 37 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 78 38 ATP atp NN work_kkta46aprvda3kxuww62zfddua 78 39 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 78 40 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 78 41 35 35 CD work_kkta46aprvda3kxuww62zfddua 78 42 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 78 43 . . . work_kkta46aprvda3kxuww62zfddua 79 1 These these DT work_kkta46aprvda3kxuww62zfddua 79 2 data datum NNS work_kkta46aprvda3kxuww62zfddua 79 3 indicate indicate VBP work_kkta46aprvda3kxuww62zfddua 79 4 that that IN work_kkta46aprvda3kxuww62zfddua 79 5 the the DT work_kkta46aprvda3kxuww62zfddua 79 6 en- en- XX work_kkta46aprvda3kxuww62zfddua 79 7 zyme zyme NNS work_kkta46aprvda3kxuww62zfddua 79 8 contains contain VBZ work_kkta46aprvda3kxuww62zfddua 79 9 at at IN work_kkta46aprvda3kxuww62zfddua 79 10 least least JJS work_kkta46aprvda3kxuww62zfddua 79 11 nine nine CD work_kkta46aprvda3kxuww62zfddua 79 12 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 79 13 . . . work_kkta46aprvda3kxuww62zfddua 80 1 This this DT work_kkta46aprvda3kxuww62zfddua 80 2 was be VBD work_kkta46aprvda3kxuww62zfddua 80 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 80 4 much much RB work_kkta46aprvda3kxuww62zfddua 80 5 later later RB work_kkta46aprvda3kxuww62zfddua 80 6 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 80 7 confirmed confirm VBD work_kkta46aprvda3kxuww62zfddua 80 8 after after IN work_kkta46aprvda3kxuww62zfddua 80 9 the the DT work_kkta46aprvda3kxuww62zfddua 80 10 first first JJ work_kkta46aprvda3kxuww62zfddua 80 11 “ " `` work_kkta46aprvda3kxuww62zfddua 80 12 complete complete JJ work_kkta46aprvda3kxuww62zfddua 80 13 ” " '' work_kkta46aprvda3kxuww62zfddua 80 14 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 80 15 had have VBD work_kkta46aprvda3kxuww62zfddua 80 16 been be VBN work_kkta46aprvda3kxuww62zfddua 80 17 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 80 18 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 80 19 36 36 CD work_kkta46aprvda3kxuww62zfddua 80 20 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 80 21 . . . work_kkta46aprvda3kxuww62zfddua 81 1 Early early JJ work_kkta46aprvda3kxuww62zfddua 81 2 electron electron NNP work_kkta46aprvda3kxuww62zfddua 81 3 micrographs micrograph NNS work_kkta46aprvda3kxuww62zfddua 81 4 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 81 5 that that IN work_kkta46aprvda3kxuww62zfddua 81 6 the the DT work_kkta46aprvda3kxuww62zfddua 81 7 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 81 8 ATP atp NN work_kkta46aprvda3kxuww62zfddua 81 9 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 81 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 81 11 , , , work_kkta46aprvda3kxuww62zfddua 81 12 like like IN work_kkta46aprvda3kxuww62zfddua 81 13 the the DT work_kkta46aprvda3kxuww62zfddua 81 14 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 81 15 ATP atp NN work_kkta46aprvda3kxuww62zfddua 81 16 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 81 17 and and CC work_kkta46aprvda3kxuww62zfddua 81 18 the the DT work_kkta46aprvda3kxuww62zfddua 81 19 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 81 20 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 81 21 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 81 22 , , , work_kkta46aprvda3kxuww62zfddua 81 23 organized organize VBN work_kkta46aprvda3kxuww62zfddua 81 24 in in IN work_kkta46aprvda3kxuww62zfddua 81 25 two two CD work_kkta46aprvda3kxuww62zfddua 81 26 domains domain NNS work_kkta46aprvda3kxuww62zfddua 81 27 that that WDT work_kkta46aprvda3kxuww62zfddua 81 28 are be VBP work_kkta46aprvda3kxuww62zfddua 81 29 connected connect VBN work_kkta46aprvda3kxuww62zfddua 81 30 by by IN work_kkta46aprvda3kxuww62zfddua 81 31 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 81 32 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 81 33 35 35 CD work_kkta46aprvda3kxuww62zfddua 81 34 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 81 35 . . . work_kkta46aprvda3kxuww62zfddua 82 1 At at IN work_kkta46aprvda3kxuww62zfddua 82 2 the the DT work_kkta46aprvda3kxuww62zfddua 82 3 time time NN work_kkta46aprvda3kxuww62zfddua 82 4 of of IN work_kkta46aprvda3kxuww62zfddua 82 5 discovery discovery NN work_kkta46aprvda3kxuww62zfddua 82 6 of of IN work_kkta46aprvda3kxuww62zfddua 82 7 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 82 8 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 82 9 synthases synthase VBZ work_kkta46aprvda3kxuww62zfddua 82 10 two two CD work_kkta46aprvda3kxuww62zfddua 82 11 classes class NNS work_kkta46aprvda3kxuww62zfddua 82 12 of of IN work_kkta46aprvda3kxuww62zfddua 82 13 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 82 14 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 82 15 / / SYM work_kkta46aprvda3kxuww62zfddua 82 16 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 82 17 were be VBD work_kkta46aprvda3kxuww62zfddua 82 18 known know VBN work_kkta46aprvda3kxuww62zfddua 82 19 . . . work_kkta46aprvda3kxuww62zfddua 83 1 The the DT work_kkta46aprvda3kxuww62zfddua 83 2 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 83 3 ATP atp NN work_kkta46aprvda3kxuww62zfddua 83 4 synthases synthase VBZ work_kkta46aprvda3kxuww62zfddua 83 5 present present JJ work_kkta46aprvda3kxuww62zfddua 83 6 in in IN work_kkta46aprvda3kxuww62zfddua 83 7 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 83 8 , , , work_kkta46aprvda3kxuww62zfddua 83 9 mitochondria mitochondrion NNS work_kkta46aprvda3kxuww62zfddua 83 10 and and CC work_kkta46aprvda3kxuww62zfddua 83 11 chloroplasts chloroplast NNS work_kkta46aprvda3kxuww62zfddua 83 12 were be VBD work_kkta46aprvda3kxuww62zfddua 83 13 evolved evolve VBN work_kkta46aprvda3kxuww62zfddua 83 14 to to TO work_kkta46aprvda3kxuww62zfddua 83 15 synthesize synthesize VB work_kkta46aprvda3kxuww62zfddua 83 16 ATP atp NN work_kkta46aprvda3kxuww62zfddua 83 17 . . . work_kkta46aprvda3kxuww62zfddua 84 1 On on IN work_kkta46aprvda3kxuww62zfddua 84 2 the the DT work_kkta46aprvda3kxuww62zfddua 84 3 other other JJ work_kkta46aprvda3kxuww62zfddua 84 4 hand hand NN work_kkta46aprvda3kxuww62zfddua 84 5 , , , work_kkta46aprvda3kxuww62zfddua 84 6 organelles organelle NNS work_kkta46aprvda3kxuww62zfddua 84 7 of of IN work_kkta46aprvda3kxuww62zfddua 84 8 eukaryotes eukaryote NNS work_kkta46aprvda3kxuww62zfddua 84 9 need need VBP work_kkta46aprvda3kxuww62zfddua 84 10 to to TO work_kkta46aprvda3kxuww62zfddua 84 11 be be VB work_kkta46aprvda3kxuww62zfddua 84 12 energized energize VBN work_kkta46aprvda3kxuww62zfddua 84 13 to to TO work_kkta46aprvda3kxuww62zfddua 84 14 drive drive VB work_kkta46aprvda3kxuww62zfddua 84 15 , , , work_kkta46aprvda3kxuww62zfddua 84 16 for for IN work_kkta46aprvda3kxuww62zfddua 84 17 example example NN work_kkta46aprvda3kxuww62zfddua 84 18 , , , work_kkta46aprvda3kxuww62zfddua 84 19 transport transport NN work_kkta46aprvda3kxuww62zfddua 84 20 processes process NNS work_kkta46aprvda3kxuww62zfddua 84 21 . . . work_kkta46aprvda3kxuww62zfddua 85 1 Since since IN work_kkta46aprvda3kxuww62zfddua 85 2 electron electron NN work_kkta46aprvda3kxuww62zfddua 85 3 transport transport NN work_kkta46aprvda3kxuww62zfddua 85 4 machineries machinery NNS work_kkta46aprvda3kxuww62zfddua 85 5 are be VBP work_kkta46aprvda3kxuww62zfddua 85 6 only only RB work_kkta46aprvda3kxuww62zfddua 85 7 found find VBN work_kkta46aprvda3kxuww62zfddua 85 8 in in IN work_kkta46aprvda3kxuww62zfddua 85 9 mitochondria mitochondrion NNS work_kkta46aprvda3kxuww62zfddua 85 10 or or CC work_kkta46aprvda3kxuww62zfddua 85 11 chloroplasts chloroplast NNS work_kkta46aprvda3kxuww62zfddua 85 12 , , , work_kkta46aprvda3kxuww62zfddua 85 13 the the DT work_kkta46aprvda3kxuww62zfddua 85 14 other other JJ work_kkta46aprvda3kxuww62zfddua 85 15 organelles organelle NNS work_kkta46aprvda3kxuww62zfddua 85 16 are be VBP work_kkta46aprvda3kxuww62zfddua 85 17 energized energize VBN work_kkta46aprvda3kxuww62zfddua 85 18 by by IN work_kkta46aprvda3kxuww62zfddua 85 19 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 85 20 that that WDT work_kkta46aprvda3kxuww62zfddua 85 21 is be VBZ work_kkta46aprvda3kxuww62zfddua 85 22 hydrolyzed hydrolyze VBN work_kkta46aprvda3kxuww62zfddua 85 23 according accord VBG work_kkta46aprvda3kxuww62zfddua 85 24 to to IN work_kkta46aprvda3kxuww62zfddua 85 25 Eq Eq NNP work_kkta46aprvda3kxuww62zfddua 85 26 . . . work_kkta46aprvda3kxuww62zfddua 86 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 86 2 1 1 CD work_kkta46aprvda3kxuww62zfddua 86 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 86 4 . . . work_kkta46aprvda3kxuww62zfddua 87 1 The the DT work_kkta46aprvda3kxuww62zfddua 87 2 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 87 3 that that WDT work_kkta46aprvda3kxuww62zfddua 87 4 catalyzes catalyze VBZ work_kkta46aprvda3kxuww62zfddua 87 5 this this DT work_kkta46aprvda3kxuww62zfddua 87 6 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 87 7 was be VBD work_kkta46aprvda3kxuww62zfddua 87 8 purified purify VBN work_kkta46aprvda3kxuww62zfddua 87 9 from from IN work_kkta46aprvda3kxuww62zfddua 87 10 those those DT work_kkta46aprvda3kxuww62zfddua 87 11 organelles organelle NNS work_kkta46aprvda3kxuww62zfddua 87 12 and and CC work_kkta46aprvda3kxuww62zfddua 87 13 shown show VBN work_kkta46aprvda3kxuww62zfddua 87 14 to to TO work_kkta46aprvda3kxuww62zfddua 87 15 have have VB work_kkta46aprvda3kxuww62zfddua 87 16 the the DT work_kkta46aprvda3kxuww62zfddua 87 17 same same JJ work_kkta46aprvda3kxuww62zfddua 87 18 overall overall JJ work_kkta46aprvda3kxuww62zfddua 87 19 domain domain NN work_kkta46aprvda3kxuww62zfddua 87 20 topology topology NN work_kkta46aprvda3kxuww62zfddua 87 21 , , , work_kkta46aprvda3kxuww62zfddua 87 22 with with IN work_kkta46aprvda3kxuww62zfddua 87 23 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 87 24 domain domain NN work_kkta46aprvda3kxuww62zfddua 87 25 and and CC work_kkta46aprvda3kxuww62zfddua 87 26 a a DT work_kkta46aprvda3kxuww62zfddua 87 27 cytoplasmic cytoplasmic JJ work_kkta46aprvda3kxuww62zfddua 87 28 domain domain NN work_kkta46aprvda3kxuww62zfddua 87 29 that that WDT work_kkta46aprvda3kxuww62zfddua 87 30 are be VBP work_kkta46aprvda3kxuww62zfddua 87 31 connected connect VBN work_kkta46aprvda3kxuww62zfddua 87 32 by by IN work_kkta46aprvda3kxuww62zfddua 87 33 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 87 34 . . . work_kkta46aprvda3kxuww62zfddua 88 1 Some some DT work_kkta46aprvda3kxuww62zfddua 88 2 of of IN work_kkta46aprvda3kxuww62zfddua 88 3 the the DT work_kkta46aprvda3kxuww62zfddua 88 4 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 88 5 of of IN work_kkta46aprvda3kxuww62zfddua 88 6 the the DT work_kkta46aprvda3kxuww62zfddua 88 7 globular globular JJ work_kkta46aprvda3kxuww62zfddua 88 8 cytoplasmic cytoplasmic JJ work_kkta46aprvda3kxuww62zfddua 88 9 domain domain NN work_kkta46aprvda3kxuww62zfddua 88 10 of of IN work_kkta46aprvda3kxuww62zfddua 88 11 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 88 12 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 88 13 and and CC work_kkta46aprvda3kxuww62zfddua 88 14 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 88 15 ATP atp NN work_kkta46aprvda3kxuww62zfddua 88 16 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 88 17 like like IN work_kkta46aprvda3kxuww62zfddua 88 18 α α NN work_kkta46aprvda3kxuww62zfddua 88 19 / / SYM work_kkta46aprvda3kxuww62zfddua 88 20 B b NN work_kkta46aprvda3kxuww62zfddua 88 21 or or CC work_kkta46aprvda3kxuww62zfddua 88 22 β β NNP work_kkta46aprvda3kxuww62zfddua 88 23 / / SYM work_kkta46aprvda3kxuww62zfddua 88 24 A a DT work_kkta46aprvda3kxuww62zfddua 88 25 shared share VBD work_kkta46aprvda3kxuww62zfddua 88 26 a a DT work_kkta46aprvda3kxuww62zfddua 88 27 consider- consider- NN work_kkta46aprvda3kxuww62zfddua 88 28 able able JJ work_kkta46aprvda3kxuww62zfddua 88 29 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 88 30 identity identity NN work_kkta46aprvda3kxuww62zfddua 88 31 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 88 32 20–30 20–30 CD work_kkta46aprvda3kxuww62zfddua 88 33 % % NN work_kkta46aprvda3kxuww62zfddua 88 34 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 88 35 , , , work_kkta46aprvda3kxuww62zfddua 88 36 whereas whereas IN work_kkta46aprvda3kxuww62zfddua 88 37 other other JJ work_kkta46aprvda3kxuww62zfddua 88 38 smaller small JJR work_kkta46aprvda3kxuww62zfddua 88 39 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 88 40 did do VBD work_kkta46aprvda3kxuww62zfddua 88 41 not not RB work_kkta46aprvda3kxuww62zfddua 88 42 . . . work_kkta46aprvda3kxuww62zfddua 89 1 Therefore therefore RB work_kkta46aprvda3kxuww62zfddua 89 2 , , , work_kkta46aprvda3kxuww62zfddua 89 3 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 89 4 was be VBD work_kkta46aprvda3kxuww62zfddua 89 5 concluded conclude VBN work_kkta46aprvda3kxuww62zfddua 89 6 that that IN work_kkta46aprvda3kxuww62zfddua 89 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 89 8 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 89 9 / / SYM work_kkta46aprvda3kxuww62zfddua 89 10 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 89 11 arose arise VBD work_kkta46aprvda3kxuww62zfddua 89 12 from from IN work_kkta46aprvda3kxuww62zfddua 89 13 a a DT work_kkta46aprvda3kxuww62zfddua 89 14 common common JJ work_kkta46aprvda3kxuww62zfddua 89 15 ancestor ancestor NN work_kkta46aprvda3kxuww62zfddua 89 16 but but CC work_kkta46aprvda3kxuww62zfddua 89 17 evolved evolve VBD work_kkta46aprvda3kxuww62zfddua 89 18 into into IN work_kkta46aprvda3kxuww62zfddua 89 19 different different JJ work_kkta46aprvda3kxuww62zfddua 89 20 classes class NNS work_kkta46aprvda3kxuww62zfddua 89 21 with with IN work_kkta46aprvda3kxuww62zfddua 89 22 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 89 23 function function NN work_kkta46aprvda3kxuww62zfddua 89 24 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 89 25 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 89 26 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 89 27 vs. vs. IN work_kkta46aprvda3kxuww62zfddua 89 28 ATP atp NN work_kkta46aprvda3kxuww62zfddua 89 29 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 89 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 89 31 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 89 32 32,37–40 32,37–40 CD work_kkta46aprvda3kxuww62zfddua 89 33 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 89 34 . . . work_kkta46aprvda3kxuww62zfddua 90 1 Since since IN work_kkta46aprvda3kxuww62zfddua 90 2 the the DT work_kkta46aprvda3kxuww62zfddua 90 3 first first JJ work_kkta46aprvda3kxuww62zfddua 90 4 organellar organellar JJ work_kkta46aprvda3kxuww62zfddua 90 5 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 90 6 were be VBD work_kkta46aprvda3kxuww62zfddua 90 7 purified purify VBN work_kkta46aprvda3kxuww62zfddua 90 8 from from IN work_kkta46aprvda3kxuww62zfddua 90 9 vacuoles vacuole NNS work_kkta46aprvda3kxuww62zfddua 90 10 , , , work_kkta46aprvda3kxuww62zfddua 90 11 this this DT work_kkta46aprvda3kxuww62zfddua 90 12 class class NN work_kkta46aprvda3kxuww62zfddua 90 13 of of IN work_kkta46aprvda3kxuww62zfddua 90 14 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 90 15 is be VBZ work_kkta46aprvda3kxuww62zfddua 90 16 now now RB work_kkta46aprvda3kxuww62zfddua 90 17 referred refer VBN work_kkta46aprvda3kxuww62zfddua 90 18 to to IN work_kkta46aprvda3kxuww62zfddua 90 19 as as RB work_kkta46aprvda3kxuww62zfddua 90 20 vacuolar vacuolar JJ work_kkta46aprvda3kxuww62zfddua 90 21 V1VO v1vo NN work_kkta46aprvda3kxuww62zfddua 90 22 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 90 23 . . . work_kkta46aprvda3kxuww62zfddua 91 1 It -PRON- PRP work_kkta46aprvda3kxuww62zfddua 91 2 should should MD work_kkta46aprvda3kxuww62zfddua 91 3 be be VB work_kkta46aprvda3kxuww62zfddua 91 4 pointed point VBN work_kkta46aprvda3kxuww62zfddua 91 5 out out RP work_kkta46aprvda3kxuww62zfddua 91 6 that that IN work_kkta46aprvda3kxuww62zfddua 91 7 eukaryotes eukaryote NNS work_kkta46aprvda3kxuww62zfddua 91 8 thus thus RB work_kkta46aprvda3kxuww62zfddua 91 9 have have VBP work_kkta46aprvda3kxuww62zfddua 91 10 two two CD work_kkta46aprvda3kxuww62zfddua 91 11 different different JJ work_kkta46aprvda3kxuww62zfddua 91 12 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 91 13 / / SYM work_kkta46aprvda3kxuww62zfddua 91 14 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 91 15 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 91 16 : : : work_kkta46aprvda3kxuww62zfddua 91 17 a a DT work_kkta46aprvda3kxuww62zfddua 91 18 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 91 19 ATP atp NN work_kkta46aprvda3kxuww62zfddua 91 20 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 91 21 in in IN work_kkta46aprvda3kxuww62zfddua 91 22 mitochondria mitochondrion NNS work_kkta46aprvda3kxuww62zfddua 91 23 and and CC work_kkta46aprvda3kxuww62zfddua 91 24 chloroplasts chloroplast NNS work_kkta46aprvda3kxuww62zfddua 91 25 and and CC work_kkta46aprvda3kxuww62zfddua 91 26 a a DT work_kkta46aprvda3kxuww62zfddua 91 27 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 91 28 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 91 29 in in IN work_kkta46aprvda3kxuww62zfddua 91 30 other other JJ work_kkta46aprvda3kxuww62zfddua 91 31 organelles organelle NNS work_kkta46aprvda3kxuww62zfddua 91 32 . . . work_kkta46aprvda3kxuww62zfddua 92 1 For for IN work_kkta46aprvda3kxuww62zfddua 92 2 a a DT work_kkta46aprvda3kxuww62zfddua 92 3 long long JJ work_kkta46aprvda3kxuww62zfddua 92 4 time time NN work_kkta46aprvda3kxuww62zfddua 92 5 , , , work_kkta46aprvda3kxuww62zfddua 92 6 there there EX work_kkta46aprvda3kxuww62zfddua 92 7 was be VBD work_kkta46aprvda3kxuww62zfddua 92 8 a a DT work_kkta46aprvda3kxuww62zfddua 92 9 clear clear JJ work_kkta46aprvda3kxuww62zfddua 92 10 view view NN work_kkta46aprvda3kxuww62zfddua 92 11 on on IN work_kkta46aprvda3kxuww62zfddua 92 12 the the DT work_kkta46aprvda3kxuww62zfddua 92 13 “ " `` work_kkta46aprvda3kxuww62zfddua 92 14 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 92 15 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 92 16 / / SYM work_kkta46aprvda3kxuww62zfddua 92 17 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 92 18 world world NN work_kkta46aprvda3kxuww62zfddua 92 19 ” " '' work_kkta46aprvda3kxuww62zfddua 92 20 that that WDT work_kkta46aprvda3kxuww62zfddua 92 21 had have VBD work_kkta46aprvda3kxuww62zfddua 92 22 two two CD work_kkta46aprvda3kxuww62zfddua 92 23 “ " `` work_kkta46aprvda3kxuww62zfddua 92 24 continents continent NNS work_kkta46aprvda3kxuww62zfddua 92 25 ” " '' work_kkta46aprvda3kxuww62zfddua 92 26 , , , work_kkta46aprvda3kxuww62zfddua 92 27 the the DT work_kkta46aprvda3kxuww62zfddua 92 28 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 92 29 ATP atp NN work_kkta46aprvda3kxuww62zfddua 92 30 syn- syn- NN work_kkta46aprvda3kxuww62zfddua 92 31 thase thase NN work_kkta46aprvda3kxuww62zfddua 92 32 and and CC work_kkta46aprvda3kxuww62zfddua 92 33 the the DT work_kkta46aprvda3kxuww62zfddua 92 34 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 92 35 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 92 36 . . . work_kkta46aprvda3kxuww62zfddua 93 1 942 942 CD work_kkta46aprvda3kxuww62zfddua 93 2 G. G. NNP work_kkta46aprvda3kxuww62zfddua 93 3 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 93 4 et et FW work_kkta46aprvda3kxuww62zfddua 93 5 al al NNP work_kkta46aprvda3kxuww62zfddua 93 6 . . . work_kkta46aprvda3kxuww62zfddua 94 1 / / NFP work_kkta46aprvda3kxuww62zfddua 94 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 94 3 et et NN work_kkta46aprvda3kxuww62zfddua 94 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 94 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 94 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 94 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 94 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 94 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 94 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 94 11 After after IN work_kkta46aprvda3kxuww62zfddua 94 12 the the DT work_kkta46aprvda3kxuww62zfddua 94 13 first first JJ work_kkta46aprvda3kxuww62zfddua 94 14 biochemical biochemical JJ work_kkta46aprvda3kxuww62zfddua 94 15 , , , work_kkta46aprvda3kxuww62zfddua 94 16 immunological immunological JJ work_kkta46aprvda3kxuww62zfddua 94 17 and and CC work_kkta46aprvda3kxuww62zfddua 94 18 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 94 19 studies study NNS work_kkta46aprvda3kxuww62zfddua 94 20 re- re- JJ work_kkta46aprvda3kxuww62zfddua 94 21 searchers searcher NNS work_kkta46aprvda3kxuww62zfddua 94 22 were be VBD work_kkta46aprvda3kxuww62zfddua 94 23 puzzled puzzle VBN work_kkta46aprvda3kxuww62zfddua 94 24 to to TO work_kkta46aprvda3kxuww62zfddua 94 25 group group VB work_kkta46aprvda3kxuww62zfddua 94 26 the the DT work_kkta46aprvda3kxuww62zfddua 94 27 archaeal archaeal NN work_kkta46aprvda3kxuww62zfddua 94 28 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 94 29 . . . work_kkta46aprvda3kxuww62zfddua 95 1 They -PRON- PRP work_kkta46aprvda3kxuww62zfddua 95 2 apparently apparently RB work_kkta46aprvda3kxuww62zfddua 95 3 had have VBD work_kkta46aprvda3kxuww62zfddua 95 4 properties property NNS work_kkta46aprvda3kxuww62zfddua 95 5 of of IN work_kkta46aprvda3kxuww62zfddua 95 6 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 95 7 from from IN work_kkta46aprvda3kxuww62zfddua 95 8 both both DT work_kkta46aprvda3kxuww62zfddua 95 9 classes class NNS work_kkta46aprvda3kxuww62zfddua 95 10 . . . work_kkta46aprvda3kxuww62zfddua 96 1 Sequence sequence NN work_kkta46aprvda3kxuww62zfddua 96 2 analysis analysis NN work_kkta46aprvda3kxuww62zfddua 96 3 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 96 4 a a DT work_kkta46aprvda3kxuww62zfddua 96 5 close close JJ work_kkta46aprvda3kxuww62zfddua 96 6 relationship relationship NN work_kkta46aprvda3kxuww62zfddua 96 7 of of IN work_kkta46aprvda3kxuww62zfddua 96 8 the the DT work_kkta46aprvda3kxuww62zfddua 96 9 A a NN work_kkta46aprvda3kxuww62zfddua 96 10 and and CC work_kkta46aprvda3kxuww62zfddua 96 11 B b NN work_kkta46aprvda3kxuww62zfddua 96 12 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 96 13 to to IN work_kkta46aprvda3kxuww62zfddua 96 14 A a NN work_kkta46aprvda3kxuww62zfddua 96 15 and and CC work_kkta46aprvda3kxuww62zfddua 96 16 B b NN work_kkta46aprvda3kxuww62zfddua 96 17 of of IN work_kkta46aprvda3kxuww62zfddua 96 18 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 96 19 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 96 20 , , , work_kkta46aprvda3kxuww62zfddua 96 21 respectively respectively RB work_kkta46aprvda3kxuww62zfddua 96 22 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 96 23 41 41 CD work_kkta46aprvda3kxuww62zfddua 96 24 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 96 25 . . . work_kkta46aprvda3kxuww62zfddua 97 1 Since since IN work_kkta46aprvda3kxuww62zfddua 97 2 the the DT work_kkta46aprvda3kxuww62zfddua 97 3 primary primary JJ work_kkta46aprvda3kxuww62zfddua 97 4 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 97 5 identity identity NN work_kkta46aprvda3kxuww62zfddua 97 6 of of IN work_kkta46aprvda3kxuww62zfddua 97 7 A a NN work_kkta46aprvda3kxuww62zfddua 97 8 and and CC work_kkta46aprvda3kxuww62zfddua 97 9 B b NN work_kkta46aprvda3kxuww62zfddua 97 10 was be VBD work_kkta46aprvda3kxuww62zfddua 97 11 higher high JJR work_kkta46aprvda3kxuww62zfddua 97 12 to to IN work_kkta46aprvda3kxuww62zfddua 97 13 A a NN work_kkta46aprvda3kxuww62zfddua 97 14 and and CC work_kkta46aprvda3kxuww62zfddua 97 15 B b NN work_kkta46aprvda3kxuww62zfddua 97 16 from from IN work_kkta46aprvda3kxuww62zfddua 97 17 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 97 18 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 97 19 than than IN work_kkta46aprvda3kxuww62zfddua 97 20 β#α β#α IN work_kkta46aprvda3kxuww62zfddua 97 21 from from IN work_kkta46aprvda3kxuww62zfddua 97 22 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 97 23 ATP atp NN work_kkta46aprvda3kxuww62zfddua 97 24 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 97 25 , , , work_kkta46aprvda3kxuww62zfddua 97 26 the the DT work_kkta46aprvda3kxuww62zfddua 97 27 archaeal archaeal NN work_kkta46aprvda3kxuww62zfddua 97 28 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 97 29 was be VBD work_kkta46aprvda3kxuww62zfddua 97 30 named name VBN work_kkta46aprvda3kxuww62zfddua 97 31 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 97 32 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 97 33 and and CC work_kkta46aprvda3kxuww62zfddua 97 34 genes gene NNS work_kkta46aprvda3kxuww62zfddua 97 35 were be VBD work_kkta46aprvda3kxuww62zfddua 97 36 annotated annotate VBN work_kkta46aprvda3kxuww62zfddua 97 37 as as IN work_kkta46aprvda3kxuww62zfddua 97 38 genes gene NNS work_kkta46aprvda3kxuww62zfddua 97 39 encoding encode VBG work_kkta46aprvda3kxuww62zfddua 97 40 V1VO v1vo NN work_kkta46aprvda3kxuww62zfddua 97 41 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 97 42 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 97 43 . . . work_kkta46aprvda3kxuww62zfddua 98 1 However however RB work_kkta46aprvda3kxuww62zfddua 98 2 , , , work_kkta46aprvda3kxuww62zfddua 98 3 already already RB work_kkta46aprvda3kxuww62zfddua 98 4 at at IN work_kkta46aprvda3kxuww62zfddua 98 5 that that DT work_kkta46aprvda3kxuww62zfddua 98 6 time time NN work_kkta46aprvda3kxuww62zfddua 98 7 , , , work_kkta46aprvda3kxuww62zfddua 98 8 Mukohata Mukohata NNP work_kkta46aprvda3kxuww62zfddua 98 9 and and CC work_kkta46aprvda3kxuww62zfddua 98 10 Schäfer schäfer VB work_kkta46aprvda3kxuww62zfddua 98 11 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 98 12 42,43 42,43 CD work_kkta46aprvda3kxuww62zfddua 98 13 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 98 14 argued argue VBD work_kkta46aprvda3kxuww62zfddua 98 15 that that IN work_kkta46aprvda3kxuww62zfddua 98 16 , , , work_kkta46aprvda3kxuww62zfddua 98 17 although although IN work_kkta46aprvda3kxuww62zfddua 98 18 the the DT work_kkta46aprvda3kxuww62zfddua 98 19 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 98 20 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 98 21 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 98 22 shares share NNS work_kkta46aprvda3kxuww62zfddua 98 23 features feature VBZ work_kkta46aprvda3kxuww62zfddua 98 24 with with IN work_kkta46aprvda3kxuww62zfddua 98 25 both both DT work_kkta46aprvda3kxuww62zfddua 98 26 , , , work_kkta46aprvda3kxuww62zfddua 98 27 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 98 28 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 98 29 and and CC work_kkta46aprvda3kxuww62zfddua 98 30 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 98 31 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 98 32 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 98 33 the the DT work_kkta46aprvda3kxuww62zfddua 98 34 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 98 35 is be VBZ work_kkta46aprvda3kxuww62zfddua 98 36 so so RB work_kkta46aprvda3kxuww62zfddua 98 37 different different JJ work_kkta46aprvda3kxuww62zfddua 98 38 from from IN work_kkta46aprvda3kxuww62zfddua 98 39 the the DT work_kkta46aprvda3kxuww62zfddua 98 40 other other JJ work_kkta46aprvda3kxuww62zfddua 98 41 two two CD work_kkta46aprvda3kxuww62zfddua 98 42 groups group NNS work_kkta46aprvda3kxuww62zfddua 98 43 , , , work_kkta46aprvda3kxuww62zfddua 98 44 that that IN work_kkta46aprvda3kxuww62zfddua 98 45 they -PRON- PRP work_kkta46aprvda3kxuww62zfddua 98 46 should should MD work_kkta46aprvda3kxuww62zfddua 98 47 be be VB work_kkta46aprvda3kxuww62zfddua 98 48 grouped group VBN work_kkta46aprvda3kxuww62zfddua 98 49 in in IN work_kkta46aprvda3kxuww62zfddua 98 50 a a DT work_kkta46aprvda3kxuww62zfddua 98 51 third third JJ work_kkta46aprvda3kxuww62zfddua 98 52 class class NN work_kkta46aprvda3kxuww62zfddua 98 53 , , , work_kkta46aprvda3kxuww62zfddua 98 54 the the DT work_kkta46aprvda3kxuww62zfddua 98 55 archaeal archaeal NN work_kkta46aprvda3kxuww62zfddua 98 56 or or CC work_kkta46aprvda3kxuww62zfddua 98 57 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 98 58 ATP atp NN work_kkta46aprvda3kxuww62zfddua 98 59 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 98 60 . . . work_kkta46aprvda3kxuww62zfddua 99 1 This this DT work_kkta46aprvda3kxuww62zfddua 99 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 99 3 now now RB work_kkta46aprvda3kxuww62zfddua 99 4 clearly clearly RB work_kkta46aprvda3kxuww62zfddua 99 5 justified justify VBN work_kkta46aprvda3kxuww62zfddua 99 6 by by IN work_kkta46aprvda3kxuww62zfddua 99 7 the the DT work_kkta46aprvda3kxuww62zfddua 99 8 structural structural JJ work_kkta46aprvda3kxuww62zfddua 99 9 and and CC work_kkta46aprvda3kxuww62zfddua 99 10 mechanistic mechanistic JJ work_kkta46aprvda3kxuww62zfddua 99 11 results result NNS work_kkta46aprvda3kxuww62zfddua 99 12 , , , work_kkta46aprvda3kxuww62zfddua 99 13 as as IN work_kkta46aprvda3kxuww62zfddua 99 14 discussed discuss VBN work_kkta46aprvda3kxuww62zfddua 99 15 below below RB work_kkta46aprvda3kxuww62zfddua 99 16 , , , work_kkta46aprvda3kxuww62zfddua 99 17 and and CC work_kkta46aprvda3kxuww62zfddua 99 18 functional functional JJ work_kkta46aprvda3kxuww62zfddua 99 19 studies study NNS work_kkta46aprvda3kxuww62zfddua 99 20 . . . work_kkta46aprvda3kxuww62zfddua 100 1 Whereas whereas IN work_kkta46aprvda3kxuww62zfddua 100 2 the the DT work_kkta46aprvda3kxuww62zfddua 100 3 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 100 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 100 5 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 100 6 catalyzes catalyze VBZ work_kkta46aprvda3kxuww62zfddua 100 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 100 8 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 100 9 at at IN work_kkta46aprvda3kxuww62zfddua 100 10 the the DT work_kkta46aprvda3kxuww62zfddua 100 11 expense expense NN work_kkta46aprvda3kxuww62zfddua 100 12 of of IN work_kkta46aprvda3kxuww62zfddua 100 13 an an DT work_kkta46aprvda3kxuww62zfddua 100 14 electrochemical electrochemical JJ work_kkta46aprvda3kxuww62zfddua 100 15 ion ion NN work_kkta46aprvda3kxuww62zfddua 100 16 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 100 17 , , , work_kkta46aprvda3kxuww62zfddua 100 18 the the DT work_kkta46aprvda3kxuww62zfddua 100 19 eukaryal eukaryal NN work_kkta46aprvda3kxuww62zfddua 100 20 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 100 21 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 100 22 functions function NNS work_kkta46aprvda3kxuww62zfddua 100 23 as as IN work_kkta46aprvda3kxuww62zfddua 100 24 an an DT work_kkta46aprvda3kxuww62zfddua 100 25 ATP atp NN work_kkta46aprvda3kxuww62zfddua 100 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 100 27 driven drive VBN work_kkta46aprvda3kxuww62zfddua 100 28 ion ion NN work_kkta46aprvda3kxuww62zfddua 100 29 pump pump NN work_kkta46aprvda3kxuww62zfddua 100 30 , , , work_kkta46aprvda3kxuww62zfddua 100 31 unable unable JJ work_kkta46aprvda3kxuww62zfddua 100 32 to to TO work_kkta46aprvda3kxuww62zfddua 100 33 synthesize synthesize VB work_kkta46aprvda3kxuww62zfddua 100 34 ATP atp NN work_kkta46aprvda3kxuww62zfddua 100 35 under under IN work_kkta46aprvda3kxuww62zfddua 100 36 physiological physiological JJ work_kkta46aprvda3kxuww62zfddua 100 37 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 100 38 . . . work_kkta46aprvda3kxuww62zfddua 101 1 The the DT work_kkta46aprvda3kxuww62zfddua 101 2 cellular cellular JJ work_kkta46aprvda3kxuww62zfddua 101 3 function function NN work_kkta46aprvda3kxuww62zfddua 101 4 of of IN work_kkta46aprvda3kxuww62zfddua 101 5 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 101 6 ATP atp NN work_kkta46aprvda3kxuww62zfddua 101 7 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 101 8 and and CC work_kkta46aprvda3kxuww62zfddua 101 9 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 101 10 ATP atp NN work_kkta46aprvda3kxuww62zfddua 101 11 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 101 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 101 13 to to TO work_kkta46aprvda3kxuww62zfddua 101 14 synthesize synthesize VB work_kkta46aprvda3kxuww62zfddua 101 15 ATP atp NN work_kkta46aprvda3kxuww62zfddua 101 16 by by IN work_kkta46aprvda3kxuww62zfddua 101 17 ion ion NN work_kkta46aprvda3kxuww62zfddua 101 18 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 101 19 - - HYPH work_kkta46aprvda3kxuww62zfddua 101 20 driven drive VBN work_kkta46aprvda3kxuww62zfddua 101 21 phosphorylation phosphorylation NN work_kkta46aprvda3kxuww62zfddua 101 22 , , , work_kkta46aprvda3kxuww62zfddua 101 23 but but CC work_kkta46aprvda3kxuww62zfddua 101 24 the the DT work_kkta46aprvda3kxuww62zfddua 101 25 reaction reaction NN work_kkta46aprvda3kxuww62zfddua 101 26 is be VBZ work_kkta46aprvda3kxuww62zfddua 101 27 reversible reversible JJ work_kkta46aprvda3kxuww62zfddua 101 28 and and CC work_kkta46aprvda3kxuww62zfddua 101 29 they -PRON- PRP work_kkta46aprvda3kxuww62zfddua 101 30 may may MD work_kkta46aprvda3kxuww62zfddua 101 31 also also RB work_kkta46aprvda3kxuww62zfddua 101 32 work work VB work_kkta46aprvda3kxuww62zfddua 101 33 as as IN work_kkta46aprvda3kxuww62zfddua 101 34 an an DT work_kkta46aprvda3kxuww62zfddua 101 35 ATP atp NN work_kkta46aprvda3kxuww62zfddua 101 36 - - HYPH work_kkta46aprvda3kxuww62zfddua 101 37 driven drive VBN work_kkta46aprvda3kxuww62zfddua 101 38 ion ion NN work_kkta46aprvda3kxuww62zfddua 101 39 pumps pump NNS work_kkta46aprvda3kxuww62zfddua 101 40 to to TO work_kkta46aprvda3kxuww62zfddua 101 41 generate generate VB work_kkta46aprvda3kxuww62zfddua 101 42 an an DT work_kkta46aprvda3kxuww62zfddua 101 43 ion ion NN work_kkta46aprvda3kxuww62zfddua 101 44 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 101 45 under under IN work_kkta46aprvda3kxuww62zfddua 101 46 fermentative fermentative JJ work_kkta46aprvda3kxuww62zfddua 101 47 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 101 48 . . . work_kkta46aprvda3kxuww62zfddua 102 1 4 4 LS work_kkta46aprvda3kxuww62zfddua 102 2 . . . work_kkta46aprvda3kxuww62zfddua 103 1 Structure structure NN work_kkta46aprvda3kxuww62zfddua 103 2 and and CC work_kkta46aprvda3kxuww62zfddua 103 3 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 103 4 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 103 5 of of IN work_kkta46aprvda3kxuww62zfddua 103 6 the the DT work_kkta46aprvda3kxuww62zfddua 103 7 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 103 8 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 103 9 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 103 10 4.1 4.1 CD work_kkta46aprvda3kxuww62zfddua 103 11 . . . work_kkta46aprvda3kxuww62zfddua 104 1 The the DT work_kkta46aprvda3kxuww62zfddua 104 2 overall overall JJ work_kkta46aprvda3kxuww62zfddua 104 3 arrangement arrangement NN work_kkta46aprvda3kxuww62zfddua 104 4 of of IN work_kkta46aprvda3kxuww62zfddua 104 5 the the DT work_kkta46aprvda3kxuww62zfddua 104 6 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 104 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 104 8 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 104 9 The the DT work_kkta46aprvda3kxuww62zfddua 104 10 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 104 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 104 12 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 104 13 is be VBZ work_kkta46aprvda3kxuww62zfddua 104 14 composed compose VBN work_kkta46aprvda3kxuww62zfddua 104 15 of of IN work_kkta46aprvda3kxuww62zfddua 104 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 104 17 A a NN work_kkta46aprvda3kxuww62zfddua 104 18 – – : work_kkta46aprvda3kxuww62zfddua 104 19 F f NN work_kkta46aprvda3kxuww62zfddua 104 20 , , , work_kkta46aprvda3kxuww62zfddua 104 21 H H NNP work_kkta46aprvda3kxuww62zfddua 104 22 , , , work_kkta46aprvda3kxuww62zfddua 104 23 a a NN work_kkta46aprvda3kxuww62zfddua 104 24 and and CC work_kkta46aprvda3kxuww62zfddua 104 25 c c NN work_kkta46aprvda3kxuww62zfddua 104 26 in in IN work_kkta46aprvda3kxuww62zfddua 104 27 the the DT work_kkta46aprvda3kxuww62zfddua 104 28 proposed propose VBN work_kkta46aprvda3kxuww62zfddua 104 29 stoichiometry stoichiometry NN work_kkta46aprvda3kxuww62zfddua 104 30 of of IN work_kkta46aprvda3kxuww62zfddua 104 31 A3 A3 NNP work_kkta46aprvda3kxuww62zfddua 104 32 : : : work_kkta46aprvda3kxuww62zfddua 104 33 B3 b3 NN work_kkta46aprvda3kxuww62zfddua 104 34 : : : work_kkta46aprvda3kxuww62zfddua 104 35 C c NN work_kkta46aprvda3kxuww62zfddua 104 36 : : : work_kkta46aprvda3kxuww62zfddua 104 37 D d NN work_kkta46aprvda3kxuww62zfddua 104 38 : : : work_kkta46aprvda3kxuww62zfddua 104 39 E2 e2 NN work_kkta46aprvda3kxuww62zfddua 104 40 : : : work_kkta46aprvda3kxuww62zfddua 104 41 F f NN work_kkta46aprvda3kxuww62zfddua 104 42 : : : work_kkta46aprvda3kxuww62zfddua 104 43 H2 h2 NN work_kkta46aprvda3kxuww62zfddua 104 44 : : : work_kkta46aprvda3kxuww62zfddua 104 45 a a DT work_kkta46aprvda3kxuww62zfddua 104 46 : : : work_kkta46aprvda3kxuww62zfddua 104 47 cx cx NNP work_kkta46aprvda3kxuww62zfddua 104 48 . . . work_kkta46aprvda3kxuww62zfddua 105 1 Similar similar JJ work_kkta46aprvda3kxuww62zfddua 105 2 to to IN work_kkta46aprvda3kxuww62zfddua 105 3 the the DT work_kkta46aprvda3kxuww62zfddua 105 4 related related JJ work_kkta46aprvda3kxuww62zfddua 105 5 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 105 6 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 105 7 ATP atp NN work_kkta46aprvda3kxuww62zfddua 105 8 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 105 9 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 105 10 α3 α3 NN work_kkta46aprvda3kxuww62zfddua 105 11 : : : work_kkta46aprvda3kxuww62zfddua 105 12 β3 β3 NNP work_kkta46aprvda3kxuww62zfddua 105 13 : : : work_kkta46aprvda3kxuww62zfddua 105 14 γ γ NNP work_kkta46aprvda3kxuww62zfddua 105 15 : : : work_kkta46aprvda3kxuww62zfddua 105 16 δ δ NNP work_kkta46aprvda3kxuww62zfddua 105 17 : : : work_kkta46aprvda3kxuww62zfddua 105 18 ε ε LS work_kkta46aprvda3kxuww62zfddua 105 19 : : : work_kkta46aprvda3kxuww62zfddua 105 20 a a LS work_kkta46aprvda3kxuww62zfddua 105 21 : : : work_kkta46aprvda3kxuww62zfddua 105 22 b2 b2 NN work_kkta46aprvda3kxuww62zfddua 105 23 : : : work_kkta46aprvda3kxuww62zfddua 105 24 cx cx NNP work_kkta46aprvda3kxuww62zfddua 105 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 105 26 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 105 27 possesses possess VBZ work_kkta46aprvda3kxuww62zfddua 105 28 a a DT work_kkta46aprvda3kxuww62zfddua 105 29 water- water- JJ work_kkta46aprvda3kxuww62zfddua 105 30 soluble soluble JJ work_kkta46aprvda3kxuww62zfddua 105 31 A1 a1 NN work_kkta46aprvda3kxuww62zfddua 105 32 domain domain NN work_kkta46aprvda3kxuww62zfddua 105 33 , , , work_kkta46aprvda3kxuww62zfddua 105 34 containing contain VBG work_kkta46aprvda3kxuww62zfddua 105 35 the the DT work_kkta46aprvda3kxuww62zfddua 105 36 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 105 37 sites site NNS work_kkta46aprvda3kxuww62zfddua 105 38 , , , work_kkta46aprvda3kxuww62zfddua 105 39 and and CC work_kkta46aprvda3kxuww62zfddua 105 40 an an DT work_kkta46aprvda3kxuww62zfddua 105 41 integral integral JJ work_kkta46aprvda3kxuww62zfddua 105 42 mem- mem- NN work_kkta46aprvda3kxuww62zfddua 105 43 brane brane NN work_kkta46aprvda3kxuww62zfddua 105 44 AO AO NNP work_kkta46aprvda3kxuww62zfddua 105 45 domain domain NN work_kkta46aprvda3kxuww62zfddua 105 46 , , , work_kkta46aprvda3kxuww62zfddua 105 47 involved involve VBN work_kkta46aprvda3kxuww62zfddua 105 48 in in IN work_kkta46aprvda3kxuww62zfddua 105 49 ion ion NN work_kkta46aprvda3kxuww62zfddua 105 50 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 105 51 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 105 52 Fig fig NN work_kkta46aprvda3kxuww62zfddua 105 53 . . . work_kkta46aprvda3kxuww62zfddua 106 1 1A 1a LS work_kkta46aprvda3kxuww62zfddua 106 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 106 3 . . . work_kkta46aprvda3kxuww62zfddua 107 1 Two two CD work_kkta46aprvda3kxuww62zfddua 107 2 dimensional- dimensional- NN work_kkta46aprvda3kxuww62zfddua 107 3 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 107 4 44,45 44,45 CD work_kkta46aprvda3kxuww62zfddua 107 5 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 107 6 and and CC work_kkta46aprvda3kxuww62zfddua 107 7 three three CD work_kkta46aprvda3kxuww62zfddua 107 8 dimensional dimensional JJ work_kkta46aprvda3kxuww62zfddua 107 9 reconstructions reconstruction NNS work_kkta46aprvda3kxuww62zfddua 107 10 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 107 11 46–48 46–48 CD work_kkta46aprvda3kxuww62zfddua 107 12 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 107 13 of of IN work_kkta46aprvda3kxuww62zfddua 107 14 electron electron NNP work_kkta46aprvda3kxuww62zfddua 107 15 micrographs micrographs NNP work_kkta46aprvda3kxuww62zfddua 107 16 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 107 17 a a DT work_kkta46aprvda3kxuww62zfddua 107 18 bipartite bipartite JJ work_kkta46aprvda3kxuww62zfddua 107 19 structure structure NN work_kkta46aprvda3kxuww62zfddua 107 20 , , , work_kkta46aprvda3kxuww62zfddua 107 21 Fig fig NN work_kkta46aprvda3kxuww62zfddua 107 22 . . . work_kkta46aprvda3kxuww62zfddua 108 1 1 1 LS work_kkta46aprvda3kxuww62zfddua 108 2 . . . work_kkta46aprvda3kxuww62zfddua 109 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 2 A a DT work_kkta46aprvda3kxuww62zfddua 109 3 – – : work_kkta46aprvda3kxuww62zfddua 109 4 D d NN work_kkta46aprvda3kxuww62zfddua 109 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 6 Arrangements arrangement NNS work_kkta46aprvda3kxuww62zfddua 109 7 of of IN work_kkta46aprvda3kxuww62zfddua 109 8 the the DT work_kkta46aprvda3kxuww62zfddua 109 9 atomic atomic JJ work_kkta46aprvda3kxuww62zfddua 109 10 structures structure NNS work_kkta46aprvda3kxuww62zfddua 109 11 of of IN work_kkta46aprvda3kxuww62zfddua 109 12 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 109 13 ATP atp NN work_kkta46aprvda3kxuww62zfddua 109 14 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 109 15 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 109 16 inside inside IN work_kkta46aprvda3kxuww62zfddua 109 17 th th NNP work_kkta46aprvda3kxuww62zfddua 109 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 19 orange orange NN work_kkta46aprvda3kxuww62zfddua 109 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 21 and and CC work_kkta46aprvda3kxuww62zfddua 109 22 B b NN work_kkta46aprvda3kxuww62zfddua 109 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 24 dark dark JJ work_kkta46aprvda3kxuww62zfddua 109 25 green green NN work_kkta46aprvda3kxuww62zfddua 109 26 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 27 from from IN work_kkta46aprvda3kxuww62zfddua 109 28 Enterococcus Enterococcus NNP work_kkta46aprvda3kxuww62zfddua 109 29 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 109 30 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 31 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 109 32 ID ID NNP work_kkta46aprvda3kxuww62zfddua 109 33 : : : work_kkta46aprvda3kxuww62zfddua 109 34 3VR2 3vr2 CD work_kkta46aprvda3kxuww62zfddua 109 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 109 36 55 55 CD work_kkta46aprvda3kxuww62zfddua 109 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 109 38 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 39 alternate alternate JJ work_kkta46aprvda3kxuww62zfddua 109 40 in in IN work_kkta46aprvda3kxuww62zfddua 109 41 the the DT work_kkta46aprvda3kxuww62zfddua 109 42 A3B A3B NNP work_kkta46aprvda3kxuww62zfddua 109 43 structure structure NN work_kkta46aprvda3kxuww62zfddua 109 44 of of IN work_kkta46aprvda3kxuww62zfddua 109 45 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 109 46 C C NNP work_kkta46aprvda3kxuww62zfddua 109 47 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 48 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 109 49 ID ID NNP work_kkta46aprvda3kxuww62zfddua 109 50 : : : work_kkta46aprvda3kxuww62zfddua 109 51 1R5Z 1r5z CD work_kkta46aprvda3kxuww62zfddua 109 52 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 109 53 51 51 CD work_kkta46aprvda3kxuww62zfddua 109 54 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 109 55 ; ; : work_kkta46aprvda3kxuww62zfddua 109 56 blue blue NNP work_kkta46aprvda3kxuww62zfddua 109 57 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 58 and and CC work_kkta46aprvda3kxuww62zfddua 109 59 D D NNP work_kkta46aprvda3kxuww62zfddua 109 60 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 61 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 109 62 ID ID NNP work_kkta46aprvda3kxuww62zfddua 109 63 : : : work_kkta46aprvda3kxuww62zfddua 109 64 3AON 3aon NN work_kkta46aprvda3kxuww62zfddua 109 65 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 109 66 52 52 CD work_kkta46aprvda3kxuww62zfddua 109 67 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 109 68 ; ; : work_kkta46aprvda3kxuww62zfddua 109 69 purple purple NNP work_kkta46aprvda3kxuww62zfddua 109 70 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 71 form form VBP work_kkta46aprvda3kxuww62zfddua 109 72 the the DT work_kkta46aprvda3kxuww62zfddua 109 73 the the DT work_kkta46aprvda3kxuww62zfddua 109 74 c c NN work_kkta46aprvda3kxuww62zfddua 109 75 ring ring NN work_kkta46aprvda3kxuww62zfddua 109 76 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 109 77 wheat wheat NN work_kkta46aprvda3kxuww62zfddua 109 78 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 109 79 from from IN work_kkta46aprvda3kxuww62zfddua 109 80 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 109 81 ID ID NNP work_kkta46aprvda3kxuww62zfddua 109 82 : : : work_kkta46aprvda3kxuww62zfddua 109 83 2BL2 2bl2 CD work_kkta46aprvda3kxuww62zfddua 109 84 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 109 85 96 96 CD work_kkta46aprvda3kxuww62zfddua 109 86 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 109 87 . . . work_kkta46aprvda3kxuww62zfddua 110 1 The the DT work_kkta46aprvda3kxuww62zfddua 110 2 Thermus Thermus NNP work_kkta46aprvda3kxuww62zfddua 110 3 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 110 4 EH EH NNP work_kkta46aprvda3kxuww62zfddua 110 5 dimer dimer NN work_kkta46aprvda3kxuww62zfddua 110 6 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 110 7 green green JJ work_kkta46aprvda3kxuww62zfddua 110 8 and and CC work_kkta46aprvda3kxuww62zfddua 110 9 c c NN work_kkta46aprvda3kxuww62zfddua 110 10 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 110 11 B b NN work_kkta46aprvda3kxuww62zfddua 110 12 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 110 13 , , , work_kkta46aprvda3kxuww62zfddua 110 14 whereas whereas IN work_kkta46aprvda3kxuww62zfddua 110 15 the the DT work_kkta46aprvda3kxuww62zfddua 110 16 crystal crystal NN work_kkta46aprvda3kxuww62zfddua 110 17 structure structure NN work_kkta46aprvda3kxuww62zfddua 110 18 of of IN work_kkta46aprvda3kxuww62zfddua 110 19 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 110 20 horikoshii horikoshii NN work_kkta46aprvda3kxuww62zfddua 110 21 OT3 OT3 NNP work_kkta46aprvda3kxuww62zfddua 110 22 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 110 23 E E NNP work_kkta46aprvda3kxuww62zfddua 110 24 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 110 25 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 110 26 ID ID NNP work_kkta46aprvda3kxuww62zfddua 110 27 : : : work_kkta46aprvda3kxuww62zfddua 110 28 4DT0 4dt0 CD work_kkta46aprvda3kxuww62zfddua 110 29 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 110 30 79 79 CD work_kkta46aprvda3kxuww62zfddua 110 31 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 110 32 ; ; , work_kkta46aprvda3kxuww62zfddua 110 33 been be VBN work_kkta46aprvda3kxuww62zfddua 110 34 proposed propose VBN work_kkta46aprvda3kxuww62zfddua 110 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 110 36 79 79 CD work_kkta46aprvda3kxuww62zfddua 110 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 110 38 that that IN work_kkta46aprvda3kxuww62zfddua 110 39 ion ion NN work_kkta46aprvda3kxuww62zfddua 110 40 - - HYPH work_kkta46aprvda3kxuww62zfddua 110 41 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 110 42 in in IN work_kkta46aprvda3kxuww62zfddua 110 43 the the DT work_kkta46aprvda3kxuww62zfddua 110 44 interface interface NN work_kkta46aprvda3kxuww62zfddua 110 45 of of IN work_kkta46aprvda3kxuww62zfddua 110 46 the the DT work_kkta46aprvda3kxuww62zfddua 110 47 c c NNP work_kkta46aprvda3kxuww62zfddua 110 48 ring ring NN work_kkta46aprvda3kxuww62zfddua 110 49 and and CC work_kkta46aprvda3kxuww62zfddua 110 50 the the DT work_kkta46aprvda3kxuww62zfddua 110 51 C C NNP work_kkta46aprvda3kxuww62zfddua 110 52 - - HYPH work_kkta46aprvda3kxuww62zfddua 110 53 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 110 54 mem mem NN work_kkta46aprvda3kxuww62zfddua 110 55 which which WDT work_kkta46aprvda3kxuww62zfddua 110 56 are be VBP work_kkta46aprvda3kxuww62zfddua 110 57 transferred transfer VBN work_kkta46aprvda3kxuww62zfddua 110 58 to to IN work_kkta46aprvda3kxuww62zfddua 110 59 the the DT work_kkta46aprvda3kxuww62zfddua 110 60 barbelled barbelle VBN work_kkta46aprvda3kxuww62zfddua 110 61 - - HYPH work_kkta46aprvda3kxuww62zfddua 110 62 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 110 63 N n NN work_kkta46aprvda3kxuww62zfddua 110 64 - - HYPH work_kkta46aprvda3kxuww62zfddua 110 65 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 110 66 domain domain NN work_kkta46aprvda3kxuww62zfddua 110 67 of of IN work_kkta46aprvda3kxuww62zfddua 110 68 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 110 69 a a DT work_kkta46aprvda3kxuww62zfddua 110 70 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 110 71 yellow yellow NN work_kkta46aprvda3kxuww62zfddua 110 72 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 110 73 and and CC work_kkta46aprvda3kxuww62zfddua 110 74 sub sub VB work_kkta46aprvda3kxuww62zfddua 110 75 to to TO work_kkta46aprvda3kxuww62zfddua 110 76 switch switch VB work_kkta46aprvda3kxuww62zfddua 110 77 from from IN work_kkta46aprvda3kxuww62zfddua 110 78 a a DT work_kkta46aprvda3kxuww62zfddua 110 79 more more RBR work_kkta46aprvda3kxuww62zfddua 110 80 extended extended JJ work_kkta46aprvda3kxuww62zfddua 110 81 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 110 82 D d NN work_kkta46aprvda3kxuww62zfddua 110 83 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 110 84 into into IN work_kkta46aprvda3kxuww62zfddua 110 85 a a DT work_kkta46aprvda3kxuww62zfddua 110 86 curved curved JJ work_kkta46aprvda3kxuww62zfddua 110 87 conformation conformation NN work_kkta46aprvda3kxuww62zfddua 110 88 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 110 89 A a NN work_kkta46aprvda3kxuww62zfddua 110 90 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 110 91 and and CC work_kkta46aprvda3kxuww62zfddua 110 92 vice vice NN work_kkta46aprvda3kxuww62zfddua 110 93 versa versa RB work_kkta46aprvda3kxuww62zfddua 110 94 , , , work_kkta46aprvda3kxuww62zfddua 110 95 providing provide VBG work_kkta46aprvda3kxuww62zfddua 110 96 the the DT work_kkta46aprvda3kxuww62zfddua 110 97 For for IN work_kkta46aprvda3kxuww62zfddua 110 98 clarity clarity NN work_kkta46aprvda3kxuww62zfddua 110 99 the the DT work_kkta46aprvda3kxuww62zfddua 110 100 EM EM NNP work_kkta46aprvda3kxuww62zfddua 110 101 map map NN work_kkta46aprvda3kxuww62zfddua 110 102 is be VBZ work_kkta46aprvda3kxuww62zfddua 110 103 not not RB work_kkta46aprvda3kxuww62zfddua 110 104 shown show VBN work_kkta46aprvda3kxuww62zfddua 110 105 in in IN work_kkta46aprvda3kxuww62zfddua 110 106 figures figure NNS work_kkta46aprvda3kxuww62zfddua 110 107 B B NNP work_kkta46aprvda3kxuww62zfddua 110 108 and and CC work_kkta46aprvda3kxuww62zfddua 110 109 C C NNP work_kkta46aprvda3kxuww62zfddua 110 110 , , , work_kkta46aprvda3kxuww62zfddua 110 111 while while IN work_kkta46aprvda3kxuww62zfddua 110 112 in in IN work_kkta46aprvda3kxuww62zfddua 110 113 figure figure NN work_kkta46aprvda3kxuww62zfddua 110 114 D D NNP work_kkta46aprvda3kxuww62zfddua 110 115 one one CD work_kkta46aprvda3kxuww62zfddua 110 116 of of IN work_kkta46aprvda3kxuww62zfddua 110 117 the the DT work_kkta46aprvda3kxuww62zfddua 110 118 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 110 119 consisting consisting NN work_kkta46aprvda3kxuww62zfddua 110 120 of of IN work_kkta46aprvda3kxuww62zfddua 110 121 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 110 122 and and CC work_kkta46aprvda3kxuww62zfddua 110 123 AO AO NNP work_kkta46aprvda3kxuww62zfddua 110 124 domains domain NNS work_kkta46aprvda3kxuww62zfddua 110 125 , , , work_kkta46aprvda3kxuww62zfddua 110 126 which which WDT work_kkta46aprvda3kxuww62zfddua 110 127 form form VBP work_kkta46aprvda3kxuww62zfddua 110 128 a a DT work_kkta46aprvda3kxuww62zfddua 110 129 pair pair NN work_kkta46aprvda3kxuww62zfddua 110 130 of of IN work_kkta46aprvda3kxuww62zfddua 110 131 coupled couple VBN work_kkta46aprvda3kxuww62zfddua 110 132 rotary rotary JJ work_kkta46aprvda3kxuww62zfddua 110 133 motors motor NNS work_kkta46aprvda3kxuww62zfddua 110 134 connected connect VBN work_kkta46aprvda3kxuww62zfddua 110 135 with with IN work_kkta46aprvda3kxuww62zfddua 110 136 one one CD work_kkta46aprvda3kxuww62zfddua 110 137 central central JJ work_kkta46aprvda3kxuww62zfddua 110 138 and and CC work_kkta46aprvda3kxuww62zfddua 110 139 two two CD work_kkta46aprvda3kxuww62zfddua 110 140 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 110 141 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 110 142 . . . work_kkta46aprvda3kxuww62zfddua 111 1 The the DT work_kkta46aprvda3kxuww62zfddua 111 2 soluble soluble JJ work_kkta46aprvda3kxuww62zfddua 111 3 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 111 4 domain domain NN work_kkta46aprvda3kxuww62zfddua 111 5 has have VBZ work_kkta46aprvda3kxuww62zfddua 111 6 the the DT work_kkta46aprvda3kxuww62zfddua 111 7 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 111 8 activity activity NN work_kkta46aprvda3kxuww62zfddua 111 9 and and CC work_kkta46aprvda3kxuww62zfddua 111 10 the the DT work_kkta46aprvda3kxuww62zfddua 111 11 hydrophobic hydrophobic NN work_kkta46aprvda3kxuww62zfddua 111 12 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 111 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 111 14 embedded embed VBN work_kkta46aprvda3kxuww62zfddua 111 15 AO AO NNP work_kkta46aprvda3kxuww62zfddua 111 16 domain domain NN work_kkta46aprvda3kxuww62zfddua 111 17 is be VBZ work_kkta46aprvda3kxuww62zfddua 111 18 responsible responsible JJ work_kkta46aprvda3kxuww62zfddua 111 19 for for IN work_kkta46aprvda3kxuww62zfddua 111 20 ion ion NN work_kkta46aprvda3kxuww62zfddua 111 21 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 111 22 across across IN work_kkta46aprvda3kxuww62zfddua 111 23 the the DT work_kkta46aprvda3kxuww62zfddua 111 24 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 111 25 . . . work_kkta46aprvda3kxuww62zfddua 112 1 A a DT work_kkta46aprvda3kxuww62zfddua 112 2 collar collar NN work_kkta46aprvda3kxuww62zfddua 112 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 112 4 like like JJ work_kkta46aprvda3kxuww62zfddua 112 5 structure structure NN work_kkta46aprvda3kxuww62zfddua 112 6 located locate VBN work_kkta46aprvda3kxuww62zfddua 112 7 perpendicular perpendicular JJ work_kkta46aprvda3kxuww62zfddua 112 8 to to IN work_kkta46aprvda3kxuww62zfddua 112 9 the the DT work_kkta46aprvda3kxuww62zfddua 112 10 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 112 11 seems seem VBZ work_kkta46aprvda3kxuww62zfddua 112 12 to to TO work_kkta46aprvda3kxuww62zfddua 112 13 anchor anchor VB work_kkta46aprvda3kxuww62zfddua 112 14 the the DT work_kkta46aprvda3kxuww62zfddua 112 15 two two CD work_kkta46aprvda3kxuww62zfddua 112 16 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 112 17 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 112 18 , , , work_kkta46aprvda3kxuww62zfddua 112 19 which which WDT work_kkta46aprvda3kxuww62zfddua 112 20 are be VBP work_kkta46aprvda3kxuww62zfddua 112 21 not not RB work_kkta46aprvda3kxuww62zfddua 112 22 penetrating penetrate VBG work_kkta46aprvda3kxuww62zfddua 112 23 into into IN work_kkta46aprvda3kxuww62zfddua 112 24 the the DT work_kkta46aprvda3kxuww62zfddua 112 25 AO AO NNP work_kkta46aprvda3kxuww62zfddua 112 26 domain domain NN work_kkta46aprvda3kxuww62zfddua 112 27 . . . work_kkta46aprvda3kxuww62zfddua 113 1 Both both DT work_kkta46aprvda3kxuww62zfddua 113 2 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 113 3 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 113 4 go go VBP work_kkta46aprvda3kxuww62zfddua 113 5 all all PDT work_kkta46aprvda3kxuww62zfddua 113 6 the the DT work_kkta46aprvda3kxuww62zfddua 113 7 way way NN work_kkta46aprvda3kxuww62zfddua 113 8 up up IN work_kkta46aprvda3kxuww62zfddua 113 9 to to IN work_kkta46aprvda3kxuww62zfddua 113 10 the the DT work_kkta46aprvda3kxuww62zfddua 113 11 top top NN work_kkta46aprvda3kxuww62zfddua 113 12 of of IN work_kkta46aprvda3kxuww62zfddua 113 13 the the DT work_kkta46aprvda3kxuww62zfddua 113 14 A3B3 A3B3 NNP work_kkta46aprvda3kxuww62zfddua 113 15 headpiece headpiece NN work_kkta46aprvda3kxuww62zfddua 113 16 , , , work_kkta46aprvda3kxuww62zfddua 113 17 thereby thereby RB work_kkta46aprvda3kxuww62zfddua 113 18 connecting connect VBG work_kkta46aprvda3kxuww62zfddua 113 19 statically statically RB work_kkta46aprvda3kxuww62zfddua 113 20 and and CC work_kkta46aprvda3kxuww62zfddua 113 21 mechanistically mechanistically RB work_kkta46aprvda3kxuww62zfddua 113 22 the the DT work_kkta46aprvda3kxuww62zfddua 113 23 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 113 24 with with IN work_kkta46aprvda3kxuww62zfddua 113 25 the the DT work_kkta46aprvda3kxuww62zfddua 113 26 AO AO NNP work_kkta46aprvda3kxuww62zfddua 113 27 sector sector NN work_kkta46aprvda3kxuww62zfddua 113 28 via via IN work_kkta46aprvda3kxuww62zfddua 113 29 the the DT work_kkta46aprvda3kxuww62zfddua 113 30 collar collar NN work_kkta46aprvda3kxuww62zfddua 113 31 - - HYPH work_kkta46aprvda3kxuww62zfddua 113 32 like like JJ work_kkta46aprvda3kxuww62zfddua 113 33 domain domain NN work_kkta46aprvda3kxuww62zfddua 113 34 . . . work_kkta46aprvda3kxuww62zfddua 114 1 4.2 4.2 CD work_kkta46aprvda3kxuww62zfddua 114 2 . . . work_kkta46aprvda3kxuww62zfddua 115 1 High high JJ work_kkta46aprvda3kxuww62zfddua 115 2 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 115 3 structures structure NNS work_kkta46aprvda3kxuww62zfddua 115 4 of of IN work_kkta46aprvda3kxuww62zfddua 115 5 the the DT work_kkta46aprvda3kxuww62zfddua 115 6 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 115 7 binding bind VBG work_kkta46aprvda3kxuww62zfddua 115 8 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 115 9 A a NN work_kkta46aprvda3kxuww62zfddua 115 10 and and CC work_kkta46aprvda3kxuww62zfddua 115 11 B b NN work_kkta46aprvda3kxuww62zfddua 115 12 The the DT work_kkta46aprvda3kxuww62zfddua 115 13 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 115 14 sector sector NN work_kkta46aprvda3kxuww62zfddua 115 15 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 115 16 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 115 17 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 115 18 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 115 19 consists consist VBZ work_kkta46aprvda3kxuww62zfddua 115 20 of of IN work_kkta46aprvda3kxuww62zfddua 115 21 the the DT work_kkta46aprvda3kxuww62zfddua 115 22 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 115 23 A a NN work_kkta46aprvda3kxuww62zfddua 115 24 , , , work_kkta46aprvda3kxuww62zfddua 115 25 B b NN work_kkta46aprvda3kxuww62zfddua 115 26 , , , work_kkta46aprvda3kxuww62zfddua 115 27 C C NNP work_kkta46aprvda3kxuww62zfddua 115 28 , , , work_kkta46aprvda3kxuww62zfddua 115 29 D D NNP work_kkta46aprvda3kxuww62zfddua 115 30 and and CC work_kkta46aprvda3kxuww62zfddua 115 31 F F NNP work_kkta46aprvda3kxuww62zfddua 115 32 in in IN work_kkta46aprvda3kxuww62zfddua 115 33 the the DT work_kkta46aprvda3kxuww62zfddua 115 34 stoichiometry stoichiometry NN work_kkta46aprvda3kxuww62zfddua 115 35 of of IN work_kkta46aprvda3kxuww62zfddua 115 36 A3 A3 NNP work_kkta46aprvda3kxuww62zfddua 115 37 : : : work_kkta46aprvda3kxuww62zfddua 115 38 B3 b3 NN work_kkta46aprvda3kxuww62zfddua 115 39 : : : work_kkta46aprvda3kxuww62zfddua 115 40 C c NN work_kkta46aprvda3kxuww62zfddua 115 41 : : : work_kkta46aprvda3kxuww62zfddua 115 42 D d NN work_kkta46aprvda3kxuww62zfddua 115 43 : : : work_kkta46aprvda3kxuww62zfddua 115 44 F f NN work_kkta46aprvda3kxuww62zfddua 115 45 and and CC work_kkta46aprvda3kxuww62zfddua 115 46 is be VBZ work_kkta46aprvda3kxuww62zfddua 115 47 able able JJ work_kkta46aprvda3kxuww62zfddua 115 48 to to TO work_kkta46aprvda3kxuww62zfddua 115 49 catalyze catalyze VB work_kkta46aprvda3kxuww62zfddua 115 50 ATP atp NN work_kkta46aprvda3kxuww62zfddua 115 51 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 115 52 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 115 53 40 40 CD work_kkta46aprvda3kxuww62zfddua 115 54 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 115 55 . . . work_kkta46aprvda3kxuww62zfddua 116 1 In in IN work_kkta46aprvda3kxuww62zfddua 116 2 the the DT work_kkta46aprvda3kxuww62zfddua 116 3 last last JJ work_kkta46aprvda3kxuww62zfddua 116 4 decade decade NN work_kkta46aprvda3kxuww62zfddua 116 5 all all DT work_kkta46aprvda3kxuww62zfddua 116 6 individual individual JJ work_kkta46aprvda3kxuww62zfddua 116 7 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 116 8 of of IN work_kkta46aprvda3kxuww62zfddua 116 9 the the DT work_kkta46aprvda3kxuww62zfddua 116 10 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 116 11 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 116 12 have have VBP work_kkta46aprvda3kxuww62zfddua 116 13 been be VBN work_kkta46aprvda3kxuww62zfddua 116 14 solved solve VBN work_kkta46aprvda3kxuww62zfddua 116 15 at at IN work_kkta46aprvda3kxuww62zfddua 116 16 high high JJ work_kkta46aprvda3kxuww62zfddua 116 17 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 116 18 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 116 19 49–55 49–55 NN work_kkta46aprvda3kxuww62zfddua 116 20 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 116 21 . . . work_kkta46aprvda3kxuww62zfddua 117 1 Firstly firstly RB work_kkta46aprvda3kxuww62zfddua 117 2 , , , work_kkta46aprvda3kxuww62zfddua 117 3 low low JJ work_kkta46aprvda3kxuww62zfddua 117 4 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 117 5 structures structure NNS work_kkta46aprvda3kxuww62zfddua 117 6 of of IN work_kkta46aprvda3kxuww62zfddua 117 7 the the DT work_kkta46aprvda3kxuww62zfddua 117 8 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 117 9 sector sector NN work_kkta46aprvda3kxuww62zfddua 117 10 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 117 11 56,57 56,57 CD work_kkta46aprvda3kxuww62zfddua 117 12 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 117 13 and and CC work_kkta46aprvda3kxuww62zfddua 117 14 the the DT work_kkta46aprvda3kxuww62zfddua 117 15 entire entire JJ work_kkta46aprvda3kxuww62zfddua 117 16 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 117 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 117 18 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 117 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 117 20 45–48 45–48 NN work_kkta46aprvda3kxuww62zfddua 117 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 117 22 , , , work_kkta46aprvda3kxuww62zfddua 117 23 combined combine VBN work_kkta46aprvda3kxuww62zfddua 117 24 with with IN work_kkta46aprvda3kxuww62zfddua 117 25 cross cross JJ work_kkta46aprvda3kxuww62zfddua 117 26 - - JJ work_kkta46aprvda3kxuww62zfddua 117 27 linking linking JJ work_kkta46aprvda3kxuww62zfddua 117 28 data datum NNS work_kkta46aprvda3kxuww62zfddua 117 29 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 117 30 58,59 58,59 CD work_kkta46aprvda3kxuww62zfddua 117 31 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 117 32 , , , work_kkta46aprvda3kxuww62zfddua 117 33 and and CC work_kkta46aprvda3kxuww62zfddua 117 34 later later RB work_kkta46aprvda3kxuww62zfddua 117 35 crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 117 36 structures structure NNS work_kkta46aprvda3kxuww62zfddua 117 37 of of IN work_kkta46aprvda3kxuww62zfddua 117 38 the the DT work_kkta46aprvda3kxuww62zfddua 117 39 A3 a3 NN work_kkta46aprvda3kxuww62zfddua 117 40 : : : work_kkta46aprvda3kxuww62zfddua 117 41 B3- B3- NNP work_kkta46aprvda3kxuww62zfddua 117 42 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 117 43 54 54 CD work_kkta46aprvda3kxuww62zfddua 117 44 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 117 45 and and CC work_kkta46aprvda3kxuww62zfddua 117 46 A3 a3 NN work_kkta46aprvda3kxuww62zfddua 117 47 : : : work_kkta46aprvda3kxuww62zfddua 117 48 B3 b3 NN work_kkta46aprvda3kxuww62zfddua 117 49 : : : work_kkta46aprvda3kxuww62zfddua 117 50 D d NN work_kkta46aprvda3kxuww62zfddua 117 51 : : : work_kkta46aprvda3kxuww62zfddua 117 52 F f NN work_kkta46aprvda3kxuww62zfddua 117 53 - - HYPH work_kkta46aprvda3kxuww62zfddua 117 54 complex complex JJ work_kkta46aprvda3kxuww62zfddua 117 55 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 117 56 55 55 CD work_kkta46aprvda3kxuww62zfddua 117 57 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 117 58 enabled enable VBD work_kkta46aprvda3kxuww62zfddua 117 59 the the DT work_kkta46aprvda3kxuww62zfddua 117 60 assignment assignment NN work_kkta46aprvda3kxuww62zfddua 117 61 into into IN work_kkta46aprvda3kxuww62zfddua 117 62 the the DT work_kkta46aprvda3kxuww62zfddua 117 63 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 117 64 complex complex NN work_kkta46aprvda3kxuww62zfddua 117 65 shown show VBN work_kkta46aprvda3kxuww62zfddua 117 66 in in IN work_kkta46aprvda3kxuww62zfddua 117 67 Fig Fig NNP work_kkta46aprvda3kxuww62zfddua 117 68 . . . work_kkta46aprvda3kxuww62zfddua 118 1 1A 1a LS work_kkta46aprvda3kxuww62zfddua 118 2 – – : work_kkta46aprvda3kxuww62zfddua 118 3 C. C. NNP work_kkta46aprvda3kxuww62zfddua 119 1 The the DT work_kkta46aprvda3kxuww62zfddua 119 2 headpiece headpiece NN work_kkta46aprvda3kxuww62zfddua 119 3 of of IN work_kkta46aprvda3kxuww62zfddua 119 4 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 119 5 consists consist VBZ work_kkta46aprvda3kxuww62zfddua 119 6 of of IN work_kkta46aprvda3kxuww62zfddua 119 7 the the DT work_kkta46aprvda3kxuww62zfddua 119 8 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 119 9 A a NN work_kkta46aprvda3kxuww62zfddua 119 10 and and CC work_kkta46aprvda3kxuww62zfddua 119 11 B b NN work_kkta46aprvda3kxuww62zfddua 119 12 , , , work_kkta46aprvda3kxuww62zfddua 119 13 alternating alternate VBG work_kkta46aprvda3kxuww62zfddua 119 14 around around IN work_kkta46aprvda3kxuww62zfddua 119 15 the the DT work_kkta46aprvda3kxuww62zfddua 119 16 periphery periphery NN work_kkta46aprvda3kxuww62zfddua 119 17 of of IN work_kkta46aprvda3kxuww62zfddua 119 18 a a DT work_kkta46aprvda3kxuww62zfddua 119 19 central central JJ work_kkta46aprvda3kxuww62zfddua 119 20 cavity cavity NN work_kkta46aprvda3kxuww62zfddua 119 21 , , , work_kkta46aprvda3kxuww62zfddua 119 22 which which WDT work_kkta46aprvda3kxuww62zfddua 119 23 is be VBZ work_kkta46aprvda3kxuww62zfddua 119 24 made make VBN work_kkta46aprvda3kxuww62zfddua 119 25 up up RP work_kkta46aprvda3kxuww62zfddua 119 26 by by IN work_kkta46aprvda3kxuww62zfddua 119 27 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 119 28 D. D. NNP work_kkta46aprvda3kxuww62zfddua 119 29 This this DT work_kkta46aprvda3kxuww62zfddua 119 30 central central JJ work_kkta46aprvda3kxuww62zfddua 119 31 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 119 32 penetrates penetrate NNS work_kkta46aprvda3kxuww62zfddua 119 33 inside inside IN work_kkta46aprvda3kxuww62zfddua 119 34 this this DT work_kkta46aprvda3kxuww62zfddua 119 35 cavity cavity NN work_kkta46aprvda3kxuww62zfddua 119 36 and and CC work_kkta46aprvda3kxuww62zfddua 119 37 is be VBZ work_kkta46aprvda3kxuww62zfddua 119 38 in in IN work_kkta46aprvda3kxuww62zfddua 119 39 proximity proximity NN work_kkta46aprvda3kxuww62zfddua 119 40 to to IN work_kkta46aprvda3kxuww62zfddua 119 41 an an DT work_kkta46aprvda3kxuww62zfddua 119 42 A A NNP work_kkta46aprvda3kxuww62zfddua 119 43 - - HYPH work_kkta46aprvda3kxuww62zfddua 119 44 B b NN work_kkta46aprvda3kxuww62zfddua 119 45 - - HYPH work_kkta46aprvda3kxuww62zfddua 119 46 A a NN work_kkta46aprvda3kxuww62zfddua 119 47 triplet triplet NN work_kkta46aprvda3kxuww62zfddua 119 48 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 119 49 52,54–56 52,54–56 CD work_kkta46aprvda3kxuww62zfddua 119 50 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 119 51 , , , work_kkta46aprvda3kxuww62zfddua 119 52 thereby thereby RB work_kkta46aprvda3kxuww62zfddua 119 53 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 119 54 ion ion NN work_kkta46aprvda3kxuww62zfddua 119 55 - - HYPH work_kkta46aprvda3kxuww62zfddua 119 56 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 119 57 in in IN work_kkta46aprvda3kxuww62zfddua 119 58 the the DT work_kkta46aprvda3kxuww62zfddua 119 59 a a NN work_kkta46aprvda3kxuww62zfddua 119 60 – – : work_kkta46aprvda3kxuww62zfddua 119 61 c c NN work_kkta46aprvda3kxuww62zfddua 119 62 interface interface NN work_kkta46aprvda3kxuww62zfddua 119 63 of of IN work_kkta46aprvda3kxuww62zfddua 119 64 AO AO NNP work_kkta46aprvda3kxuww62zfddua 119 65 with with IN work_kkta46aprvda3kxuww62zfddua 119 66 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 119 67 events event NNS work_kkta46aprvda3kxuww62zfddua 119 68 in in IN work_kkta46aprvda3kxuww62zfddua 119 69 the the DT work_kkta46aprvda3kxuww62zfddua 119 70 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 119 71 synthesizing synthesize VBG work_kkta46aprvda3kxuww62zfddua 119 72 inter- inter- NN work_kkta46aprvda3kxuww62zfddua 119 73 face face NN work_kkta46aprvda3kxuww62zfddua 119 74 of of IN work_kkta46aprvda3kxuww62zfddua 119 75 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 119 76 A a NN work_kkta46aprvda3kxuww62zfddua 119 77 – – : work_kkta46aprvda3kxuww62zfddua 119 78 B. B. NNP work_kkta46aprvda3kxuww62zfddua 120 1 Subunit Subunit NNP work_kkta46aprvda3kxuww62zfddua 120 2 A A NNP work_kkta46aprvda3kxuww62zfddua 120 3 has have VBZ work_kkta46aprvda3kxuww62zfddua 120 4 been be VBN work_kkta46aprvda3kxuww62zfddua 120 5 regarded regard VBN work_kkta46aprvda3kxuww62zfddua 120 6 as as IN work_kkta46aprvda3kxuww62zfddua 120 7 having have VBG work_kkta46aprvda3kxuww62zfddua 120 8 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 120 9 function function NN work_kkta46aprvda3kxuww62zfddua 120 10 , , , work_kkta46aprvda3kxuww62zfddua 120 11 while while IN work_kkta46aprvda3kxuww62zfddua 120 12 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 120 13 B B NNP work_kkta46aprvda3kxuww62zfddua 120 14 plays play VBZ work_kkta46aprvda3kxuww62zfddua 120 15 an an DT work_kkta46aprvda3kxuww62zfddua 120 16 important important JJ work_kkta46aprvda3kxuww62zfddua 120 17 role role NN work_kkta46aprvda3kxuww62zfddua 120 18 in in IN work_kkta46aprvda3kxuww62zfddua 120 19 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 120 20 binding bind VBG work_kkta46aprvda3kxuww62zfddua 120 21 and/or and/or CC work_kkta46aprvda3kxuww62zfddua 120 22 regulatory regulatory JJ work_kkta46aprvda3kxuww62zfddua 120 23 function function NN work_kkta46aprvda3kxuww62zfddua 120 24 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 120 25 50,59 50,59 CD work_kkta46aprvda3kxuww62zfddua 120 26 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 120 27 . . . work_kkta46aprvda3kxuww62zfddua 121 1 Crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 121 2 structures structure NNS work_kkta46aprvda3kxuww62zfddua 121 3 of of IN work_kkta46aprvda3kxuww62zfddua 121 4 the the DT work_kkta46aprvda3kxuww62zfddua 121 5 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 121 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 121 7 binding bind VBG work_kkta46aprvda3kxuww62zfddua 121 8 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 121 9 A a DT work_kkta46aprvda3kxuww62zfddua 121 10 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 121 11 49,54,55 49,54,55 CD work_kkta46aprvda3kxuww62zfddua 121 12 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 121 13 and and CC work_kkta46aprvda3kxuww62zfddua 121 14 B b NN work_kkta46aprvda3kxuww62zfddua 121 15 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 121 16 50,54,55 50,54,55 NN work_kkta46aprvda3kxuww62zfddua 121 17 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 121 18 of of IN work_kkta46aprvda3kxuww62zfddua 121 19 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 121 20 ATP atp NN work_kkta46aprvda3kxuww62zfddua 121 21 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 121 22 show show VBP work_kkta46aprvda3kxuww62zfddua 121 23 that that IN work_kkta46aprvda3kxuww62zfddua 121 24 they -PRON- PRP work_kkta46aprvda3kxuww62zfddua 121 25 are be VBP work_kkta46aprvda3kxuww62zfddua 121 26 composed compose VBN work_kkta46aprvda3kxuww62zfddua 121 27 of of IN work_kkta46aprvda3kxuww62zfddua 121 28 an an DT work_kkta46aprvda3kxuww62zfddua 121 29 N N NNP work_kkta46aprvda3kxuww62zfddua 121 30 - - HYPH work_kkta46aprvda3kxuww62zfddua 121 31 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 121 32 β β NN work_kkta46aprvda3kxuww62zfddua 121 33 - - HYPH work_kkta46aprvda3kxuww62zfddua 121 34 barrel barrel NNP work_kkta46aprvda3kxuww62zfddua 121 35 , , , work_kkta46aprvda3kxuww62zfddua 121 36 an an DT work_kkta46aprvda3kxuww62zfddua 121 37 α α NNP work_kkta46aprvda3kxuww62zfddua 121 38 – – : work_kkta46aprvda3kxuww62zfddua 121 39 β β NNP work_kkta46aprvda3kxuww62zfddua 121 40 central central JJ work_kkta46aprvda3kxuww62zfddua 121 41 domain domain NN work_kkta46aprvda3kxuww62zfddua 121 42 , , , work_kkta46aprvda3kxuww62zfddua 121 43 and and CC work_kkta46aprvda3kxuww62zfddua 121 44 a a DT work_kkta46aprvda3kxuww62zfddua 121 45 C c NN work_kkta46aprvda3kxuww62zfddua 121 46 - - HYPH work_kkta46aprvda3kxuww62zfddua 121 47 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 121 48 α α XX work_kkta46aprvda3kxuww62zfddua 121 49 - - HYPH work_kkta46aprvda3kxuww62zfddua 121 50 helical helical JJ work_kkta46aprvda3kxuww62zfddua 121 51 bundle bundle NN work_kkta46aprvda3kxuww62zfddua 121 52 , , , work_kkta46aprvda3kxuww62zfddua 121 53 similar similar JJ work_kkta46aprvda3kxuww62zfddua 121 54 to to IN work_kkta46aprvda3kxuww62zfddua 121 55 the the DT work_kkta46aprvda3kxuww62zfddua 121 56 homologue homologue NNP work_kkta46aprvda3kxuww62zfddua 121 57 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 121 58 - - HYPH work_kkta46aprvda3kxuww62zfddua 121 59 binding bind VBG work_kkta46aprvda3kxuww62zfddua 121 60 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 121 61 α α NN work_kkta46aprvda3kxuww62zfddua 121 62 and and CC work_kkta46aprvda3kxuww62zfddua 121 63 β β NNP work_kkta46aprvda3kxuww62zfddua 121 64 of of IN work_kkta46aprvda3kxuww62zfddua 121 65 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 121 66 ATP atp NN work_kkta46aprvda3kxuww62zfddua 121 67 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 121 68 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 121 69 60 60 CD work_kkta46aprvda3kxuww62zfddua 121 70 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 121 71 . . . work_kkta46aprvda3kxuww62zfddua 122 1 However however RB work_kkta46aprvda3kxuww62zfddua 122 2 , , , work_kkta46aprvda3kxuww62zfddua 122 3 the the DT work_kkta46aprvda3kxuww62zfddua 122 4 superimposition superimposition NN work_kkta46aprvda3kxuww62zfddua 122 5 of of IN work_kkta46aprvda3kxuww62zfddua 122 6 the the DT work_kkta46aprvda3kxuww62zfddua 122 7 two two CD work_kkta46aprvda3kxuww62zfddua 122 8 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 122 9 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 122 10 of of IN work_kkta46aprvda3kxuww62zfddua 122 11 A a NN work_kkta46aprvda3kxuww62zfddua 122 12 and and CC work_kkta46aprvda3kxuww62zfddua 122 13 β β NN work_kkta46aprvda3kxuww62zfddua 122 14 of of IN work_kkta46aprvda3kxuww62zfddua 122 15 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 122 16 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 122 17 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 122 18 and and CC work_kkta46aprvda3kxuww62zfddua 122 19 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 122 20 ATP atp NN work_kkta46aprvda3kxuww62zfddua 122 21 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 122 22 , , , work_kkta46aprvda3kxuww62zfddua 122 23 respectively respectively RB work_kkta46aprvda3kxuww62zfddua 122 24 , , , work_kkta46aprvda3kxuww62zfddua 122 25 e e NNP work_kkta46aprvda3kxuww62zfddua 122 26 EM EM NNP work_kkta46aprvda3kxuww62zfddua 122 27 map map NN work_kkta46aprvda3kxuww62zfddua 122 28 of of IN work_kkta46aprvda3kxuww62zfddua 122 29 archaeon archaeon NNP work_kkta46aprvda3kxuww62zfddua 122 30 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 122 31 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 122 32 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 122 33 EM EM NNP work_kkta46aprvda3kxuww62zfddua 122 34 Database Database NNP work_kkta46aprvda3kxuww62zfddua 122 35 ID ID NNP work_kkta46aprvda3kxuww62zfddua 122 36 : : : work_kkta46aprvda3kxuww62zfddua 122 37 EMD EMD NNP work_kkta46aprvda3kxuww62zfddua 122 38 1542 1542 CD work_kkta46aprvda3kxuww62zfddua 122 39 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 122 40 47 47 CD work_kkta46aprvda3kxuww62zfddua 122 41 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 122 42 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 122 43 . . . work_kkta46aprvda3kxuww62zfddua 123 1 Subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 123 2 A A NNP work_kkta46aprvda3kxuww62zfddua 123 3 3 3 CD work_kkta46aprvda3kxuww62zfddua 123 4 hexamer hexamer NN work_kkta46aprvda3kxuww62zfddua 123 5 . . . work_kkta46aprvda3kxuww62zfddua 124 1 The the DT work_kkta46aprvda3kxuww62zfddua 124 2 NMR NMR NNP work_kkta46aprvda3kxuww62zfddua 124 3 structure structure NN work_kkta46aprvda3kxuww62zfddua 124 4 of of IN work_kkta46aprvda3kxuww62zfddua 124 5 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 124 6 F F NNP work_kkta46aprvda3kxuww62zfddua 124 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 124 8 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 124 9 ID ID NNP work_kkta46aprvda3kxuww62zfddua 124 10 : : : work_kkta46aprvda3kxuww62zfddua 124 11 2OV6 2ov6 CD work_kkta46aprvda3kxuww62zfddua 124 12 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 124 13 53 53 CD work_kkta46aprvda3kxuww62zfddua 124 14 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 124 15 ; ; : work_kkta46aprvda3kxuww62zfddua 124 16 magenta magenta NNP work_kkta46aprvda3kxuww62zfddua 124 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 124 18 and and CC work_kkta46aprvda3kxuww62zfddua 124 19 the the DT work_kkta46aprvda3kxuww62zfddua 124 20 crystal crystal NNP work_kkta46aprvda3kxuww62zfddua 124 21 central central NNP work_kkta46aprvda3kxuww62zfddua 124 22 stalk stalk NNP work_kkta46aprvda3kxuww62zfddua 124 23 . . . work_kkta46aprvda3kxuww62zfddua 125 1 The the DT work_kkta46aprvda3kxuww62zfddua 125 2 structure structure NN work_kkta46aprvda3kxuww62zfddua 125 3 of of IN work_kkta46aprvda3kxuww62zfddua 125 4 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 125 5 a a DT work_kkta46aprvda3kxuww62zfddua 125 6 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 125 7 yellow yellow NN work_kkta46aprvda3kxuww62zfddua 125 8 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 125 9 was be VBD work_kkta46aprvda3kxuww62zfddua 125 10 taken take VBN work_kkta46aprvda3kxuww62zfddua 125 11 from from IN work_kkta46aprvda3kxuww62zfddua 125 12 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 125 13 ID ID NNP work_kkta46aprvda3kxuww62zfddua 125 14 : : : work_kkta46aprvda3kxuww62zfddua 125 15 3RRK 3rrk NN work_kkta46aprvda3kxuww62zfddua 125 16 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 125 17 81 81 CD work_kkta46aprvda3kxuww62zfddua 125 18 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 125 19 and and CC work_kkta46aprvda3kxuww62zfddua 125 20 yan yan NNP work_kkta46aprvda3kxuww62zfddua 125 21 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 125 22 was be VBD work_kkta46aprvda3kxuww62zfddua 125 23 taken take VBN work_kkta46aprvda3kxuww62zfddua 125 24 from from IN work_kkta46aprvda3kxuww62zfddua 125 25 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 125 26 ID ID NNP work_kkta46aprvda3kxuww62zfddua 125 27 : : : work_kkta46aprvda3kxuww62zfddua 125 28 3K5B 3k5b CD work_kkta46aprvda3kxuww62zfddua 125 29 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 125 30 77 77 CD work_kkta46aprvda3kxuww62zfddua 125 31 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 125 32 and and CC work_kkta46aprvda3kxuww62zfddua 125 33 reveals reveal VBZ work_kkta46aprvda3kxuww62zfddua 125 34 the the DT work_kkta46aprvda3kxuww62zfddua 125 35 almost almost RB work_kkta46aprvda3kxuww62zfddua 125 36 straight straight JJ work_kkta46aprvda3kxuww62zfddua 125 37 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 125 38 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 125 39 red red JJ work_kkta46aprvda3kxuww62zfddua 125 40 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 125 41 and and CC work_kkta46aprvda3kxuww62zfddua 125 42 the the DT work_kkta46aprvda3kxuww62zfddua 125 43 T. T. NNP work_kkta46aprvda3kxuww62zfddua 125 44 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 125 45 structure structure NN work_kkta46aprvda3kxuww62zfddua 125 46 form form NN work_kkta46aprvda3kxuww62zfddua 125 47 the the DT work_kkta46aprvda3kxuww62zfddua 125 48 kinked kinked JJ work_kkta46aprvda3kxuww62zfddua 125 49 second second JJ work_kkta46aprvda3kxuww62zfddua 125 50 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 125 51 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 125 52 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 125 53 C C NNP work_kkta46aprvda3kxuww62zfddua 125 54 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 125 55 . . . work_kkta46aprvda3kxuww62zfddua 126 1 It -PRON- PRP work_kkta46aprvda3kxuww62zfddua 126 2 has have VBZ work_kkta46aprvda3kxuww62zfddua 126 3 brane brane NN work_kkta46aprvda3kxuww62zfddua 126 4 - - HYPH work_kkta46aprvda3kxuww62zfddua 126 5 embedded embed VBN work_kkta46aprvda3kxuww62zfddua 126 6 domain domain NN work_kkta46aprvda3kxuww62zfddua 126 7 of of IN work_kkta46aprvda3kxuww62zfddua 126 8 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 126 9 a a DT work_kkta46aprvda3kxuww62zfddua 126 10 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 126 11 yellow yellow JJ work_kkta46aprvda3kxuww62zfddua 126 12 cylinder cylinder NN work_kkta46aprvda3kxuww62zfddua 126 13 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 126 14 causes cause VBZ work_kkta46aprvda3kxuww62zfddua 126 15 alterations alteration NNS work_kkta46aprvda3kxuww62zfddua 126 16 in in IN work_kkta46aprvda3kxuww62zfddua 126 17 the the DT work_kkta46aprvda3kxuww62zfddua 126 18 AO AO NNP work_kkta46aprvda3kxuww62zfddua 126 19 sector sector NN work_kkta46aprvda3kxuww62zfddua 126 20 , , , work_kkta46aprvda3kxuww62zfddua 126 21 unit unit NN work_kkta46aprvda3kxuww62zfddua 126 22 C. C. NNP work_kkta46aprvda3kxuww62zfddua 126 23 As As NNP work_kkta46aprvda3kxuww62zfddua 126 24 one one CD work_kkta46aprvda3kxuww62zfddua 126 25 consequence consequence NN work_kkta46aprvda3kxuww62zfddua 126 26 , , , work_kkta46aprvda3kxuww62zfddua 126 27 the the DT work_kkta46aprvda3kxuww62zfddua 126 28 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 126 29 a a DT work_kkta46aprvda3kxuww62zfddua 126 30 alterations alteration NNS work_kkta46aprvda3kxuww62zfddua 126 31 will will MD work_kkta46aprvda3kxuww62zfddua 126 32 force force VB work_kkta46aprvda3kxuww62zfddua 126 33 the the DT work_kkta46aprvda3kxuww62zfddua 126 34 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 126 35 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 126 36 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 126 37 storage storage NN work_kkta46aprvda3kxuww62zfddua 126 38 of of IN work_kkta46aprvda3kxuww62zfddua 126 39 transient transient JJ work_kkta46aprvda3kxuww62zfddua 126 40 elastic elastic JJ work_kkta46aprvda3kxuww62zfddua 126 41 energy energy NN work_kkta46aprvda3kxuww62zfddua 126 42 during during IN work_kkta46aprvda3kxuww62zfddua 126 43 ion ion NN work_kkta46aprvda3kxuww62zfddua 126 44 - - HYPH work_kkta46aprvda3kxuww62zfddua 126 45 pumping pumping NN work_kkta46aprvda3kxuww62zfddua 126 46 and and CC work_kkta46aprvda3kxuww62zfddua 126 47 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 126 48 synthesis/-hydrolysis synthesis/-hydrolysis NN work_kkta46aprvda3kxuww62zfddua 126 49 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 126 50 D D NNP work_kkta46aprvda3kxuww62zfddua 126 51 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 126 52 . . . work_kkta46aprvda3kxuww62zfddua 127 1 stalk stalk NNP work_kkta46aprvda3kxuww62zfddua 127 2 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 127 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 127 4 removed remove VBN work_kkta46aprvda3kxuww62zfddua 127 5 . . . work_kkta46aprvda3kxuww62zfddua 128 1 Fig fig NN work_kkta46aprvda3kxuww62zfddua 128 2 . . . work_kkta46aprvda3kxuww62zfddua 129 1 2 2 LS work_kkta46aprvda3kxuww62zfddua 129 2 . . . work_kkta46aprvda3kxuww62zfddua 130 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 130 2 A a DT work_kkta46aprvda3kxuww62zfddua 130 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 130 4 Structure structure NN work_kkta46aprvda3kxuww62zfddua 130 5 comparison comparison NN work_kkta46aprvda3kxuww62zfddua 130 6 of of IN work_kkta46aprvda3kxuww62zfddua 130 7 the the DT work_kkta46aprvda3kxuww62zfddua 130 8 bovine bovine NNP work_kkta46aprvda3kxuww62zfddua 130 9 β β NNP work_kkta46aprvda3kxuww62zfddua 130 10 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 130 11 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 130 12 yellow yellow NNP work_kkta46aprvda3kxuww62zfddua 130 13 ; ; : work_kkta46aprvda3kxuww62zfddua 130 14 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 130 15 ID ID NNP work_kkta46aprvda3kxuww62zfddua 130 16 : : : work_kkta46aprvda3kxuww62zfddua 130 17 1BMF 1BMF NNP work_kkta46aprvda3kxuww62zfddua 130 18 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 130 19 60 60 CD work_kkta46aprvda3kxuww62zfddua 130 20 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 130 21 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 130 22 and and CC work_kkta46aprvda3kxuww62zfddua 130 23 the the DT work_kkta46aprvda3kxuww62zfddua 130 24 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 130 25 – – : work_kkta46aprvda3kxuww62zfddua 130 26 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 130 27 bound bind VBD work_kkta46aprvda3kxuww62zfddua 130 28 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 130 29 A a DT work_kkta46aprvda3kxuww62zfddua 130 30 structure structure NN work_kkta46aprvda3kxuww62zfddua 130 31 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 130 32 orange orange JJ work_kkta46aprvda3kxuww62zfddua 130 33 ; ; : work_kkta46aprvda3kxuww62zfddua 130 34 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 130 35 ID ID NNP work_kkta46aprvda3kxuww62zfddua 130 36 : : : work_kkta46aprvda3kxuww62zfddua 130 37 3I4L 3i4l CD work_kkta46aprvda3kxuww62zfddua 130 38 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 130 39 49 49 CD work_kkta46aprvda3kxuww62zfddua 130 40 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 130 41 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 130 42 . . . work_kkta46aprvda3kxuww62zfddua 131 1 Subunit Subunit NNP work_kkta46aprvda3kxuww62zfddua 131 2 A A NNP work_kkta46aprvda3kxuww62zfddua 131 3 has have VBZ work_kkta46aprvda3kxuww62zfddua 131 4 two two CD work_kkta46aprvda3kxuww62zfddua 131 5 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 131 6 structural structural JJ work_kkta46aprvda3kxuww62zfddua 131 7 features feature NNS work_kkta46aprvda3kxuww62zfddua 131 8 compared compare VBN work_kkta46aprvda3kxuww62zfddua 131 9 to to IN work_kkta46aprvda3kxuww62zfddua 131 10 β β NNP work_kkta46aprvda3kxuww62zfddua 131 11 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 131 12 which which WDT work_kkta46aprvda3kxuww62zfddua 131 13 are be VBP work_kkta46aprvda3kxuww62zfddua 131 14 highlighted highlight VBN work_kkta46aprvda3kxuww62zfddua 131 15 in in IN work_kkta46aprvda3kxuww62zfddua 131 16 brown brown JJ work_kkta46aprvda3kxuww62zfddua 131 17 color color NN work_kkta46aprvda3kxuww62zfddua 131 18 ; ; : work_kkta46aprvda3kxuww62zfddua 131 19 the the DT work_kkta46aprvda3kxuww62zfddua 131 20 non non JJ work_kkta46aprvda3kxuww62zfddua 131 21 - - JJ work_kkta46aprvda3kxuww62zfddua 131 22 homologues homologues JJ work_kkta46aprvda3kxuww62zfddua 131 23 region region NN work_kkta46aprvda3kxuww62zfddua 131 24 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 131 25 NHR NHR NNP work_kkta46aprvda3kxuww62zfddua 131 26 from from IN work_kkta46aprvda3kxuww62zfddua 131 27 117 117 CD work_kkta46aprvda3kxuww62zfddua 131 28 to to IN work_kkta46aprvda3kxuww62zfddua 131 29 188 188 CD work_kkta46aprvda3kxuww62zfddua 131 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 131 31 and and CC work_kkta46aprvda3kxuww62zfddua 131 32 the the DT work_kkta46aprvda3kxuww62zfddua 131 33 C c NN work_kkta46aprvda3kxuww62zfddua 131 34 - - HYPH work_kkta46aprvda3kxuww62zfddua 131 35 terminal terminal NNP work_kkta46aprvda3kxuww62zfddua 131 36 two two CD work_kkta46aprvda3kxuww62zfddua 131 37 helix helix NN work_kkta46aprvda3kxuww62zfddua 131 38 extension extension NN work_kkta46aprvda3kxuww62zfddua 131 39 from from IN work_kkta46aprvda3kxuww62zfddua 131 40 540 540 CD work_kkta46aprvda3kxuww62zfddua 131 41 to to TO work_kkta46aprvda3kxuww62zfddua 131 42 588 588 CD work_kkta46aprvda3kxuww62zfddua 131 43 residues residue NNS work_kkta46aprvda3kxuww62zfddua 131 44 . . . work_kkta46aprvda3kxuww62zfddua 132 1 The the DT work_kkta46aprvda3kxuww62zfddua 132 2 difference difference NN work_kkta46aprvda3kxuww62zfddua 132 3 in in IN work_kkta46aprvda3kxuww62zfddua 132 4 the the DT work_kkta46aprvda3kxuww62zfddua 132 5 binding binding NN work_kkta46aprvda3kxuww62zfddua 132 6 of of IN work_kkta46aprvda3kxuww62zfddua 132 7 the the DT work_kkta46aprvda3kxuww62zfddua 132 8 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 132 9 – – : work_kkta46aprvda3kxuww62zfddua 132 10 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 132 11 molecules molecule NNS work_kkta46aprvda3kxuww62zfddua 132 12 could could MD work_kkta46aprvda3kxuww62zfddua 132 13 also also RB work_kkta46aprvda3kxuww62zfddua 132 14 be be VB work_kkta46aprvda3kxuww62zfddua 132 15 clearly clearly RB work_kkta46aprvda3kxuww62zfddua 132 16 noted note VBN work_kkta46aprvda3kxuww62zfddua 132 17 . . . work_kkta46aprvda3kxuww62zfddua 133 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 133 2 B b NN work_kkta46aprvda3kxuww62zfddua 133 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 133 4 Structure structure NN work_kkta46aprvda3kxuww62zfddua 133 5 comparison comparison NN work_kkta46aprvda3kxuww62zfddua 133 6 of of IN work_kkta46aprvda3kxuww62zfddua 133 7 vanadate vanadate NNP work_kkta46aprvda3kxuww62zfddua 133 8 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 133 9 AVi AVi NNP work_kkta46aprvda3kxuww62zfddua 133 10 , , , work_kkta46aprvda3kxuww62zfddua 133 11 cyan cyan NNP work_kkta46aprvda3kxuww62zfddua 133 12 ; ; : work_kkta46aprvda3kxuww62zfddua 133 13 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 133 14 ID ID NNP work_kkta46aprvda3kxuww62zfddua 133 15 : : : work_kkta46aprvda3kxuww62zfddua 133 16 3P20 3p20 CD work_kkta46aprvda3kxuww62zfddua 133 17 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 133 18 66 66 CD work_kkta46aprvda3kxuww62zfddua 133 19 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 133 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 133 21 , , , work_kkta46aprvda3kxuww62zfddua 133 22 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 133 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 133 24 AS as IN work_kkta46aprvda3kxuww62zfddua 133 25 , , , work_kkta46aprvda3kxuww62zfddua 133 26 yellow yellow NN work_kkta46aprvda3kxuww62zfddua 133 27 ; ; : work_kkta46aprvda3kxuww62zfddua 133 28 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 133 29 ID ID NNP work_kkta46aprvda3kxuww62zfddua 133 30 : : : work_kkta46aprvda3kxuww62zfddua 133 31 3I72 3i72 CD work_kkta46aprvda3kxuww62zfddua 133 32 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 133 33 49 49 CD work_kkta46aprvda3kxuww62zfddua 133 34 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 133 35 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 133 36 and and CC work_kkta46aprvda3kxuww62zfddua 133 37 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 133 38 – – : work_kkta46aprvda3kxuww62zfddua 133 39 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 133 40 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 133 41 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 133 42 , , , work_kkta46aprvda3kxuww62zfddua 133 43 orange orange NN work_kkta46aprvda3kxuww62zfddua 133 44 ; ; : work_kkta46aprvda3kxuww62zfddua 133 45 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 133 46 ID ID NNP work_kkta46aprvda3kxuww62zfddua 133 47 : : : work_kkta46aprvda3kxuww62zfddua 133 48 3I4L 3i4l CD work_kkta46aprvda3kxuww62zfddua 133 49 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 133 50 49 49 CD work_kkta46aprvda3kxuww62zfddua 133 51 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 133 52 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 133 53 bound bind VBN work_kkta46aprvda3kxuww62zfddua 133 54 structures structure NNS work_kkta46aprvda3kxuww62zfddua 133 55 of of IN work_kkta46aprvda3kxuww62zfddua 133 56 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 133 57 A. a. NN work_kkta46aprvda3kxuww62zfddua 134 1 The the DT work_kkta46aprvda3kxuww62zfddua 134 2 sheet sheet NN work_kkta46aprvda3kxuww62zfddua 134 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 134 4 loop loop NN work_kkta46aprvda3kxuww62zfddua 134 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 134 6 helix helix NN work_kkta46aprvda3kxuww62zfddua 134 7 motif motif NN work_kkta46aprvda3kxuww62zfddua 134 8 of of IN work_kkta46aprvda3kxuww62zfddua 134 9 the the DT work_kkta46aprvda3kxuww62zfddua 134 10 P P NNP work_kkta46aprvda3kxuww62zfddua 134 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 134 12 loop loop NNP work_kkta46aprvda3kxuww62zfddua 134 13 is be VBZ work_kkta46aprvda3kxuww62zfddua 134 14 shown show VBN work_kkta46aprvda3kxuww62zfddua 134 15 in in IN work_kkta46aprvda3kxuww62zfddua 134 16 cartoon cartoon NN work_kkta46aprvda3kxuww62zfddua 134 17 representation representation NN work_kkta46aprvda3kxuww62zfddua 134 18 . . . work_kkta46aprvda3kxuww62zfddua 135 1 The the DT work_kkta46aprvda3kxuww62zfddua 135 2 various various JJ work_kkta46aprvda3kxuww62zfddua 135 3 modes mode NNS work_kkta46aprvda3kxuww62zfddua 135 4 of of IN work_kkta46aprvda3kxuww62zfddua 135 5 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 135 6 of of IN work_kkta46aprvda3kxuww62zfddua 135 7 the the DT work_kkta46aprvda3kxuww62zfddua 135 8 bound bound NNP work_kkta46aprvda3kxuww62zfddua 135 9 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 135 10 , , , work_kkta46aprvda3kxuww62zfddua 135 11 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 135 12 and and CC work_kkta46aprvda3kxuww62zfddua 135 13 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 135 14 – – : work_kkta46aprvda3kxuww62zfddua 135 15 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 135 16 molecules molecule NNS work_kkta46aprvda3kxuww62zfddua 135 17 to to IN work_kkta46aprvda3kxuww62zfddua 135 18 the the DT work_kkta46aprvda3kxuww62zfddua 135 19 S238 S238 NNP work_kkta46aprvda3kxuww62zfddua 135 20 residues residue NNS work_kkta46aprvda3kxuww62zfddua 135 21 in in IN work_kkta46aprvda3kxuww62zfddua 135 22 the the DT work_kkta46aprvda3kxuww62zfddua 135 23 AS AS NNP work_kkta46aprvda3kxuww62zfddua 135 24 , , , work_kkta46aprvda3kxuww62zfddua 135 25 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 135 26 and and CC work_kkta46aprvda3kxuww62zfddua 135 27 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 135 28 structures structure NNS work_kkta46aprvda3kxuww62zfddua 135 29 are be VBP work_kkta46aprvda3kxuww62zfddua 135 30 shown show VBN work_kkta46aprvda3kxuww62zfddua 135 31 . . . work_kkta46aprvda3kxuww62zfddua 136 1 The the DT work_kkta46aprvda3kxuww62zfddua 136 2 crucial crucial JJ work_kkta46aprvda3kxuww62zfddua 136 3 water water NN work_kkta46aprvda3kxuww62zfddua 136 4 molecules molecule NNS work_kkta46aprvda3kxuww62zfddua 136 5 are be VBP work_kkta46aprvda3kxuww62zfddua 136 6 shown show VBN work_kkta46aprvda3kxuww62zfddua 136 7 in in IN work_kkta46aprvda3kxuww62zfddua 136 8 sphere sphere JJ work_kkta46aprvda3kxuww62zfddua 136 9 representation representation NN work_kkta46aprvda3kxuww62zfddua 136 10 . . . work_kkta46aprvda3kxuww62zfddua 137 1 The the DT work_kkta46aprvda3kxuww62zfddua 137 2 water water NN work_kkta46aprvda3kxuww62zfddua 137 3 molecule molecule VBP work_kkta46aprvda3kxuww62zfddua 137 4 from from IN work_kkta46aprvda3kxuww62zfddua 137 5 the the DT work_kkta46aprvda3kxuww62zfddua 137 6 AS AS NNP work_kkta46aprvda3kxuww62zfddua 137 7 structure structure NN work_kkta46aprvda3kxuww62zfddua 137 8 is be VBZ work_kkta46aprvda3kxuww62zfddua 137 9 marked mark VBN work_kkta46aprvda3kxuww62zfddua 137 10 as as IN work_kkta46aprvda3kxuww62zfddua 137 11 W1 W1 NNP work_kkta46aprvda3kxuww62zfddua 137 12 and and CC work_kkta46aprvda3kxuww62zfddua 137 13 the the DT work_kkta46aprvda3kxuww62zfddua 137 14 one one CD work_kkta46aprvda3kxuww62zfddua 137 15 from from IN work_kkta46aprvda3kxuww62zfddua 137 16 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 137 17 is be VBZ work_kkta46aprvda3kxuww62zfddua 137 18 marked mark VBN work_kkta46aprvda3kxuww62zfddua 137 19 as as IN work_kkta46aprvda3kxuww62zfddua 137 20 W2 W2 NNP work_kkta46aprvda3kxuww62zfddua 137 21 . . . work_kkta46aprvda3kxuww62zfddua 138 1 The the DT work_kkta46aprvda3kxuww62zfddua 138 2 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 138 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 138 4 yellow yellow JJ work_kkta46aprvda3kxuww62zfddua 138 5 stick stick NN work_kkta46aprvda3kxuww62zfddua 138 6 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 138 7 bound bind VBN work_kkta46aprvda3kxuww62zfddua 138 8 structure structure NN work_kkta46aprvda3kxuww62zfddua 138 9 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 138 10 AS AS NNP work_kkta46aprvda3kxuww62zfddua 138 11 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 138 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 138 13 assumed assume VBN work_kkta46aprvda3kxuww62zfddua 138 14 to to TO work_kkta46aprvda3kxuww62zfddua 138 15 be be VB work_kkta46aprvda3kxuww62zfddua 138 16 in in IN work_kkta46aprvda3kxuww62zfddua 138 17 a a DT work_kkta46aprvda3kxuww62zfddua 138 18 substrate substrate NN work_kkta46aprvda3kxuww62zfddua 138 19 - - HYPH work_kkta46aprvda3kxuww62zfddua 138 20 binding bind VBG work_kkta46aprvda3kxuww62zfddua 138 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 138 22 like like JJ work_kkta46aprvda3kxuww62zfddua 138 23 state state NN work_kkta46aprvda3kxuww62zfddua 138 24 , , , work_kkta46aprvda3kxuww62zfddua 138 25 the the DT work_kkta46aprvda3kxuww62zfddua 138 26 vanadate- vanadate- NNP work_kkta46aprvda3kxuww62zfddua 138 27 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 138 28 V1 V1 NNP work_kkta46aprvda3kxuww62zfddua 138 29 , , , work_kkta46aprvda3kxuww62zfddua 138 30 cyan cyan NNP work_kkta46aprvda3kxuww62zfddua 138 31 stick stick NNP work_kkta46aprvda3kxuww62zfddua 138 32 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 138 33 bound bind VBN work_kkta46aprvda3kxuww62zfddua 138 34 structure structure NN work_kkta46aprvda3kxuww62zfddua 138 35 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 138 36 AVi AVi NNP work_kkta46aprvda3kxuww62zfddua 138 37 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 138 38 is be VBZ work_kkta46aprvda3kxuww62zfddua 138 39 proposed propose VBN work_kkta46aprvda3kxuww62zfddua 138 40 to to TO work_kkta46aprvda3kxuww62zfddua 138 41 take take VB work_kkta46aprvda3kxuww62zfddua 138 42 a a DT work_kkta46aprvda3kxuww62zfddua 138 43 transition transition NN work_kkta46aprvda3kxuww62zfddua 138 44 like like IN work_kkta46aprvda3kxuww62zfddua 138 45 state state NN work_kkta46aprvda3kxuww62zfddua 138 46 , , , work_kkta46aprvda3kxuww62zfddua 138 47 and and CC work_kkta46aprvda3kxuww62zfddua 138 48 the the DT work_kkta46aprvda3kxuww62zfddua 138 49 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 138 50 – – : work_kkta46aprvda3kxuww62zfddua 138 51 PNP- PNP- NNP work_kkta46aprvda3kxuww62zfddua 138 52 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 138 53 orange orange NNP work_kkta46aprvda3kxuww62zfddua 138 54 stick stick NNP work_kkta46aprvda3kxuww62zfddua 138 55 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 138 56 bound bind VBN work_kkta46aprvda3kxuww62zfddua 138 57 structure structure NN work_kkta46aprvda3kxuww62zfddua 138 58 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 138 59 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 138 60 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 138 61 the the DT work_kkta46aprvda3kxuww62zfddua 138 62 product product NN work_kkta46aprvda3kxuww62zfddua 138 63 - - HYPH work_kkta46aprvda3kxuww62zfddua 138 64 bound bind VBN work_kkta46aprvda3kxuww62zfddua 138 65 state state NN work_kkta46aprvda3kxuww62zfddua 138 66 . . . work_kkta46aprvda3kxuww62zfddua 139 1 The the DT work_kkta46aprvda3kxuww62zfddua 139 2 S238 S238 NNP work_kkta46aprvda3kxuww62zfddua 139 3 residue residue NN work_kkta46aprvda3kxuww62zfddua 139 4 plays play VBZ work_kkta46aprvda3kxuww62zfddua 139 5 an an DT work_kkta46aprvda3kxuww62zfddua 139 6 important important JJ work_kkta46aprvda3kxuww62zfddua 139 7 role role NN work_kkta46aprvda3kxuww62zfddua 139 8 by by IN work_kkta46aprvda3kxuww62zfddua 139 9 way way NN work_kkta46aprvda3kxuww62zfddua 139 10 of of IN work_kkta46aprvda3kxuww62zfddua 139 11 interacting interact VBG work_kkta46aprvda3kxuww62zfddua 139 12 with with IN work_kkta46aprvda3kxuww62zfddua 139 13 the the DT work_kkta46aprvda3kxuww62zfddua 139 14 ligand ligand NN work_kkta46aprvda3kxuww62zfddua 139 15 molecules molecule NNS work_kkta46aprvda3kxuww62zfddua 139 16 in in IN work_kkta46aprvda3kxuww62zfddua 139 17 different different JJ work_kkta46aprvda3kxuww62zfddua 139 18 modes mode NNS work_kkta46aprvda3kxuww62zfddua 139 19 in in IN work_kkta46aprvda3kxuww62zfddua 139 20 all all DT work_kkta46aprvda3kxuww62zfddua 139 21 states state NNS work_kkta46aprvda3kxuww62zfddua 139 22 . . . work_kkta46aprvda3kxuww62zfddua 140 1 The the DT work_kkta46aprvda3kxuww62zfddua 140 2 substrate substrate NN work_kkta46aprvda3kxuww62zfddua 140 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 140 4 binding binding NN work_kkta46aprvda3kxuww62zfddua 140 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 140 6 like like JJ work_kkta46aprvda3kxuww62zfddua 140 7 state state NN work_kkta46aprvda3kxuww62zfddua 140 8 and and CC work_kkta46aprvda3kxuww62zfddua 140 9 the the DT work_kkta46aprvda3kxuww62zfddua 140 10 product product NN work_kkta46aprvda3kxuww62zfddua 140 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 140 12 release release NN work_kkta46aprvda3kxuww62zfddua 140 13 state state NN work_kkta46aprvda3kxuww62zfddua 140 14 are be VBP work_kkta46aprvda3kxuww62zfddua 140 15 hydrated hydrate VBN work_kkta46aprvda3kxuww62zfddua 140 16 while while IN work_kkta46aprvda3kxuww62zfddua 140 17 the the DT work_kkta46aprvda3kxuww62zfddua 140 18 transition transition NN work_kkta46aprvda3kxuww62zfddua 140 19 - - HYPH work_kkta46aprvda3kxuww62zfddua 140 20 like like JJ work_kkta46aprvda3kxuww62zfddua 140 21 state state NN work_kkta46aprvda3kxuww62zfddua 140 22 is be VBZ work_kkta46aprvda3kxuww62zfddua 140 23 deprived deprive VBN work_kkta46aprvda3kxuww62zfddua 140 24 of of IN work_kkta46aprvda3kxuww62zfddua 140 25 water water NN work_kkta46aprvda3kxuww62zfddua 140 26 molecules molecule NNS work_kkta46aprvda3kxuww62zfddua 140 27 in in IN work_kkta46aprvda3kxuww62zfddua 140 28 the the DT work_kkta46aprvda3kxuww62zfddua 140 29 active active JJ work_kkta46aprvda3kxuww62zfddua 140 30 site site NN work_kkta46aprvda3kxuww62zfddua 140 31 . . . work_kkta46aprvda3kxuww62zfddua 141 1 The the DT work_kkta46aprvda3kxuww62zfddua 141 2 distances distance NNS work_kkta46aprvda3kxuww62zfddua 141 3 between between IN work_kkta46aprvda3kxuww62zfddua 141 4 the the DT work_kkta46aprvda3kxuww62zfddua 141 5 closest close JJS work_kkta46aprvda3kxuww62zfddua 141 6 oxygen oxygen NN work_kkta46aprvda3kxuww62zfddua 141 7 atom atom NN work_kkta46aprvda3kxuww62zfddua 141 8 of of IN work_kkta46aprvda3kxuww62zfddua 141 9 the the DT work_kkta46aprvda3kxuww62zfddua 141 10 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 141 11 , , , work_kkta46aprvda3kxuww62zfddua 141 12 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 141 13 and and CC work_kkta46aprvda3kxuww62zfddua 141 14 γ γ NN work_kkta46aprvda3kxuww62zfddua 141 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 141 16 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 141 17 of of IN work_kkta46aprvda3kxuww62zfddua 141 18 the the DT work_kkta46aprvda3kxuww62zfddua 141 19 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 141 20 – – : work_kkta46aprvda3kxuww62zfddua 141 21 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 141 22 molecules molecule NNS work_kkta46aprvda3kxuww62zfddua 141 23 to to IN work_kkta46aprvda3kxuww62zfddua 141 24 the the DT work_kkta46aprvda3kxuww62zfddua 141 25 GER GER NNP work_kkta46aprvda3kxuww62zfddua 141 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 141 27 loop loop NN work_kkta46aprvda3kxuww62zfddua 141 28 residues residue VBZ work_kkta46aprvda3kxuww62zfddua 141 29 E263 E263 NNP work_kkta46aprvda3kxuww62zfddua 141 30 and and CC work_kkta46aprvda3kxuww62zfddua 141 31 R264 R264 NNP work_kkta46aprvda3kxuww62zfddua 141 32 for for IN work_kkta46aprvda3kxuww62zfddua 141 33 the the DT work_kkta46aprvda3kxuww62zfddua 141 34 AS AS NNP work_kkta46aprvda3kxuww62zfddua 141 35 , , , work_kkta46aprvda3kxuww62zfddua 141 36 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 141 37 and and CC work_kkta46aprvda3kxuww62zfddua 141 38 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 141 39 structures structure NNS work_kkta46aprvda3kxuww62zfddua 141 40 are be VBP work_kkta46aprvda3kxuww62zfddua 141 41 also also RB work_kkta46aprvda3kxuww62zfddua 141 42 indicated indicate VBN work_kkta46aprvda3kxuww62zfddua 141 43 . . . work_kkta46aprvda3kxuww62zfddua 142 1 The the DT work_kkta46aprvda3kxuww62zfddua 142 2 second second JJ work_kkta46aprvda3kxuww62zfddua 142 3 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 142 4 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 142 5 V2 v2 NN work_kkta46aprvda3kxuww62zfddua 142 6 , , , work_kkta46aprvda3kxuww62zfddua 142 7 cyan cyan NNP work_kkta46aprvda3kxuww62zfddua 142 8 stick stick NNP work_kkta46aprvda3kxuww62zfddua 142 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 142 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 142 11 also also RB work_kkta46aprvda3kxuww62zfddua 142 12 shown show VBN work_kkta46aprvda3kxuww62zfddua 142 13 which which WDT work_kkta46aprvda3kxuww62zfddua 142 14 demonstrates demonstrate VBZ work_kkta46aprvda3kxuww62zfddua 142 15 the the DT work_kkta46aprvda3kxuww62zfddua 142 16 pathway pathway NN work_kkta46aprvda3kxuww62zfddua 142 17 of of IN work_kkta46aprvda3kxuww62zfddua 142 18 entry entry NN work_kkta46aprvda3kxuww62zfddua 142 19 of of IN work_kkta46aprvda3kxuww62zfddua 142 20 the the DT work_kkta46aprvda3kxuww62zfddua 142 21 substrate substrate JJ work_kkta46aprvda3kxuww62zfddua 142 22 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 142 23 . . . work_kkta46aprvda3kxuww62zfddua 143 1 943G. 943G. NNP work_kkta46aprvda3kxuww62zfddua 144 1 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 144 2 et et FW work_kkta46aprvda3kxuww62zfddua 144 3 al al NNP work_kkta46aprvda3kxuww62zfddua 144 4 . . . work_kkta46aprvda3kxuww62zfddua 145 1 / / NFP work_kkta46aprvda3kxuww62zfddua 145 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 145 3 et et NN work_kkta46aprvda3kxuww62zfddua 145 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 145 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 145 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 145 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 145 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 145 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 145 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 145 11 shows show VBZ work_kkta46aprvda3kxuww62zfddua 145 12 differences difference NNS work_kkta46aprvda3kxuww62zfddua 145 13 in in IN work_kkta46aprvda3kxuww62zfddua 145 14 the the DT work_kkta46aprvda3kxuww62zfddua 145 15 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 145 16 with with IN work_kkta46aprvda3kxuww62zfddua 145 17 the the DT work_kkta46aprvda3kxuww62zfddua 145 18 additional additional JJ work_kkta46aprvda3kxuww62zfddua 145 19 α α NNS work_kkta46aprvda3kxuww62zfddua 145 20 - - HYPH work_kkta46aprvda3kxuww62zfddua 145 21 helices helix NNS work_kkta46aprvda3kxuww62zfddua 145 22 at at IN work_kkta46aprvda3kxuww62zfddua 145 23 the the DT work_kkta46aprvda3kxuww62zfddua 145 24 very very JJ work_kkta46aprvda3kxuww62zfddua 145 25 C c NN work_kkta46aprvda3kxuww62zfddua 145 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 145 27 terminus terminus NN work_kkta46aprvda3kxuww62zfddua 145 28 of of IN work_kkta46aprvda3kxuww62zfddua 145 29 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 145 30 A a NN work_kkta46aprvda3kxuww62zfddua 145 31 and and CC work_kkta46aprvda3kxuww62zfddua 145 32 the the DT work_kkta46aprvda3kxuww62zfddua 145 33 so so RB work_kkta46aprvda3kxuww62zfddua 145 34 - - HYPH work_kkta46aprvda3kxuww62zfddua 145 35 called call VBN work_kkta46aprvda3kxuww62zfddua 145 36 non non JJ work_kkta46aprvda3kxuww62zfddua 145 37 - - JJ work_kkta46aprvda3kxuww62zfddua 145 38 homologous homologous JJ work_kkta46aprvda3kxuww62zfddua 145 39 region region NN work_kkta46aprvda3kxuww62zfddua 145 40 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 145 41 NHR NHR NNP work_kkta46aprvda3kxuww62zfddua 145 42 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 145 43 , , , work_kkta46aprvda3kxuww62zfddua 145 44 of of IN work_kkta46aprvda3kxuww62zfddua 145 45 about about RB work_kkta46aprvda3kxuww62zfddua 145 46 90 90 CD work_kkta46aprvda3kxuww62zfddua 145 47 amino amino JJ work_kkta46aprvda3kxuww62zfddua 145 48 acids acid NNS work_kkta46aprvda3kxuww62zfddua 145 49 near near IN work_kkta46aprvda3kxuww62zfddua 145 50 the the DT work_kkta46aprvda3kxuww62zfddua 145 51 N N NNP work_kkta46aprvda3kxuww62zfddua 145 52 - - HYPH work_kkta46aprvda3kxuww62zfddua 145 53 terminus terminus NN work_kkta46aprvda3kxuww62zfddua 145 54 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 145 55 49 49 CD work_kkta46aprvda3kxuww62zfddua 145 56 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 145 57 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 145 58 Fig fig NN work_kkta46aprvda3kxuww62zfddua 145 59 . . . work_kkta46aprvda3kxuww62zfddua 146 1 2A 2a LS work_kkta46aprvda3kxuww62zfddua 146 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 146 3 , , , work_kkta46aprvda3kxuww62zfddua 146 4 which which WDT work_kkta46aprvda3kxuww62zfddua 146 5 are be VBP work_kkta46aprvda3kxuww62zfddua 146 6 not not RB work_kkta46aprvda3kxuww62zfddua 146 7 present present JJ work_kkta46aprvda3kxuww62zfddua 146 8 in in IN work_kkta46aprvda3kxuww62zfddua 146 9 β β NN work_kkta46aprvda3kxuww62zfddua 146 10 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 146 11 of of IN work_kkta46aprvda3kxuww62zfddua 146 12 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 146 13 ATP atp NN work_kkta46aprvda3kxuww62zfddua 146 14 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 146 15 , , , work_kkta46aprvda3kxuww62zfddua 146 16 but but CC work_kkta46aprvda3kxuww62zfddua 146 17 present present JJ work_kkta46aprvda3kxuww62zfddua 146 18 in in IN work_kkta46aprvda3kxuww62zfddua 146 19 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 146 20 A a NN work_kkta46aprvda3kxuww62zfddua 146 21 of of IN work_kkta46aprvda3kxuww62zfddua 146 22 the the DT work_kkta46aprvda3kxuww62zfddua 146 23 related related JJ work_kkta46aprvda3kxuww62zfddua 146 24 eukaryotic eukaryotic JJ work_kkta46aprvda3kxuww62zfddua 146 25 V1VO v1vo NN work_kkta46aprvda3kxuww62zfddua 146 26 ATPases atpase VBZ work_kkta46aprvda3kxuww62zfddua 146 27 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 146 28 61,62 61,62 CD work_kkta46aprvda3kxuww62zfddua 146 29 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 146 30 . . . work_kkta46aprvda3kxuww62zfddua 147 1 In in IN work_kkta46aprvda3kxuww62zfddua 147 2 comparison comparison NN work_kkta46aprvda3kxuww62zfddua 147 3 , , , work_kkta46aprvda3kxuww62zfddua 147 4 as as IN work_kkta46aprvda3kxuww62zfddua 147 5 shown show VBN work_kkta46aprvda3kxuww62zfddua 147 6 in in IN work_kkta46aprvda3kxuww62zfddua 147 7 the the DT work_kkta46aprvda3kxuww62zfddua 147 8 crystal crystal NN work_kkta46aprvda3kxuww62zfddua 147 9 structure structure NN work_kkta46aprvda3kxuww62zfddua 147 10 of of IN work_kkta46aprvda3kxuww62zfddua 147 11 the the DT work_kkta46aprvda3kxuww62zfddua 147 12 M. M. NNP work_kkta46aprvda3kxuww62zfddua 147 13 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 147 14 Gö1 gö1 VBP work_kkta46aprvda3kxuww62zfddua 147 15 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 147 16 ATP atp NN work_kkta46aprvda3kxuww62zfddua 147 17 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 147 18 B b NN work_kkta46aprvda3kxuww62zfddua 147 19 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 147 20 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 147 21 50 50 CD work_kkta46aprvda3kxuww62zfddua 147 22 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 147 23 , , , work_kkta46aprvda3kxuww62zfddua 147 24 the the DT work_kkta46aprvda3kxuww62zfddua 147 25 peptides peptide NNS work_kkta46aprvda3kxuww62zfddua 147 26 G13 g13 VBP work_kkta46aprvda3kxuww62zfddua 147 27 to to IN work_kkta46aprvda3kxuww62zfddua 147 28 P23 P23 NNP work_kkta46aprvda3kxuww62zfddua 147 29 of of IN work_kkta46aprvda3kxuww62zfddua 147 30 the the DT work_kkta46aprvda3kxuww62zfddua 147 31 N n NN work_kkta46aprvda3kxuww62zfddua 147 32 - - HYPH work_kkta46aprvda3kxuww62zfddua 147 33 terminus terminus NN work_kkta46aprvda3kxuww62zfddua 147 34 of of IN work_kkta46aprvda3kxuww62zfddua 147 35 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 147 36 B B NNP work_kkta46aprvda3kxuww62zfddua 147 37 forms form VBZ work_kkta46aprvda3kxuww62zfddua 147 38 a a DT work_kkta46aprvda3kxuww62zfddua 147 39 β β NN work_kkta46aprvda3kxuww62zfddua 147 40 - - HYPH work_kkta46aprvda3kxuww62zfddua 147 41 sheet sheet NN work_kkta46aprvda3kxuww62zfddua 147 42 - - HYPH work_kkta46aprvda3kxuww62zfddua 147 43 loop loop NN work_kkta46aprvda3kxuww62zfddua 147 44 structure structure NN work_kkta46aprvda3kxuww62zfddua 147 45 , , , work_kkta46aprvda3kxuww62zfddua 147 46 and and CC work_kkta46aprvda3kxuww62zfddua 147 47 is be VBZ work_kkta46aprvda3kxuww62zfddua 147 48 homolo- homolo- NNP work_kkta46aprvda3kxuww62zfddua 147 49 gous gous JJ work_kkta46aprvda3kxuww62zfddua 147 50 to to IN work_kkta46aprvda3kxuww62zfddua 147 51 the the DT work_kkta46aprvda3kxuww62zfddua 147 52 actin actin RB work_kkta46aprvda3kxuww62zfddua 147 53 - - HYPH work_kkta46aprvda3kxuww62zfddua 147 54 binding bind VBG work_kkta46aprvda3kxuww62zfddua 147 55 motif motif NN work_kkta46aprvda3kxuww62zfddua 147 56 of of IN work_kkta46aprvda3kxuww62zfddua 147 57 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 147 58 B b NN work_kkta46aprvda3kxuww62zfddua 147 59 of of IN work_kkta46aprvda3kxuww62zfddua 147 60 the the DT work_kkta46aprvda3kxuww62zfddua 147 61 human human JJ work_kkta46aprvda3kxuww62zfddua 147 62 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 147 63 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 147 64 . . . work_kkta46aprvda3kxuww62zfddua 148 1 Whether whether IN work_kkta46aprvda3kxuww62zfddua 148 2 the the DT work_kkta46aprvda3kxuww62zfddua 148 3 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 148 4 headpiece headpiece NN work_kkta46aprvda3kxuww62zfddua 148 5 is be VBZ work_kkta46aprvda3kxuww62zfddua 148 6 linked link VBN work_kkta46aprvda3kxuww62zfddua 148 7 with with IN work_kkta46aprvda3kxuww62zfddua 148 8 the the DT work_kkta46aprvda3kxuww62zfddua 148 9 actin actin JJ work_kkta46aprvda3kxuww62zfddua 148 10 network network NN work_kkta46aprvda3kxuww62zfddua 148 11 via via IN work_kkta46aprvda3kxuww62zfddua 148 12 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 148 13 B B NNP work_kkta46aprvda3kxuww62zfddua 148 14 , , , work_kkta46aprvda3kxuww62zfddua 148 15 as as IN work_kkta46aprvda3kxuww62zfddua 148 16 described describe VBN work_kkta46aprvda3kxuww62zfddua 148 17 for for IN work_kkta46aprvda3kxuww62zfddua 148 18 the the DT work_kkta46aprvda3kxuww62zfddua 148 19 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 148 20 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 148 21 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 148 22 63 63 CD work_kkta46aprvda3kxuww62zfddua 148 23 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 148 24 , , , work_kkta46aprvda3kxuww62zfddua 148 25 has have VBZ work_kkta46aprvda3kxuww62zfddua 148 26 to to TO work_kkta46aprvda3kxuww62zfddua 148 27 be be VB work_kkta46aprvda3kxuww62zfddua 148 28 resolved resolve VBN work_kkta46aprvda3kxuww62zfddua 148 29 . . . work_kkta46aprvda3kxuww62zfddua 149 1 4.3 4.3 LS work_kkta46aprvda3kxuww62zfddua 149 2 . . . work_kkta46aprvda3kxuww62zfddua 150 1 Critical critical JJ work_kkta46aprvda3kxuww62zfddua 150 2 residues residue NNS work_kkta46aprvda3kxuww62zfddua 150 3 in in IN work_kkta46aprvda3kxuww62zfddua 150 4 the the DT work_kkta46aprvda3kxuww62zfddua 150 5 P P NNP work_kkta46aprvda3kxuww62zfddua 150 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 150 7 loop loop NN work_kkta46aprvda3kxuww62zfddua 150 8 of of IN work_kkta46aprvda3kxuww62zfddua 150 9 the the DT work_kkta46aprvda3kxuww62zfddua 150 10 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 150 11 A A NNP work_kkta46aprvda3kxuww62zfddua 150 12 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 150 13 Recently recently RB work_kkta46aprvda3kxuww62zfddua 150 14 , , , work_kkta46aprvda3kxuww62zfddua 150 15 the the DT work_kkta46aprvda3kxuww62zfddua 150 16 structure structure NN work_kkta46aprvda3kxuww62zfddua 150 17 of of IN work_kkta46aprvda3kxuww62zfddua 150 18 the the DT work_kkta46aprvda3kxuww62zfddua 150 19 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 150 20 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 150 21 A A NNP work_kkta46aprvda3kxuww62zfddua 150 22 of of IN work_kkta46aprvda3kxuww62zfddua 150 23 the the DT work_kkta46aprvda3kxuww62zfddua 150 24 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 150 25 horikoshii horikoshii NN work_kkta46aprvda3kxuww62zfddua 150 26 OT3 OT3 NNP work_kkta46aprvda3kxuww62zfddua 150 27 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 150 28 ATP atp NN work_kkta46aprvda3kxuww62zfddua 150 29 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 150 30 of of IN work_kkta46aprvda3kxuww62zfddua 150 31 the the DT work_kkta46aprvda3kxuww62zfddua 150 32 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 150 33 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 150 34 AS AS NNP work_kkta46aprvda3kxuww62zfddua 150 35 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 150 36 , , , work_kkta46aprvda3kxuww62zfddua 150 37 ADP ADP NNP work_kkta46aprvda3kxuww62zfddua 150 38 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 150 39 AADP AADP NNP work_kkta46aprvda3kxuww62zfddua 150 40 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 150 41 and and CC work_kkta46aprvda3kxuww62zfddua 150 42 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 150 43 – – : work_kkta46aprvda3kxuww62zfddua 150 44 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 150 45 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 150 46 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 150 47 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 150 48 bound bind VBN work_kkta46aprvda3kxuww62zfddua 150 49 forms form NNS work_kkta46aprvda3kxuww62zfddua 150 50 has have VBZ work_kkta46aprvda3kxuww62zfddua 150 51 been be VBN work_kkta46aprvda3kxuww62zfddua 150 52 determined determine VBN work_kkta46aprvda3kxuww62zfddua 150 53 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 150 54 49 49 CD work_kkta46aprvda3kxuww62zfddua 150 55 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 150 56 . . . work_kkta46aprvda3kxuww62zfddua 151 1 The the DT work_kkta46aprvda3kxuww62zfddua 151 2 results result NNS work_kkta46aprvda3kxuww62zfddua 151 3 demonstrated demonstrate VBD work_kkta46aprvda3kxuww62zfddua 151 4 that that IN work_kkta46aprvda3kxuww62zfddua 151 5 the the DT work_kkta46aprvda3kxuww62zfddua 151 6 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 151 7 binding binding NN work_kkta46aprvda3kxuww62zfddua 151 8 loop loop NN work_kkta46aprvda3kxuww62zfddua 151 9 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 151 10 P P NNP work_kkta46aprvda3kxuww62zfddua 151 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 151 12 loop loop NNP work_kkta46aprvda3kxuww62zfddua 151 13 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 151 14 residue residue NNP work_kkta46aprvda3kxuww62zfddua 151 15 serine serine NNP work_kkta46aprvda3kxuww62zfddua 151 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 151 17 highly highly RB work_kkta46aprvda3kxuww62zfddua 151 18 important important JJ work_kkta46aprvda3kxuww62zfddua 151 19 for for IN work_kkta46aprvda3kxuww62zfddua 151 20 the the DT work_kkta46aprvda3kxuww62zfddua 151 21 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 151 22 with with IN work_kkta46aprvda3kxuww62zfddua 151 23 the the DT work_kkta46aprvda3kxuww62zfddua 151 24 nucleotides nucleotide NNS work_kkta46aprvda3kxuww62zfddua 151 25 and and CC work_kkta46aprvda3kxuww62zfddua 151 26 the the DT work_kkta46aprvda3kxuww62zfddua 151 27 inorganic inorganic JJ work_kkta46aprvda3kxuww62zfddua 151 28 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 151 29 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 151 30 Fig fig NN work_kkta46aprvda3kxuww62zfddua 151 31 . . . work_kkta46aprvda3kxuww62zfddua 152 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 152 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 152 3 . . . work_kkta46aprvda3kxuww62zfddua 153 1 Reflected reflect VBN work_kkta46aprvda3kxuww62zfddua 153 2 also also RB work_kkta46aprvda3kxuww62zfddua 153 3 by by IN work_kkta46aprvda3kxuww62zfddua 153 4 the the DT work_kkta46aprvda3kxuww62zfddua 153 5 diverse diverse JJ work_kkta46aprvda3kxuww62zfddua 153 6 P P NNP work_kkta46aprvda3kxuww62zfddua 153 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 153 8 loop loop NN work_kkta46aprvda3kxuww62zfddua 153 9 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 153 10 , , , work_kkta46aprvda3kxuww62zfddua 153 11 the the DT work_kkta46aprvda3kxuww62zfddua 153 12 crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 153 13 structures structure NNS work_kkta46aprvda3kxuww62zfddua 153 14 indicated indicate VBD work_kkta46aprvda3kxuww62zfddua 153 15 that that IN work_kkta46aprvda3kxuww62zfddua 153 16 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 153 17 A a DT work_kkta46aprvda3kxuww62zfddua 153 18 has have VBZ work_kkta46aprvda3kxuww62zfddua 153 19 a a DT work_kkta46aprvda3kxuww62zfddua 153 20 unique unique JJ work_kkta46aprvda3kxuww62zfddua 153 21 arched arch VBN work_kkta46aprvda3kxuww62zfddua 153 22 conformation conformation NN work_kkta46aprvda3kxuww62zfddua 153 23 for for IN work_kkta46aprvda3kxuww62zfddua 153 24 the the DT work_kkta46aprvda3kxuww62zfddua 153 25 P P NNP work_kkta46aprvda3kxuww62zfddua 153 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 153 27 loop loop NN work_kkta46aprvda3kxuww62zfddua 153 28 region region NN work_kkta46aprvda3kxuww62zfddua 153 29 , , , work_kkta46aprvda3kxuww62zfddua 153 30 due due IN work_kkta46aprvda3kxuww62zfddua 153 31 to to IN work_kkta46aprvda3kxuww62zfddua 153 32 which which WDT work_kkta46aprvda3kxuww62zfddua 153 33 the the DT work_kkta46aprvda3kxuww62zfddua 153 34 mode mode NN work_kkta46aprvda3kxuww62zfddua 153 35 of of IN work_kkta46aprvda3kxuww62zfddua 153 36 binding binding NN work_kkta46aprvda3kxuww62zfddua 153 37 of of IN work_kkta46aprvda3kxuww62zfddua 153 38 the the DT work_kkta46aprvda3kxuww62zfddua 153 39 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 153 40 is be VBZ work_kkta46aprvda3kxuww62zfddua 153 41 different different JJ work_kkta46aprvda3kxuww62zfddua 153 42 from from IN work_kkta46aprvda3kxuww62zfddua 153 43 that that DT work_kkta46aprvda3kxuww62zfddua 153 44 of of IN work_kkta46aprvda3kxuww62zfddua 153 45 the the DT work_kkta46aprvda3kxuww62zfddua 153 46 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 153 47 β β NNP work_kkta46aprvda3kxuww62zfddua 153 48 - - HYPH work_kkta46aprvda3kxuww62zfddua 153 49 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 153 50 of of IN work_kkta46aprvda3kxuww62zfddua 153 51 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 153 52 ATP atp NN work_kkta46aprvda3kxuww62zfddua 153 53 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 153 54 . . . work_kkta46aprvda3kxuww62zfddua 154 1 The the DT work_kkta46aprvda3kxuww62zfddua 154 2 second second JJ work_kkta46aprvda3kxuww62zfddua 154 3 unique unique JJ work_kkta46aprvda3kxuww62zfddua 154 4 P P NNP work_kkta46aprvda3kxuww62zfddua 154 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 154 6 loop loop NNP work_kkta46aprvda3kxuww62zfddua 154 7 residue residue NN work_kkta46aprvda3kxuww62zfddua 154 8 in in IN work_kkta46aprvda3kxuww62zfddua 154 9 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 154 10 A A NNP work_kkta46aprvda3kxuww62zfddua 154 11 , , , work_kkta46aprvda3kxuww62zfddua 154 12 phenylalanine phenylalanine NN work_kkta46aprvda3kxuww62zfddua 154 13 , , , work_kkta46aprvda3kxuww62zfddua 154 14 stabilizes stabilize VBZ work_kkta46aprvda3kxuww62zfddua 154 15 this this DT work_kkta46aprvda3kxuww62zfddua 154 16 arched arched JJ work_kkta46aprvda3kxuww62zfddua 154 17 loop loop NN work_kkta46aprvda3kxuww62zfddua 154 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 154 19 Fig fig NN work_kkta46aprvda3kxuww62zfddua 154 20 . . . work_kkta46aprvda3kxuww62zfddua 155 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 155 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 155 3 and and CC work_kkta46aprvda3kxuww62zfddua 155 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 155 5 there- there- NN work_kkta46aprvda3kxuww62zfddua 155 6 fore fore IN work_kkta46aprvda3kxuww62zfddua 155 7 one one CD work_kkta46aprvda3kxuww62zfddua 155 8 of of IN work_kkta46aprvda3kxuww62zfddua 155 9 the the DT work_kkta46aprvda3kxuww62zfddua 155 10 critical critical JJ work_kkta46aprvda3kxuww62zfddua 155 11 residues residue NNS work_kkta46aprvda3kxuww62zfddua 155 12 in in IN work_kkta46aprvda3kxuww62zfddua 155 13 the the DT work_kkta46aprvda3kxuww62zfddua 155 14 P P NNP work_kkta46aprvda3kxuww62zfddua 155 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 155 16 loop loop NN work_kkta46aprvda3kxuww62zfddua 155 17 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 155 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 155 19 GPFGSGKT GPFGSGKT NNP work_kkta46aprvda3kxuww62zfddua 155 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 155 21 of of IN work_kkta46aprvda3kxuww62zfddua 155 22 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 155 23 A. a. NN work_kkta46aprvda3kxuww62zfddua 156 1 This this DT work_kkta46aprvda3kxuww62zfddua 156 2 phenylalanine phenylalanine NN work_kkta46aprvda3kxuww62zfddua 156 3 residue residue NN work_kkta46aprvda3kxuww62zfddua 156 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 156 5 the the DT work_kkta46aprvda3kxuww62zfddua 156 6 equivalent equivalent JJ work_kkta46aprvda3kxuww62zfddua 156 7 amino amino NN work_kkta46aprvda3kxuww62zfddua 156 8 acid acid NN work_kkta46aprvda3kxuww62zfddua 156 9 to to IN work_kkta46aprvda3kxuww62zfddua 156 10 the the DT work_kkta46aprvda3kxuww62zfddua 156 11 alanine alanine NN work_kkta46aprvda3kxuww62zfddua 156 12 in in IN work_kkta46aprvda3kxuww62zfddua 156 13 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 156 14 β β NNP work_kkta46aprvda3kxuww62zfddua 156 15 of of IN work_kkta46aprvda3kxuww62zfddua 156 16 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 156 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 156 18 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 156 19 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 156 20 GGAGVGKT GGAGVGKT NNP work_kkta46aprvda3kxuww62zfddua 156 21 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 156 22 , , , work_kkta46aprvda3kxuww62zfddua 156 23 which which WDT work_kkta46aprvda3kxuww62zfddua 156 24 is be VBZ work_kkta46aprvda3kxuww62zfddua 156 25 a a DT work_kkta46aprvda3kxuww62zfddua 156 26 key key JJ work_kkta46aprvda3kxuww62zfddua 156 27 residue residue NN work_kkta46aprvda3kxuww62zfddua 156 28 in in IN work_kkta46aprvda3kxuww62zfddua 156 29 the the DT work_kkta46aprvda3kxuww62zfddua 156 30 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 156 31 process process NN work_kkta46aprvda3kxuww62zfddua 156 32 inside inside IN work_kkta46aprvda3kxuww62zfddua 156 33 the the DT work_kkta46aprvda3kxuww62zfddua 156 34 β β NNP work_kkta46aprvda3kxuww62zfddua 156 35 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 156 36 that that WDT work_kkta46aprvda3kxuww62zfddua 156 37 moves move VBZ work_kkta46aprvda3kxuww62zfddua 156 38 towards towards IN work_kkta46aprvda3kxuww62zfddua 156 39 the the DT work_kkta46aprvda3kxuww62zfddua 156 40 γ γ NN work_kkta46aprvda3kxuww62zfddua 156 41 - - HYPH work_kkta46aprvda3kxuww62zfddua 156 42 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 156 43 of of IN work_kkta46aprvda3kxuww62zfddua 156 44 ATP atp NN work_kkta46aprvda3kxuww62zfddua 156 45 during during IN work_kkta46aprvda3kxuww62zfddua 156 46 catalysis catalysis NN work_kkta46aprvda3kxuww62zfddua 156 47 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 156 48 60 60 CD work_kkta46aprvda3kxuww62zfddua 156 49 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 156 50 . . . work_kkta46aprvda3kxuww62zfddua 157 1 The the DT work_kkta46aprvda3kxuww62zfddua 157 2 different different JJ work_kkta46aprvda3kxuww62zfddua 157 3 amino amino JJ work_kkta46aprvda3kxuww62zfddua 157 4 acid acid NN work_kkta46aprvda3kxuww62zfddua 157 5 composition composition NN work_kkta46aprvda3kxuww62zfddua 157 6 in in IN work_kkta46aprvda3kxuww62zfddua 157 7 the the DT work_kkta46aprvda3kxuww62zfddua 157 8 P P NNP work_kkta46aprvda3kxuww62zfddua 157 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 157 10 loop loop NNP work_kkta46aprvda3kxuww62zfddua 157 11 of of IN work_kkta46aprvda3kxuww62zfddua 157 12 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 157 13 β β NNP work_kkta46aprvda3kxuww62zfddua 157 14 of of IN work_kkta46aprvda3kxuww62zfddua 157 15 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 157 16 ATP atp NN work_kkta46aprvda3kxuww62zfddua 157 17 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 157 18 is be VBZ work_kkta46aprvda3kxuww62zfddua 157 19 also also RB work_kkta46aprvda3kxuww62zfddua 157 20 reflected reflect VBN work_kkta46aprvda3kxuww62zfddua 157 21 by by IN work_kkta46aprvda3kxuww62zfddua 157 22 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 157 23 horizontal horizontal JJ work_kkta46aprvda3kxuww62zfddua 157 24 orientation orientation NN work_kkta46aprvda3kxuww62zfddua 157 25 . . . work_kkta46aprvda3kxuww62zfddua 158 1 The the DT work_kkta46aprvda3kxuww62zfddua 158 2 novel novel NN work_kkta46aprvda3kxuww62zfddua 158 3 P P NNP work_kkta46aprvda3kxuww62zfddua 158 4 - - HYPH work_kkta46aprvda3kxuww62zfddua 158 5 loop loop NNP work_kkta46aprvda3kxuww62zfddua 158 6 conformation conformation NN work_kkta46aprvda3kxuww62zfddua 158 7 in in IN work_kkta46aprvda3kxuww62zfddua 158 8 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 158 9 A a DT work_kkta46aprvda3kxuww62zfddua 158 10 forces force NNS work_kkta46aprvda3kxuww62zfddua 158 11 the the DT work_kkta46aprvda3kxuww62zfddua 158 12 nucleotide nucleotide NN work_kkta46aprvda3kxuww62zfddua 158 13 into into IN work_kkta46aprvda3kxuww62zfddua 158 14 a a DT work_kkta46aprvda3kxuww62zfddua 158 15 different different JJ work_kkta46aprvda3kxuww62zfddua 158 16 arrangement arrangement NN work_kkta46aprvda3kxuww62zfddua 158 17 inside inside IN work_kkta46aprvda3kxuww62zfddua 158 18 the the DT work_kkta46aprvda3kxuww62zfddua 158 19 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 158 20 site site NN work_kkta46aprvda3kxuww62zfddua 158 21 with with IN work_kkta46aprvda3kxuww62zfddua 158 22 weaker weak JJR work_kkta46aprvda3kxuww62zfddua 158 23 interactions interaction NNS work_kkta46aprvda3kxuww62zfddua 158 24 of of IN work_kkta46aprvda3kxuww62zfddua 158 25 different different JJ work_kkta46aprvda3kxuww62zfddua 158 26 and/or and/or CC work_kkta46aprvda3kxuww62zfddua 158 27 homologous homologous JJ work_kkta46aprvda3kxuww62zfddua 158 28 surrounding surround VBG work_kkta46aprvda3kxuww62zfddua 158 29 amino amino NN work_kkta46aprvda3kxuww62zfddua 158 30 acid acid NN work_kkta46aprvda3kxuww62zfddua 158 31 residues residue NNS work_kkta46aprvda3kxuww62zfddua 158 32 and and CC work_kkta46aprvda3kxuww62zfddua 158 33 making make VBG work_kkta46aprvda3kxuww62zfddua 158 34 the the DT work_kkta46aprvda3kxuww62zfddua 158 35 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 158 36 more more JJR work_kkta46aprvda3kxuww62zfddua 158 37 solvent solvent NN work_kkta46aprvda3kxuww62zfddua 158 38 exposed expose VBN work_kkta46aprvda3kxuww62zfddua 158 39 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 158 40 49 49 CD work_kkta46aprvda3kxuww62zfddua 158 41 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 158 42 . . . work_kkta46aprvda3kxuww62zfddua 159 1 This this DT work_kkta46aprvda3kxuww62zfddua 159 2 structural structural JJ work_kkta46aprvda3kxuww62zfddua 159 3 feature feature NN work_kkta46aprvda3kxuww62zfddua 159 4 explains explain VBZ work_kkta46aprvda3kxuww62zfddua 159 5 the the DT work_kkta46aprvda3kxuww62zfddua 159 6 ability ability NN work_kkta46aprvda3kxuww62zfddua 159 7 of of IN work_kkta46aprvda3kxuww62zfddua 159 8 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 159 9 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 159 10 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 159 11 to to TO work_kkta46aprvda3kxuww62zfddua 159 12 hydrolyze hydrolyze VB work_kkta46aprvda3kxuww62zfddua 159 13 apart apart RB work_kkta46aprvda3kxuww62zfddua 159 14 from from IN work_kkta46aprvda3kxuww62zfddua 159 15 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 159 16 also also RB work_kkta46aprvda3kxuww62zfddua 159 17 GTP GTP NNP work_kkta46aprvda3kxuww62zfddua 159 18 and and CC work_kkta46aprvda3kxuww62zfddua 159 19 UTP UTP NNP work_kkta46aprvda3kxuww62zfddua 159 20 with with IN work_kkta46aprvda3kxuww62zfddua 159 21 86 86 CD work_kkta46aprvda3kxuww62zfddua 159 22 % % NN work_kkta46aprvda3kxuww62zfddua 159 23 and and CC work_kkta46aprvda3kxuww62zfddua 159 24 54 54 CD work_kkta46aprvda3kxuww62zfddua 159 25 % % NN work_kkta46aprvda3kxuww62zfddua 159 26 activities activity NNS work_kkta46aprvda3kxuww62zfddua 159 27 , , , work_kkta46aprvda3kxuww62zfddua 159 28 respectively respectively RB work_kkta46aprvda3kxuww62zfddua 159 29 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 159 30 64,65 64,65 CD work_kkta46aprvda3kxuww62zfddua 159 31 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 159 32 . . . work_kkta46aprvda3kxuww62zfddua 160 1 These these DT work_kkta46aprvda3kxuww62zfddua 160 2 structural structural JJ work_kkta46aprvda3kxuww62zfddua 160 3 designs design NNS work_kkta46aprvda3kxuww62zfddua 160 4 demonstrate demonstrate VBP work_kkta46aprvda3kxuww62zfddua 160 5 how how WRB work_kkta46aprvda3kxuww62zfddua 160 6 nature nature NN work_kkta46aprvda3kxuww62zfddua 160 7 optimizes optimize VBZ work_kkta46aprvda3kxuww62zfddua 160 8 biological biological JJ work_kkta46aprvda3kxuww62zfddua 160 9 activities activity NNS work_kkta46aprvda3kxuww62zfddua 160 10 down down RP work_kkta46aprvda3kxuww62zfddua 160 11 to to IN work_kkta46aprvda3kxuww62zfddua 160 12 such such JJ work_kkta46aprvda3kxuww62zfddua 160 13 tiny tiny JJ work_kkta46aprvda3kxuww62zfddua 160 14 details detail NNS work_kkta46aprvda3kxuww62zfddua 160 15 . . . work_kkta46aprvda3kxuww62zfddua 161 1 The the DT work_kkta46aprvda3kxuww62zfddua 161 2 importance importance NN work_kkta46aprvda3kxuww62zfddua 161 3 of of IN work_kkta46aprvda3kxuww62zfddua 161 4 the the DT work_kkta46aprvda3kxuww62zfddua 161 5 polar polar JJ work_kkta46aprvda3kxuww62zfddua 161 6 serine serine JJ work_kkta46aprvda3kxuww62zfddua 161 7 residue residue NN work_kkta46aprvda3kxuww62zfddua 161 8 of of IN work_kkta46aprvda3kxuww62zfddua 161 9 the the DT work_kkta46aprvda3kxuww62zfddua 161 10 P P NNP work_kkta46aprvda3kxuww62zfddua 161 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 161 12 loop loop NNP work_kkta46aprvda3kxuww62zfddua 161 13 in in IN work_kkta46aprvda3kxuww62zfddua 161 14 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 161 15 A A NNP work_kkta46aprvda3kxuww62zfddua 161 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 161 17 also also RB work_kkta46aprvda3kxuww62zfddua 161 18 indicated indicate VBN work_kkta46aprvda3kxuww62zfddua 161 19 in in IN work_kkta46aprvda3kxuww62zfddua 161 20 the the DT work_kkta46aprvda3kxuww62zfddua 161 21 recently recently RB work_kkta46aprvda3kxuww62zfddua 161 22 determined determine VBN work_kkta46aprvda3kxuww62zfddua 161 23 structures structure NNS work_kkta46aprvda3kxuww62zfddua 161 24 of of IN work_kkta46aprvda3kxuww62zfddua 161 25 the the DT work_kkta46aprvda3kxuww62zfddua 161 26 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 161 27 AS as IN work_kkta46aprvda3kxuww62zfddua 161 28 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 161 29 49 49 CD work_kkta46aprvda3kxuww62zfddua 161 30 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 161 31 and and CC work_kkta46aprvda3kxuww62zfddua 161 32 transition transition NN work_kkta46aprvda3kxuww62zfddua 161 33 - - HYPH work_kkta46aprvda3kxuww62zfddua 161 34 like like JJ work_kkta46aprvda3kxuww62zfddua 161 35 state state NN work_kkta46aprvda3kxuww62zfddua 161 36 , , , work_kkta46aprvda3kxuww62zfddua 161 37 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 161 38 - - HYPH work_kkta46aprvda3kxuww62zfddua 161 39 bound bind VBN work_kkta46aprvda3kxuww62zfddua 161 40 form form NN work_kkta46aprvda3kxuww62zfddua 161 41 of of IN work_kkta46aprvda3kxuww62zfddua 161 42 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 161 43 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 161 44 A A NNP work_kkta46aprvda3kxuww62zfddua 161 45 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 161 46 AVi AVi NNP work_kkta46aprvda3kxuww62zfddua 161 47 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 161 48 of of IN work_kkta46aprvda3kxuww62zfddua 161 49 the the DT work_kkta46aprvda3kxuww62zfddua 161 50 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 161 51 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 161 52 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 161 53 from from IN work_kkta46aprvda3kxuww62zfddua 161 54 P. P. NNP work_kkta46aprvda3kxuww62zfddua 161 55 horikoshii horikoshii NNP work_kkta46aprvda3kxuww62zfddua 161 56 OT3 OT3 NNP work_kkta46aprvda3kxuww62zfddua 161 57 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 161 58 64 64 CD work_kkta46aprvda3kxuww62zfddua 161 59 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 161 60 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 161 61 Fig fig NN work_kkta46aprvda3kxuww62zfddua 161 62 . . . work_kkta46aprvda3kxuww62zfddua 162 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 162 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 162 3 . . . work_kkta46aprvda3kxuww62zfddua 163 1 In in IN work_kkta46aprvda3kxuww62zfddua 163 2 both both DT work_kkta46aprvda3kxuww62zfddua 163 3 structures structure NNS work_kkta46aprvda3kxuww62zfddua 163 4 the the DT work_kkta46aprvda3kxuww62zfddua 163 5 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 163 6 or or CC work_kkta46aprvda3kxuww62zfddua 163 7 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 163 8 interacts interact VBZ work_kkta46aprvda3kxuww62zfddua 163 9 only only RB work_kkta46aprvda3kxuww62zfddua 163 10 with with IN work_kkta46aprvda3kxuww62zfddua 163 11 S238 S238 NNP work_kkta46aprvda3kxuww62zfddua 163 12 in in IN work_kkta46aprvda3kxuww62zfddua 163 13 the the DT work_kkta46aprvda3kxuww62zfddua 163 14 P p NN work_kkta46aprvda3kxuww62zfddua 163 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 163 16 loop loop NNP work_kkta46aprvda3kxuww62zfddua 163 17 . . . work_kkta46aprvda3kxuww62zfddua 164 1 However however RB work_kkta46aprvda3kxuww62zfddua 164 2 , , , work_kkta46aprvda3kxuww62zfddua 164 3 the the DT work_kkta46aprvda3kxuww62zfddua 164 4 mode mode NN work_kkta46aprvda3kxuww62zfddua 164 5 of of IN work_kkta46aprvda3kxuww62zfddua 164 6 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 164 7 is be VBZ work_kkta46aprvda3kxuww62zfddua 164 8 very very RB work_kkta46aprvda3kxuww62zfddua 164 9 different different JJ work_kkta46aprvda3kxuww62zfddua 164 10 ; ; : work_kkta46aprvda3kxuww62zfddua 164 11 while while IN work_kkta46aprvda3kxuww62zfddua 164 12 in in IN work_kkta46aprvda3kxuww62zfddua 164 13 AS as IN work_kkta46aprvda3kxuww62zfddua 164 14 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 164 15 is be VBZ work_kkta46aprvda3kxuww62zfddua 164 16 through through IN work_kkta46aprvda3kxuww62zfddua 164 17 a a DT work_kkta46aprvda3kxuww62zfddua 164 18 water water NN work_kkta46aprvda3kxuww62zfddua 164 19 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 164 20 , , , work_kkta46aprvda3kxuww62zfddua 164 21 in in IN work_kkta46aprvda3kxuww62zfddua 164 22 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 164 23 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 164 24 is be VBZ work_kkta46aprvda3kxuww62zfddua 164 25 a a DT work_kkta46aprvda3kxuww62zfddua 164 26 direct direct JJ work_kkta46aprvda3kxuww62zfddua 164 27 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 164 28 bonding bonding NN work_kkta46aprvda3kxuww62zfddua 164 29 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 164 30 . . . work_kkta46aprvda3kxuww62zfddua 165 1 A a DT work_kkta46aprvda3kxuww62zfddua 165 2 comparison comparison NN work_kkta46aprvda3kxuww62zfddua 165 3 of of IN work_kkta46aprvda3kxuww62zfddua 165 4 the the DT work_kkta46aprvda3kxuww62zfddua 165 5 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 165 6 , , , work_kkta46aprvda3kxuww62zfddua 165 7 AS AS NNP work_kkta46aprvda3kxuww62zfddua 165 8 and and CC work_kkta46aprvda3kxuww62zfddua 165 9 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 165 10 – – : work_kkta46aprvda3kxuww62zfddua 165 11 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 165 12 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 165 13 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 165 14 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 165 15 bound bind VBN work_kkta46aprvda3kxuww62zfddua 165 16 structures structure NNS work_kkta46aprvda3kxuww62zfddua 165 17 showed show VBD work_kkta46aprvda3kxuww62zfddua 165 18 that that IN work_kkta46aprvda3kxuww62zfddua 165 19 the the DT work_kkta46aprvda3kxuww62zfddua 165 20 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 165 21 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 165 22 is be VBZ work_kkta46aprvda3kxuww62zfddua 165 23 positioned position VBN work_kkta46aprvda3kxuww62zfddua 165 24 closer close RBR work_kkta46aprvda3kxuww62zfddua 165 25 to to IN work_kkta46aprvda3kxuww62zfddua 165 26 the the DT work_kkta46aprvda3kxuww62zfddua 165 27 P P NNP work_kkta46aprvda3kxuww62zfddua 165 28 - - HYPH work_kkta46aprvda3kxuww62zfddua 165 29 loop loop NN work_kkta46aprvda3kxuww62zfddua 165 30 compared compare VBN work_kkta46aprvda3kxuww62zfddua 165 31 to to IN work_kkta46aprvda3kxuww62zfddua 165 32 the the DT work_kkta46aprvda3kxuww62zfddua 165 33 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 165 34 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 165 35 , , , work_kkta46aprvda3kxuww62zfddua 165 36 and and CC work_kkta46aprvda3kxuww62zfddua 165 37 that that IN work_kkta46aprvda3kxuww62zfddua 165 38 the the DT work_kkta46aprvda3kxuww62zfddua 165 39 γ γ NNP work_kkta46aprvda3kxuww62zfddua 165 40 - - HYPH work_kkta46aprvda3kxuww62zfddua 165 41 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 165 42 is be VBZ work_kkta46aprvda3kxuww62zfddua 165 43 placed place VBN work_kkta46aprvda3kxuww62zfddua 165 44 even even RB work_kkta46aprvda3kxuww62zfddua 165 45 closer close RBR work_kkta46aprvda3kxuww62zfddua 165 46 in in IN work_kkta46aprvda3kxuww62zfddua 165 47 the the DT work_kkta46aprvda3kxuww62zfddua 165 48 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 165 49 structure structure NN work_kkta46aprvda3kxuww62zfddua 165 50 , , , work_kkta46aprvda3kxuww62zfddua 165 51 indicating indicate VBG work_kkta46aprvda3kxuww62zfddua 165 52 that that IN work_kkta46aprvda3kxuww62zfddua 165 53 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 165 54 is be VBZ work_kkta46aprvda3kxuww62zfddua 165 55 situated situate VBN work_kkta46aprvda3kxuww62zfddua 165 56 in in IN work_kkta46aprvda3kxuww62zfddua 165 57 the the DT work_kkta46aprvda3kxuww62zfddua 165 58 intermediate intermediate JJ work_kkta46aprvda3kxuww62zfddua 165 59 position position NN work_kkta46aprvda3kxuww62zfddua 165 60 . . . work_kkta46aprvda3kxuww62zfddua 166 1 By by IN work_kkta46aprvda3kxuww62zfddua 166 2 analogy analogy NN work_kkta46aprvda3kxuww62zfddua 166 3 with with IN work_kkta46aprvda3kxuww62zfddua 166 4 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 166 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 166 6 bound bind VBN work_kkta46aprvda3kxuww62zfddua 166 7 structures structure NNS work_kkta46aprvda3kxuww62zfddua 166 8 of of IN work_kkta46aprvda3kxuww62zfddua 166 9 the the DT work_kkta46aprvda3kxuww62zfddua 166 10 biological biological JJ work_kkta46aprvda3kxuww62zfddua 166 11 motors motor NNS work_kkta46aprvda3kxuww62zfddua 166 12 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 166 13 ATP atp NN work_kkta46aprvda3kxuww62zfddua 166 14 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 166 15 and and CC work_kkta46aprvda3kxuww62zfddua 166 16 myosin myosin NN work_kkta46aprvda3kxuww62zfddua 166 17 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 166 18 66,67 66,67 CD work_kkta46aprvda3kxuww62zfddua 166 19 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 166 20 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 166 21 could could MD work_kkta46aprvda3kxuww62zfddua 166 22 be be VB work_kkta46aprvda3kxuww62zfddua 166 23 interpreted interpret VBN work_kkta46aprvda3kxuww62zfddua 166 24 that that IN work_kkta46aprvda3kxuww62zfddua 166 25 the the DT work_kkta46aprvda3kxuww62zfddua 166 26 image image NN work_kkta46aprvda3kxuww62zfddua 166 27 of of IN work_kkta46aprvda3kxuww62zfddua 166 28 Fig. Fig. NNP work_kkta46aprvda3kxuww62zfddua 166 29 � � NNP work_kkta46aprvda3kxuww62zfddua 166 30 2 2 CD work_kkta46aprvda3kxuww62zfddua 166 31 944 944 CD work_kkta46aprvda3kxuww62zfddua 166 32 G. G. NNP work_kkta46aprvda3kxuww62zfddua 166 33 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 166 34 et et FW work_kkta46aprvda3kxuww62zfddua 166 35 al al NNP work_kkta46aprvda3kxuww62zfddua 166 36 . . . work_kkta46aprvda3kxuww62zfddua 167 1 / / NFP work_kkta46aprvda3kxuww62zfddua 167 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 167 3 et et NN work_kkta46aprvda3kxuww62zfddua 167 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 167 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 167 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 167 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 167 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 167 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 167 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 167 11 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 167 12 - - HYPH work_kkta46aprvda3kxuww62zfddua 167 13 bound bind VBN work_kkta46aprvda3kxuww62zfddua 167 14 state state NN work_kkta46aprvda3kxuww62zfddua 167 15 mimics mimic NNS work_kkta46aprvda3kxuww62zfddua 167 16 a a DT work_kkta46aprvda3kxuww62zfddua 167 17 transition transition NN work_kkta46aprvda3kxuww62zfddua 167 18 - - HYPH work_kkta46aprvda3kxuww62zfddua 167 19 like like JJ work_kkta46aprvda3kxuww62zfddua 167 20 state state NN work_kkta46aprvda3kxuww62zfddua 167 21 , , , work_kkta46aprvda3kxuww62zfddua 167 22 with with IN work_kkta46aprvda3kxuww62zfddua 167 23 the the DT work_kkta46aprvda3kxuww62zfddua 167 24 sulfate- sulfate- NN work_kkta46aprvda3kxuww62zfddua 167 25 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 167 26 a a DT work_kkta46aprvda3kxuww62zfddua 167 27 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 167 28 mimic mimic NN work_kkta46aprvda3kxuww62zfddua 167 29 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 167 30 bound bind VBN work_kkta46aprvda3kxuww62zfddua 167 31 structure structure NN work_kkta46aprvda3kxuww62zfddua 167 32 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 167 33 AS AS NNP work_kkta46aprvda3kxuww62zfddua 167 34 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 167 35 taking take VBG work_kkta46aprvda3kxuww62zfddua 167 36 the the DT work_kkta46aprvda3kxuww62zfddua 167 37 substrate substrate NN work_kkta46aprvda3kxuww62zfddua 167 38 - - HYPH work_kkta46aprvda3kxuww62zfddua 167 39 like like JJ work_kkta46aprvda3kxuww62zfddua 167 40 position position NN work_kkta46aprvda3kxuww62zfddua 167 41 and and CC work_kkta46aprvda3kxuww62zfddua 167 42 the the DT work_kkta46aprvda3kxuww62zfddua 167 43 AMP AMP NNP work_kkta46aprvda3kxuww62zfddua 167 44 – – : work_kkta46aprvda3kxuww62zfddua 167 45 PNP PNP NNP work_kkta46aprvda3kxuww62zfddua 167 46 - - HYPH work_kkta46aprvda3kxuww62zfddua 167 47 bound bind VBN work_kkta46aprvda3kxuww62zfddua 167 48 structure structure NN work_kkta46aprvda3kxuww62zfddua 167 49 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 167 50 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 167 51 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 167 52 adopting adopt VBG work_kkta46aprvda3kxuww62zfddua 167 53 the the DT work_kkta46aprvda3kxuww62zfddua 167 54 product product NN work_kkta46aprvda3kxuww62zfddua 167 55 - - HYPH work_kkta46aprvda3kxuww62zfddua 167 56 bound bind VBN work_kkta46aprvda3kxuww62zfddua 167 57 state state NN work_kkta46aprvda3kxuww62zfddua 167 58 during during IN work_kkta46aprvda3kxuww62zfddua 167 59 catalysis catalysis NN work_kkta46aprvda3kxuww62zfddua 167 60 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 167 61 Fig fig NN work_kkta46aprvda3kxuww62zfddua 167 62 . . . work_kkta46aprvda3kxuww62zfddua 168 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 168 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 168 3 . . . work_kkta46aprvda3kxuww62zfddua 169 1 Structural structural JJ work_kkta46aprvda3kxuww62zfddua 169 2 rearrangement rearrangement NN work_kkta46aprvda3kxuww62zfddua 169 3 of of IN work_kkta46aprvda3kxuww62zfddua 169 4 catalytically catalytically RB work_kkta46aprvda3kxuww62zfddua 169 5 important important JJ work_kkta46aprvda3kxuww62zfddua 169 6 residues residue NNS work_kkta46aprvda3kxuww62zfddua 169 7 in in IN work_kkta46aprvda3kxuww62zfddua 169 8 the the DT work_kkta46aprvda3kxuww62zfddua 169 9 so so RB work_kkta46aprvda3kxuww62zfddua 169 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 169 11 called call VBN work_kkta46aprvda3kxuww62zfddua 169 12 Walker Walker NNP work_kkta46aprvda3kxuww62zfddua 169 13 B B NNP work_kkta46aprvda3kxuww62zfddua 169 14 motif motif NN work_kkta46aprvda3kxuww62zfddua 169 15 of of IN work_kkta46aprvda3kxuww62zfddua 169 16 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 169 17 A A NNP work_kkta46aprvda3kxuww62zfddua 169 18 became become VBD work_kkta46aprvda3kxuww62zfddua 169 19 obvious obvious JJ work_kkta46aprvda3kxuww62zfddua 169 20 , , , work_kkta46aprvda3kxuww62zfddua 169 21 when when WRB work_kkta46aprvda3kxuww62zfddua 169 22 the the DT work_kkta46aprvda3kxuww62zfddua 169 23 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 169 24 , , , work_kkta46aprvda3kxuww62zfddua 169 25 AS AS NNP work_kkta46aprvda3kxuww62zfddua 169 26 and and CC work_kkta46aprvda3kxuww62zfddua 169 27 APNP APNP NNP work_kkta46aprvda3kxuww62zfddua 169 28 bound bind VBD work_kkta46aprvda3kxuww62zfddua 169 29 structures structure NNS work_kkta46aprvda3kxuww62zfddua 169 30 have have VBP work_kkta46aprvda3kxuww62zfddua 169 31 been be VBN work_kkta46aprvda3kxuww62zfddua 169 32 compared compare VBN work_kkta46aprvda3kxuww62zfddua 169 33 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 169 34 Fig fig NN work_kkta46aprvda3kxuww62zfddua 169 35 . . . work_kkta46aprvda3kxuww62zfddua 170 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 170 2 , , , work_kkta46aprvda3kxuww62zfddua 170 3 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 170 4 64 64 CD work_kkta46aprvda3kxuww62zfddua 170 5 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 170 6 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 170 7 . . . work_kkta46aprvda3kxuww62zfddua 171 1 The the DT work_kkta46aprvda3kxuww62zfddua 171 2 Walker Walker NNP work_kkta46aprvda3kxuww62zfddua 171 3 B B NNP work_kkta46aprvda3kxuww62zfddua 171 4 motif motif NN work_kkta46aprvda3kxuww62zfddua 171 5 residues residue NNS work_kkta46aprvda3kxuww62zfddua 171 6 or or CC work_kkta46aprvda3kxuww62zfddua 171 7 GER GER NNP work_kkta46aprvda3kxuww62zfddua 171 8 - - HYPH work_kkta46aprvda3kxuww62zfddua 171 9 loop loop NNP work_kkta46aprvda3kxuww62zfddua 171 10 , , , work_kkta46aprvda3kxuww62zfddua 171 11 which which WDT work_kkta46aprvda3kxuww62zfddua 171 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 171 13 located locate VBN work_kkta46aprvda3kxuww62zfddua 171 14 above above IN work_kkta46aprvda3kxuww62zfddua 171 15 the the DT work_kkta46aprvda3kxuww62zfddua 171 16 P P NNP work_kkta46aprvda3kxuww62zfddua 171 17 - - HYPH work_kkta46aprvda3kxuww62zfddua 171 18 loop loop NNP work_kkta46aprvda3kxuww62zfddua 171 19 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 171 20 Walker Walker NNP work_kkta46aprvda3kxuww62zfddua 171 21 A a DT work_kkta46aprvda3kxuww62zfddua 171 22 motif motif NN work_kkta46aprvda3kxuww62zfddua 171 23 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 171 24 and and CC work_kkta46aprvda3kxuww62zfddua 171 25 known know VBN work_kkta46aprvda3kxuww62zfddua 171 26 to to TO work_kkta46aprvda3kxuww62zfddua 171 27 be be VB work_kkta46aprvda3kxuww62zfddua 171 28 involved involve VBN work_kkta46aprvda3kxuww62zfddua 171 29 in in IN work_kkta46aprvda3kxuww62zfddua 171 30 immobilization immobilization NN work_kkta46aprvda3kxuww62zfddua 171 31 and and CC work_kkta46aprvda3kxuww62zfddua 171 32 polarization polarization NN work_kkta46aprvda3kxuww62zfddua 171 33 of of IN work_kkta46aprvda3kxuww62zfddua 171 34 a a DT work_kkta46aprvda3kxuww62zfddua 171 35 water water NN work_kkta46aprvda3kxuww62zfddua 171 36 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 171 37 to to TO work_kkta46aprvda3kxuww62zfddua 171 38 facilitate facilitate VB work_kkta46aprvda3kxuww62zfddua 171 39 nucleophilic nucleophilic JJ work_kkta46aprvda3kxuww62zfddua 171 40 attack attack NN work_kkta46aprvda3kxuww62zfddua 171 41 at at IN work_kkta46aprvda3kxuww62zfddua 171 42 the the DT work_kkta46aprvda3kxuww62zfddua 171 43 γ γ NNP work_kkta46aprvda3kxuww62zfddua 171 44 - - HYPH work_kkta46aprvda3kxuww62zfddua 171 45 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 171 46 of of IN work_kkta46aprvda3kxuww62zfddua 171 47 ATP atp NN work_kkta46aprvda3kxuww62zfddua 171 48 , , , work_kkta46aprvda3kxuww62zfddua 171 49 is be VBZ work_kkta46aprvda3kxuww62zfddua 171 50 deviated deviate VBN work_kkta46aprvda3kxuww62zfddua 171 51 by by IN work_kkta46aprvda3kxuww62zfddua 171 52 around around RB work_kkta46aprvda3kxuww62zfddua 171 53 3.2 3.2 CD work_kkta46aprvda3kxuww62zfddua 171 54 Å å NN work_kkta46aprvda3kxuww62zfddua 171 55 in in IN work_kkta46aprvda3kxuww62zfddua 171 56 the the DT work_kkta46aprvda3kxuww62zfddua 171 57 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 171 58 structure structure NN work_kkta46aprvda3kxuww62zfddua 171 59 when when WRB work_kkta46aprvda3kxuww62zfddua 171 60 compared compare VBN work_kkta46aprvda3kxuww62zfddua 171 61 with with IN work_kkta46aprvda3kxuww62zfddua 171 62 the the DT work_kkta46aprvda3kxuww62zfddua 171 63 AS AS NNP work_kkta46aprvda3kxuww62zfddua 171 64 structure structure NN work_kkta46aprvda3kxuww62zfddua 171 65 . . . work_kkta46aprvda3kxuww62zfddua 172 1 Further further RB work_kkta46aprvda3kxuww62zfddua 172 2 , , , work_kkta46aprvda3kxuww62zfddua 172 3 the the DT work_kkta46aprvda3kxuww62zfddua 172 4 side side NN work_kkta46aprvda3kxuww62zfddua 172 5 chains chain NNS work_kkta46aprvda3kxuww62zfddua 172 6 of of IN work_kkta46aprvda3kxuww62zfddua 172 7 gluta- gluta- JJ work_kkta46aprvda3kxuww62zfddua 172 8 mate mate NN work_kkta46aprvda3kxuww62zfddua 172 9 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 172 10 E263 e263 NN work_kkta46aprvda3kxuww62zfddua 172 11 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 172 12 and and CC work_kkta46aprvda3kxuww62zfddua 172 13 arginine arginine NN work_kkta46aprvda3kxuww62zfddua 172 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 172 15 R264 R264 NNP work_kkta46aprvda3kxuww62zfddua 172 16 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 172 17 residues residue NNS work_kkta46aprvda3kxuww62zfddua 172 18 are be VBP work_kkta46aprvda3kxuww62zfddua 172 19 significantly significantly RB work_kkta46aprvda3kxuww62zfddua 172 20 deviated deviate VBN work_kkta46aprvda3kxuww62zfddua 172 21 by by IN work_kkta46aprvda3kxuww62zfddua 172 22 2.3 2.3 CD work_kkta46aprvda3kxuww62zfddua 172 23 Å å NN work_kkta46aprvda3kxuww62zfddua 172 24 and and CC work_kkta46aprvda3kxuww62zfddua 172 25 6.6 6.6 CD work_kkta46aprvda3kxuww62zfddua 172 26 Å å NN work_kkta46aprvda3kxuww62zfddua 172 27 , , , work_kkta46aprvda3kxuww62zfddua 172 28 respectively respectively RB work_kkta46aprvda3kxuww62zfddua 172 29 , , , work_kkta46aprvda3kxuww62zfddua 172 30 moving move VBG work_kkta46aprvda3kxuww62zfddua 172 31 closer close RBR work_kkta46aprvda3kxuww62zfddua 172 32 to to IN work_kkta46aprvda3kxuww62zfddua 172 33 the the DT work_kkta46aprvda3kxuww62zfddua 172 34 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 172 35 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 172 36 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 172 37 Fig fig NN work_kkta46aprvda3kxuww62zfddua 172 38 . . . work_kkta46aprvda3kxuww62zfddua 173 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 173 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 173 3 and and CC work_kkta46aprvda3kxuww62zfddua 173 4 revealing reveal VBG work_kkta46aprvda3kxuww62zfddua 173 5 substantial substantial JJ work_kkta46aprvda3kxuww62zfddua 173 6 structural structural JJ work_kkta46aprvda3kxuww62zfddua 173 7 rearrangement rearrangement NN work_kkta46aprvda3kxuww62zfddua 173 8 during during IN work_kkta46aprvda3kxuww62zfddua 173 9 the the DT work_kkta46aprvda3kxuww62zfddua 173 10 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 173 11 event event NN work_kkta46aprvda3kxuww62zfddua 173 12 . . . work_kkta46aprvda3kxuww62zfddua 174 1 The the DT work_kkta46aprvda3kxuww62zfddua 174 2 AVi AVi NNS work_kkta46aprvda3kxuww62zfddua 174 3 structure structure NN work_kkta46aprvda3kxuww62zfddua 174 4 of of IN work_kkta46aprvda3kxuww62zfddua 174 5 the the DT work_kkta46aprvda3kxuww62zfddua 174 6 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 174 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 174 8 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 174 9 showed show VBD work_kkta46aprvda3kxuww62zfddua 174 10 for for IN work_kkta46aprvda3kxuww62zfddua 174 11 the the DT work_kkta46aprvda3kxuww62zfddua 174 12 first first JJ work_kkta46aprvda3kxuww62zfddua 174 13 time time NN work_kkta46aprvda3kxuww62zfddua 174 14 the the DT work_kkta46aprvda3kxuww62zfddua 174 15 entry entry NN work_kkta46aprvda3kxuww62zfddua 174 16 of of IN work_kkta46aprvda3kxuww62zfddua 174 17 the the DT work_kkta46aprvda3kxuww62zfddua 174 18 substrate substrate JJ work_kkta46aprvda3kxuww62zfddua 174 19 sulfate sulfate NN work_kkta46aprvda3kxuww62zfddua 174 20 , , , work_kkta46aprvda3kxuww62zfddua 174 21 a a DT work_kkta46aprvda3kxuww62zfddua 174 22 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 174 23 analogue analogue NN work_kkta46aprvda3kxuww62zfddua 174 24 , , , work_kkta46aprvda3kxuww62zfddua 174 25 molecule molecule VB work_kkta46aprvda3kxuww62zfddua 174 26 into into IN work_kkta46aprvda3kxuww62zfddua 174 27 a a DT work_kkta46aprvda3kxuww62zfddua 174 28 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 174 29 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 174 30 of of IN work_kkta46aprvda3kxuww62zfddua 174 31 an an DT work_kkta46aprvda3kxuww62zfddua 174 32 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 174 33 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 174 34 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 174 35 Fig fig NN work_kkta46aprvda3kxuww62zfddua 174 36 . . . work_kkta46aprvda3kxuww62zfddua 175 1 2B 2B NNP work_kkta46aprvda3kxuww62zfddua 175 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 175 3 . . . work_kkta46aprvda3kxuww62zfddua 176 1 A a DT work_kkta46aprvda3kxuww62zfddua 176 2 second second JJ work_kkta46aprvda3kxuww62zfddua 176 3 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 176 4 mole- mole- NN work_kkta46aprvda3kxuww62zfddua 176 5 cule cule NN work_kkta46aprvda3kxuww62zfddua 176 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 176 7 found find VBN work_kkta46aprvda3kxuww62zfddua 176 8 to to TO work_kkta46aprvda3kxuww62zfddua 176 9 be be VB work_kkta46aprvda3kxuww62zfddua 176 10 positioned position VBN work_kkta46aprvda3kxuww62zfddua 176 11 , , , work_kkta46aprvda3kxuww62zfddua 176 12 where where WRB work_kkta46aprvda3kxuww62zfddua 176 13 the the DT work_kkta46aprvda3kxuww62zfddua 176 14 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 176 15 molecule molecule VBP work_kkta46aprvda3kxuww62zfddua 176 16 transiently transiently RB work_kkta46aprvda3kxuww62zfddua 176 17 Fig fig NN work_kkta46aprvda3kxuww62zfddua 176 18 . . . work_kkta46aprvda3kxuww62zfddua 177 1 3 3 LS work_kkta46aprvda3kxuww62zfddua 177 2 . . . work_kkta46aprvda3kxuww62zfddua 178 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 178 2 A a DT work_kkta46aprvda3kxuww62zfddua 178 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 178 4 Structure structure NN work_kkta46aprvda3kxuww62zfddua 178 5 of of IN work_kkta46aprvda3kxuww62zfddua 178 6 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 178 7 B B NNP work_kkta46aprvda3kxuww62zfddua 178 8 from from IN work_kkta46aprvda3kxuww62zfddua 178 9 M. M. NNP work_kkta46aprvda3kxuww62zfddua 178 10 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 178 11 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 178 12 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 178 13 dark dark JJ work_kkta46aprvda3kxuww62zfddua 178 14 green green NN work_kkta46aprvda3kxuww62zfddua 178 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 178 16 showing show VBG work_kkta46aprvda3kxuww62zfddua 178 17 the the DT work_kkta46aprvda3kxuww62zfddua 178 18 different different JJ work_kkta46aprvda3kxuww62zfddua 178 19 transiti transiti NN work_kkta46aprvda3kxuww62zfddua 178 20 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 178 21 ATP atp NN work_kkta46aprvda3kxuww62zfddua 178 22 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 178 23 with with IN work_kkta46aprvda3kxuww62zfddua 178 24 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 178 25 D D NNP work_kkta46aprvda3kxuww62zfddua 178 26 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 178 27 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 178 28 ID ID NNP work_kkta46aprvda3kxuww62zfddua 178 29 : : : work_kkta46aprvda3kxuww62zfddua 178 30 3AON 3aon NN work_kkta46aprvda3kxuww62zfddua 178 31 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 178 32 52 52 CD work_kkta46aprvda3kxuww62zfddua 178 33 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 178 34 ; ; : work_kkta46aprvda3kxuww62zfddua 178 35 yellow yellow JJ work_kkta46aprvda3kxuww62zfddua 178 36 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 178 37 and and CC work_kkta46aprvda3kxuww62zfddua 178 38 F F NNP work_kkta46aprvda3kxuww62zfddua 178 39 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 178 40 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 178 41 ID ID NNP work_kkta46aprvda3kxuww62zfddua 178 42 : : : work_kkta46aprvda3kxuww62zfddua 178 43 2OV6 2ov6 CD work_kkta46aprvda3kxuww62zfddua 178 44 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 178 45 53 53 CD work_kkta46aprvda3kxuww62zfddua 178 46 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 178 47 ; ; : work_kkta46aprvda3kxuww62zfddua 178 48 m m NNP work_kkta46aprvda3kxuww62zfddua 178 49 shown show VBN work_kkta46aprvda3kxuww62zfddua 178 50 as as IN work_kkta46aprvda3kxuww62zfddua 178 51 surface surface NN work_kkta46aprvda3kxuww62zfddua 178 52 representation representation NN work_kkta46aprvda3kxuww62zfddua 178 53 . . . work_kkta46aprvda3kxuww62zfddua 179 1 The the DT work_kkta46aprvda3kxuww62zfddua 179 2 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 179 3 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 179 4 enters enter VBZ work_kkta46aprvda3kxuww62zfddua 179 5 via via IN work_kkta46aprvda3kxuww62zfddua 179 6 the the DT work_kkta46aprvda3kxuww62zfddua 179 7 gap gap NN work_kkta46aprvda3kxuww62zfddua 179 8 formed form VBN work_kkta46aprvda3kxuww62zfddua 179 9 by by IN work_kkta46aprvda3kxuww62zfddua 179 10 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 179 11 A a DT work_kkta46aprvda3kxuww62zfddua 179 12 an an DT work_kkta46aprvda3kxuww62zfddua 179 13 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 179 14 B b NN work_kkta46aprvda3kxuww62zfddua 179 15 rotates rotate NNS work_kkta46aprvda3kxuww62zfddua 179 16 and and CC work_kkta46aprvda3kxuww62zfddua 179 17 allows allow VBZ work_kkta46aprvda3kxuww62zfddua 179 18 the the DT work_kkta46aprvda3kxuww62zfddua 179 19 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 179 20 molecule molecule VBP work_kkta46aprvda3kxuww62zfddua 179 21 to to TO work_kkta46aprvda3kxuww62zfddua 179 22 penetrate penetrate VB work_kkta46aprvda3kxuww62zfddua 179 23 into into IN work_kkta46aprvda3kxuww62zfddua 179 24 the the DT work_kkta46aprvda3kxuww62zfddua 179 25 hexamer hexamer NN work_kkta46aprvda3kxuww62zfddua 179 26 in in IN work_kkta46aprvda3kxuww62zfddua 179 27 concert concert NN work_kkta46aprvda3kxuww62zfddua 179 28 with with IN work_kkta46aprvda3kxuww62zfddua 179 29 th th XX work_kkta46aprvda3kxuww62zfddua 179 30 the the DT work_kkta46aprvda3kxuww62zfddua 179 31 rotation rotation NN work_kkta46aprvda3kxuww62zfddua 179 32 of of IN work_kkta46aprvda3kxuww62zfddua 179 33 D d JJ work_kkta46aprvda3kxuww62zfddua 179 34 moves move NNS work_kkta46aprvda3kxuww62zfddua 179 35 the the DT work_kkta46aprvda3kxuww62zfddua 179 36 nucleotide nucleotide NN work_kkta46aprvda3kxuww62zfddua 179 37 towards towards IN work_kkta46aprvda3kxuww62zfddua 179 38 the the DT work_kkta46aprvda3kxuww62zfddua 179 39 transient transient JJ work_kkta46aprvda3kxuww62zfddua 179 40 2 2 CD work_kkta46aprvda3kxuww62zfddua 179 41 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 179 42 T2 T2 NNP work_kkta46aprvda3kxuww62zfddua 179 43 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 179 44 , , , work_kkta46aprvda3kxuww62zfddua 179 45 which which WDT work_kkta46aprvda3kxuww62zfddua 179 46 is be VBZ work_kkta46aprvda3kxuww62zfddua 179 47 placed place VBN work_kkta46aprvda3kxuww62zfddua 179 48 near near RB work_kkta46aprvda3kxuww62zfddua 179 49 to to IN work_kkta46aprvda3kxuww62zfddua 179 50 th th NNP work_kkta46aprvda3kxuww62zfddua 179 51 associates associate NNS work_kkta46aprvda3kxuww62zfddua 179 52 in in IN work_kkta46aprvda3kxuww62zfddua 179 53 the the DT work_kkta46aprvda3kxuww62zfddua 179 54 B B NNP work_kkta46aprvda3kxuww62zfddua 179 55 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 179 56 structure structure NN work_kkta46aprvda3kxuww62zfddua 179 57 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 179 58 68 68 CD work_kkta46aprvda3kxuww62zfddua 179 59 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 179 60 , , , work_kkta46aprvda3kxuww62zfddua 179 61 demonstrating demonstrate VBG work_kkta46aprvda3kxuww62zfddua 179 62 a a DT work_kkta46aprvda3kxuww62zfddua 179 63 similar similar JJ work_kkta46aprvda3kxuww62zfddua 179 64 path- path- JJ work_kkta46aprvda3kxuww62zfddua 179 65 way way NN work_kkta46aprvda3kxuww62zfddua 179 66 of of IN work_kkta46aprvda3kxuww62zfddua 179 67 entry entry NN work_kkta46aprvda3kxuww62zfddua 179 68 for for IN work_kkta46aprvda3kxuww62zfddua 179 69 both both DT work_kkta46aprvda3kxuww62zfddua 179 70 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 179 71 in in IN work_kkta46aprvda3kxuww62zfddua 179 72 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 179 73 ATP atp NN work_kkta46aprvda3kxuww62zfddua 179 74 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 179 75 . . . work_kkta46aprvda3kxuww62zfddua 180 1 This this DT work_kkta46aprvda3kxuww62zfddua 180 2 position position NN work_kkta46aprvda3kxuww62zfddua 180 3 also also RB work_kkta46aprvda3kxuww62zfddua 180 4 confirms confirm VBZ work_kkta46aprvda3kxuww62zfddua 180 5 the the DT work_kkta46aprvda3kxuww62zfddua 180 6 recent recent JJ work_kkta46aprvda3kxuww62zfddua 180 7 finding finding NN work_kkta46aprvda3kxuww62zfddua 180 8 that that IN work_kkta46aprvda3kxuww62zfddua 180 9 during during IN work_kkta46aprvda3kxuww62zfddua 180 10 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 180 11 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 180 12 the the DT work_kkta46aprvda3kxuww62zfddua 180 13 inorganic inorganic JJ work_kkta46aprvda3kxuww62zfddua 180 14 phosphate phosphate NN work_kkta46aprvda3kxuww62zfddua 180 15 binds bind NNS work_kkta46aprvda3kxuww62zfddua 180 16 first first RB work_kkta46aprvda3kxuww62zfddua 180 17 and and CC work_kkta46aprvda3kxuww62zfddua 180 18 hinders hinder VBZ work_kkta46aprvda3kxuww62zfddua 180 19 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 180 20 binding bind VBG work_kkta46aprvda3kxuww62zfddua 180 21 to to IN work_kkta46aprvda3kxuww62zfddua 180 22 the the DT work_kkta46aprvda3kxuww62zfddua 180 23 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 180 24 site site NN work_kkta46aprvda3kxuww62zfddua 180 25 , , , work_kkta46aprvda3kxuww62zfddua 180 26 which which WDT work_kkta46aprvda3kxuww62zfddua 180 27 then then RB work_kkta46aprvda3kxuww62zfddua 180 28 selectively selectively RB work_kkta46aprvda3kxuww62zfddua 180 29 allows allow VBZ work_kkta46aprvda3kxuww62zfddua 180 30 binding bind VBG work_kkta46aprvda3kxuww62zfddua 180 31 of of IN work_kkta46aprvda3kxuww62zfddua 180 32 ADP ADP NNP work_kkta46aprvda3kxuww62zfddua 180 33 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 180 34 69 69 CD work_kkta46aprvda3kxuww62zfddua 180 35 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 180 36 . . . work_kkta46aprvda3kxuww62zfddua 181 1 4.4 4.4 CD work_kkta46aprvda3kxuww62zfddua 181 2 . . . work_kkta46aprvda3kxuww62zfddua 182 1 How how WRB work_kkta46aprvda3kxuww62zfddua 182 2 the the DT work_kkta46aprvda3kxuww62zfddua 182 3 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 182 4 enters enter VBZ work_kkta46aprvda3kxuww62zfddua 182 5 into into IN work_kkta46aprvda3kxuww62zfddua 182 6 the the DT work_kkta46aprvda3kxuww62zfddua 182 7 binding bind VBG work_kkta46aprvda3kxuww62zfddua 182 8 pocket pocket NN work_kkta46aprvda3kxuww62zfddua 182 9 The the DT work_kkta46aprvda3kxuww62zfddua 182 10 crystal crystal NN work_kkta46aprvda3kxuww62zfddua 182 11 structures structure NNS work_kkta46aprvda3kxuww62zfddua 182 12 of of IN work_kkta46aprvda3kxuww62zfddua 182 13 the the DT work_kkta46aprvda3kxuww62zfddua 182 14 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 182 15 bound bind VBN work_kkta46aprvda3kxuww62zfddua 182 16 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 182 17 B B NNP work_kkta46aprvda3kxuww62zfddua 182 18 of of IN work_kkta46aprvda3kxuww62zfddua 182 19 the the DT work_kkta46aprvda3kxuww62zfddua 182 20 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 182 21 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 182 22 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 182 23 from from IN work_kkta46aprvda3kxuww62zfddua 182 24 M. M. NNP work_kkta46aprvda3kxuww62zfddua 182 25 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 182 26 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 182 27 showed show VBD work_kkta46aprvda3kxuww62zfddua 182 28 for for IN work_kkta46aprvda3kxuww62zfddua 182 29 the the DT work_kkta46aprvda3kxuww62zfddua 182 30 first first JJ work_kkta46aprvda3kxuww62zfddua 182 31 time time NN work_kkta46aprvda3kxuww62zfddua 182 32 in in IN work_kkta46aprvda3kxuww62zfddua 182 33 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 182 34 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 182 35 , , , work_kkta46aprvda3kxuww62zfddua 182 36 how how WRB work_kkta46aprvda3kxuww62zfddua 182 37 the the DT work_kkta46aprvda3kxuww62zfddua 182 38 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 182 39 traverses traverse VBZ work_kkta46aprvda3kxuww62zfddua 182 40 the the DT work_kkta46aprvda3kxuww62zfddua 182 41 protein protein NN work_kkta46aprvda3kxuww62zfddua 182 42 surface surface NN work_kkta46aprvda3kxuww62zfddua 182 43 via via IN work_kkta46aprvda3kxuww62zfddua 182 44 two two CD work_kkta46aprvda3kxuww62zfddua 182 45 transient transient JJ work_kkta46aprvda3kxuww62zfddua 182 46 intermediate intermediate JJ work_kkta46aprvda3kxuww62zfddua 182 47 binding bind VBG work_kkta46aprvda3kxuww62zfddua 182 48 sites site NNS work_kkta46aprvda3kxuww62zfddua 182 49 to to IN work_kkta46aprvda3kxuww62zfddua 182 50 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 182 51 final final JJ work_kkta46aprvda3kxuww62zfddua 182 52 binding bind VBG work_kkta46aprvda3kxuww62zfddua 182 53 pocket pocket NN work_kkta46aprvda3kxuww62zfddua 182 54 and and CC work_kkta46aprvda3kxuww62zfddua 182 55 the the DT work_kkta46aprvda3kxuww62zfddua 182 56 concomi- concomi- NN work_kkta46aprvda3kxuww62zfddua 182 57 tant tant NN work_kkta46aprvda3kxuww62zfddua 182 58 rearrangements rearrangement NNS work_kkta46aprvda3kxuww62zfddua 182 59 in in IN work_kkta46aprvda3kxuww62zfddua 182 60 the the DT work_kkta46aprvda3kxuww62zfddua 182 61 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 182 62 - - HYPH work_kkta46aprvda3kxuww62zfddua 182 63 binding binding JJ work_kkta46aprvda3kxuww62zfddua 182 64 and and CC work_kkta46aprvda3kxuww62zfddua 182 65 C c NN work_kkta46aprvda3kxuww62zfddua 182 66 - - HYPH work_kkta46aprvda3kxuww62zfddua 182 67 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 182 68 region region NN work_kkta46aprvda3kxuww62zfddua 182 69 of of IN work_kkta46aprvda3kxuww62zfddua 182 70 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 182 71 B b NN work_kkta46aprvda3kxuww62zfddua 182 72 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 182 73 Figs Figs NNP work_kkta46aprvda3kxuww62zfddua 182 74 . . . work_kkta46aprvda3kxuww62zfddua 183 1 3A 3A NNP work_kkta46aprvda3kxuww62zfddua 183 2 – – : work_kkta46aprvda3kxuww62zfddua 183 3 B b NN work_kkta46aprvda3kxuww62zfddua 183 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 183 5 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 183 6 68,70,71 68,70,71 NN work_kkta46aprvda3kxuww62zfddua 183 7 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 183 8 . . . work_kkta46aprvda3kxuww62zfddua 184 1 When when WRB work_kkta46aprvda3kxuww62zfddua 184 2 the the DT work_kkta46aprvda3kxuww62zfddua 184 3 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 184 4 enters enter VBZ work_kkta46aprvda3kxuww62zfddua 184 5 close close JJ work_kkta46aprvda3kxuww62zfddua 184 6 to to IN work_kkta46aprvda3kxuww62zfddua 184 7 the the DT work_kkta46aprvda3kxuww62zfddua 184 8 C c NN work_kkta46aprvda3kxuww62zfddua 184 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 184 10 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 184 11 domain domain NN work_kkta46aprvda3kxuww62zfddua 184 12 of of IN work_kkta46aprvda3kxuww62zfddua 184 13 B b NN work_kkta46aprvda3kxuww62zfddua 184 14 , , , work_kkta46aprvda3kxuww62zfddua 184 15 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 184 16 D d JJ work_kkta46aprvda3kxuww62zfddua 184 17 moves move NNS work_kkta46aprvda3kxuww62zfddua 184 18 slightly slightly RB work_kkta46aprvda3kxuww62zfddua 184 19 , , , work_kkta46aprvda3kxuww62zfddua 184 20 paving pave VBG work_kkta46aprvda3kxuww62zfddua 184 21 way way NN work_kkta46aprvda3kxuww62zfddua 184 22 for for IN work_kkta46aprvda3kxuww62zfddua 184 23 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 184 24 to to TO work_kkta46aprvda3kxuww62zfddua 184 25 interact interact VB work_kkta46aprvda3kxuww62zfddua 184 26 with with IN work_kkta46aprvda3kxuww62zfddua 184 27 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 184 28 B B NNP work_kkta46aprvda3kxuww62zfddua 184 29 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 184 30 transition transition NN work_kkta46aprvda3kxuww62zfddua 184 31 state state NN work_kkta46aprvda3kxuww62zfddua 184 32 1 1 CD work_kkta46aprvda3kxuww62zfddua 184 33 in in IN work_kkta46aprvda3kxuww62zfddua 184 34 Fig Fig NNP work_kkta46aprvda3kxuww62zfddua 184 35 . . . work_kkta46aprvda3kxuww62zfddua 185 1 3B 3B NNP work_kkta46aprvda3kxuww62zfddua 185 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 185 3 , , , work_kkta46aprvda3kxuww62zfddua 185 4 which which WDT work_kkta46aprvda3kxuww62zfddua 185 5 makes make VBZ work_kkta46aprvda3kxuww62zfddua 185 6 the the DT work_kkta46aprvda3kxuww62zfddua 185 7 C c NN work_kkta46aprvda3kxuww62zfddua 185 8 - - HYPH work_kkta46aprvda3kxuww62zfddua 185 9 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 185 10 domain domain NN work_kkta46aprvda3kxuww62zfddua 185 11 rotate rotate NN work_kkta46aprvda3kxuww62zfddua 185 12 by by IN work_kkta46aprvda3kxuww62zfddua 185 13 6 6 CD work_kkta46aprvda3kxuww62zfddua 185 14 ° ° NNS work_kkta46aprvda3kxuww62zfddua 185 15 . . . work_kkta46aprvda3kxuww62zfddua 186 1 This this DT work_kkta46aprvda3kxuww62zfddua 186 2 moves move VBZ work_kkta46aprvda3kxuww62zfddua 186 3 the the DT work_kkta46aprvda3kxuww62zfddua 186 4 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 186 5 inside inside IN work_kkta46aprvda3kxuww62zfddua 186 6 the the DT work_kkta46aprvda3kxuww62zfddua 186 7 A3B3 A3B3 NNP work_kkta46aprvda3kxuww62zfddua 186 8 hexamer hexamer NN work_kkta46aprvda3kxuww62zfddua 186 9 , , , work_kkta46aprvda3kxuww62zfddua 186 10 close close JJ work_kkta46aprvda3kxuww62zfddua 186 11 to to IN work_kkta46aprvda3kxuww62zfddua 186 12 P p NN work_kkta46aprvda3kxuww62zfddua 186 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 186 14 loop loop NN work_kkta46aprvda3kxuww62zfddua 186 15 of of IN work_kkta46aprvda3kxuww62zfddua 186 16 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 186 17 B B NNP work_kkta46aprvda3kxuww62zfddua 186 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 186 19 transition transition NN work_kkta46aprvda3kxuww62zfddua 186 20 state state NNP work_kkta46aprvda3kxuww62zfddua 186 21 2 2 CD work_kkta46aprvda3kxuww62zfddua 186 22 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 186 23 , , , work_kkta46aprvda3kxuww62zfddua 186 24 a a DT work_kkta46aprvda3kxuww62zfddua 186 25 position position NN work_kkta46aprvda3kxuww62zfddua 186 26 which which WDT work_kkta46aprvda3kxuww62zfddua 186 27 compares compare VBZ work_kkta46aprvda3kxuww62zfddua 186 28 well well RB work_kkta46aprvda3kxuww62zfddua 186 29 with with IN work_kkta46aprvda3kxuww62zfddua 186 30 the the DT work_kkta46aprvda3kxuww62zfddua 186 31 binding bind VBG work_kkta46aprvda3kxuww62zfddua 186 32 site site NN work_kkta46aprvda3kxuww62zfddua 186 33 of of IN work_kkta46aprvda3kxuww62zfddua 186 34 the the DT work_kkta46aprvda3kxuww62zfddua 186 35 an- an- CC work_kkta46aprvda3kxuww62zfddua 186 36 tibiotic tibiotic JJ work_kkta46aprvda3kxuww62zfddua 186 37 , , , work_kkta46aprvda3kxuww62zfddua 186 38 efrapeptin efrapeptin VB work_kkta46aprvda3kxuww62zfddua 186 39 C C NNP work_kkta46aprvda3kxuww62zfddua 186 40 in in IN work_kkta46aprvda3kxuww62zfddua 186 41 the the DT work_kkta46aprvda3kxuww62zfddua 186 42 β β NNP work_kkta46aprvda3kxuww62zfddua 186 43 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 186 44 of of IN work_kkta46aprvda3kxuww62zfddua 186 45 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 186 46 ATP atp NN work_kkta46aprvda3kxuww62zfddua 186 47 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 186 48 . . . work_kkta46aprvda3kxuww62zfddua 187 1 Efrapeptin Efrapeptin NNP work_kkta46aprvda3kxuww62zfddua 187 2 C C NNP work_kkta46aprvda3kxuww62zfddua 187 3 on on IN work_kkta46aprvda3kxuww62zfddua 187 4 sites site NNS work_kkta46aprvda3kxuww62zfddua 187 5 of of IN work_kkta46aprvda3kxuww62zfddua 187 6 the the DT work_kkta46aprvda3kxuww62zfddua 187 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 187 8 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 187 9 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 187 10 blue blue JJ work_kkta46aprvda3kxuww62zfddua 187 11 stick stick NN work_kkta46aprvda3kxuww62zfddua 187 12 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 187 13 . . . work_kkta46aprvda3kxuww62zfddua 188 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 188 2 B B NNP work_kkta46aprvda3kxuww62zfddua 188 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 188 4 Cross cross VB work_kkta46aprvda3kxuww62zfddua 188 5 sectional sectional JJ work_kkta46aprvda3kxuww62zfddua 188 6 view view NN work_kkta46aprvda3kxuww62zfddua 188 7 of of IN work_kkta46aprvda3kxuww62zfddua 188 8 the the DT work_kkta46aprvda3kxuww62zfddua 188 9 hexamer hexamer NN work_kkta46aprvda3kxuww62zfddua 188 10 model model NN work_kkta46aprvda3kxuww62zfddua 188 11 of of IN work_kkta46aprvda3kxuww62zfddua 188 12 agenta agenta NNP work_kkta46aprvda3kxuww62zfddua 188 13 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 188 14 . . . work_kkta46aprvda3kxuww62zfddua 189 1 Subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 189 2 B B NNP work_kkta46aprvda3kxuww62zfddua 189 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 189 4 dark dark JJ work_kkta46aprvda3kxuww62zfddua 189 5 green green NN work_kkta46aprvda3kxuww62zfddua 189 6 ; ; : work_kkta46aprvda3kxuww62zfddua 189 7 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 189 8 ID ID NNP work_kkta46aprvda3kxuww62zfddua 189 9 : : : work_kkta46aprvda3kxuww62zfddua 189 10 2C61 2c61 CD work_kkta46aprvda3kxuww62zfddua 189 11 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 189 12 50 50 CD work_kkta46aprvda3kxuww62zfddua 189 13 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 189 14 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 189 15 and and CC work_kkta46aprvda3kxuww62zfddua 189 16 A a DT work_kkta46aprvda3kxuww62zfddua 189 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 189 18 orange orange NN work_kkta46aprvda3kxuww62zfddua 189 19 ; ; : work_kkta46aprvda3kxuww62zfddua 189 20 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 189 21 ID ID NNP work_kkta46aprvda3kxuww62zfddua 189 22 : : : work_kkta46aprvda3kxuww62zfddua 189 23 3I4L 3i4l CD work_kkta46aprvda3kxuww62zfddua 189 24 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 189 25 49 49 CD work_kkta46aprvda3kxuww62zfddua 189 26 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 189 27 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 189 28 are be VBP work_kkta46aprvda3kxuww62zfddua 189 29 d d NN work_kkta46aprvda3kxuww62zfddua 189 30 B b NN work_kkta46aprvda3kxuww62zfddua 189 31 into into IN work_kkta46aprvda3kxuww62zfddua 189 32 the the DT work_kkta46aprvda3kxuww62zfddua 189 33 hexamer hexamer NN work_kkta46aprvda3kxuww62zfddua 189 34 and and CC work_kkta46aprvda3kxuww62zfddua 189 35 positions position NNS work_kkta46aprvda3kxuww62zfddua 189 36 in in IN work_kkta46aprvda3kxuww62zfddua 189 37 transient transient JJ work_kkta46aprvda3kxuww62zfddua 189 38 1 1 CD work_kkta46aprvda3kxuww62zfddua 189 39 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 189 40 T1 T1 NNP work_kkta46aprvda3kxuww62zfddua 189 41 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 189 42 , , , work_kkta46aprvda3kxuww62zfddua 189 43 whereby whereby WRB work_kkta46aprvda3kxuww62zfddua 189 44 the the DT work_kkta46aprvda3kxuww62zfddua 189 45 C C NNP work_kkta46aprvda3kxuww62zfddua 189 46 - - HYPH work_kkta46aprvda3kxuww62zfddua 189 47 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 189 48 domain domain NN work_kkta46aprvda3kxuww62zfddua 189 49 of of IN work_kkta46aprvda3kxuww62zfddua 189 50 e e NNP work_kkta46aprvda3kxuww62zfddua 189 51 rotation rotation NN work_kkta46aprvda3kxuww62zfddua 189 52 of of IN work_kkta46aprvda3kxuww62zfddua 189 53 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 189 54 D. D. NNP work_kkta46aprvda3kxuww62zfddua 189 55 A a DT work_kkta46aprvda3kxuww62zfddua 189 56 concerted concert VBN work_kkta46aprvda3kxuww62zfddua 189 57 movement movement NN work_kkta46aprvda3kxuww62zfddua 189 58 of of IN work_kkta46aprvda3kxuww62zfddua 189 59 the the DT work_kkta46aprvda3kxuww62zfddua 189 60 C C NNP work_kkta46aprvda3kxuww62zfddua 189 61 - - HYPH work_kkta46aprvda3kxuww62zfddua 189 62 termini termini NN work_kkta46aprvda3kxuww62zfddua 189 63 of of IN work_kkta46aprvda3kxuww62zfddua 189 64 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 189 65 B B NNP work_kkta46aprvda3kxuww62zfddua 189 66 and and CC work_kkta46aprvda3kxuww62zfddua 189 67 F F NNP work_kkta46aprvda3kxuww62zfddua 189 68 as as RB work_kkta46aprvda3kxuww62zfddua 189 69 well well RB work_kkta46aprvda3kxuww62zfddua 189 70 e e NNP work_kkta46aprvda3kxuww62zfddua 189 71 P p NN work_kkta46aprvda3kxuww62zfddua 189 72 - - HYPH work_kkta46aprvda3kxuww62zfddua 189 73 loop loop NNP work_kkta46aprvda3kxuww62zfddua 189 74 , , , work_kkta46aprvda3kxuww62zfddua 189 75 followed follow VBN work_kkta46aprvda3kxuww62zfddua 189 76 by by IN work_kkta46aprvda3kxuww62zfddua 189 77 the the DT work_kkta46aprvda3kxuww62zfddua 189 78 movement movement NN work_kkta46aprvda3kxuww62zfddua 189 79 of of IN work_kkta46aprvda3kxuww62zfddua 189 80 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 189 81 to to IN work_kkta46aprvda3kxuww62zfddua 189 82 the the DT work_kkta46aprvda3kxuww62zfddua 189 83 final final JJ work_kkta46aprvda3kxuww62zfddua 189 84 binding binding NN work_kkta46aprvda3kxuww62zfddua 189 85 site site NN work_kkta46aprvda3kxuww62zfddua 189 86 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 189 87 F f NN work_kkta46aprvda3kxuww62zfddua 189 88 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 189 89 . . . work_kkta46aprvda3kxuww62zfddua 190 1 image image NN work_kkta46aprvda3kxuww62zfddua 190 2 of of IN work_kkta46aprvda3kxuww62zfddua 190 3 Fig. Fig. NNP work_kkta46aprvda3kxuww62zfddua 190 4 � � NNP work_kkta46aprvda3kxuww62zfddua 190 5 3 3 CD work_kkta46aprvda3kxuww62zfddua 190 6 945G. 945g. CD work_kkta46aprvda3kxuww62zfddua 191 1 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 191 2 et et FW work_kkta46aprvda3kxuww62zfddua 191 3 al al NNP work_kkta46aprvda3kxuww62zfddua 191 4 . . . work_kkta46aprvda3kxuww62zfddua 192 1 / / NFP work_kkta46aprvda3kxuww62zfddua 192 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 192 3 et et NN work_kkta46aprvda3kxuww62zfddua 192 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 192 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 192 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 192 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 192 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 192 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 192 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 192 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 192 12 a a DT work_kkta46aprvda3kxuww62zfddua 192 13 potent potent JJ work_kkta46aprvda3kxuww62zfddua 192 14 inhibitor inhibitor NN work_kkta46aprvda3kxuww62zfddua 192 15 of of IN work_kkta46aprvda3kxuww62zfddua 192 16 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 192 17 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 192 18 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 192 19 in in IN work_kkta46aprvda3kxuww62zfddua 192 20 mitochondria mitochondria NNP work_kkta46aprvda3kxuww62zfddua 192 21 and and CC work_kkta46aprvda3kxuww62zfddua 192 22 some some DT work_kkta46aprvda3kxuww62zfddua 192 23 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 192 24 species specie NNS work_kkta46aprvda3kxuww62zfddua 192 25 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 192 26 72 72 CD work_kkta46aprvda3kxuww62zfddua 192 27 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 192 28 . . . work_kkta46aprvda3kxuww62zfddua 193 1 Due due IN work_kkta46aprvda3kxuww62zfddua 193 2 to to IN work_kkta46aprvda3kxuww62zfddua 193 3 the the DT work_kkta46aprvda3kxuww62zfddua 193 4 rotational rotational JJ work_kkta46aprvda3kxuww62zfddua 193 5 movement movement NN work_kkta46aprvda3kxuww62zfddua 193 6 of of IN work_kkta46aprvda3kxuww62zfddua 193 7 the the DT work_kkta46aprvda3kxuww62zfddua 193 8 central central JJ work_kkta46aprvda3kxuww62zfddua 193 9 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 193 10 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 193 11 D D NNP work_kkta46aprvda3kxuww62zfddua 193 12 , , , work_kkta46aprvda3kxuww62zfddua 193 13 the the DT work_kkta46aprvda3kxuww62zfddua 193 14 nucleotide nucleotide NN work_kkta46aprvda3kxuww62zfddua 193 15 will will MD work_kkta46aprvda3kxuww62zfddua 193 16 be be VB work_kkta46aprvda3kxuww62zfddua 193 17 moved move VBN work_kkta46aprvda3kxuww62zfddua 193 18 to to IN work_kkta46aprvda3kxuww62zfddua 193 19 the the DT work_kkta46aprvda3kxuww62zfddua 193 20 actual actual JJ work_kkta46aprvda3kxuww62zfddua 193 21 binding binding NN work_kkta46aprvda3kxuww62zfddua 193 22 site site NN work_kkta46aprvda3kxuww62zfddua 193 23 of of IN work_kkta46aprvda3kxuww62zfddua 193 24 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 193 25 B b NN work_kkta46aprvda3kxuww62zfddua 193 26 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 193 27 71 71 CD work_kkta46aprvda3kxuww62zfddua 193 28 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 193 29 . . . work_kkta46aprvda3kxuww62zfddua 194 1 4.5 4.5 CD work_kkta46aprvda3kxuww62zfddua 194 2 . . . work_kkta46aprvda3kxuww62zfddua 195 1 The the DT work_kkta46aprvda3kxuww62zfddua 195 2 central central JJ work_kkta46aprvda3kxuww62zfddua 195 3 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 195 4 couples couple NNS work_kkta46aprvda3kxuww62zfddua 195 5 ion ion NN work_kkta46aprvda3kxuww62zfddua 195 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 195 7 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 195 8 and and CC work_kkta46aprvda3kxuww62zfddua 195 9 ATP atp NN work_kkta46aprvda3kxuww62zfddua 195 10 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 195 11 The the DT work_kkta46aprvda3kxuww62zfddua 195 12 shape shape NN work_kkta46aprvda3kxuww62zfddua 195 13 of of IN work_kkta46aprvda3kxuww62zfddua 195 14 the the DT work_kkta46aprvda3kxuww62zfddua 195 15 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 195 16 domain domain NN work_kkta46aprvda3kxuww62zfddua 195 17 had have VBD work_kkta46aprvda3kxuww62zfddua 195 18 shown show VBN work_kkta46aprvda3kxuww62zfddua 195 19 that that IN work_kkta46aprvda3kxuww62zfddua 195 20 the the DT work_kkta46aprvda3kxuww62zfddua 195 21 A3B3 A3B3 NNP work_kkta46aprvda3kxuww62zfddua 195 22 hexamer hexamer NN work_kkta46aprvda3kxuww62zfddua 195 23 and and CC work_kkta46aprvda3kxuww62zfddua 195 24 the the DT work_kkta46aprvda3kxuww62zfddua 195 25 AO AO NNP work_kkta46aprvda3kxuww62zfddua 195 26 sector sector NN work_kkta46aprvda3kxuww62zfddua 195 27 are be VBP work_kkta46aprvda3kxuww62zfddua 195 28 separated separate VBN work_kkta46aprvda3kxuww62zfddua 195 29 by by IN work_kkta46aprvda3kxuww62zfddua 195 30 a a DT work_kkta46aprvda3kxuww62zfddua 195 31 80 80 CD work_kkta46aprvda3kxuww62zfddua 195 32 Å å NN work_kkta46aprvda3kxuww62zfddua 195 33 long long JJ work_kkta46aprvda3kxuww62zfddua 195 34 central central JJ work_kkta46aprvda3kxuww62zfddua 195 35 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 195 36 , , , work_kkta46aprvda3kxuww62zfddua 195 37 consisting consist VBG work_kkta46aprvda3kxuww62zfddua 195 38 of of IN work_kkta46aprvda3kxuww62zfddua 195 39 the the DT work_kkta46aprvda3kxuww62zfddua 195 40 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 195 41 C C NNP work_kkta46aprvda3kxuww62zfddua 195 42 , , , work_kkta46aprvda3kxuww62zfddua 195 43 D d NN work_kkta46aprvda3kxuww62zfddua 195 44 and and CC work_kkta46aprvda3kxuww62zfddua 195 45 F F NNP work_kkta46aprvda3kxuww62zfddua 195 46 , , , work_kkta46aprvda3kxuww62zfddua 195 47 with with IN work_kkta46aprvda3kxuww62zfddua 195 48 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 195 49 C C NNP work_kkta46aprvda3kxuww62zfddua 195 50 forming form VBG work_kkta46aprvda3kxuww62zfddua 195 51 the the DT work_kkta46aprvda3kxuww62zfddua 195 52 bottom bottom NN work_kkta46aprvda3kxuww62zfddua 195 53 of of IN work_kkta46aprvda3kxuww62zfddua 195 54 the the DT work_kkta46aprvda3kxuww62zfddua 195 55 central central JJ work_kkta46aprvda3kxuww62zfddua 195 56 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 195 57 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 195 58 45,57 45,57 CD work_kkta46aprvda3kxuww62zfddua 195 59 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 195 60 . . . work_kkta46aprvda3kxuww62zfddua 196 1 As as IN work_kkta46aprvda3kxuww62zfddua 196 2 shown show VBN work_kkta46aprvda3kxuww62zfddua 196 3 by by IN work_kkta46aprvda3kxuww62zfddua 196 4 the the DT work_kkta46aprvda3kxuww62zfddua 196 5 crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 196 6 structure structure NN work_kkta46aprvda3kxuww62zfddua 196 7 of of IN work_kkta46aprvda3kxuww62zfddua 196 8 the the DT work_kkta46aprvda3kxuww62zfddua 196 9 Entero- Entero- NNP work_kkta46aprvda3kxuww62zfddua 196 10 coccus coccus NN work_kkta46aprvda3kxuww62zfddua 196 11 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 196 12 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 196 13 D D NNP work_kkta46aprvda3kxuww62zfddua 196 14 , , , work_kkta46aprvda3kxuww62zfddua 196 15 this this DT work_kkta46aprvda3kxuww62zfddua 196 16 protein protein NN work_kkta46aprvda3kxuww62zfddua 196 17 comprises comprise VBZ work_kkta46aprvda3kxuww62zfddua 196 18 a a DT work_kkta46aprvda3kxuww62zfddua 196 19 long long JJ work_kkta46aprvda3kxuww62zfddua 196 20 left left JJ work_kkta46aprvda3kxuww62zfddua 196 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 196 22 handed handed JJ work_kkta46aprvda3kxuww62zfddua 196 23 coiled coil VBN work_kkta46aprvda3kxuww62zfddua 196 24 coil coil NN work_kkta46aprvda3kxuww62zfddua 196 25 structure structure NN work_kkta46aprvda3kxuww62zfddua 196 26 with with IN work_kkta46aprvda3kxuww62zfddua 196 27 a a DT work_kkta46aprvda3kxuww62zfddua 196 28 unique unique JJ work_kkta46aprvda3kxuww62zfddua 196 29 short short JJ work_kkta46aprvda3kxuww62zfddua 196 30 β β NN work_kkta46aprvda3kxuww62zfddua 196 31 - - HYPH work_kkta46aprvda3kxuww62zfddua 196 32 hairpin hairpin NNP work_kkta46aprvda3kxuww62zfddua 196 33 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 196 34 52,55 52,55 CD work_kkta46aprvda3kxuww62zfddua 196 35 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 196 36 . . . work_kkta46aprvda3kxuww62zfddua 197 1 Such such JJ work_kkta46aprvda3kxuww62zfddua 197 2 left left JJ work_kkta46aprvda3kxuww62zfddua 197 3 handed hand VBD work_kkta46aprvda3kxuww62zfddua 197 4 coiled coil VBN work_kkta46aprvda3kxuww62zfddua 197 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 197 6 coil coil NN work_kkta46aprvda3kxuww62zfddua 197 7 structure structure NN work_kkta46aprvda3kxuww62zfddua 197 8 is be VBZ work_kkta46aprvda3kxuww62zfddua 197 9 also also RB work_kkta46aprvda3kxuww62zfddua 197 10 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 197 11 in in IN work_kkta46aprvda3kxuww62zfddua 197 12 the the DT work_kkta46aprvda3kxuww62zfddua 197 13 rotary rotary JJ work_kkta46aprvda3kxuww62zfddua 197 14 proteins protein NNS work_kkta46aprvda3kxuww62zfddua 197 15 FIiJ FIiJ '' work_kkta46aprvda3kxuww62zfddua 197 16 of of IN work_kkta46aprvda3kxuww62zfddua 197 17 the the DT work_kkta46aprvda3kxuww62zfddua 197 18 flagellar flagellar JJ work_kkta46aprvda3kxuww62zfddua 197 19 type type NN work_kkta46aprvda3kxuww62zfddua 197 20 III III NNP work_kkta46aprvda3kxuww62zfddua 197 21 protein protein NN work_kkta46aprvda3kxuww62zfddua 197 22 export export NN work_kkta46aprvda3kxuww62zfddua 197 23 apparatus apparatus NN work_kkta46aprvda3kxuww62zfddua 197 24 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 197 25 73 73 CD work_kkta46aprvda3kxuww62zfddua 197 26 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 197 27 and and CC work_kkta46aprvda3kxuww62zfddua 197 28 subunit subunit VBN work_kkta46aprvda3kxuww62zfddua 197 29 γ γ NNP work_kkta46aprvda3kxuww62zfddua 197 30 of of IN work_kkta46aprvda3kxuww62zfddua 197 31 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 197 32 ATP atp NN work_kkta46aprvda3kxuww62zfddua 197 33 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 197 34 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 197 35 60 60 CD work_kkta46aprvda3kxuww62zfddua 197 36 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 197 37 . . . work_kkta46aprvda3kxuww62zfddua 198 1 In in IN work_kkta46aprvda3kxuww62zfddua 198 2 contrast contrast NN work_kkta46aprvda3kxuww62zfddua 198 3 , , , work_kkta46aprvda3kxuww62zfddua 198 4 the the DT work_kkta46aprvda3kxuww62zfddua 198 5 β β NNP work_kkta46aprvda3kxuww62zfddua 198 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 198 7 hairpin hairpin NNP work_kkta46aprvda3kxuww62zfddua 198 8 region region NN work_kkta46aprvda3kxuww62zfddua 198 9 of of IN work_kkta46aprvda3kxuww62zfddua 198 10 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 198 11 D d NN work_kkta46aprvda3kxuww62zfddua 198 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 198 13 specific specific JJ work_kkta46aprvda3kxuww62zfddua 198 14 for for IN work_kkta46aprvda3kxuww62zfddua 198 15 this this DT work_kkta46aprvda3kxuww62zfddua 198 16 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 198 17 and and CC work_kkta46aprvda3kxuww62zfddua 198 18 important important JJ work_kkta46aprvda3kxuww62zfddua 198 19 for for IN work_kkta46aprvda3kxuww62zfddua 198 20 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 198 21 activity activity NN work_kkta46aprvda3kxuww62zfddua 198 22 in in IN work_kkta46aprvda3kxuww62zfddua 198 23 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 198 24 ATP atp NN work_kkta46aprvda3kxuww62zfddua 198 25 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 198 26 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 198 27 55 55 CD work_kkta46aprvda3kxuww62zfddua 198 28 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 198 29 . . . work_kkta46aprvda3kxuww62zfddua 199 1 Subunit subunit NN work_kkta46aprvda3kxuww62zfddua 199 2 D D NNP work_kkta46aprvda3kxuww62zfddua 199 3 can can MD work_kkta46aprvda3kxuww62zfddua 199 4 be be VB work_kkta46aprvda3kxuww62zfddua 199 5 cross cros VBN work_kkta46aprvda3kxuww62zfddua 199 6 - - VBN work_kkta46aprvda3kxuww62zfddua 199 7 linked link VBN work_kkta46aprvda3kxuww62zfddua 199 8 to to IN work_kkta46aprvda3kxuww62zfddua 199 9 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 199 10 A a NN work_kkta46aprvda3kxuww62zfddua 199 11 in in IN work_kkta46aprvda3kxuww62zfddua 199 12 a a DT work_kkta46aprvda3kxuww62zfddua 199 13 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 199 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 199 15 dependent dependent JJ work_kkta46aprvda3kxuww62zfddua 199 16 manner manner NN work_kkta46aprvda3kxuww62zfddua 199 17 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 199 18 58 58 CD work_kkta46aprvda3kxuww62zfddua 199 19 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 199 20 . . . work_kkta46aprvda3kxuww62zfddua 200 1 The the DT work_kkta46aprvda3kxuww62zfddua 200 2 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 200 3 between between IN work_kkta46aprvda3kxuww62zfddua 200 4 both both DT work_kkta46aprvda3kxuww62zfddua 200 5 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 200 6 involves involve VBZ work_kkta46aprvda3kxuww62zfddua 200 7 both both CC work_kkta46aprvda3kxuww62zfddua 200 8 N- n- CD work_kkta46aprvda3kxuww62zfddua 200 9 and and CC work_kkta46aprvda3kxuww62zfddua 200 10 C C NNP work_kkta46aprvda3kxuww62zfddua 200 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 200 12 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 200 13 segments segment NNS work_kkta46aprvda3kxuww62zfddua 200 14 of of IN work_kkta46aprvda3kxuww62zfddua 200 15 D. D. NNP work_kkta46aprvda3kxuww62zfddua 200 16 Similarly Similarly NNP work_kkta46aprvda3kxuww62zfddua 200 17 , , , work_kkta46aprvda3kxuww62zfddua 200 18 in in IN work_kkta46aprvda3kxuww62zfddua 200 19 M. M. NNP work_kkta46aprvda3kxuww62zfddua 200 20 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 200 21 Gö1 gö1 VBP work_kkta46aprvda3kxuww62zfddua 200 22 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 200 23 ATP atp NN work_kkta46aprvda3kxuww62zfddua 200 24 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 200 25 , , , work_kkta46aprvda3kxuww62zfddua 200 26 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 200 27 F F NNP work_kkta46aprvda3kxuww62zfddua 200 28 can can MD work_kkta46aprvda3kxuww62zfddua 200 29 be be VB work_kkta46aprvda3kxuww62zfddua 200 30 cross- cross- VBN work_kkta46aprvda3kxuww62zfddua 200 31 linked link VBN work_kkta46aprvda3kxuww62zfddua 200 32 to to IN work_kkta46aprvda3kxuww62zfddua 200 33 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 200 34 B b NN work_kkta46aprvda3kxuww62zfddua 200 35 through through IN work_kkta46aprvda3kxuww62zfddua 200 36 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 200 37 C c NN work_kkta46aprvda3kxuww62zfddua 200 38 - - HYPH work_kkta46aprvda3kxuww62zfddua 200 39 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 200 40 sequences sequence NNS work_kkta46aprvda3kxuww62zfddua 200 41 , , , work_kkta46aprvda3kxuww62zfddua 200 42 which which WDT work_kkta46aprvda3kxuww62zfddua 200 43 shows show VBZ work_kkta46aprvda3kxuww62zfddua 200 44 a a DT work_kkta46aprvda3kxuww62zfddua 200 45 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 200 46 - - HYPH work_kkta46aprvda3kxuww62zfddua 200 47 dependent dependent JJ work_kkta46aprvda3kxuww62zfddua 200 48 behavior behavior NN work_kkta46aprvda3kxuww62zfddua 200 49 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 200 50 59 59 CD work_kkta46aprvda3kxuww62zfddua 200 51 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 200 52 . . . work_kkta46aprvda3kxuww62zfddua 201 1 The the DT work_kkta46aprvda3kxuww62zfddua 201 2 high high JJ work_kkta46aprvda3kxuww62zfddua 201 3 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 201 4 structure structure NN work_kkta46aprvda3kxuww62zfddua 201 5 of of IN work_kkta46aprvda3kxuww62zfddua 201 6 B B NNP work_kkta46aprvda3kxuww62zfddua 201 7 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 201 8 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 201 9 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 201 10 50 50 CD work_kkta46aprvda3kxuww62zfddua 201 11 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 201 12 that that IN work_kkta46aprvda3kxuww62zfddua 201 13 the the DT work_kkta46aprvda3kxuww62zfddua 201 14 C C NNP work_kkta46aprvda3kxuww62zfddua 201 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 16 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 201 17 peptide peptide NN work_kkta46aprvda3kxuww62zfddua 201 18 of of IN work_kkta46aprvda3kxuww62zfddua 201 19 B b NN work_kkta46aprvda3kxuww62zfddua 201 20 is be VBZ work_kkta46aprvda3kxuww62zfddua 201 21 at at IN work_kkta46aprvda3kxuww62zfddua 201 22 a a DT work_kkta46aprvda3kxuww62zfddua 201 23 similar similar JJ work_kkta46aprvda3kxuww62zfddua 201 24 position position NN work_kkta46aprvda3kxuww62zfddua 201 25 to to IN work_kkta46aprvda3kxuww62zfddua 201 26 the the DT work_kkta46aprvda3kxuww62zfddua 201 27 so so RB work_kkta46aprvda3kxuww62zfddua 201 28 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 29 called call VBN work_kkta46aprvda3kxuww62zfddua 201 30 DELSEED delseed NN work_kkta46aprvda3kxuww62zfddua 201 31 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 32 region region NN work_kkta46aprvda3kxuww62zfddua 201 33 of of IN work_kkta46aprvda3kxuww62zfddua 201 34 the the DT work_kkta46aprvda3kxuww62zfddua 201 35 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 201 36 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 37 binding bind VBG work_kkta46aprvda3kxuww62zfddua 201 38 sub- sub- JJ work_kkta46aprvda3kxuww62zfddua 201 39 unit unit NN work_kkta46aprvda3kxuww62zfddua 201 40 β β NNP work_kkta46aprvda3kxuww62zfddua 201 41 of of IN work_kkta46aprvda3kxuww62zfddua 201 42 the the DT work_kkta46aprvda3kxuww62zfddua 201 43 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 201 44 ATP atp NN work_kkta46aprvda3kxuww62zfddua 201 45 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 201 46 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 201 47 60 60 CD work_kkta46aprvda3kxuww62zfddua 201 48 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 201 49 , , , work_kkta46aprvda3kxuww62zfddua 201 50 which which WDT work_kkta46aprvda3kxuww62zfddua 201 51 also also RB work_kkta46aprvda3kxuww62zfddua 201 52 form form VBP work_kkta46aprvda3kxuww62zfddua 201 53 a a DT work_kkta46aprvda3kxuww62zfddua 201 54 disulphide disulphide NN work_kkta46aprvda3kxuww62zfddua 201 55 bond bond NN work_kkta46aprvda3kxuww62zfddua 201 56 with with IN work_kkta46aprvda3kxuww62zfddua 201 57 the the DT work_kkta46aprvda3kxuww62zfddua 201 58 C C NNP work_kkta46aprvda3kxuww62zfddua 201 59 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 60 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 201 61 helix helix NN work_kkta46aprvda3kxuww62zfddua 201 62 of of IN work_kkta46aprvda3kxuww62zfddua 201 63 the the DT work_kkta46aprvda3kxuww62zfddua 201 64 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 201 65 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 201 66 γ γ NNP work_kkta46aprvda3kxuww62zfddua 201 67 . . . work_kkta46aprvda3kxuww62zfddua 201 68 Subunit Subunit NNP work_kkta46aprvda3kxuww62zfddua 201 69 F F NNP work_kkta46aprvda3kxuww62zfddua 201 70 in in IN work_kkta46aprvda3kxuww62zfddua 201 71 solution solution NN work_kkta46aprvda3kxuww62zfddua 201 72 exhibits exhibit VBZ work_kkta46aprvda3kxuww62zfddua 201 73 a a DT work_kkta46aprvda3kxuww62zfddua 201 74 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 201 75 two two CD work_kkta46aprvda3kxuww62zfddua 201 76 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 77 domain domain NN work_kkta46aprvda3kxuww62zfddua 201 78 structure structure NN work_kkta46aprvda3kxuww62zfddua 201 79 , , , work_kkta46aprvda3kxuww62zfddua 201 80 with with IN work_kkta46aprvda3kxuww62zfddua 201 81 the the DT work_kkta46aprvda3kxuww62zfddua 201 82 N n NN work_kkta46aprvda3kxuww62zfddua 201 83 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 84 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 201 85 globular globular JJ work_kkta46aprvda3kxuww62zfddua 201 86 region region NN work_kkta46aprvda3kxuww62zfddua 201 87 having have VBG work_kkta46aprvda3kxuww62zfddua 201 88 78 78 CD work_kkta46aprvda3kxuww62zfddua 201 89 residues residue NNS work_kkta46aprvda3kxuww62zfddua 201 90 and and CC work_kkta46aprvda3kxuww62zfddua 201 91 the the DT work_kkta46aprvda3kxuww62zfddua 201 92 residues residue NNS work_kkta46aprvda3kxuww62zfddua 201 93 79–101 79–101 NNP work_kkta46aprvda3kxuww62zfddua 201 94 forming form VBG work_kkta46aprvda3kxuww62zfddua 201 95 the the DT work_kkta46aprvda3kxuww62zfddua 201 96 flexible flexible JJ work_kkta46aprvda3kxuww62zfddua 201 97 C C NNP work_kkta46aprvda3kxuww62zfddua 201 98 - - HYPH work_kkta46aprvda3kxuww62zfddua 201 99 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 201 100 part part NN work_kkta46aprvda3kxuww62zfddua 201 101 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 201 102 53 53 CD work_kkta46aprvda3kxuww62zfddua 201 103 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 201 104 . . . work_kkta46aprvda3kxuww62zfddua 202 1 The the DT work_kkta46aprvda3kxuww62zfddua 202 2 flexible flexible JJ work_kkta46aprvda3kxuww62zfddua 202 3 C c NN work_kkta46aprvda3kxuww62zfddua 202 4 - - HYPH work_kkta46aprvda3kxuww62zfddua 202 5 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 202 6 tail tail NN work_kkta46aprvda3kxuww62zfddua 202 7 enables enable NNS work_kkta46aprvda3kxuww62zfddua 202 8 this this DT work_kkta46aprvda3kxuww62zfddua 202 9 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 202 10 to to TO work_kkta46aprvda3kxuww62zfddua 202 11 undergo undergo VB work_kkta46aprvda3kxuww62zfddua 202 12 up up RP work_kkta46aprvda3kxuww62zfddua 202 13 and and CC work_kkta46aprvda3kxuww62zfddua 202 14 down down IN work_kkta46aprvda3kxuww62zfddua 202 15 movements movement NNS work_kkta46aprvda3kxuww62zfddua 202 16 relative relative JJ work_kkta46aprvda3kxuww62zfddua 202 17 to to IN work_kkta46aprvda3kxuww62zfddua 202 18 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 202 19 B B NNP work_kkta46aprvda3kxuww62zfddua 202 20 , , , work_kkta46aprvda3kxuww62zfddua 202 21 bringing bring VBG work_kkta46aprvda3kxuww62zfddua 202 22 both both CC work_kkta46aprvda3kxuww62zfddua 202 23 termini termini NN work_kkta46aprvda3kxuww62zfddua 202 24 in in IN work_kkta46aprvda3kxuww62zfddua 202 25 close close JJ work_kkta46aprvda3kxuww62zfddua 202 26 proximity proximity NN work_kkta46aprvda3kxuww62zfddua 202 27 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 202 28 Fig fig NN work_kkta46aprvda3kxuww62zfddua 202 29 . . . work_kkta46aprvda3kxuww62zfddua 203 1 3B 3B NNP work_kkta46aprvda3kxuww62zfddua 203 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 203 3 . . . work_kkta46aprvda3kxuww62zfddua 204 1 The the DT work_kkta46aprvda3kxuww62zfddua 204 2 DF- DF- NNP work_kkta46aprvda3kxuww62zfddua 204 3 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 204 4 52 52 CD work_kkta46aprvda3kxuww62zfddua 204 5 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 204 6 and and CC work_kkta46aprvda3kxuww62zfddua 204 7 A3B3DF a3b3df NN work_kkta46aprvda3kxuww62zfddua 204 8 - - HYPH work_kkta46aprvda3kxuww62zfddua 204 9 crystal crystal NN work_kkta46aprvda3kxuww62zfddua 204 10 structures structure NNS work_kkta46aprvda3kxuww62zfddua 204 11 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 204 12 55 55 CD work_kkta46aprvda3kxuww62zfddua 204 13 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 204 14 of of IN work_kkta46aprvda3kxuww62zfddua 204 15 the the DT work_kkta46aprvda3kxuww62zfddua 204 16 E. E. NNP work_kkta46aprvda3kxuww62zfddua 204 17 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 204 18 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 204 19 show show VBP work_kkta46aprvda3kxuww62zfddua 204 20 that that IN work_kkta46aprvda3kxuww62zfddua 204 21 the the DT work_kkta46aprvda3kxuww62zfddua 204 22 four four CD work_kkta46aprvda3kxuww62zfddua 204 23 - - HYPH work_kkta46aprvda3kxuww62zfddua 204 24 stranded strand VBN work_kkta46aprvda3kxuww62zfddua 204 25 β- β- NN work_kkta46aprvda3kxuww62zfddua 204 26 sheet sheet NN work_kkta46aprvda3kxuww62zfddua 204 27 in in IN work_kkta46aprvda3kxuww62zfddua 204 28 the the DT work_kkta46aprvda3kxuww62zfddua 204 29 N n JJ work_kkta46aprvda3kxuww62zfddua 204 30 - - HYPH work_kkta46aprvda3kxuww62zfddua 204 31 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 204 32 part part NN work_kkta46aprvda3kxuww62zfddua 204 33 of of IN work_kkta46aprvda3kxuww62zfddua 204 34 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 204 35 F F NNP work_kkta46aprvda3kxuww62zfddua 204 36 mediates mediate VBZ work_kkta46aprvda3kxuww62zfddua 204 37 the the DT work_kkta46aprvda3kxuww62zfddua 204 38 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 204 39 with with IN work_kkta46aprvda3kxuww62zfddua 204 40 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 204 41 D d NN work_kkta46aprvda3kxuww62zfddua 204 42 , , , work_kkta46aprvda3kxuww62zfddua 204 43 forming form VBG work_kkta46aprvda3kxuww62zfddua 204 44 together together RB work_kkta46aprvda3kxuww62zfddua 204 45 the the DT work_kkta46aprvda3kxuww62zfddua 204 46 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 204 47 shaft shaft NN work_kkta46aprvda3kxuww62zfddua 204 48 . . . work_kkta46aprvda3kxuww62zfddua 205 1 The the DT work_kkta46aprvda3kxuww62zfddua 205 2 recently recently RB work_kkta46aprvda3kxuww62zfddua 205 3 postulated postulate VBN work_kkta46aprvda3kxuww62zfddua 205 4 model model NN work_kkta46aprvda3kxuww62zfddua 205 5 of of IN work_kkta46aprvda3kxuww62zfddua 205 6 the the DT work_kkta46aprvda3kxuww62zfddua 205 7 rotation rotation NN work_kkta46aprvda3kxuww62zfddua 205 8 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 205 9 in in IN work_kkta46aprvda3kxuww62zfddua 205 10 the the DT work_kkta46aprvda3kxuww62zfddua 205 11 E. E. NNP work_kkta46aprvda3kxuww62zfddua 205 12 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 205 13 A3B3DF A3B3DF NNP work_kkta46aprvda3kxuww62zfddua 205 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 205 15 crystal crystal NNP work_kkta46aprvda3kxuww62zfddua 205 16 struc- struc- NNP work_kkta46aprvda3kxuww62zfddua 205 17 tures ture NNS work_kkta46aprvda3kxuww62zfddua 205 18 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 205 19 55 55 CD work_kkta46aprvda3kxuww62zfddua 205 20 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 205 21 reveal reveal VBP work_kkta46aprvda3kxuww62zfddua 205 22 that that IN work_kkta46aprvda3kxuww62zfddua 205 23 the the DT work_kkta46aprvda3kxuww62zfddua 205 24 DF DF NNP work_kkta46aprvda3kxuww62zfddua 205 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 205 26 assembly assembly NNP work_kkta46aprvda3kxuww62zfddua 205 27 induces induce VBZ work_kkta46aprvda3kxuww62zfddua 205 28 a a DT work_kkta46aprvda3kxuww62zfddua 205 29 switch switch NN work_kkta46aprvda3kxuww62zfddua 205 30 from from IN work_kkta46aprvda3kxuww62zfddua 205 31 a a DT work_kkta46aprvda3kxuww62zfddua 205 32 bindable bindable JJ work_kkta46aprvda3kxuww62zfddua 205 33 form form NN work_kkta46aprvda3kxuww62zfddua 205 34 to to IN work_kkta46aprvda3kxuww62zfddua 205 35 the the DT work_kkta46aprvda3kxuww62zfddua 205 36 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 205 37 - - HYPH work_kkta46aprvda3kxuww62zfddua 205 38 bound bind VBN work_kkta46aprvda3kxuww62zfddua 205 39 form form NN work_kkta46aprvda3kxuww62zfddua 205 40 in in IN work_kkta46aprvda3kxuww62zfddua 205 41 one one CD work_kkta46aprvda3kxuww62zfddua 205 42 AB AB NNP work_kkta46aprvda3kxuww62zfddua 205 43 - - HYPH work_kkta46aprvda3kxuww62zfddua 205 44 pair pair NN work_kkta46aprvda3kxuww62zfddua 205 45 , , , work_kkta46aprvda3kxuww62zfddua 205 46 while while IN work_kkta46aprvda3kxuww62zfddua 205 47 the the DT work_kkta46aprvda3kxuww62zfddua 205 48 DF DF NNP work_kkta46aprvda3kxuww62zfddua 205 49 interac- interac- NNP work_kkta46aprvda3kxuww62zfddua 205 50 tion tion NN work_kkta46aprvda3kxuww62zfddua 205 51 with with IN work_kkta46aprvda3kxuww62zfddua 205 52 a a DT work_kkta46aprvda3kxuww62zfddua 205 53 second second JJ work_kkta46aprvda3kxuww62zfddua 205 54 subunit subunit JJ work_kkta46aprvda3kxuww62zfddua 205 55 AB AB NNP work_kkta46aprvda3kxuww62zfddua 205 56 - - HYPH work_kkta46aprvda3kxuww62zfddua 205 57 pair pair NN work_kkta46aprvda3kxuww62zfddua 205 58 causes cause VBZ work_kkta46aprvda3kxuww62zfddua 205 59 the the DT work_kkta46aprvda3kxuww62zfddua 205 60 alteration alteration NN work_kkta46aprvda3kxuww62zfddua 205 61 from from IN work_kkta46aprvda3kxuww62zfddua 205 62 a a DT work_kkta46aprvda3kxuww62zfddua 205 63 bound bind VBN work_kkta46aprvda3kxuww62zfddua 205 64 form form NN work_kkta46aprvda3kxuww62zfddua 205 65 to to IN work_kkta46aprvda3kxuww62zfddua 205 66 a a DT work_kkta46aprvda3kxuww62zfddua 205 67 tight tight JJ work_kkta46aprvda3kxuww62zfddua 205 68 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 205 69 - - HYPH work_kkta46aprvda3kxuww62zfddua 205 70 binding bind VBG work_kkta46aprvda3kxuww62zfddua 205 71 form form NN work_kkta46aprvda3kxuww62zfddua 205 72 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 205 73 55 55 CD work_kkta46aprvda3kxuww62zfddua 205 74 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 205 75 . . . work_kkta46aprvda3kxuww62zfddua 206 1 The the DT work_kkta46aprvda3kxuww62zfddua 206 2 rotational rotational JJ work_kkta46aprvda3kxuww62zfddua 206 3 dynamics dynamic NNS work_kkta46aprvda3kxuww62zfddua 206 4 of of IN work_kkta46aprvda3kxuww62zfddua 206 5 the the DT work_kkta46aprvda3kxuww62zfddua 206 6 E. E. NNP work_kkta46aprvda3kxuww62zfddua 206 7 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 206 8 A3B3DF A3B3DF NNP work_kkta46aprvda3kxuww62zfddua 206 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 206 10 complex complex NN work_kkta46aprvda3kxuww62zfddua 206 11 have have VBP work_kkta46aprvda3kxuww62zfddua 206 12 recently recently RB work_kkta46aprvda3kxuww62zfddua 206 13 been be VBN work_kkta46aprvda3kxuww62zfddua 206 14 confirmed confirm VBN work_kkta46aprvda3kxuww62zfddua 206 15 in in IN work_kkta46aprvda3kxuww62zfddua 206 16 single single JJ work_kkta46aprvda3kxuww62zfddua 206 17 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 206 18 studies study NNS work_kkta46aprvda3kxuww62zfddua 206 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 206 20 74 74 CD work_kkta46aprvda3kxuww62zfddua 206 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 206 22 , , , work_kkta46aprvda3kxuww62zfddua 206 23 showing show VBG work_kkta46aprvda3kxuww62zfddua 206 24 that that IN work_kkta46aprvda3kxuww62zfddua 206 25 DF DF NNP work_kkta46aprvda3kxuww62zfddua 206 26 rotates rotate NNS work_kkta46aprvda3kxuww62zfddua 206 27 unidirectional unidirectional JJ work_kkta46aprvda3kxuww62zfddua 206 28 in in IN work_kkta46aprvda3kxuww62zfddua 206 29 a a DT work_kkta46aprvda3kxuww62zfddua 206 30 coun- coun- JJ work_kkta46aprvda3kxuww62zfddua 206 31 terclockwise terclockwise NN work_kkta46aprvda3kxuww62zfddua 206 32 direction direction NN work_kkta46aprvda3kxuww62zfddua 206 33 during during IN work_kkta46aprvda3kxuww62zfddua 206 34 ATP atp NN work_kkta46aprvda3kxuww62zfddua 206 35 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 206 36 with with IN work_kkta46aprvda3kxuww62zfddua 206 37 a a DT work_kkta46aprvda3kxuww62zfddua 206 38 maximal maximal JJ work_kkta46aprvda3kxuww62zfddua 206 39 rotation rotation NN work_kkta46aprvda3kxuww62zfddua 206 40 rate rate NN work_kkta46aprvda3kxuww62zfddua 206 41 of of IN work_kkta46aprvda3kxuww62zfddua 206 42 about about IN work_kkta46aprvda3kxuww62zfddua 206 43 73 73 CD work_kkta46aprvda3kxuww62zfddua 206 44 ± ± CD work_kkta46aprvda3kxuww62zfddua 206 45 2 2 CD work_kkta46aprvda3kxuww62zfddua 206 46 revolutions revolution NNS work_kkta46aprvda3kxuww62zfddua 206 47 / / SYM work_kkta46aprvda3kxuww62zfddua 206 48 s s NN work_kkta46aprvda3kxuww62zfddua 206 49 . . . work_kkta46aprvda3kxuww62zfddua 207 1 In in IN work_kkta46aprvda3kxuww62zfddua 207 2 contrast contrast NN work_kkta46aprvda3kxuww62zfddua 207 3 to to IN work_kkta46aprvda3kxuww62zfddua 207 4 the the DT work_kkta46aprvda3kxuww62zfddua 207 5 thermophilic thermophilic JJ work_kkta46aprvda3kxuww62zfddua 207 6 Bacil- Bacil- NNP work_kkta46aprvda3kxuww62zfddua 207 7 lus lus NNP work_kkta46aprvda3kxuww62zfddua 207 8 PS3 PS3 NNP work_kkta46aprvda3kxuww62zfddua 207 9 F1 F1 NNP work_kkta46aprvda3kxuww62zfddua 207 10 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 207 11 , , , work_kkta46aprvda3kxuww62zfddua 207 12 which which WDT work_kkta46aprvda3kxuww62zfddua 207 13 shows show VBZ work_kkta46aprvda3kxuww62zfddua 207 14 three three CD work_kkta46aprvda3kxuww62zfddua 207 15 120 120 CD work_kkta46aprvda3kxuww62zfddua 207 16 ° ° NNS work_kkta46aprvda3kxuww62zfddua 207 17 steps step NNS work_kkta46aprvda3kxuww62zfddua 207 18 , , , work_kkta46aprvda3kxuww62zfddua 207 19 which which WDT work_kkta46aprvda3kxuww62zfddua 207 20 can can MD work_kkta46aprvda3kxuww62zfddua 207 21 be be VB work_kkta46aprvda3kxuww62zfddua 207 22 further further RB work_kkta46aprvda3kxuww62zfddua 207 23 divided divide VBN work_kkta46aprvda3kxuww62zfddua 207 24 into into IN work_kkta46aprvda3kxuww62zfddua 207 25 substeps substeps NNP work_kkta46aprvda3kxuww62zfddua 207 26 , , , work_kkta46aprvda3kxuww62zfddua 207 27 the the DT work_kkta46aprvda3kxuww62zfddua 207 28 E. E. NNP work_kkta46aprvda3kxuww62zfddua 207 29 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 207 30 A3B3DF A3B3DF NNP work_kkta46aprvda3kxuww62zfddua 207 31 - - HYPH work_kkta46aprvda3kxuww62zfddua 207 32 complex complex NNP work_kkta46aprvda3kxuww62zfddua 207 33 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 207 34 only only RB work_kkta46aprvda3kxuww62zfddua 207 35 three three CD work_kkta46aprvda3kxuww62zfddua 207 36 pauses pause NNS work_kkta46aprvda3kxuww62zfddua 207 37 separated separate VBN work_kkta46aprvda3kxuww62zfddua 207 38 by by IN work_kkta46aprvda3kxuww62zfddua 207 39 120 120 CD work_kkta46aprvda3kxuww62zfddua 207 40 ° ° NNS work_kkta46aprvda3kxuww62zfddua 207 41 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 207 42 74 74 CD work_kkta46aprvda3kxuww62zfddua 207 43 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 207 44 , , , work_kkta46aprvda3kxuww62zfddua 207 45 indicating indicate VBG work_kkta46aprvda3kxuww62zfddua 207 46 the the DT work_kkta46aprvda3kxuww62zfddua 207 47 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 207 48 difference difference NN work_kkta46aprvda3kxuww62zfddua 207 49 be- be- XX work_kkta46aprvda3kxuww62zfddua 207 50 tween tween NN work_kkta46aprvda3kxuww62zfddua 207 51 both both CC work_kkta46aprvda3kxuww62zfddua 207 52 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 207 53 motors motor NNS work_kkta46aprvda3kxuww62zfddua 207 54 . . . work_kkta46aprvda3kxuww62zfddua 208 1 The the DT work_kkta46aprvda3kxuww62zfddua 208 2 tip tip NN work_kkta46aprvda3kxuww62zfddua 208 3 of of IN work_kkta46aprvda3kxuww62zfddua 208 4 the the DT work_kkta46aprvda3kxuww62zfddua 208 5 central central JJ work_kkta46aprvda3kxuww62zfddua 208 6 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 208 7 in in IN work_kkta46aprvda3kxuww62zfddua 208 8 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 208 9 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 208 10 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 208 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 208 12 made make VBN work_kkta46aprvda3kxuww62zfddua 208 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 208 14 up up RP work_kkta46aprvda3kxuww62zfddua 208 15 by by IN work_kkta46aprvda3kxuww62zfddua 208 16 sub- sub- DT work_kkta46aprvda3kxuww62zfddua 208 17 unit unit NN work_kkta46aprvda3kxuww62zfddua 208 18 C C NNP work_kkta46aprvda3kxuww62zfddua 208 19 , , , work_kkta46aprvda3kxuww62zfddua 208 20 which which WDT work_kkta46aprvda3kxuww62zfddua 208 21 has have VBZ work_kkta46aprvda3kxuww62zfddua 208 22 a a DT work_kkta46aprvda3kxuww62zfddua 208 23 funnel funnel NN work_kkta46aprvda3kxuww62zfddua 208 24 shaped shaped JJ work_kkta46aprvda3kxuww62zfddua 208 25 structure structure NN work_kkta46aprvda3kxuww62zfddua 208 26 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 208 27 51 51 CD work_kkta46aprvda3kxuww62zfddua 208 28 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 208 29 with with IN work_kkta46aprvda3kxuww62zfddua 208 30 a a DT work_kkta46aprvda3kxuww62zfddua 208 31 central central JJ work_kkta46aprvda3kxuww62zfddua 208 32 cavity cavity NN work_kkta46aprvda3kxuww62zfddua 208 33 , , , work_kkta46aprvda3kxuww62zfddua 208 34 providing provide VBG work_kkta46aprvda3kxuww62zfddua 208 35 space space NN work_kkta46aprvda3kxuww62zfddua 208 36 for for IN work_kkta46aprvda3kxuww62zfddua 208 37 the the DT work_kkta46aprvda3kxuww62zfddua 208 38 D d NN work_kkta46aprvda3kxuww62zfddua 208 39 and and CC work_kkta46aprvda3kxuww62zfddua 208 40 F F NNP work_kkta46aprvda3kxuww62zfddua 208 41 assembly assembly NN work_kkta46aprvda3kxuww62zfddua 208 42 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 208 43 Fig fig NN work_kkta46aprvda3kxuww62zfddua 208 44 . . . work_kkta46aprvda3kxuww62zfddua 209 1 1B 1B NNP work_kkta46aprvda3kxuww62zfddua 209 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 209 3 . . . work_kkta46aprvda3kxuww62zfddua 210 1 As as IN work_kkta46aprvda3kxuww62zfddua 210 2 revealed reveal VBN work_kkta46aprvda3kxuww62zfddua 210 3 by by IN work_kkta46aprvda3kxuww62zfddua 210 4 the the DT work_kkta46aprvda3kxuww62zfddua 210 5 9.7 9.7 CD work_kkta46aprvda3kxuww62zfddua 210 6 Å Å NNP work_kkta46aprvda3kxuww62zfddua 210 7 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 210 8 structure structure NN work_kkta46aprvda3kxuww62zfddua 210 9 of of IN work_kkta46aprvda3kxuww62zfddua 210 10 the the DT work_kkta46aprvda3kxuww62zfddua 210 11 Thermus Thermus NNP work_kkta46aprvda3kxuww62zfddua 210 12 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 210 13 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 210 14 , , , work_kkta46aprvda3kxuww62zfddua 210 15 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 210 16 C C NNP work_kkta46aprvda3kxuww62zfddua 210 17 sits sit VBZ work_kkta46aprvda3kxuww62zfddua 210 18 asymmetrically asymmetrically RB work_kkta46aprvda3kxuww62zfddua 210 19 on on IN work_kkta46aprvda3kxuww62zfddua 210 20 the the DT work_kkta46aprvda3kxuww62zfddua 210 21 c c NNP work_kkta46aprvda3kxuww62zfddua 210 22 ring ring NN work_kkta46aprvda3kxuww62zfddua 210 23 without without IN work_kkta46aprvda3kxuww62zfddua 210 24 penetrating penetrating NN work_kkta46aprvda3kxuww62zfddua 210 25 significantly significantly RB work_kkta46aprvda3kxuww62zfddua 210 26 in in IN work_kkta46aprvda3kxuww62zfddua 210 27 to to IN work_kkta46aprvda3kxuww62zfddua 210 28 the the DT work_kkta46aprvda3kxuww62zfddua 210 29 central central JJ work_kkta46aprvda3kxuww62zfddua 210 30 pore pore NN work_kkta46aprvda3kxuww62zfddua 210 31 of of IN work_kkta46aprvda3kxuww62zfddua 210 32 the the DT work_kkta46aprvda3kxuww62zfddua 210 33 c c NN work_kkta46aprvda3kxuww62zfddua 210 34 ring ring NN work_kkta46aprvda3kxuww62zfddua 210 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 210 36 48 48 CD work_kkta46aprvda3kxuww62zfddua 210 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 210 38 . . . work_kkta46aprvda3kxuww62zfddua 211 1 The the DT work_kkta46aprvda3kxuww62zfddua 211 2 function function NN work_kkta46aprvda3kxuww62zfddua 211 3 of of IN work_kkta46aprvda3kxuww62zfddua 211 4 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 211 5 C C NNP work_kkta46aprvda3kxuww62zfddua 211 6 , , , work_kkta46aprvda3kxuww62zfddua 211 7 which which WDT work_kkta46aprvda3kxuww62zfddua 211 8 is be VBZ work_kkta46aprvda3kxuww62zfddua 211 9 characteristic characteristic JJ work_kkta46aprvda3kxuww62zfddua 211 10 for for IN work_kkta46aprvda3kxuww62zfddua 211 11 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 211 12 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 211 13 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 211 14 , , , work_kkta46aprvda3kxuww62zfddua 211 15 has have VBZ work_kkta46aprvda3kxuww62zfddua 211 16 been be VBN work_kkta46aprvda3kxuww62zfddua 211 17 described describe VBN work_kkta46aprvda3kxuww62zfddua 211 18 of of IN work_kkta46aprvda3kxuww62zfddua 211 19 being be VBG work_kkta46aprvda3kxuww62zfddua 211 20 a a DT work_kkta46aprvda3kxuww62zfddua 211 21 spacer spacer JJ work_kkta46aprvda3kxuww62zfddua 211 22 unit unit NN work_kkta46aprvda3kxuww62zfddua 211 23 that that WDT work_kkta46aprvda3kxuww62zfddua 211 24 plays play VBZ work_kkta46aprvda3kxuww62zfddua 211 25 a a DT work_kkta46aprvda3kxuww62zfddua 211 26 role role NN work_kkta46aprvda3kxuww62zfddua 211 27 in in IN work_kkta46aprvda3kxuww62zfddua 211 28 coupling coupling NN work_kkta46aprvda3kxuww62zfddua 211 29 and and CC work_kkta46aprvda3kxuww62zfddua 211 30 rotational rotational JJ work_kkta46aprvda3kxuww62zfddua 211 31 steps step NNS work_kkta46aprvda3kxuww62zfddua 211 32 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 211 33 75 75 CD work_kkta46aprvda3kxuww62zfddua 211 34 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 211 35 . . . work_kkta46aprvda3kxuww62zfddua 212 1 4.6 4.6 CD work_kkta46aprvda3kxuww62zfddua 212 2 . . . work_kkta46aprvda3kxuww62zfddua 213 1 The the DT work_kkta46aprvda3kxuww62zfddua 213 2 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 213 3 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 213 4 and and CC work_kkta46aprvda3kxuww62zfddua 213 5 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 213 6 elastic elastic JJ work_kkta46aprvda3kxuww62zfddua 213 7 features feature NNS work_kkta46aprvda3kxuww62zfddua 213 8 The the DT work_kkta46aprvda3kxuww62zfddua 213 9 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 213 10 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 213 11 are be VBP work_kkta46aprvda3kxuww62zfddua 213 12 made make VBN work_kkta46aprvda3kxuww62zfddua 213 13 up up RP work_kkta46aprvda3kxuww62zfddua 213 14 by by IN work_kkta46aprvda3kxuww62zfddua 213 15 the the DT work_kkta46aprvda3kxuww62zfddua 213 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 213 17 E e NN work_kkta46aprvda3kxuww62zfddua 213 18 and and CC work_kkta46aprvda3kxuww62zfddua 213 19 H h NN work_kkta46aprvda3kxuww62zfddua 213 20 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 213 21 Fig fig NN work_kkta46aprvda3kxuww62zfddua 213 22 . . . work_kkta46aprvda3kxuww62zfddua 214 1 1A 1a LS work_kkta46aprvda3kxuww62zfddua 214 2 – – : work_kkta46aprvda3kxuww62zfddua 214 3 C C NNP work_kkta46aprvda3kxuww62zfddua 214 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 214 5 . . . work_kkta46aprvda3kxuww62zfddua 215 1 Concerning concern VBG work_kkta46aprvda3kxuww62zfddua 215 2 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 215 3 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 215 4 and and CC work_kkta46aprvda3kxuww62zfddua 215 5 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 215 6 composition composition NN work_kkta46aprvda3kxuww62zfddua 215 7 the the DT work_kkta46aprvda3kxuww62zfddua 215 8 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 215 9 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 215 10 of of IN work_kkta46aprvda3kxuww62zfddua 215 11 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 215 12 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 215 13 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 215 14 are be VBP work_kkta46aprvda3kxuww62zfddua 215 15 the the DT work_kkta46aprvda3kxuww62zfddua 215 16 most most RBS work_kkta46aprvda3kxuww62zfddua 215 17 divergent divergent JJ work_kkta46aprvda3kxuww62zfddua 215 18 elements element NNS work_kkta46aprvda3kxuww62zfddua 215 19 compared compare VBN work_kkta46aprvda3kxuww62zfddua 215 20 to to IN work_kkta46aprvda3kxuww62zfddua 215 21 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 215 22 related related JJ work_kkta46aprvda3kxuww62zfddua 215 23 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 215 24 ATP atp NN work_kkta46aprvda3kxuww62zfddua 215 25 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 215 26 or or CC work_kkta46aprvda3kxuww62zfddua 215 27 eukaryotic eukaryotic JJ work_kkta46aprvda3kxuww62zfddua 215 28 V1VO v1vo NN work_kkta46aprvda3kxuww62zfddua 215 29 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 215 30 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 215 31 76 76 CD work_kkta46aprvda3kxuww62zfddua 215 32 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 215 33 . . . work_kkta46aprvda3kxuww62zfddua 216 1 As as IN work_kkta46aprvda3kxuww62zfddua 216 2 shown show VBN work_kkta46aprvda3kxuww62zfddua 216 3 by by IN work_kkta46aprvda3kxuww62zfddua 216 4 the the DT work_kkta46aprvda3kxuww62zfddua 216 5 crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 216 6 structure structure NN work_kkta46aprvda3kxuww62zfddua 216 7 of of IN work_kkta46aprvda3kxuww62zfddua 216 8 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 216 9 H h NN work_kkta46aprvda3kxuww62zfddua 216 10 of of IN work_kkta46aprvda3kxuww62zfddua 216 11 the the DT work_kkta46aprvda3kxuww62zfddua 216 12 T. t. JJ work_kkta46aprvda3kxuww62zfddua 216 13 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 216 14 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 216 15 ATP atp NN work_kkta46aprvda3kxuww62zfddua 216 16 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 216 17 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 216 18 77 77 CD work_kkta46aprvda3kxuww62zfddua 216 19 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 216 20 this this DT work_kkta46aprvda3kxuww62zfddua 216 21 protein protein NN work_kkta46aprvda3kxuww62zfddua 216 22 is be VBZ work_kkta46aprvda3kxuww62zfddua 216 23 entirely entirely RB work_kkta46aprvda3kxuww62zfddua 216 24 α α NN work_kkta46aprvda3kxuww62zfddua 216 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 216 26 helical helical JJ work_kkta46aprvda3kxuww62zfddua 216 27 with with IN work_kkta46aprvda3kxuww62zfddua 216 28 a a DT work_kkta46aprvda3kxuww62zfddua 216 29 long long JJ work_kkta46aprvda3kxuww62zfddua 216 30 N n CD work_kkta46aprvda3kxuww62zfddua 216 31 - - HYPH work_kkta46aprvda3kxuww62zfddua 216 32 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 216 33 helix helix NN work_kkta46aprvda3kxuww62zfddua 216 34 and and CC work_kkta46aprvda3kxuww62zfddua 216 35 a a DT work_kkta46aprvda3kxuww62zfddua 216 36 shorter short JJR work_kkta46aprvda3kxuww62zfddua 216 37 C c NN work_kkta46aprvda3kxuww62zfddua 216 38 - - HYPH work_kkta46aprvda3kxuww62zfddua 216 39 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 216 40 helix helix NN work_kkta46aprvda3kxuww62zfddua 216 41 , , , work_kkta46aprvda3kxuww62zfddua 216 42 which which WDT work_kkta46aprvda3kxuww62zfddua 216 43 are be VBP work_kkta46aprvda3kxuww62zfddua 216 44 linked link VBN work_kkta46aprvda3kxuww62zfddua 216 45 by by IN work_kkta46aprvda3kxuww62zfddua 216 46 a a DT work_kkta46aprvda3kxuww62zfddua 216 47 sharp sharp JJ work_kkta46aprvda3kxuww62zfddua 216 48 kink kink NN work_kkta46aprvda3kxuww62zfddua 216 49 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 216 50 Fig fig NN work_kkta46aprvda3kxuww62zfddua 216 51 . . . work_kkta46aprvda3kxuww62zfddua 217 1 1A 1a LS work_kkta46aprvda3kxuww62zfddua 217 2 – – : work_kkta46aprvda3kxuww62zfddua 217 3 D d NN work_kkta46aprvda3kxuww62zfddua 217 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 217 5 . . . work_kkta46aprvda3kxuww62zfddua 218 1 This this DT work_kkta46aprvda3kxuww62zfddua 218 2 C c NN work_kkta46aprvda3kxuww62zfddua 218 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 4 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 218 5 helix helix NN work_kkta46aprvda3kxuww62zfddua 218 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 218 7 close close JJ work_kkta46aprvda3kxuww62zfddua 218 8 to to IN work_kkta46aprvda3kxuww62zfddua 218 9 the the DT work_kkta46aprvda3kxuww62zfddua 218 10 N n CD work_kkta46aprvda3kxuww62zfddua 218 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 12 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 218 13 helix helix NN work_kkta46aprvda3kxuww62zfddua 218 14 and and CC work_kkta46aprvda3kxuww62zfddua 218 15 the the DT work_kkta46aprvda3kxuww62zfddua 218 16 C c NN work_kkta46aprvda3kxuww62zfddua 218 17 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 18 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 218 19 tail tail NN work_kkta46aprvda3kxuww62zfddua 218 20 of of IN work_kkta46aprvda3kxuww62zfddua 218 21 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 218 22 E. E. NNP work_kkta46aprvda3kxuww62zfddua 218 23 The the DT work_kkta46aprvda3kxuww62zfddua 218 24 kink kink NN work_kkta46aprvda3kxuww62zfddua 218 25 of of IN work_kkta46aprvda3kxuww62zfddua 218 26 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 218 27 H h NN work_kkta46aprvda3kxuww62zfddua 218 28 together together RB work_kkta46aprvda3kxuww62zfddua 218 29 with with IN work_kkta46aprvda3kxuww62zfddua 218 30 the the DT work_kkta46aprvda3kxuww62zfddua 218 31 loop loop NN work_kkta46aprvda3kxuww62zfddua 218 32 of of IN work_kkta46aprvda3kxuww62zfddua 218 33 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 218 34 E E NNS work_kkta46aprvda3kxuww62zfddua 218 35 are be VBP work_kkta46aprvda3kxuww62zfddua 218 36 predicted predict VBN work_kkta46aprvda3kxuww62zfddua 218 37 to to TO work_kkta46aprvda3kxuww62zfddua 218 38 be be VB work_kkta46aprvda3kxuww62zfddua 218 39 two two CD work_kkta46aprvda3kxuww62zfddua 218 40 flexible flexible JJ work_kkta46aprvda3kxuww62zfddua 218 41 joints joint NNS work_kkta46aprvda3kxuww62zfddua 218 42 that that WDT work_kkta46aprvda3kxuww62zfddua 218 43 tether tether VBP work_kkta46aprvda3kxuww62zfddua 218 44 the the DT work_kkta46aprvda3kxuww62zfddua 218 45 headgroup headgroup NN work_kkta46aprvda3kxuww62zfddua 218 46 to to IN work_kkta46aprvda3kxuww62zfddua 218 47 the the DT work_kkta46aprvda3kxuww62zfddua 218 48 coiled coil VBN work_kkta46aprvda3kxuww62zfddua 218 49 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 50 coil coil NN work_kkta46aprvda3kxuww62zfddua 218 51 region region NN work_kkta46aprvda3kxuww62zfddua 218 52 formed form VBN work_kkta46aprvda3kxuww62zfddua 218 53 by by IN work_kkta46aprvda3kxuww62zfddua 218 54 the the DT work_kkta46aprvda3kxuww62zfddua 218 55 N n NN work_kkta46aprvda3kxuww62zfddua 218 56 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 57 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 218 58 helices helix NNS work_kkta46aprvda3kxuww62zfddua 218 59 of of IN work_kkta46aprvda3kxuww62zfddua 218 60 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 218 61 E e NN work_kkta46aprvda3kxuww62zfddua 218 62 and and CC work_kkta46aprvda3kxuww62zfddua 218 63 H. H. NNP work_kkta46aprvda3kxuww62zfddua 218 64 Subunit Subunit NNP work_kkta46aprvda3kxuww62zfddua 218 65 E E NNP work_kkta46aprvda3kxuww62zfddua 218 66 is be VBZ work_kkta46aprvda3kxuww62zfddua 218 67 a a DT work_kkta46aprvda3kxuww62zfddua 218 68 long long JJ work_kkta46aprvda3kxuww62zfddua 218 69 , , , work_kkta46aprvda3kxuww62zfddua 218 70 two two CD work_kkta46aprvda3kxuww62zfddua 218 71 domain domain NN work_kkta46aprvda3kxuww62zfddua 218 72 protein protein NN work_kkta46aprvda3kxuww62zfddua 218 73 with with IN work_kkta46aprvda3kxuww62zfddua 218 74 a a DT work_kkta46aprvda3kxuww62zfddua 218 75 C c NN work_kkta46aprvda3kxuww62zfddua 218 76 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 77 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 218 78 globular globular JJ work_kkta46aprvda3kxuww62zfddua 218 79 domain domain NN work_kkta46aprvda3kxuww62zfddua 218 80 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 218 81 77–79 77–79 NN work_kkta46aprvda3kxuww62zfddua 218 82 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 218 83 , , , work_kkta46aprvda3kxuww62zfddua 218 84 which which WDT work_kkta46aprvda3kxuww62zfddua 218 85 is be VBZ work_kkta46aprvda3kxuww62zfddua 218 86 in in IN work_kkta46aprvda3kxuww62zfddua 218 87 close close JJ work_kkta46aprvda3kxuww62zfddua 218 88 proximity proximity NN work_kkta46aprvda3kxuww62zfddua 218 89 to to IN work_kkta46aprvda3kxuww62zfddua 218 90 the the DT work_kkta46aprvda3kxuww62zfddua 218 91 top top NN work_kkta46aprvda3kxuww62zfddua 218 92 of of IN work_kkta46aprvda3kxuww62zfddua 218 93 an an DT work_kkta46aprvda3kxuww62zfddua 218 94 A a NN work_kkta46aprvda3kxuww62zfddua 218 95 – – : work_kkta46aprvda3kxuww62zfddua 218 96 B b NN work_kkta46aprvda3kxuww62zfddua 218 97 inter- inter- NN work_kkta46aprvda3kxuww62zfddua 218 98 face face NN work_kkta46aprvda3kxuww62zfddua 218 99 and and CC work_kkta46aprvda3kxuww62zfddua 218 100 C c NN work_kkta46aprvda3kxuww62zfddua 218 101 - - HYPH work_kkta46aprvda3kxuww62zfddua 218 102 terminus terminus NN work_kkta46aprvda3kxuww62zfddua 218 103 of of IN work_kkta46aprvda3kxuww62zfddua 218 104 H h NN work_kkta46aprvda3kxuww62zfddua 218 105 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 218 106 Fig fig NN work_kkta46aprvda3kxuww62zfddua 218 107 . . . work_kkta46aprvda3kxuww62zfddua 219 1 1A 1a LS work_kkta46aprvda3kxuww62zfddua 219 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 219 3 , , , work_kkta46aprvda3kxuww62zfddua 219 4 and and CC work_kkta46aprvda3kxuww62zfddua 219 5 an an DT work_kkta46aprvda3kxuww62zfddua 219 6 extended extended JJ work_kkta46aprvda3kxuww62zfddua 219 7 N n NN work_kkta46aprvda3kxuww62zfddua 219 8 - - HYPH work_kkta46aprvda3kxuww62zfddua 219 9 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 219 10 α α JJ work_kkta46aprvda3kxuww62zfddua 219 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 219 12 helix helix NN work_kkta46aprvda3kxuww62zfddua 219 13 . . . work_kkta46aprvda3kxuww62zfddua 220 1 Structures structure NNS work_kkta46aprvda3kxuww62zfddua 220 2 of of IN work_kkta46aprvda3kxuww62zfddua 220 3 a a DT work_kkta46aprvda3kxuww62zfddua 220 4 straight- straight- NN work_kkta46aprvda3kxuww62zfddua 220 5 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 220 6 T. t. NN work_kkta46aprvda3kxuww62zfddua 220 7 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 220 8 , , , work_kkta46aprvda3kxuww62zfddua 220 9 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 220 10 77 77 CD work_kkta46aprvda3kxuww62zfddua 220 11 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 220 12 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 220 13 and and CC work_kkta46aprvda3kxuww62zfddua 220 14 a a DT work_kkta46aprvda3kxuww62zfddua 220 15 S S NNP work_kkta46aprvda3kxuww62zfddua 220 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 220 17 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 220 18 confor- confor- NN work_kkta46aprvda3kxuww62zfddua 220 19 mation mation NN work_kkta46aprvda3kxuww62zfddua 220 20 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 220 21 P. P. NNP work_kkta46aprvda3kxuww62zfddua 220 22 horikoshii horikoshii NNP work_kkta46aprvda3kxuww62zfddua 220 23 OT3 OT3 NNP work_kkta46aprvda3kxuww62zfddua 220 24 , , , work_kkta46aprvda3kxuww62zfddua 220 25 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 220 26 79 79 CD work_kkta46aprvda3kxuww62zfddua 220 27 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 220 28 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 220 29 of of IN work_kkta46aprvda3kxuww62zfddua 220 30 the the DT work_kkta46aprvda3kxuww62zfddua 220 31 extended extended JJ work_kkta46aprvda3kxuww62zfddua 220 32 N N NNP work_kkta46aprvda3kxuww62zfddua 220 33 - - HYPH work_kkta46aprvda3kxuww62zfddua 220 34 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 220 35 α α IN work_kkta46aprvda3kxuww62zfddua 220 36 - - HYPH work_kkta46aprvda3kxuww62zfddua 220 37 helix helix NN work_kkta46aprvda3kxuww62zfddua 220 38 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 220 39 E E NNS work_kkta46aprvda3kxuww62zfddua 220 40 have have VBP work_kkta46aprvda3kxuww62zfddua 220 41 been be VBN work_kkta46aprvda3kxuww62zfddua 220 42 determined determine VBN work_kkta46aprvda3kxuww62zfddua 220 43 , , , work_kkta46aprvda3kxuww62zfddua 220 44 which which WDT work_kkta46aprvda3kxuww62zfddua 220 45 fit fit VBP work_kkta46aprvda3kxuww62zfddua 220 46 well well RB work_kkta46aprvda3kxuww62zfddua 220 47 into into IN work_kkta46aprvda3kxuww62zfddua 220 48 the the DT work_kkta46aprvda3kxuww62zfddua 220 49 asymmetric asymmetric JJ work_kkta46aprvda3kxuww62zfddua 220 50 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 220 51 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 220 52 of of IN work_kkta46aprvda3kxuww62zfddua 220 53 the the DT work_kkta46aprvda3kxuww62zfddua 220 54 3D 3d JJ work_kkta46aprvda3kxuww62zfddua 220 55 reconstruction reconstruction NN work_kkta46aprvda3kxuww62zfddua 220 56 of of IN work_kkta46aprvda3kxuww62zfddua 220 57 the the DT work_kkta46aprvda3kxuww62zfddua 220 58 P. P. NNP work_kkta46aprvda3kxuww62zfddua 220 59 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 220 60 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 220 61 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 220 62 79 79 CD work_kkta46aprvda3kxuww62zfddua 220 63 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 220 64 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 220 65 Fig fig NN work_kkta46aprvda3kxuww62zfddua 220 66 . . . work_kkta46aprvda3kxuww62zfddua 221 1 1B 1B NNP work_kkta46aprvda3kxuww62zfddua 221 2 – – : work_kkta46aprvda3kxuww62zfddua 221 3 C C NNP work_kkta46aprvda3kxuww62zfddua 221 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 221 5 . . . work_kkta46aprvda3kxuww62zfddua 222 1 These these DT work_kkta46aprvda3kxuww62zfddua 222 2 features feature NNS work_kkta46aprvda3kxuww62zfddua 222 3 support support VBP work_kkta46aprvda3kxuww62zfddua 222 4 the the DT work_kkta46aprvda3kxuww62zfddua 222 5 model model NN work_kkta46aprvda3kxuww62zfddua 222 6 in in IN work_kkta46aprvda3kxuww62zfddua 222 7 which which WDT work_kkta46aprvda3kxuww62zfddua 222 8 the the DT work_kkta46aprvda3kxuww62zfddua 222 9 switch switch NN work_kkta46aprvda3kxuww62zfddua 222 10 from from IN work_kkta46aprvda3kxuww62zfddua 222 11 a a DT work_kkta46aprvda3kxuww62zfddua 222 12 straight- straight- NN work_kkta46aprvda3kxuww62zfddua 222 13 to to IN work_kkta46aprvda3kxuww62zfddua 222 14 an an DT work_kkta46aprvda3kxuww62zfddua 222 15 S S NNP work_kkta46aprvda3kxuww62zfddua 222 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 222 17 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 222 18 conformation conformation NN work_kkta46aprvda3kxuww62zfddua 222 19 of of IN work_kkta46aprvda3kxuww62zfddua 222 20 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 222 21 E e NN work_kkta46aprvda3kxuww62zfddua 222 22 in in IN work_kkta46aprvda3kxuww62zfddua 222 23 the the DT work_kkta46aprvda3kxuww62zfddua 222 24 two two CD work_kkta46aprvda3kxuww62zfddua 222 25 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 222 26 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 222 27 facilitates facilitate VBZ work_kkta46aprvda3kxuww62zfddua 222 28 elastic elastic JJ work_kkta46aprvda3kxuww62zfddua 222 29 power power NN work_kkta46aprvda3kxuww62zfddua 222 30 transmission transmission NN work_kkta46aprvda3kxuww62zfddua 222 31 between between IN work_kkta46aprvda3kxuww62zfddua 222 32 the the DT work_kkta46aprvda3kxuww62zfddua 222 33 AO AO NNP work_kkta46aprvda3kxuww62zfddua 222 34 and and CC work_kkta46aprvda3kxuww62zfddua 222 35 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 222 36 part part NN work_kkta46aprvda3kxuww62zfddua 222 37 , , , work_kkta46aprvda3kxuww62zfddua 222 38 which which WDT work_kkta46aprvda3kxuww62zfddua 222 39 is be VBZ work_kkta46aprvda3kxuww62zfddua 222 40 essential essential JJ work_kkta46aprvda3kxuww62zfddua 222 41 for for IN work_kkta46aprvda3kxuww62zfddua 222 42 facilitating facilitate VBG work_kkta46aprvda3kxuww62zfddua 222 43 the the DT work_kkta46aprvda3kxuww62zfddua 222 44 cooperation cooperation NN work_kkta46aprvda3kxuww62zfddua 222 45 of of IN work_kkta46aprvda3kxuww62zfddua 222 46 the the DT work_kkta46aprvda3kxuww62zfddua 222 47 AO AO NNP work_kkta46aprvda3kxuww62zfddua 222 48 and and CC work_kkta46aprvda3kxuww62zfddua 222 49 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 222 50 motors motor NNS work_kkta46aprvda3kxuww62zfddua 222 51 and and CC work_kkta46aprvda3kxuww62zfddua 222 52 to to TO work_kkta46aprvda3kxuww62zfddua 222 53 increase increase VB work_kkta46aprvda3kxuww62zfddua 222 54 the the DT work_kkta46aprvda3kxuww62zfddua 222 55 kinetic kinetic JJ work_kkta46aprvda3kxuww62zfddua 222 56 efficiency efficiency NN work_kkta46aprvda3kxuww62zfddua 222 57 of of IN work_kkta46aprvda3kxuww62zfddua 222 58 the the DT work_kkta46aprvda3kxuww62zfddua 222 59 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 222 60 ATP atp NN work_kkta46aprvda3kxuww62zfddua 222 61 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 222 62 engine engine NN work_kkta46aprvda3kxuww62zfddua 222 63 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 222 64 79,80 79,80 CD work_kkta46aprvda3kxuww62zfddua 222 65 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 222 66 . . . work_kkta46aprvda3kxuww62zfddua 223 1 Furthermore furthermore RB work_kkta46aprvda3kxuww62zfddua 223 2 , , , work_kkta46aprvda3kxuww62zfddua 223 3 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 223 4 has have VBZ work_kkta46aprvda3kxuww62zfddua 223 5 been be VBN work_kkta46aprvda3kxuww62zfddua 223 6 proposed propose VBN work_kkta46aprvda3kxuww62zfddua 223 7 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 223 8 79 79 CD work_kkta46aprvda3kxuww62zfddua 223 9 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 223 10 that that IN work_kkta46aprvda3kxuww62zfddua 223 11 ion ion NN work_kkta46aprvda3kxuww62zfddua 223 12 - - HYPH work_kkta46aprvda3kxuww62zfddua 223 13 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 223 14 in in IN work_kkta46aprvda3kxuww62zfddua 223 15 the the DT work_kkta46aprvda3kxuww62zfddua 223 16 interface interface NN work_kkta46aprvda3kxuww62zfddua 223 17 of of IN work_kkta46aprvda3kxuww62zfddua 223 18 the the DT work_kkta46aprvda3kxuww62zfddua 223 19 c c NNP work_kkta46aprvda3kxuww62zfddua 223 20 ring ring NN work_kkta46aprvda3kxuww62zfddua 223 21 and and CC work_kkta46aprvda3kxuww62zfddua 223 22 the the DT work_kkta46aprvda3kxuww62zfddua 223 23 C c NN work_kkta46aprvda3kxuww62zfddua 223 24 - - HYPH work_kkta46aprvda3kxuww62zfddua 223 25 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 223 26 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 223 27 - - HYPH work_kkta46aprvda3kxuww62zfddua 223 28 embedded embed VBN work_kkta46aprvda3kxuww62zfddua 223 29 domain domain NN work_kkta46aprvda3kxuww62zfddua 223 30 of of IN work_kkta46aprvda3kxuww62zfddua 223 31 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 223 32 a a DT work_kkta46aprvda3kxuww62zfddua 223 33 causes cause NNS work_kkta46aprvda3kxuww62zfddua 223 34 alterations alteration NNS work_kkta46aprvda3kxuww62zfddua 223 35 in in IN work_kkta46aprvda3kxuww62zfddua 223 36 the the DT work_kkta46aprvda3kxuww62zfddua 223 37 AO AO NNP work_kkta46aprvda3kxuww62zfddua 223 38 sector sector NN work_kkta46aprvda3kxuww62zfddua 223 39 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 223 40 Fig fig NN work_kkta46aprvda3kxuww62zfddua 223 41 . . . work_kkta46aprvda3kxuww62zfddua 224 1 1A 1a CD work_kkta46aprvda3kxuww62zfddua 224 2 , , , work_kkta46aprvda3kxuww62zfddua 224 3 D D NNP work_kkta46aprvda3kxuww62zfddua 224 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 224 5 , , , work_kkta46aprvda3kxuww62zfddua 224 6 which which WDT work_kkta46aprvda3kxuww62zfddua 224 7 are be VBP work_kkta46aprvda3kxuww62zfddua 224 8 transferred transfer VBN work_kkta46aprvda3kxuww62zfddua 224 9 to to IN work_kkta46aprvda3kxuww62zfddua 224 10 the the DT work_kkta46aprvda3kxuww62zfddua 224 11 barbell barbell NN work_kkta46aprvda3kxuww62zfddua 224 12 - - HYPH work_kkta46aprvda3kxuww62zfddua 224 13 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 224 14 N n NN work_kkta46aprvda3kxuww62zfddua 224 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 224 16 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 224 17 domain domain NN work_kkta46aprvda3kxuww62zfddua 224 18 of of IN work_kkta46aprvda3kxuww62zfddua 224 19 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 224 20 a a NNP work_kkta46aprvda3kxuww62zfddua 224 21 and and CC work_kkta46aprvda3kxuww62zfddua 224 22 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 224 23 C. C. NNP work_kkta46aprvda3kxuww62zfddua 224 24 As as IN work_kkta46aprvda3kxuww62zfddua 224 25 a a DT work_kkta46aprvda3kxuww62zfddua 224 26 consequence consequence NN work_kkta46aprvda3kxuww62zfddua 224 27 , , , work_kkta46aprvda3kxuww62zfddua 224 28 the the DT work_kkta46aprvda3kxuww62zfddua 224 29 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 224 30 a a DT work_kkta46aprvda3kxuww62zfddua 224 31 alterations alteration NNS work_kkta46aprvda3kxuww62zfddua 224 32 will will MD work_kkta46aprvda3kxuww62zfddua 224 33 force force VB work_kkta46aprvda3kxuww62zfddua 224 34 the the DT work_kkta46aprvda3kxuww62zfddua 224 35 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 224 36 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 224 37 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 224 38 to to TO work_kkta46aprvda3kxuww62zfddua 224 39 switch switch VB work_kkta46aprvda3kxuww62zfddua 224 40 from from IN work_kkta46aprvda3kxuww62zfddua 224 41 a a DT work_kkta46aprvda3kxuww62zfddua 224 42 more more RBR work_kkta46aprvda3kxuww62zfddua 224 43 extended extended JJ work_kkta46aprvda3kxuww62zfddua 224 44 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 224 45 Fig fig NN work_kkta46aprvda3kxuww62zfddua 224 46 . . . work_kkta46aprvda3kxuww62zfddua 225 1 1A 1a CD work_kkta46aprvda3kxuww62zfddua 225 2 , , , work_kkta46aprvda3kxuww62zfddua 225 3 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 225 4 E e NN work_kkta46aprvda3kxuww62zfddua 225 5 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 225 6 green green NN work_kkta46aprvda3kxuww62zfddua 225 7 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 225 8 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 225 9 into into IN work_kkta46aprvda3kxuww62zfddua 225 10 a a DT work_kkta46aprvda3kxuww62zfddua 225 11 curved curved JJ work_kkta46aprvda3kxuww62zfddua 225 12 confor- confor- NN work_kkta46aprvda3kxuww62zfddua 225 13 mation mation NN work_kkta46aprvda3kxuww62zfddua 225 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 225 15 Fig Fig NNP work_kkta46aprvda3kxuww62zfddua 225 16 . . . work_kkta46aprvda3kxuww62zfddua 226 1 1A 1a CD work_kkta46aprvda3kxuww62zfddua 226 2 , , , work_kkta46aprvda3kxuww62zfddua 226 3 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 226 4 E e NN work_kkta46aprvda3kxuww62zfddua 226 5 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 226 6 red red NNP work_kkta46aprvda3kxuww62zfddua 226 7 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 226 8 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 226 9 and and CC work_kkta46aprvda3kxuww62zfddua 226 10 vice vice NN work_kkta46aprvda3kxuww62zfddua 226 11 versa versa RB work_kkta46aprvda3kxuww62zfddua 226 12 , , , work_kkta46aprvda3kxuww62zfddua 226 13 providing provide VBG work_kkta46aprvda3kxuww62zfddua 226 14 the the DT work_kkta46aprvda3kxuww62zfddua 226 15 storage storage NN work_kkta46aprvda3kxuww62zfddua 226 16 of of IN work_kkta46aprvda3kxuww62zfddua 226 17 transient transient JJ work_kkta46aprvda3kxuww62zfddua 226 18 elastic elastic JJ work_kkta46aprvda3kxuww62zfddua 226 19 energy energy NN work_kkta46aprvda3kxuww62zfddua 226 20 during during IN work_kkta46aprvda3kxuww62zfddua 226 21 ion ion NN work_kkta46aprvda3kxuww62zfddua 226 22 - - HYPH work_kkta46aprvda3kxuww62zfddua 226 23 pumping pumping NN work_kkta46aprvda3kxuww62zfddua 226 24 and and CC work_kkta46aprvda3kxuww62zfddua 226 25 ATP atp NN work_kkta46aprvda3kxuww62zfddua 226 26 synthesis/- synthesis/- : work_kkta46aprvda3kxuww62zfddua 226 27 hydrolysis hydrolysis NN work_kkta46aprvda3kxuww62zfddua 226 28 . . . work_kkta46aprvda3kxuww62zfddua 227 1 4.7 4.7 CD work_kkta46aprvda3kxuww62zfddua 227 2 . . . work_kkta46aprvda3kxuww62zfddua 228 1 Architecture architecture NN work_kkta46aprvda3kxuww62zfddua 228 2 of of IN work_kkta46aprvda3kxuww62zfddua 228 3 the the DT work_kkta46aprvda3kxuww62zfddua 228 4 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 228 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 228 6 embedded embed VBN work_kkta46aprvda3kxuww62zfddua 228 7 AO AO NNP work_kkta46aprvda3kxuww62zfddua 228 8 domain domain NN work_kkta46aprvda3kxuww62zfddua 228 9 The the DT work_kkta46aprvda3kxuww62zfddua 228 10 two two CD work_kkta46aprvda3kxuww62zfddua 228 11 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 228 12 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 228 13 of of IN work_kkta46aprvda3kxuww62zfddua 228 14 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 228 15 ATP atp NN work_kkta46aprvda3kxuww62zfddua 228 16 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 228 17 , , , work_kkta46aprvda3kxuww62zfddua 228 18 which which WDT work_kkta46aprvda3kxuww62zfddua 228 19 have have VBP work_kkta46aprvda3kxuww62zfddua 228 20 no no DT work_kkta46aprvda3kxuww62zfddua 228 21 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 228 22 - - HYPH work_kkta46aprvda3kxuww62zfddua 228 23 spanning span VBG work_kkta46aprvda3kxuww62zfddua 228 24 N n NN work_kkta46aprvda3kxuww62zfddua 228 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 228 26 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 228 27 helix helix NN work_kkta46aprvda3kxuww62zfddua 228 28 like like IN work_kkta46aprvda3kxuww62zfddua 228 29 the the DT work_kkta46aprvda3kxuww62zfddua 228 30 one one CD work_kkta46aprvda3kxuww62zfddua 228 31 in in IN work_kkta46aprvda3kxuww62zfddua 228 32 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 228 33 ATP atp NN work_kkta46aprvda3kxuww62zfddua 228 34 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 228 35 , , , work_kkta46aprvda3kxuww62zfddua 228 36 are be VBP work_kkta46aprvda3kxuww62zfddua 228 37 linked link VBN work_kkta46aprvda3kxuww62zfddua 228 38 to to IN work_kkta46aprvda3kxuww62zfddua 228 39 the the DT work_kkta46aprvda3kxuww62zfddua 228 40 globular globular JJ work_kkta46aprvda3kxuww62zfddua 228 41 domain domain NN work_kkta46aprvda3kxuww62zfddua 228 42 of of IN work_kkta46aprvda3kxuww62zfddua 228 43 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 228 44 a a DT work_kkta46aprvda3kxuww62zfddua 228 45 , , , work_kkta46aprvda3kxuww62zfddua 228 46 whose whose WP$ work_kkta46aprvda3kxuww62zfddua 228 47 C- C- NNP work_kkta46aprvda3kxuww62zfddua 228 48 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 228 49 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 228 50 - - HYPH work_kkta46aprvda3kxuww62zfddua 228 51 integrated integrate VBN work_kkta46aprvda3kxuww62zfddua 228 52 segment segment NN work_kkta46aprvda3kxuww62zfddua 228 53 forms form VBZ work_kkta46aprvda3kxuww62zfddua 228 54 the the DT work_kkta46aprvda3kxuww62zfddua 228 55 ion ion NN work_kkta46aprvda3kxuww62zfddua 228 56 channel channel NN work_kkta46aprvda3kxuww62zfddua 228 57 together together RB work_kkta46aprvda3kxuww62zfddua 228 58 with with IN work_kkta46aprvda3kxuww62zfddua 228 59 the the DT work_kkta46aprvda3kxuww62zfddua 228 60 c c NN work_kkta46aprvda3kxuww62zfddua 228 61 ring ring NN work_kkta46aprvda3kxuww62zfddua 228 62 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 228 63 47,48 47,48 CD work_kkta46aprvda3kxuww62zfddua 228 64 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 228 65 . . . work_kkta46aprvda3kxuww62zfddua 229 1 The the DT work_kkta46aprvda3kxuww62zfddua 229 2 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 229 3 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 229 4 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 229 5 subunit subunit VBD work_kkta46aprvda3kxuww62zfddua 229 6 a a DT work_kkta46aprvda3kxuww62zfddua 229 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 229 8 about about RB work_kkta46aprvda3kxuww62zfddua 229 9 95 95 CD work_kkta46aprvda3kxuww62zfddua 229 10 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 229 11 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 229 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 229 13 similar similar JJ work_kkta46aprvda3kxuww62zfddua 229 14 to to IN work_kkta46aprvda3kxuww62zfddua 229 15 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 229 16 related related JJ work_kkta46aprvda3kxuww62zfddua 229 17 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 229 18 a a DT work_kkta46aprvda3kxuww62zfddua 229 19 in in IN work_kkta46aprvda3kxuww62zfddua 229 20 eukaryotic eukaryotic JJ work_kkta46aprvda3kxuww62zfddua 229 21 V1VO v1vo NN work_kkta46aprvda3kxuww62zfddua 229 22 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 229 23 and and CC work_kkta46aprvda3kxuww62zfddua 229 24 is be VBZ work_kkta46aprvda3kxuww62zfddua 229 25 par- par- NN work_kkta46aprvda3kxuww62zfddua 229 26 tially tially RB work_kkta46aprvda3kxuww62zfddua 229 27 functionally functionally RB work_kkta46aprvda3kxuww62zfddua 229 28 similar similar JJ work_kkta46aprvda3kxuww62zfddua 229 29 to to IN work_kkta46aprvda3kxuww62zfddua 229 30 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 229 31 a a DT work_kkta46aprvda3kxuww62zfddua 229 32 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 229 33 about about RB work_kkta46aprvda3kxuww62zfddua 229 34 28 28 CD work_kkta46aprvda3kxuww62zfddua 229 35 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 229 36 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 229 37 of of IN work_kkta46aprvda3kxuww62zfddua 229 38 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 229 39 ATP atp NN work_kkta46aprvda3kxuww62zfddua 229 40 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 229 41 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 229 42 31 31 CD work_kkta46aprvda3kxuww62zfddua 229 43 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 229 44 . . . work_kkta46aprvda3kxuww62zfddua 230 1 Its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 230 2 C c NN work_kkta46aprvda3kxuww62zfddua 230 3 - - HYPH work_kkta46aprvda3kxuww62zfddua 230 4 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 230 5 and and CC work_kkta46aprvda3kxuww62zfddua 230 6 ion ion NN work_kkta46aprvda3kxuww62zfddua 230 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 230 8 translocating translocating NN work_kkta46aprvda3kxuww62zfddua 230 9 part part NN work_kkta46aprvda3kxuww62zfddua 230 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 230 11 membrane- membrane- NNP work_kkta46aprvda3kxuww62zfddua 230 12 integral integral JJ work_kkta46aprvda3kxuww62zfddua 230 13 and and CC work_kkta46aprvda3kxuww62zfddua 230 14 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 230 15 N n CD work_kkta46aprvda3kxuww62zfddua 230 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 230 17 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 230 18 domain domain NN work_kkta46aprvda3kxuww62zfddua 230 19 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 230 20 about about RB work_kkta46aprvda3kxuww62zfddua 230 21 40 40 CD work_kkta46aprvda3kxuww62zfddua 230 22 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 230 23 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 230 24 is be VBZ work_kkta46aprvda3kxuww62zfddua 230 25 on on IN work_kkta46aprvda3kxuww62zfddua 230 26 the the DT work_kkta46aprvda3kxuww62zfddua 230 27 cytoplasmic cytoplasmic JJ work_kkta46aprvda3kxuww62zfddua 230 28 side side NN work_kkta46aprvda3kxuww62zfddua 230 29 . . . work_kkta46aprvda3kxuww62zfddua 231 1 The the DT work_kkta46aprvda3kxuww62zfddua 231 2 crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 231 3 structure structure NN work_kkta46aprvda3kxuww62zfddua 231 4 of of IN work_kkta46aprvda3kxuww62zfddua 231 5 the the DT work_kkta46aprvda3kxuww62zfddua 231 6 barbell barbell NN work_kkta46aprvda3kxuww62zfddua 231 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 231 8 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 231 9 N n NN work_kkta46aprvda3kxuww62zfddua 231 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 231 11 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 231 12 domain domain NN work_kkta46aprvda3kxuww62zfddua 231 13 of of IN work_kkta46aprvda3kxuww62zfddua 231 14 the the DT work_kkta46aprvda3kxuww62zfddua 231 15 Meiothermus Meiothermus NNP work_kkta46aprvda3kxuww62zfddua 231 16 ruber ruber NN work_kkta46aprvda3kxuww62zfddua 231 17 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 231 18 ATP atp NN work_kkta46aprvda3kxuww62zfddua 231 19 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 231 20 has have VBZ work_kkta46aprvda3kxuww62zfddua 231 21 been be VBN work_kkta46aprvda3kxuww62zfddua 231 22 deter- deter- CD work_kkta46aprvda3kxuww62zfddua 231 23 mined mine VBN work_kkta46aprvda3kxuww62zfddua 231 24 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 231 25 81 81 CD work_kkta46aprvda3kxuww62zfddua 231 26 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 231 27 , , , work_kkta46aprvda3kxuww62zfddua 231 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 231 29 Fig fig NN work_kkta46aprvda3kxuww62zfddua 231 30 . . . work_kkta46aprvda3kxuww62zfddua 232 1 1A 1a LS work_kkta46aprvda3kxuww62zfddua 232 2 – – : work_kkta46aprvda3kxuww62zfddua 232 3 C C NNP work_kkta46aprvda3kxuww62zfddua 232 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 232 5 . . . work_kkta46aprvda3kxuww62zfddua 233 1 The the DT work_kkta46aprvda3kxuww62zfddua 233 2 middle middle JJ work_kkta46aprvda3kxuww62zfddua 233 3 and and CC work_kkta46aprvda3kxuww62zfddua 233 4 helical helical JJ work_kkta46aprvda3kxuww62zfddua 233 5 bundle bundle NN work_kkta46aprvda3kxuww62zfddua 233 6 of of IN work_kkta46aprvda3kxuww62zfddua 233 7 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 233 8 a a DT work_kkta46aprvda3kxuww62zfddua 233 9 faces face NNS work_kkta46aprvda3kxuww62zfddua 233 10 the the DT work_kkta46aprvda3kxuww62zfddua 233 11 wedge wedge NN work_kkta46aprvda3kxuww62zfddua 233 12 - - HYPH work_kkta46aprvda3kxuww62zfddua 233 13 like like JJ work_kkta46aprvda3kxuww62zfddua 233 14 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 233 15 C. C. 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JJ work_kkta46aprvda3kxuww62zfddua 236 10 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 236 11 complex complex NN work_kkta46aprvda3kxuww62zfddua 236 12 shows show VBZ work_kkta46aprvda3kxuww62zfddua 236 13 the the DT work_kkta46aprvda3kxuww62zfddua 236 14 eight eight CD work_kkta46aprvda3kxuww62zfddua 236 15 transmem- transmem- . work_kkta46aprvda3kxuww62zfddua 236 16 brane brane NN work_kkta46aprvda3kxuww62zfddua 236 17 helices helix NNS work_kkta46aprvda3kxuww62zfddua 236 18 in in IN work_kkta46aprvda3kxuww62zfddua 236 19 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 236 20 a a DT work_kkta46aprvda3kxuww62zfddua 236 21 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 236 22 48 48 CD work_kkta46aprvda3kxuww62zfddua 236 23 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 236 24 . . . work_kkta46aprvda3kxuww62zfddua 237 1 These these DT work_kkta46aprvda3kxuww62zfddua 237 2 helices helix NNS work_kkta46aprvda3kxuww62zfddua 237 3 divide divide VBP work_kkta46aprvda3kxuww62zfddua 237 4 into into IN work_kkta46aprvda3kxuww62zfddua 237 5 two two CD work_kkta46aprvda3kxuww62zfddua 237 6 bundles bundle NNS work_kkta46aprvda3kxuww62zfddua 237 7 , , , work_kkta46aprvda3kxuww62zfddua 237 8 each each DT work_kkta46aprvda3kxuww62zfddua 237 9 containing contain VBG work_kkta46aprvda3kxuww62zfddua 237 10 four four CD work_kkta46aprvda3kxuww62zfddua 237 11 helices helix NNS work_kkta46aprvda3kxuww62zfddua 237 12 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 237 13 Fig fig NN work_kkta46aprvda3kxuww62zfddua 237 14 . . . work_kkta46aprvda3kxuww62zfddua 238 1 4A 4A NNP work_kkta46aprvda3kxuww62zfddua 238 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 238 3 . . . work_kkta46aprvda3kxuww62zfddua 239 1 One one CD work_kkta46aprvda3kxuww62zfddua 239 2 bundle bundle NN work_kkta46aprvda3kxuww62zfddua 239 3 appears appear VBZ work_kkta46aprvda3kxuww62zfddua 239 4 almost almost RB work_kkta46aprvda3kxuww62zfddua 239 5 per- per- RB work_kkta46aprvda3kxuww62zfddua 239 6 pendicular pendicular NNP work_kkta46aprvda3kxuww62zfddua 239 7 to to IN work_kkta46aprvda3kxuww62zfddua 239 8 the the DT work_kkta46aprvda3kxuww62zfddua 239 9 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 239 10 and and CC work_kkta46aprvda3kxuww62zfddua 239 11 contacts contact VBZ work_kkta46aprvda3kxuww62zfddua 239 12 a a DT work_kkta46aprvda3kxuww62zfddua 239 13 single single JJ work_kkta46aprvda3kxuww62zfddua 239 14 c c NN work_kkta46aprvda3kxuww62zfddua 239 15 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 239 16 near near IN work_kkta46aprvda3kxuww62zfddua 239 17 the the DT work_kkta46aprvda3kxuww62zfddua 239 18 middle middle NN work_kkta46aprvda3kxuww62zfddua 239 19 of of IN work_kkta46aprvda3kxuww62zfddua 239 20 the the DT work_kkta46aprvda3kxuww62zfddua 239 21 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 239 22 . . . work_kkta46aprvda3kxuww62zfddua 240 1 The the DT work_kkta46aprvda3kxuww62zfddua 240 2 other other JJ work_kkta46aprvda3kxuww62zfddua 240 3 bundle bundle NN work_kkta46aprvda3kxuww62zfddua 240 4 appears appear VBZ work_kkta46aprvda3kxuww62zfddua 240 5 tilted tilt VBN work_kkta46aprvda3kxuww62zfddua 240 6 and and CC work_kkta46aprvda3kxuww62zfddua 240 7 contacts contact VBZ work_kkta46aprvda3kxuww62zfddua 240 8 the the DT work_kkta46aprvda3kxuww62zfddua 240 9 adjacent adjacent JJ work_kkta46aprvda3kxuww62zfddua 240 10 c c NN work_kkta46aprvda3kxuww62zfddua 240 11 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 240 12 closer close JJR work_kkta46aprvda3kxuww62zfddua 240 13 to to IN work_kkta46aprvda3kxuww62zfddua 240 14 the the DT work_kkta46aprvda3kxuww62zfddua 240 15 periplasm periplasm NN work_kkta46aprvda3kxuww62zfddua 240 16 . . . work_kkta46aprvda3kxuww62zfddua 241 1 This this DT work_kkta46aprvda3kxuww62zfddua 241 2 arrangement arrangement NN work_kkta46aprvda3kxuww62zfddua 241 3 brings bring VBZ work_kkta46aprvda3kxuww62zfddua 241 4 the the DT work_kkta46aprvda3kxuww62zfddua 241 5 two two CD work_kkta46aprvda3kxuww62zfddua 241 6 c c NN work_kkta46aprvda3kxuww62zfddua 241 7 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 241 8 in in IN work_kkta46aprvda3kxuww62zfddua 241 9 distinct distinct JJ work_kkta46aprvda3kxuww62zfddua 241 10 chemical chemical NN work_kkta46aprvda3kxuww62zfddua 241 11 environments environment NNS work_kkta46aprvda3kxuww62zfddua 241 12 and and CC work_kkta46aprvda3kxuww62zfddua 241 13 establishes establish VBZ work_kkta46aprvda3kxuww62zfddua 241 14 the the DT work_kkta46aprvda3kxuww62zfddua 241 15 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 241 16 necessary necessary JJ work_kkta46aprvda3kxuww62zfddua 241 17 for for IN work_kkta46aprvda3kxuww62zfddua 241 18 a a DT work_kkta46aprvda3kxuww62zfddua 241 19 two two CD work_kkta46aprvda3kxuww62zfddua 241 20 half half JJ work_kkta46aprvda3kxuww62zfddua 241 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 241 22 channel channel NN work_kkta46aprvda3kxuww62zfddua 241 23 model model NN work_kkta46aprvda3kxuww62zfddua 241 24 of of IN work_kkta46aprvda3kxuww62zfddua 241 25 proton proton NNP work_kkta46aprvda3kxuww62zfddua 241 26 translocation translocation NNP work_kkta46aprvda3kxuww62zfddua 241 27 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 241 28 48 48 CD work_kkta46aprvda3kxuww62zfddua 241 29 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 241 30 . . . work_kkta46aprvda3kxuww62zfddua 242 1 Whereas whereas IN work_kkta46aprvda3kxuww62zfddua 242 2 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 242 3 a a DT work_kkta46aprvda3kxuww62zfddua 242 4 has have VBZ work_kkta46aprvda3kxuww62zfddua 242 5 underwent undergo VBN work_kkta46aprvda3kxuww62zfddua 242 6 little little JJ work_kkta46aprvda3kxuww62zfddua 242 7 changes change NNS work_kkta46aprvda3kxuww62zfddua 242 8 during during IN work_kkta46aprvda3kxuww62zfddua 242 9 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 242 10 , , , work_kkta46aprvda3kxuww62zfddua 242 11 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 242 12 c c NNP work_kkta46aprvda3kxuww62zfddua 242 13 has have VBZ work_kkta46aprvda3kxuww62zfddua 242 14 been be VBN work_kkta46aprvda3kxuww62zfddua 242 15 a a DT work_kkta46aprvda3kxuww62zfddua 242 16 large large JJ work_kkta46aprvda3kxuww62zfddua 242 17 evolutionary evolutionary JJ work_kkta46aprvda3kxuww62zfddua 242 18 playground playground NN work_kkta46aprvda3kxuww62zfddua 242 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 242 20 82 82 CD work_kkta46aprvda3kxuww62zfddua 242 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 242 22 . . . work_kkta46aprvda3kxuww62zfddua 243 1 A a DT work_kkta46aprvda3kxuww62zfddua 243 2 lot lot NN work_kkta46aprvda3kxuww62zfddua 243 3 of of IN work_kkta46aprvda3kxuww62zfddua 243 4 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 243 5 have have VBP work_kkta46aprvda3kxuww62zfddua 243 6 an an DT work_kkta46aprvda3kxuww62zfddua 243 7 8 8 CD work_kkta46aprvda3kxuww62zfddua 243 8 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 243 9 c c NN work_kkta46aprvda3kxuww62zfddua 243 10 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 243 11 with with IN work_kkta46aprvda3kxuww62zfddua 243 12 two two CD work_kkta46aprvda3kxuww62zfddua 243 13 transmembrane transmembrane NNS work_kkta46aprvda3kxuww62zfddua 243 14 α α NNS work_kkta46aprvda3kxuww62zfddua 243 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 243 16 helices helix NNS work_kkta46aprvda3kxuww62zfddua 243 17 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 243 18 35,83–85 35,83–85 CD work_kkta46aprvda3kxuww62zfddua 243 19 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 243 20 , , , work_kkta46aprvda3kxuww62zfddua 243 21 but but CC work_kkta46aprvda3kxuww62zfddua 243 22 some some DT work_kkta46aprvda3kxuww62zfddua 243 23 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 243 24 have have VBP work_kkta46aprvda3kxuww62zfddua 243 25 very very RB work_kkta46aprvda3kxuww62zfddua 243 26 unusual unusual JJ work_kkta46aprvda3kxuww62zfddua 243 27 c c NN work_kkta46aprvda3kxuww62zfddua 243 28 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 243 29 . . . work_kkta46aprvda3kxuww62zfddua 244 1 A a DT work_kkta46aprvda3kxuww62zfddua 244 2 16 16 CD work_kkta46aprvda3kxuww62zfddua 244 3 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 244 4 c c NN work_kkta46aprvda3kxuww62zfddua 244 5 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 244 6 with with IN work_kkta46aprvda3kxuww62zfddua 244 7 four four CD work_kkta46aprvda3kxuww62zfddua 244 8 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 244 9 α α NNS work_kkta46aprvda3kxuww62zfddua 244 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 244 11 helices helix NNS work_kkta46aprvda3kxuww62zfddua 244 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 244 13 present present JJ work_kkta46aprvda3kxuww62zfddua 244 14 in in IN work_kkta46aprvda3kxuww62zfddua 244 15 all all DT work_kkta46aprvda3kxuww62zfddua 244 16 species specie NNS work_kkta46aprvda3kxuww62zfddua 244 17 of of IN work_kkta46aprvda3kxuww62zfddua 244 18 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 244 19 , , , work_kkta46aprvda3kxuww62zfddua 244 20 Thermococcus Thermococcus NNP work_kkta46aprvda3kxuww62zfddua 244 21 , , , work_kkta46aprvda3kxuww62zfddua 244 22 Methanobrevibacter Methanobrevibacter NNP work_kkta46aprvda3kxuww62zfddua 244 23 , , , work_kkta46aprvda3kxuww62zfddua 244 24 Methanobacterium Methanobacterium NNP work_kkta46aprvda3kxuww62zfddua 244 25 , , , work_kkta46aprvda3kxuww62zfddua 244 26 Desulfurococcus Desulfurococcus NNP work_kkta46aprvda3kxuww62zfddua 244 27 , , , work_kkta46aprvda3kxuww62zfddua 244 28 Staphylothermus Staphylothermus NNP work_kkta46aprvda3kxuww62zfddua 244 29 and and CC work_kkta46aprvda3kxuww62zfddua 244 30 in in IN work_kkta46aprvda3kxuww62zfddua 244 31 Ignisphaera Ignisphaera NNP work_kkta46aprvda3kxuww62zfddua 244 32 aggregans aggregan NNS work_kkta46aprvda3kxuww62zfddua 244 33 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 244 34 86 86 CD work_kkta46aprvda3kxuww62zfddua 244 35 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 244 36 as as RB work_kkta46aprvda3kxuww62zfddua 244 37 well well RB work_kkta46aprvda3kxuww62zfddua 244 38 as as IN work_kkta46aprvda3kxuww62zfddua 244 39 in in IN work_kkta46aprvda3kxuww62zfddua 244 40 Methanothermobacter Methanothermobacter NNP work_kkta46aprvda3kxuww62zfddua 244 41 thermautotrophicus thermautotrophicus NN work_kkta46aprvda3kxuww62zfddua 244 42 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 244 43 87 87 CD work_kkta46aprvda3kxuww62zfddua 244 44 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 244 45 and and CC work_kkta46aprvda3kxuww62zfddua 244 46 Methanosphaera Methanosphaera NNP work_kkta46aprvda3kxuww62zfddua 244 47 946 946 CD work_kkta46aprvda3kxuww62zfddua 244 48 G. G. NNP work_kkta46aprvda3kxuww62zfddua 244 49 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 244 50 et et FW work_kkta46aprvda3kxuww62zfddua 244 51 al al NNP work_kkta46aprvda3kxuww62zfddua 244 52 . . . work_kkta46aprvda3kxuww62zfddua 245 1 / / NFP work_kkta46aprvda3kxuww62zfddua 245 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 245 3 et et NN work_kkta46aprvda3kxuww62zfddua 245 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 245 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 245 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 245 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 245 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 245 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 245 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 245 11 stadtmanae stadtmanae NN work_kkta46aprvda3kxuww62zfddua 245 12 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 245 13 82,88 82,88 CD work_kkta46aprvda3kxuww62zfddua 245 14 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 245 15 . . . work_kkta46aprvda3kxuww62zfddua 246 1 Methanocaldococcus methanocaldococcus NN work_kkta46aprvda3kxuww62zfddua 246 2 jannaschii jannaschii NN work_kkta46aprvda3kxuww62zfddua 246 3 and and CC work_kkta46aprvda3kxuww62zfddua 246 4 Methanococcus Methanococcus NNP work_kkta46aprvda3kxuww62zfddua 246 5 maripaludis maripaludi NNS work_kkta46aprvda3kxuww62zfddua 246 6 have have VBP work_kkta46aprvda3kxuww62zfddua 246 7 a a DT work_kkta46aprvda3kxuww62zfddua 246 8 triplicated triplicate VBN work_kkta46aprvda3kxuww62zfddua 246 9 c c NN work_kkta46aprvda3kxuww62zfddua 246 10 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 246 11 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 246 12 a a DT work_kkta46aprvda3kxuww62zfddua 246 13 c c NNP work_kkta46aprvda3kxuww62zfddua 246 14 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 246 15 with with IN work_kkta46aprvda3kxuww62zfddua 246 16 three three CD work_kkta46aprvda3kxuww62zfddua 246 17 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 246 18 and and CC work_kkta46aprvda3kxuww62zfddua 246 19 six six CD work_kkta46aprvda3kxuww62zfddua 246 20 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 246 21 helices helix NNS work_kkta46aprvda3kxuww62zfddua 246 22 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 246 23 with with IN work_kkta46aprvda3kxuww62zfddua 246 24 a a DT work_kkta46aprvda3kxuww62zfddua 246 25 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 246 26 mass mass NN work_kkta46aprvda3kxuww62zfddua 246 27 of of IN work_kkta46aprvda3kxuww62zfddua 246 28 around around IN work_kkta46aprvda3kxuww62zfddua 246 29 21 21 CD work_kkta46aprvda3kxuww62zfddua 246 30 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 246 31 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 246 32 89 89 CD work_kkta46aprvda3kxuww62zfddua 246 33 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 246 34 . . . work_kkta46aprvda3kxuww62zfddua 247 1 Also also RB work_kkta46aprvda3kxuww62zfddua 247 2 Methanopyrus Methanopyrus NNP work_kkta46aprvda3kxuww62zfddua 247 3 kandleri kandleri NN work_kkta46aprvda3kxuww62zfddua 247 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 247 5 very very RB work_kkta46aprvda3kxuww62zfddua 247 6 special special JJ work_kkta46aprvda3kxuww62zfddua 247 7 , , , work_kkta46aprvda3kxuww62zfddua 247 8 because because IN work_kkta46aprvda3kxuww62zfddua 247 9 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 247 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 247 11 the the DT work_kkta46aprvda3kxuww62zfddua 247 12 only only JJ work_kkta46aprvda3kxuww62zfddua 247 13 organism organism NN work_kkta46aprvda3kxuww62zfddua 247 14 known know VBN work_kkta46aprvda3kxuww62zfddua 247 15 so so RB work_kkta46aprvda3kxuww62zfddua 247 16 far far RB work_kkta46aprvda3kxuww62zfddua 247 17 , , , work_kkta46aprvda3kxuww62zfddua 247 18 which which WDT work_kkta46aprvda3kxuww62zfddua 247 19 has have VBZ work_kkta46aprvda3kxuww62zfddua 247 20 a a DT work_kkta46aprvda3kxuww62zfddua 247 21 c c NN work_kkta46aprvda3kxuww62zfddua 247 22 ring ring NN work_kkta46aprvda3kxuww62zfddua 247 23 consisting consisting NN work_kkta46aprvda3kxuww62zfddua 247 24 of of IN work_kkta46aprvda3kxuww62zfddua 247 25 only only RB work_kkta46aprvda3kxuww62zfddua 247 26 one one CD work_kkta46aprvda3kxuww62zfddua 247 27 c c NN work_kkta46aprvda3kxuww62zfddua 247 28 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 247 29 with with IN work_kkta46aprvda3kxuww62zfddua 247 30 13 13 CD work_kkta46aprvda3kxuww62zfddua 247 31 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 247 32 and and CC work_kkta46aprvda3kxuww62zfddua 247 33 therefore therefore RB work_kkta46aprvda3kxuww62zfddua 247 34 13 13 CD work_kkta46aprvda3kxuww62zfddua 247 35 ion ion NN work_kkta46aprvda3kxuww62zfddua 247 36 - - HYPH work_kkta46aprvda3kxuww62zfddua 247 37 binding bind VBG work_kkta46aprvda3kxuww62zfddua 247 38 sites site NNS work_kkta46aprvda3kxuww62zfddua 247 39 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 247 40 82,90 82,90 CD work_kkta46aprvda3kxuww62zfddua 247 41 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 247 42 . . . work_kkta46aprvda3kxuww62zfddua 248 1 Although although IN work_kkta46aprvda3kxuww62zfddua 248 2 the the DT work_kkta46aprvda3kxuww62zfddua 248 3 variation variation NN work_kkta46aprvda3kxuww62zfddua 248 4 in in IN work_kkta46aprvda3kxuww62zfddua 248 5 size size NN work_kkta46aprvda3kxuww62zfddua 248 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 248 7 already already RB work_kkta46aprvda3kxuww62zfddua 248 8 unique unique JJ work_kkta46aprvda3kxuww62zfddua 248 9 , , , work_kkta46aprvda3kxuww62zfddua 248 10 even even RB work_kkta46aprvda3kxuww62zfddua 248 11 more more RBR work_kkta46aprvda3kxuww62zfddua 248 12 impor- impor- JJ work_kkta46aprvda3kxuww62zfddua 248 13 tant tant NN work_kkta46aprvda3kxuww62zfddua 248 14 , , , work_kkta46aprvda3kxuww62zfddua 248 15 also also RB work_kkta46aprvda3kxuww62zfddua 248 16 for for IN work_kkta46aprvda3kxuww62zfddua 248 17 function function NN work_kkta46aprvda3kxuww62zfddua 248 18 , , , work_kkta46aprvda3kxuww62zfddua 248 19 is be VBZ work_kkta46aprvda3kxuww62zfddua 248 20 the the DT work_kkta46aprvda3kxuww62zfddua 248 21 variation variation NN work_kkta46aprvda3kxuww62zfddua 248 22 in in IN work_kkta46aprvda3kxuww62zfddua 248 23 number number NN work_kkta46aprvda3kxuww62zfddua 248 24 of of IN work_kkta46aprvda3kxuww62zfddua 248 25 ion ion NN work_kkta46aprvda3kxuww62zfddua 248 26 binding bind VBG work_kkta46aprvda3kxuww62zfddua 248 27 sites site NNS work_kkta46aprvda3kxuww62zfddua 248 28 image image NN work_kkta46aprvda3kxuww62zfddua 248 29 of of IN work_kkta46aprvda3kxuww62zfddua 248 30 Fig. Fig. NNP work_kkta46aprvda3kxuww62zfddua 248 31 � � NNP work_kkta46aprvda3kxuww62zfddua 248 32 4 4 CD work_kkta46aprvda3kxuww62zfddua 248 33 947G. 947g. CD work_kkta46aprvda3kxuww62zfddua 249 1 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 249 2 et et FW work_kkta46aprvda3kxuww62zfddua 249 3 al al NNP work_kkta46aprvda3kxuww62zfddua 249 4 . . . work_kkta46aprvda3kxuww62zfddua 250 1 / / NFP work_kkta46aprvda3kxuww62zfddua 250 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 250 3 et et NN work_kkta46aprvda3kxuww62zfddua 250 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 250 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 250 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 250 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 250 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 250 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 250 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 250 11 per per IN work_kkta46aprvda3kxuww62zfddua 250 12 c c NN work_kkta46aprvda3kxuww62zfddua 250 13 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 250 14 . . . work_kkta46aprvda3kxuww62zfddua 251 1 In in IN work_kkta46aprvda3kxuww62zfddua 251 2 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 251 3 F1FO f1fo NN work_kkta46aprvda3kxuww62zfddua 251 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 251 5 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 251 6 , , , work_kkta46aprvda3kxuww62zfddua 251 7 the the DT work_kkta46aprvda3kxuww62zfddua 251 8 c c NN work_kkta46aprvda3kxuww62zfddua 251 9 ring ring NN work_kkta46aprvda3kxuww62zfddua 251 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 251 11 made make VBN work_kkta46aprvda3kxuww62zfddua 251 12 by by IN work_kkta46aprvda3kxuww62zfddua 251 13 mul- mul- NNP work_kkta46aprvda3kxuww62zfddua 251 14 tiple tiple JJ work_kkta46aprvda3kxuww62zfddua 251 15 copies copy NNS work_kkta46aprvda3kxuww62zfddua 251 16 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 251 17 10–15 10–15 CD work_kkta46aprvda3kxuww62zfddua 251 18 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 251 19 of of IN work_kkta46aprvda3kxuww62zfddua 251 20 one one CD work_kkta46aprvda3kxuww62zfddua 251 21 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 251 22 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 251 23 91 91 CD work_kkta46aprvda3kxuww62zfddua 251 24 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 251 25 . . . work_kkta46aprvda3kxuww62zfddua 252 1 The the DT work_kkta46aprvda3kxuww62zfddua 252 2 16 16 CD work_kkta46aprvda3kxuww62zfddua 252 3 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 252 4 c c NNP work_kkta46aprvda3kxuww62zfddua 252 5 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 252 6 with with IN work_kkta46aprvda3kxuww62zfddua 252 7 four four CD work_kkta46aprvda3kxuww62zfddua 252 8 transmembrane transmembrane NNS work_kkta46aprvda3kxuww62zfddua 252 9 α α NNS work_kkta46aprvda3kxuww62zfddua 252 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 252 11 helices helix NNS work_kkta46aprvda3kxuww62zfddua 252 12 of of IN work_kkta46aprvda3kxuww62zfddua 252 13 e.g. e.g. RB work_kkta46aprvda3kxuww62zfddua 253 1 Pyrococci Pyrococci NNP work_kkta46aprvda3kxuww62zfddua 253 2 and and CC work_kkta46aprvda3kxuww62zfddua 253 3 Thermococci Thermococci NNP work_kkta46aprvda3kxuww62zfddua 253 4 lost lose VBD work_kkta46aprvda3kxuww62zfddua 253 5 one one CD work_kkta46aprvda3kxuww62zfddua 253 6 ion ion NN work_kkta46aprvda3kxuww62zfddua 253 7 binding bind VBG work_kkta46aprvda3kxuww62zfddua 253 8 site site NN work_kkta46aprvda3kxuww62zfddua 253 9 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 253 10 86 86 CD work_kkta46aprvda3kxuww62zfddua 253 11 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 253 12 and and CC work_kkta46aprvda3kxuww62zfddua 253 13 the the DT work_kkta46aprvda3kxuww62zfddua 253 14 triplicated triplicate VBN work_kkta46aprvda3kxuww62zfddua 253 15 c c NNP work_kkta46aprvda3kxuww62zfddua 253 16 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 253 17 from from IN work_kkta46aprvda3kxuww62zfddua 253 18 M. M. NNP work_kkta46aprvda3kxuww62zfddua 253 19 jannaschii jannaschii NNP work_kkta46aprvda3kxuww62zfddua 253 20 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 253 21 89 89 CD work_kkta46aprvda3kxuww62zfddua 253 22 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 253 23 and and CC work_kkta46aprvda3kxuww62zfddua 253 24 M. M. NNP work_kkta46aprvda3kxuww62zfddua 253 25 maripaludis maripaludis NNP work_kkta46aprvda3kxuww62zfddua 253 26 also also RB work_kkta46aprvda3kxuww62zfddua 253 27 lost lose VBD work_kkta46aprvda3kxuww62zfddua 253 28 one one CD work_kkta46aprvda3kxuww62zfddua 253 29 . . . work_kkta46aprvda3kxuww62zfddua 254 1 This this DT work_kkta46aprvda3kxuww62zfddua 254 2 has have VBZ work_kkta46aprvda3kxuww62zfddua 254 3 enormous enormous JJ work_kkta46aprvda3kxuww62zfddua 254 4 consequences consequence NNS work_kkta46aprvda3kxuww62zfddua 254 5 for for IN work_kkta46aprvda3kxuww62zfddua 254 6 the the DT work_kkta46aprvda3kxuww62zfddua 254 7 function function NN work_kkta46aprvda3kxuww62zfddua 254 8 of of IN work_kkta46aprvda3kxuww62zfddua 254 9 the the DT work_kkta46aprvda3kxuww62zfddua 254 10 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 254 11 . . . work_kkta46aprvda3kxuww62zfddua 255 1 If if IN work_kkta46aprvda3kxuww62zfddua 255 2 we -PRON- PRP work_kkta46aprvda3kxuww62zfddua 255 3 consider consider VBP work_kkta46aprvda3kxuww62zfddua 255 4 c c NN work_kkta46aprvda3kxuww62zfddua 255 5 rings ring NNS work_kkta46aprvda3kxuww62zfddua 255 6 to to TO work_kkta46aprvda3kxuww62zfddua 255 7 have have VB work_kkta46aprvda3kxuww62zfddua 255 8 the the DT work_kkta46aprvda3kxuww62zfddua 255 9 same same JJ work_kkta46aprvda3kxuww62zfddua 255 10 number number NN work_kkta46aprvda3kxuww62zfddua 255 11 of of IN work_kkta46aprvda3kxuww62zfddua 255 12 transmembrane transmembrane NNP work_kkta46aprvda3kxuww62zfddua 255 13 α α NNP work_kkta46aprvda3kxuww62zfddua 255 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 255 15 helices helix NNS work_kkta46aprvda3kxuww62zfddua 255 16 , , , work_kkta46aprvda3kxuww62zfddua 255 17 the the DT work_kkta46aprvda3kxuww62zfddua 255 18 c c NNP work_kkta46aprvda3kxuww62zfddua 255 19 rings ring NNS work_kkta46aprvda3kxuww62zfddua 255 20 from from IN work_kkta46aprvda3kxuww62zfddua 255 21 Pyrococci Pyrococci NNP work_kkta46aprvda3kxuww62zfddua 255 22 and and CC work_kkta46aprvda3kxuww62zfddua 255 23 Thermococci Thermococci NNP work_kkta46aprvda3kxuww62zfddua 255 24 have have VBP work_kkta46aprvda3kxuww62zfddua 255 25 only only RB work_kkta46aprvda3kxuww62zfddua 255 26 half half PDT work_kkta46aprvda3kxuww62zfddua 255 27 the the DT work_kkta46aprvda3kxuww62zfddua 255 28 number number NN work_kkta46aprvda3kxuww62zfddua 255 29 of of IN work_kkta46aprvda3kxuww62zfddua 255 30 ion ion NN work_kkta46aprvda3kxuww62zfddua 255 31 binding bind VBG work_kkta46aprvda3kxuww62zfddua 255 32 sites site NNS work_kkta46aprvda3kxuww62zfddua 255 33 per per IN work_kkta46aprvda3kxuww62zfddua 255 34 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 255 35 syn- syn- NNS work_kkta46aprvda3kxuww62zfddua 255 36 thesizing thesize VBG work_kkta46aprvda3kxuww62zfddua 255 37 units unit NNS work_kkta46aprvda3kxuww62zfddua 255 38 . . . work_kkta46aprvda3kxuww62zfddua 256 1 According accord VBG work_kkta46aprvda3kxuww62zfddua 256 2 to to IN work_kkta46aprvda3kxuww62zfddua 256 3 : : : work_kkta46aprvda3kxuww62zfddua 256 4 ΔGP ΔGP NNP work_kkta46aprvda3kxuww62zfddua 256 5 ¼ ¼ NNP work_kkta46aprvda3kxuww62zfddua 256 6 −n −n CD work_kkta46aprvda3kxuww62zfddua 256 7 � � NNP work_kkta46aprvda3kxuww62zfddua 256 8 F F NNP work_kkta46aprvda3kxuww62zfddua 256 9 � � NNP work_kkta46aprvda3kxuww62zfddua 256 10 Δeμion Δeμion NNP work_kkta46aprvda3kxuww62zfddua 256 11 ð2Þ ð2Þ NNP work_kkta46aprvda3kxuww62zfddua 256 12 where where WRB work_kkta46aprvda3kxuww62zfddua 256 13 ΔGP ΔGP NNP work_kkta46aprvda3kxuww62zfddua 256 14 = = SYM work_kkta46aprvda3kxuww62zfddua 256 15 phosphorylation phosphorylation NN work_kkta46aprvda3kxuww62zfddua 256 16 potential potential NN work_kkta46aprvda3kxuww62zfddua 256 17 , , , work_kkta46aprvda3kxuww62zfddua 256 18 n n CC work_kkta46aprvda3kxuww62zfddua 256 19 = = SYM work_kkta46aprvda3kxuww62zfddua 256 20 number number NN work_kkta46aprvda3kxuww62zfddua 256 21 of of IN work_kkta46aprvda3kxuww62zfddua 256 22 translocated translocate VBN work_kkta46aprvda3kxuww62zfddua 256 23 ions ion NNS work_kkta46aprvda3kxuww62zfddua 256 24 , , , work_kkta46aprvda3kxuww62zfddua 256 25 F F NNP work_kkta46aprvda3kxuww62zfddua 256 26 = = SYM work_kkta46aprvda3kxuww62zfddua 256 27 Faraday Faraday NNP work_kkta46aprvda3kxuww62zfddua 256 28 constant constant NN work_kkta46aprvda3kxuww62zfddua 256 29 , , , work_kkta46aprvda3kxuww62zfddua 256 30 and and CC work_kkta46aprvda3kxuww62zfddua 256 31 Δeμion δeμion NN work_kkta46aprvda3kxuww62zfddua 256 32 = = SYM work_kkta46aprvda3kxuww62zfddua 256 33 electrochemical electrochemical JJ work_kkta46aprvda3kxuww62zfddua 256 34 potential potential NN work_kkta46aprvda3kxuww62zfddua 256 35 of of IN work_kkta46aprvda3kxuww62zfddua 256 36 the the DT work_kkta46aprvda3kxuww62zfddua 256 37 coupling coupling NN work_kkta46aprvda3kxuww62zfddua 256 38 ion ion NN work_kkta46aprvda3kxuww62zfddua 256 39 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 256 40 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 256 41 or or CC work_kkta46aprvda3kxuww62zfddua 256 42 H+ H+ NNP work_kkta46aprvda3kxuww62zfddua 256 43 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 256 44 , , , work_kkta46aprvda3kxuww62zfddua 256 45 the the DT work_kkta46aprvda3kxuww62zfddua 256 46 loss loss NN work_kkta46aprvda3kxuww62zfddua 256 47 of of IN work_kkta46aprvda3kxuww62zfddua 256 48 one one CD work_kkta46aprvda3kxuww62zfddua 256 49 ion ion NN work_kkta46aprvda3kxuww62zfddua 256 50 binding bind VBG work_kkta46aprvda3kxuww62zfddua 256 51 site site NN work_kkta46aprvda3kxuww62zfddua 256 52 in in IN work_kkta46aprvda3kxuww62zfddua 256 53 every every DT work_kkta46aprvda3kxuww62zfddua 256 54 sec- sec- JJ work_kkta46aprvda3kxuww62zfddua 256 55 ond ond NN work_kkta46aprvda3kxuww62zfddua 256 56 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 256 57 of of IN work_kkta46aprvda3kxuww62zfddua 256 58 the the DT work_kkta46aprvda3kxuww62zfddua 256 59 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 256 60 would would MD work_kkta46aprvda3kxuww62zfddua 256 61 lower lower VB work_kkta46aprvda3kxuww62zfddua 256 62 the the DT work_kkta46aprvda3kxuww62zfddua 256 63 number number NN work_kkta46aprvda3kxuww62zfddua 256 64 of of IN work_kkta46aprvda3kxuww62zfddua 256 65 ions ion NNS work_kkta46aprvda3kxuww62zfddua 256 66 by by IN work_kkta46aprvda3kxuww62zfddua 256 67 half half NN work_kkta46aprvda3kxuww62zfddua 256 68 . . . work_kkta46aprvda3kxuww62zfddua 257 1 The the DT work_kkta46aprvda3kxuww62zfddua 257 2 resulting result VBG work_kkta46aprvda3kxuww62zfddua 257 3 value value NN work_kkta46aprvda3kxuww62zfddua 257 4 for for IN work_kkta46aprvda3kxuww62zfddua 257 5 “ " `` work_kkta46aprvda3kxuww62zfddua 257 6 n n JJ work_kkta46aprvda3kxuww62zfddua 257 7 ” " '' work_kkta46aprvda3kxuww62zfddua 257 8 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 257 9 ions ion NNS work_kkta46aprvda3kxuww62zfddua 257 10 / / SYM work_kkta46aprvda3kxuww62zfddua 257 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 257 12 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 257 13 of of IN work_kkta46aprvda3kxuww62zfddua 257 14 two two CD work_kkta46aprvda3kxuww62zfddua 257 15 is be VBZ work_kkta46aprvda3kxuww62zfddua 257 16 not not RB work_kkta46aprvda3kxuww62zfddua 257 17 enough enough JJ work_kkta46aprvda3kxuww62zfddua 257 18 to to TO work_kkta46aprvda3kxuww62zfddua 257 19 generate generate VB work_kkta46aprvda3kxuww62zfddua 257 20 a a DT work_kkta46aprvda3kxuww62zfddua 257 21 phos- phos- JJ work_kkta46aprvda3kxuww62zfddua 257 22 phorylation phorylation NN work_kkta46aprvda3kxuww62zfddua 257 23 potential potential NN work_kkta46aprvda3kxuww62zfddua 257 24 of of IN work_kkta46aprvda3kxuww62zfddua 257 25 ~50 ~50 CD work_kkta46aprvda3kxuww62zfddua 257 26 to to IN work_kkta46aprvda3kxuww62zfddua 257 27 70 70 CD work_kkta46aprvda3kxuww62zfddua 257 28 kJ kJ NNP work_kkta46aprvda3kxuww62zfddua 257 29 / / SYM work_kkta46aprvda3kxuww62zfddua 257 30 mol mol NNP work_kkta46aprvda3kxuww62zfddua 257 31 and and CC work_kkta46aprvda3kxuww62zfddua 257 32 thus thus RB work_kkta46aprvda3kxuww62zfddua 257 33 the the DT work_kkta46aprvda3kxuww62zfddua 257 34 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 257 35 is be VBZ work_kkta46aprvda3kxuww62zfddua 257 36 no no DT work_kkta46aprvda3kxuww62zfddua 257 37 lon- lon- NN work_kkta46aprvda3kxuww62zfddua 257 38 ger ger NN work_kkta46aprvda3kxuww62zfddua 257 39 able able JJ work_kkta46aprvda3kxuww62zfddua 257 40 to to TO work_kkta46aprvda3kxuww62zfddua 257 41 pump pump VB work_kkta46aprvda3kxuww62zfddua 257 42 ions ion NNS work_kkta46aprvda3kxuww62zfddua 257 43 against against IN work_kkta46aprvda3kxuww62zfddua 257 44 this this DT work_kkta46aprvda3kxuww62zfddua 257 45 potential potential NN work_kkta46aprvda3kxuww62zfddua 257 46 and and CC work_kkta46aprvda3kxuww62zfddua 257 47 thus thus RB work_kkta46aprvda3kxuww62zfddua 257 48 unable unable JJ work_kkta46aprvda3kxuww62zfddua 257 49 to to TO work_kkta46aprvda3kxuww62zfddua 257 50 synthesize synthesize VB work_kkta46aprvda3kxuww62zfddua 257 51 ATP atp NN work_kkta46aprvda3kxuww62zfddua 257 52 . . . work_kkta46aprvda3kxuww62zfddua 258 1 Since since IN work_kkta46aprvda3kxuww62zfddua 258 2 the the DT work_kkta46aprvda3kxuww62zfddua 258 3 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 258 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 258 5 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 258 6 from from IN work_kkta46aprvda3kxuww62zfddua 258 7 Pyrococci Pyrococci NNP work_kkta46aprvda3kxuww62zfddua 258 8 and and CC work_kkta46aprvda3kxuww62zfddua 258 9 Thermococci Thermococci NNP work_kkta46aprvda3kxuww62zfddua 258 10 are be VBP work_kkta46aprvda3kxuww62zfddua 258 11 the the DT work_kkta46aprvda3kxuww62zfddua 258 12 only only JJ work_kkta46aprvda3kxuww62zfddua 258 13 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 258 14 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 258 15 encoded encode VBN work_kkta46aprvda3kxuww62zfddua 258 16 in in IN work_kkta46aprvda3kxuww62zfddua 258 17 the the DT work_kkta46aprvda3kxuww62zfddua 258 18 genome genome NN work_kkta46aprvda3kxuww62zfddua 258 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 258 20 92 92 CD work_kkta46aprvda3kxuww62zfddua 258 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 258 22 , , , work_kkta46aprvda3kxuww62zfddua 258 23 they -PRON- PRP work_kkta46aprvda3kxuww62zfddua 258 24 must must MD work_kkta46aprvda3kxuww62zfddua 258 25 synthesize synthesize VB work_kkta46aprvda3kxuww62zfddua 258 26 ATP atp NN work_kkta46aprvda3kxuww62zfddua 258 27 at at IN work_kkta46aprvda3kxuww62zfddua 258 28 the the DT work_kkta46aprvda3kxuww62zfddua 258 29 expense expense NN work_kkta46aprvda3kxuww62zfddua 258 30 of of IN work_kkta46aprvda3kxuww62zfddua 258 31 Δeμion Δeμion NNP work_kkta46aprvda3kxuww62zfddua 258 32 in in IN work_kkta46aprvda3kxuww62zfddua 258 33 vivo vivo NNP work_kkta46aprvda3kxuww62zfddua 258 34 . . . work_kkta46aprvda3kxuww62zfddua 259 1 A a DT work_kkta46aprvda3kxuww62zfddua 259 2 solution solution NN work_kkta46aprvda3kxuww62zfddua 259 3 to to IN work_kkta46aprvda3kxuww62zfddua 259 4 this this DT work_kkta46aprvda3kxuww62zfddua 259 5 enigma enigma NNP work_kkta46aprvda3kxuww62zfddua 259 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 259 7 a a DT work_kkta46aprvda3kxuww62zfddua 259 8 c c NN work_kkta46aprvda3kxuww62zfddua 259 9 ring ring NN work_kkta46aprvda3kxuww62zfddua 259 10 that that WDT work_kkta46aprvda3kxuww62zfddua 259 11 has have VBZ work_kkta46aprvda3kxuww62zfddua 259 12 more more JJR work_kkta46aprvda3kxuww62zfddua 259 13 c c NN work_kkta46aprvda3kxuww62zfddua 259 14 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 259 15 and and CC work_kkta46aprvda3kxuww62zfddua 259 16 indeed indeed RB work_kkta46aprvda3kxuww62zfddua 259 17 , , , work_kkta46aprvda3kxuww62zfddua 259 18 circumstantial circumstantial JJ work_kkta46aprvda3kxuww62zfddua 259 19 evidence evidence NN work_kkta46aprvda3kxuww62zfddua 259 20 point point NN work_kkta46aprvda3kxuww62zfddua 259 21 to to IN work_kkta46aprvda3kxuww62zfddua 259 22 a a DT work_kkta46aprvda3kxuww62zfddua 259 23 c10 c10 NN work_kkta46aprvda3kxuww62zfddua 259 24 ring ring NN work_kkta46aprvda3kxuww62zfddua 259 25 in in IN work_kkta46aprvda3kxuww62zfddua 259 26 P. P. NNP work_kkta46aprvda3kxuww62zfddua 259 27 furiosus furiosus IN work_kkta46aprvda3kxuww62zfddua 259 28 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 259 29 47 47 CD work_kkta46aprvda3kxuww62zfddua 259 30 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 259 31 . . . work_kkta46aprvda3kxuww62zfddua 260 1 5 5 CD work_kkta46aprvda3kxuww62zfddua 260 2 . . . work_kkta46aprvda3kxuww62zfddua 261 1 Ion ion VB work_kkta46aprvda3kxuww62zfddua 261 2 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 261 3 and and CC work_kkta46aprvda3kxuww62zfddua 261 4 -specificity -specificity NN work_kkta46aprvda3kxuww62zfddua 261 5 of of IN work_kkta46aprvda3kxuww62zfddua 261 6 the the DT work_kkta46aprvda3kxuww62zfddua 261 7 c c NNP work_kkta46aprvda3kxuww62zfddua 261 8 ring ring NN work_kkta46aprvda3kxuww62zfddua 261 9 of of IN work_kkta46aprvda3kxuww62zfddua 261 10 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 261 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 261 12 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 261 13 The the DT work_kkta46aprvda3kxuww62zfddua 261 14 c c NN work_kkta46aprvda3kxuww62zfddua 261 15 ring ring NN work_kkta46aprvda3kxuww62zfddua 261 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 261 17 the the DT work_kkta46aprvda3kxuww62zfddua 261 18 ion ion NN work_kkta46aprvda3kxuww62zfddua 261 19 carrier carrier NN work_kkta46aprvda3kxuww62zfddua 261 20 and and CC work_kkta46aprvda3kxuww62zfddua 261 21 the the DT work_kkta46aprvda3kxuww62zfddua 261 22 primary primary JJ work_kkta46aprvda3kxuww62zfddua 261 23 structure structure NN work_kkta46aprvda3kxuww62zfddua 261 24 of of IN work_kkta46aprvda3kxuww62zfddua 261 25 the the DT work_kkta46aprvda3kxuww62zfddua 261 26 c c NN work_kkta46aprvda3kxuww62zfddua 261 27 ring ring NN work_kkta46aprvda3kxuww62zfddua 261 28 de- de- XX work_kkta46aprvda3kxuww62zfddua 261 29 termines termine NNS work_kkta46aprvda3kxuww62zfddua 261 30 which which WDT work_kkta46aprvda3kxuww62zfddua 261 31 ion ion VBP work_kkta46aprvda3kxuww62zfddua 261 32 binds bind NNS work_kkta46aprvda3kxuww62zfddua 261 33 to to IN work_kkta46aprvda3kxuww62zfddua 261 34 the the DT work_kkta46aprvda3kxuww62zfddua 261 35 c c NNP work_kkta46aprvda3kxuww62zfddua 261 36 ring ring NN work_kkta46aprvda3kxuww62zfddua 261 37 . . . work_kkta46aprvda3kxuww62zfddua 262 1 c c LS work_kkta46aprvda3kxuww62zfddua 262 2 rings ring NNS work_kkta46aprvda3kxuww62zfddua 262 3 from from IN work_kkta46aprvda3kxuww62zfddua 262 4 most most JJS work_kkta46aprvda3kxuww62zfddua 262 5 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 262 6 and and CC work_kkta46aprvda3kxuww62zfddua 262 7 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 262 8 are be VBP work_kkta46aprvda3kxuww62zfddua 262 9 proton proton NNP work_kkta46aprvda3kxuww62zfddua 262 10 selective selective NNP work_kkta46aprvda3kxuww62zfddua 262 11 and and CC work_kkta46aprvda3kxuww62zfddua 262 12 the the DT work_kkta46aprvda3kxuww62zfddua 262 13 proton proton NNP work_kkta46aprvda3kxuww62zfddua 262 14 binding binding NN work_kkta46aprvda3kxuww62zfddua 262 15 site site NN work_kkta46aprvda3kxuww62zfddua 262 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 262 17 the the DT work_kkta46aprvda3kxuww62zfddua 262 18 con- con- NN work_kkta46aprvda3kxuww62zfddua 262 19 served serve VBD work_kkta46aprvda3kxuww62zfddua 262 20 carboxylate carboxylate JJ work_kkta46aprvda3kxuww62zfddua 262 21 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 262 22 Glu Glu NNP work_kkta46aprvda3kxuww62zfddua 262 23 , , , work_kkta46aprvda3kxuww62zfddua 262 24 Asp Asp NNP work_kkta46aprvda3kxuww62zfddua 262 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 262 26 present present JJ work_kkta46aprvda3kxuww62zfddua 262 27 in in IN work_kkta46aprvda3kxuww62zfddua 262 28 helix helix JJ work_kkta46aprvda3kxuww62zfddua 262 29 two two CD work_kkta46aprvda3kxuww62zfddua 262 30 of of IN work_kkta46aprvda3kxuww62zfddua 262 31 the the DT work_kkta46aprvda3kxuww62zfddua 262 32 8 8 CD work_kkta46aprvda3kxuww62zfddua 262 33 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 262 34 c c NNP work_kkta46aprvda3kxuww62zfddua 262 35 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 262 36 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 262 37 93 93 CD work_kkta46aprvda3kxuww62zfddua 262 38 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 262 39 . . . work_kkta46aprvda3kxuww62zfddua 263 1 The the DT work_kkta46aprvda3kxuww62zfddua 263 2 H+ h+ NN work_kkta46aprvda3kxuww62zfddua 263 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 263 4 bound bind VBN work_kkta46aprvda3kxuww62zfddua 263 5 between between IN work_kkta46aprvda3kxuww62zfddua 263 6 the the DT work_kkta46aprvda3kxuww62zfddua 263 7 carboxyl carboxyl NN work_kkta46aprvda3kxuww62zfddua 263 8 oxygen oxygen NN work_kkta46aprvda3kxuww62zfddua 263 9 of of IN work_kkta46aprvda3kxuww62zfddua 263 10 the the DT work_kkta46aprvda3kxuww62zfddua 263 11 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 263 12 carboxylate carboxylate NN work_kkta46aprvda3kxuww62zfddua 263 13 and and CC work_kkta46aprvda3kxuww62zfddua 263 14 the the DT work_kkta46aprvda3kxuww62zfddua 263 15 main main JJ work_kkta46aprvda3kxuww62zfddua 263 16 chain chain NN work_kkta46aprvda3kxuww62zfddua 263 17 carbonyl carbonyl NN work_kkta46aprvda3kxuww62zfddua 263 18 of of IN work_kkta46aprvda3kxuww62zfddua 263 19 another another DT work_kkta46aprvda3kxuww62zfddua 263 20 amino amino JJ work_kkta46aprvda3kxuww62zfddua 263 21 acid acid NN work_kkta46aprvda3kxuww62zfddua 263 22 , , , work_kkta46aprvda3kxuww62zfddua 263 23 for for IN work_kkta46aprvda3kxuww62zfddua 263 24 ex- ex- XX work_kkta46aprvda3kxuww62zfddua 263 25 ample ample JJ work_kkta46aprvda3kxuww62zfddua 263 26 phenylalanine phenylalanine NN work_kkta46aprvda3kxuww62zfddua 263 27 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 263 28 93 93 CD work_kkta46aprvda3kxuww62zfddua 263 29 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 263 30 . . . work_kkta46aprvda3kxuww62zfddua 264 1 Very very RB work_kkta46aprvda3kxuww62zfddua 264 2 few few JJ work_kkta46aprvda3kxuww62zfddua 264 3 c c NN work_kkta46aprvda3kxuww62zfddua 264 4 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 264 5 , , , work_kkta46aprvda3kxuww62zfddua 264 6 notably notably RB work_kkta46aprvda3kxuww62zfddua 264 7 from from IN work_kkta46aprvda3kxuww62zfddua 264 8 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 264 9 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 264 10 and and CC work_kkta46aprvda3kxuww62zfddua 264 11 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 264 12 use use VBP work_kkta46aprvda3kxuww62zfddua 264 13 Na+ na+ RB work_kkta46aprvda3kxuww62zfddua 264 14 instead instead RB work_kkta46aprvda3kxuww62zfddua 264 15 of of IN work_kkta46aprvda3kxuww62zfddua 264 16 H+ h+ $ work_kkta46aprvda3kxuww62zfddua 264 17 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 264 18 94,95 94,95 CD work_kkta46aprvda3kxuww62zfddua 264 19 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 264 20 . . . work_kkta46aprvda3kxuww62zfddua 265 1 The the DT work_kkta46aprvda3kxuww62zfddua 265 2 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 265 3 binding binding NN work_kkta46aprvda3kxuww62zfddua 265 4 site site NN work_kkta46aprvda3kxuww62zfddua 265 5 of of IN work_kkta46aprvda3kxuww62zfddua 265 6 e.g. e.g. RB work_kkta46aprvda3kxuww62zfddua 266 1 Ilyobacter ilyobacter NN work_kkta46aprvda3kxuww62zfddua 266 2 tartaricus tartaricus NN work_kkta46aprvda3kxuww62zfddua 266 3 contains contain VBZ work_kkta46aprvda3kxuww62zfddua 266 4 the the DT work_kkta46aprvda3kxuww62zfddua 266 5 before before RB work_kkta46aprvda3kxuww62zfddua 266 6 mentioned mention VBN work_kkta46aprvda3kxuww62zfddua 266 7 carboxyl- carboxyl- NN work_kkta46aprvda3kxuww62zfddua 266 8 ate eat VBD work_kkta46aprvda3kxuww62zfddua 266 9 and and CC work_kkta46aprvda3kxuww62zfddua 266 10 three three CD work_kkta46aprvda3kxuww62zfddua 266 11 more more JJR work_kkta46aprvda3kxuww62zfddua 266 12 amino amino NN work_kkta46aprvda3kxuww62zfddua 266 13 acid acid NN work_kkta46aprvda3kxuww62zfddua 266 14 residues residue NNS work_kkta46aprvda3kxuww62zfddua 266 15 that that WDT work_kkta46aprvda3kxuww62zfddua 266 16 coordinate coordinate VBP work_kkta46aprvda3kxuww62zfddua 266 17 the the DT work_kkta46aprvda3kxuww62zfddua 266 18 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 266 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 266 20 96,97 96,97 CD work_kkta46aprvda3kxuww62zfddua 266 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 266 22 . . . work_kkta46aprvda3kxuww62zfddua 267 1 These these DT work_kkta46aprvda3kxuww62zfddua 267 2 are be VBP work_kkta46aprvda3kxuww62zfddua 267 3 : : : work_kkta46aprvda3kxuww62zfddua 267 4 Q32 Q32 NNP work_kkta46aprvda3kxuww62zfddua 267 5 , , , work_kkta46aprvda3kxuww62zfddua 267 6 V63 V63 NNP work_kkta46aprvda3kxuww62zfddua 267 7 and and CC work_kkta46aprvda3kxuww62zfddua 267 8 S66 S66 NNP work_kkta46aprvda3kxuww62zfddua 267 9 . . . work_kkta46aprvda3kxuww62zfddua 268 1 Y70 y70 NN work_kkta46aprvda3kxuww62zfddua 268 2 forms form VBZ work_kkta46aprvda3kxuww62zfddua 268 3 a a DT work_kkta46aprvda3kxuww62zfddua 268 4 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 268 5 bond bond NN work_kkta46aprvda3kxuww62zfddua 268 6 with with IN work_kkta46aprvda3kxuww62zfddua 268 7 E65 E65 NNP work_kkta46aprvda3kxuww62zfddua 268 8 and and CC work_kkta46aprvda3kxuww62zfddua 268 9 stabilizes stabilize VBZ work_kkta46aprvda3kxuww62zfddua 268 10 the the DT work_kkta46aprvda3kxuww62zfddua 268 11 geometry geometry NN work_kkta46aprvda3kxuww62zfddua 268 12 of of IN work_kkta46aprvda3kxuww62zfddua 268 13 the the DT work_kkta46aprvda3kxuww62zfddua 268 14 ion ion NN work_kkta46aprvda3kxuww62zfddua 268 15 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 268 16 shell shell NN work_kkta46aprvda3kxuww62zfddua 268 17 , , , work_kkta46aprvda3kxuww62zfddua 268 18 but but CC work_kkta46aprvda3kxuww62zfddua 268 19 is be VBZ work_kkta46aprvda3kxuww62zfddua 268 20 not not RB work_kkta46aprvda3kxuww62zfddua 268 21 directly directly RB work_kkta46aprvda3kxuww62zfddua 268 22 involved involve VBN work_kkta46aprvda3kxuww62zfddua 268 23 in in IN work_kkta46aprvda3kxuww62zfddua 268 24 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 268 25 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 268 26 . . . work_kkta46aprvda3kxuww62zfddua 269 1 T67 T67 NNP work_kkta46aprvda3kxuww62zfddua 269 2 itself -PRON- PRP work_kkta46aprvda3kxuww62zfddua 269 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 269 4 also also RB work_kkta46aprvda3kxuww62zfddua 269 5 not not RB work_kkta46aprvda3kxuww62zfddua 269 6 directly directly RB work_kkta46aprvda3kxuww62zfddua 269 7 involved involve VBN work_kkta46aprvda3kxuww62zfddua 269 8 in in IN work_kkta46aprvda3kxuww62zfddua 269 9 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 269 10 binding binding JJ work_kkta46aprvda3kxuww62zfddua 269 11 but but CC work_kkta46aprvda3kxuww62zfddua 269 12 coordinates coordinate VBZ work_kkta46aprvda3kxuww62zfddua 269 13 a a DT work_kkta46aprvda3kxuww62zfddua 269 14 buried bury VBN work_kkta46aprvda3kxuww62zfddua 269 15 structural structural JJ work_kkta46aprvda3kxuww62zfddua 269 16 water water NN work_kkta46aprvda3kxuww62zfddua 269 17 molecule molecule NN work_kkta46aprvda3kxuww62zfddua 269 18 in in IN work_kkta46aprvda3kxuww62zfddua 269 19 the the DT work_kkta46aprvda3kxuww62zfddua 269 20 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 269 21 binding binding NN work_kkta46aprvda3kxuww62zfddua 269 22 site site NN work_kkta46aprvda3kxuww62zfddua 269 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 269 24 Fig fig NN work_kkta46aprvda3kxuww62zfddua 269 25 . . . work_kkta46aprvda3kxuww62zfddua 270 1 4B 4B NNP work_kkta46aprvda3kxuww62zfddua 270 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 270 3 inset inset NNP work_kkta46aprvda3kxuww62zfddua 270 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 270 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 270 6 . . . work_kkta46aprvda3kxuww62zfddua 271 1 Of of IN work_kkta46aprvda3kxuww62zfddua 271 2 these these DT work_kkta46aprvda3kxuww62zfddua 271 3 residues residue NNS work_kkta46aprvda3kxuww62zfddua 271 4 , , , work_kkta46aprvda3kxuww62zfddua 271 5 only only RB work_kkta46aprvda3kxuww62zfddua 271 6 three three CD work_kkta46aprvda3kxuww62zfddua 271 7 are be VBP work_kkta46aprvda3kxuww62zfddua 271 8 ade- ade- RB work_kkta46aprvda3kxuww62zfddua 271 9 quately quately RB work_kkta46aprvda3kxuww62zfddua 271 10 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 271 11 to to TO work_kkta46aprvda3kxuww62zfddua 271 12 be be VB work_kkta46aprvda3kxuww62zfddua 271 13 spotted spot VBN work_kkta46aprvda3kxuww62zfddua 271 14 by by IN work_kkta46aprvda3kxuww62zfddua 271 15 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 271 16 comparisons comparison NNS work_kkta46aprvda3kxuww62zfddua 271 17 . . . work_kkta46aprvda3kxuww62zfddua 272 1 These these DT work_kkta46aprvda3kxuww62zfddua 272 2 are be VBP work_kkta46aprvda3kxuww62zfddua 272 3 Q32 Q32 NNP work_kkta46aprvda3kxuww62zfddua 272 4 , , , work_kkta46aprvda3kxuww62zfddua 272 5 E65 E65 NNP work_kkta46aprvda3kxuww62zfddua 272 6 and and CC work_kkta46aprvda3kxuww62zfddua 272 7 S66 S66 NNP work_kkta46aprvda3kxuww62zfddua 272 8 . . . work_kkta46aprvda3kxuww62zfddua 273 1 Q Q NNP work_kkta46aprvda3kxuww62zfddua 273 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 273 3 substituted substitute VBN work_kkta46aprvda3kxuww62zfddua 273 4 and and CC work_kkta46aprvda3kxuww62zfddua 273 5 functionally functionally RB work_kkta46aprvda3kxuww62zfddua 273 6 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 273 7 by by IN work_kkta46aprvda3kxuww62zfddua 273 8 E e NN work_kkta46aprvda3kxuww62zfddua 273 9 , , , work_kkta46aprvda3kxuww62zfddua 273 10 and and CC work_kkta46aprvda3kxuww62zfddua 273 11 S s NN work_kkta46aprvda3kxuww62zfddua 273 12 by by IN work_kkta46aprvda3kxuww62zfddua 273 13 T t NN work_kkta46aprvda3kxuww62zfddua 273 14 in in IN work_kkta46aprvda3kxuww62zfddua 273 15 some some DT work_kkta46aprvda3kxuww62zfddua 273 16 species specie NNS work_kkta46aprvda3kxuww62zfddua 273 17 . . . work_kkta46aprvda3kxuww62zfddua 274 1 Thus thus RB work_kkta46aprvda3kxuww62zfddua 274 2 the the DT work_kkta46aprvda3kxuww62zfddua 274 3 minimal minimal JJ work_kkta46aprvda3kxuww62zfddua 274 4 and and CC work_kkta46aprvda3kxuww62zfddua 274 5 sufficient sufficient JJ work_kkta46aprvda3kxuww62zfddua 274 6 motif motif NN work_kkta46aprvda3kxuww62zfddua 274 7 for for IN work_kkta46aprvda3kxuww62zfddua 274 8 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 274 9 binding binding JJ work_kkta46aprvda3kxuww62zfddua 274 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 274 11 Q q NN work_kkta46aprvda3kxuww62zfddua 274 12 / / SYM work_kkta46aprvda3kxuww62zfddua 274 13 E E NNS work_kkta46aprvda3kxuww62zfddua 274 14 … … NFP work_kkta46aprvda3kxuww62zfddua 274 15 E e NN work_kkta46aprvda3kxuww62zfddua 274 16 T t NN work_kkta46aprvda3kxuww62zfddua 274 17 / / SYM work_kkta46aprvda3kxuww62zfddua 274 18 S. s. NN work_kkta46aprvda3kxuww62zfddua 275 1 This this DT work_kkta46aprvda3kxuww62zfddua 275 2 motif motif NN work_kkta46aprvda3kxuww62zfddua 275 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 275 4 also also RB work_kkta46aprvda3kxuww62zfddua 275 5 present present JJ work_kkta46aprvda3kxuww62zfddua 275 6 in in IN work_kkta46aprvda3kxuww62zfddua 275 7 the the DT work_kkta46aprvda3kxuww62zfddua 275 8 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 275 9 ATP atp NN work_kkta46aprvda3kxuww62zfddua 275 10 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 275 11 of of IN work_kkta46aprvda3kxuww62zfddua 275 12 some some DT work_kkta46aprvda3kxuww62zfddua 275 13 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 275 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 275 15 see see VB work_kkta46aprvda3kxuww62zfddua 275 16 below below RB work_kkta46aprvda3kxuww62zfddua 275 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 275 18 as as RB work_kkta46aprvda3kxuww62zfddua 275 19 well well RB work_kkta46aprvda3kxuww62zfddua 275 20 as as IN work_kkta46aprvda3kxuww62zfddua 275 21 E. E. NNP work_kkta46aprvda3kxuww62zfddua 275 22 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 275 23 . . . work_kkta46aprvda3kxuww62zfddua 276 1 In in IN work_kkta46aprvda3kxuww62zfddua 276 2 the the DT work_kkta46aprvda3kxuww62zfddua 276 3 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 276 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 276 5 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 276 6 c c NN work_kkta46aprvda3kxuww62zfddua 276 7 ring ring NN work_kkta46aprvda3kxuww62zfddua 276 8 of of IN work_kkta46aprvda3kxuww62zfddua 276 9 E. E. NNP work_kkta46aprvda3kxuww62zfddua 276 10 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 276 11 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 276 12 also also RB work_kkta46aprvda3kxuww62zfddua 276 13 called call VBN work_kkta46aprvda3kxuww62zfddua 276 14 “ " `` work_kkta46aprvda3kxuww62zfddua 276 15 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 276 16 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 276 17 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 276 18 ” " '' work_kkta46aprvda3kxuww62zfddua 276 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 276 20 a a DT work_kkta46aprvda3kxuww62zfddua 276 21 similar similar JJ work_kkta46aprvda3kxuww62zfddua 276 22 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 276 23 binding binding NN work_kkta46aprvda3kxuww62zfddua 276 24 site site NN work_kkta46aprvda3kxuww62zfddua 276 25 is be VBZ work_kkta46aprvda3kxuww62zfddua 276 26 observed observe VBN work_kkta46aprvda3kxuww62zfddua 276 27 with with IN work_kkta46aprvda3kxuww62zfddua 276 28 the the DT work_kkta46aprvda3kxuww62zfddua 276 29 essential essential JJ work_kkta46aprvda3kxuww62zfddua 276 30 carboxylate carboxylate NN work_kkta46aprvda3kxuww62zfddua 276 31 E139 E139 NNP work_kkta46aprvda3kxuww62zfddua 276 32 as as RB work_kkta46aprvda3kxuww62zfddua 276 33 well well RB work_kkta46aprvda3kxuww62zfddua 276 34 as as IN work_kkta46aprvda3kxuww62zfddua 276 35 Q110 Q110 NNP work_kkta46aprvda3kxuww62zfddua 276 36 , , , work_kkta46aprvda3kxuww62zfddua 276 37 L61 L61 NNP work_kkta46aprvda3kxuww62zfddua 276 38 , , , work_kkta46aprvda3kxuww62zfddua 276 39 T64 T64 NNP work_kkta46aprvda3kxuww62zfddua 276 40 and and CC work_kkta46aprvda3kxuww62zfddua 276 41 Q65 Q65 NNP work_kkta46aprvda3kxuww62zfddua 276 42 , , , work_kkta46aprvda3kxuww62zfddua 276 43 which which WDT work_kkta46aprvda3kxuww62zfddua 276 44 form form VBP work_kkta46aprvda3kxuww62zfddua 276 45 the the DT work_kkta46aprvda3kxuww62zfddua 276 46 ion ion NN work_kkta46aprvda3kxuww62zfddua 276 47 coordina- coordina- FW work_kkta46aprvda3kxuww62zfddua 276 48 tion tion NN work_kkta46aprvda3kxuww62zfddua 276 49 shell shell NN work_kkta46aprvda3kxuww62zfddua 276 50 and and CC work_kkta46aprvda3kxuww62zfddua 276 51 Y68 Y68 NNP work_kkta46aprvda3kxuww62zfddua 276 52 which which WDT work_kkta46aprvda3kxuww62zfddua 276 53 makes make VBZ work_kkta46aprvda3kxuww62zfddua 276 54 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 276 55 bonding bond VBG work_kkta46aprvda3kxuww62zfddua 276 56 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 276 57 with with IN work_kkta46aprvda3kxuww62zfddua 276 58 E139 E139 NNP work_kkta46aprvda3kxuww62zfddua 276 59 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 276 60 Fig fig NN work_kkta46aprvda3kxuww62zfddua 276 61 . . . work_kkta46aprvda3kxuww62zfddua 277 1 4C 4C NNP work_kkta46aprvda3kxuww62zfddua 277 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 277 3 inset inset NNP work_kkta46aprvda3kxuww62zfddua 277 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 277 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 277 6 . . . work_kkta46aprvda3kxuww62zfddua 278 1 As as IN work_kkta46aprvda3kxuww62zfddua 278 2 pointed point VBN work_kkta46aprvda3kxuww62zfddua 278 3 out out RP work_kkta46aprvda3kxuww62zfddua 278 4 above above RB work_kkta46aprvda3kxuww62zfddua 278 5 , , , work_kkta46aprvda3kxuww62zfddua 278 6 due due IN work_kkta46aprvda3kxuww62zfddua 278 7 to to IN work_kkta46aprvda3kxuww62zfddua 278 8 the the DT work_kkta46aprvda3kxuww62zfddua 278 9 variation variation NN work_kkta46aprvda3kxuww62zfddua 278 10 in in IN work_kkta46aprvda3kxuww62zfddua 278 11 the the DT work_kkta46aprvda3kxuww62zfddua 278 12 number number NN work_kkta46aprvda3kxuww62zfddua 278 13 of of IN work_kkta46aprvda3kxuww62zfddua 278 14 protomers protomer NNS work_kkta46aprvda3kxuww62zfddua 278 15 the the DT work_kkta46aprvda3kxuww62zfddua 278 16 diameters diameter NNS work_kkta46aprvda3kxuww62zfddua 278 17 of of IN work_kkta46aprvda3kxuww62zfddua 278 18 these these DT work_kkta46aprvda3kxuww62zfddua 278 19 c c NN work_kkta46aprvda3kxuww62zfddua 278 20 ring ring NN work_kkta46aprvda3kxuww62zfddua 278 21 rotors rotor NNS work_kkta46aprvda3kxuww62zfddua 278 22 differ differ VBP work_kkta46aprvda3kxuww62zfddua 278 23 from from IN work_kkta46aprvda3kxuww62zfddua 278 24 organism organism NN work_kkta46aprvda3kxuww62zfddua 278 25 to to IN work_kkta46aprvda3kxuww62zfddua 278 26 organism organism NN work_kkta46aprvda3kxuww62zfddua 278 27 . . . work_kkta46aprvda3kxuww62zfddua 279 1 A a DT work_kkta46aprvda3kxuww62zfddua 279 2 significant significant JJ work_kkta46aprvda3kxuww62zfddua 279 3 structural structural JJ work_kkta46aprvda3kxuww62zfddua 279 4 difference difference NN work_kkta46aprvda3kxuww62zfddua 279 5 between between IN work_kkta46aprvda3kxuww62zfddua 279 6 c c NN work_kkta46aprvda3kxuww62zfddua 279 7 rings ring NNS work_kkta46aprvda3kxuww62zfddua 279 8 of of IN work_kkta46aprvda3kxuww62zfddua 279 9 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 279 10 and and CC work_kkta46aprvda3kxuww62zfddua 279 11 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 279 12 ATP atp NN work_kkta46aprvda3kxuww62zfddua 279 13 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 279 14 is be VBZ work_kkta46aprvda3kxuww62zfddua 279 15 represented represent VBN work_kkta46aprvda3kxuww62zfddua 279 16 by by IN work_kkta46aprvda3kxuww62zfddua 279 17 the the DT work_kkta46aprvda3kxuww62zfddua 279 18 comparison comparison NN work_kkta46aprvda3kxuww62zfddua 279 19 of of IN work_kkta46aprvda3kxuww62zfddua 279 20 the the DT work_kkta46aprvda3kxuww62zfddua 279 21 Na Na NNP work_kkta46aprvda3kxuww62zfddua 279 22 + + RB work_kkta46aprvda3kxuww62zfddua 279 23 - - HYPH work_kkta46aprvda3kxuww62zfddua 279 24 translocating translocate VBG work_kkta46aprvda3kxuww62zfddua 279 25 undecameric undecameric JJ work_kkta46aprvda3kxuww62zfddua 279 26 ring ring NN work_kkta46aprvda3kxuww62zfddua 279 27 of of IN work_kkta46aprvda3kxuww62zfddua 279 28 I. i. NN work_kkta46aprvda3kxuww62zfddua 279 29 tartaricus tartaricus NN work_kkta46aprvda3kxuww62zfddua 279 30 c c NN work_kkta46aprvda3kxuww62zfddua 279 31 ring ring NN work_kkta46aprvda3kxuww62zfddua 279 32 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 279 33 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 279 34 ATP atp NN work_kkta46aprvda3kxuww62zfddua 279 35 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 279 36 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 279 37 and and CC work_kkta46aprvda3kxuww62zfddua 279 38 the the DT work_kkta46aprvda3kxuww62zfddua 279 39 c c NNP work_kkta46aprvda3kxuww62zfddua 279 40 ring ring NN work_kkta46aprvda3kxuww62zfddua 279 41 of of IN work_kkta46aprvda3kxuww62zfddua 279 42 the the DT work_kkta46aprvda3kxuww62zfddua 279 43 E. E. NNP work_kkta46aprvda3kxuww62zfddua 279 44 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 279 45 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 279 46 ATP atp NN work_kkta46aprvda3kxuww62zfddua 279 47 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 279 48 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 279 49 Fig fig NN work_kkta46aprvda3kxuww62zfddua 279 50 . . . work_kkta46aprvda3kxuww62zfddua 280 1 4 4 LS work_kkta46aprvda3kxuww62zfddua 280 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 280 3 . . . work_kkta46aprvda3kxuww62zfddua 281 1 Whereas whereas IN work_kkta46aprvda3kxuww62zfddua 281 2 the the DT work_kkta46aprvda3kxuww62zfddua 281 3 I. i. NN work_kkta46aprvda3kxuww62zfddua 282 1 Fig fig NN work_kkta46aprvda3kxuww62zfddua 282 2 . . . work_kkta46aprvda3kxuww62zfddua 283 1 4 4 LS work_kkta46aprvda3kxuww62zfddua 283 2 . . . work_kkta46aprvda3kxuww62zfddua 284 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 284 2 A a NN work_kkta46aprvda3kxuww62zfddua 284 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 284 4 The the DT work_kkta46aprvda3kxuww62zfddua 284 5 three three CD work_kkta46aprvda3kxuww62zfddua 284 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 284 7 dimensional dimensional JJ work_kkta46aprvda3kxuww62zfddua 284 8 EM EM NNP work_kkta46aprvda3kxuww62zfddua 284 9 map map NN work_kkta46aprvda3kxuww62zfddua 284 10 of of IN work_kkta46aprvda3kxuww62zfddua 284 11 the the DT work_kkta46aprvda3kxuww62zfddua 284 12 T. T. NNP work_kkta46aprvda3kxuww62zfddua 284 13 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 284 14 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 284 15 at at IN work_kkta46aprvda3kxuww62zfddua 284 16 9.7 9.7 CD work_kkta46aprvda3kxuww62zfddua 284 17 Å å NN work_kkta46aprvda3kxuww62zfddua 284 18 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 284 19 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 284 20 EM em NN work_kkta46aprvda3kxuww62zfddua 284 21 ring ring NN work_kkta46aprvda3kxuww62zfddua 284 22 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 284 23 wheat wheat NN work_kkta46aprvda3kxuww62zfddua 284 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 284 25 and and CC work_kkta46aprvda3kxuww62zfddua 284 26 subunit subunit VBD work_kkta46aprvda3kxuww62zfddua 284 27 a a DT work_kkta46aprvda3kxuww62zfddua 284 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 284 29 yellow yellow JJ work_kkta46aprvda3kxuww62zfddua 284 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 284 31 are be VBP work_kkta46aprvda3kxuww62zfddua 284 32 shown show VBN work_kkta46aprvda3kxuww62zfddua 284 33 as as IN work_kkta46aprvda3kxuww62zfddua 284 34 solid solid JJ work_kkta46aprvda3kxuww62zfddua 284 35 surface surface NN work_kkta46aprvda3kxuww62zfddua 284 36 . . . work_kkta46aprvda3kxuww62zfddua 285 1 Two two CD work_kkta46aprvda3kxuww62zfddua 285 2 cross cross NN work_kkta46aprvda3kxuww62zfddua 285 3 - - NNS work_kkta46aprvda3kxuww62zfddua 285 4 sections section NNS work_kkta46aprvda3kxuww62zfddua 285 5 of of IN work_kkta46aprvda3kxuww62zfddua 285 6 the the DT work_kkta46aprvda3kxuww62zfddua 285 7 map map NN work_kkta46aprvda3kxuww62zfddua 285 8 s s NNP work_kkta46aprvda3kxuww62zfddua 285 9 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 285 10 at at IN work_kkta46aprvda3kxuww62zfddua 285 11 two two CD work_kkta46aprvda3kxuww62zfddua 285 12 positions position NNS work_kkta46aprvda3kxuww62zfddua 285 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 285 14 indicated indicate VBN work_kkta46aprvda3kxuww62zfddua 285 15 by by IN work_kkta46aprvda3kxuww62zfddua 285 16 red red JJ work_kkta46aprvda3kxuww62zfddua 285 17 arrows arrow NNS work_kkta46aprvda3kxuww62zfddua 285 18 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 285 19 . . . work_kkta46aprvda3kxuww62zfddua 286 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 286 2 B b NN work_kkta46aprvda3kxuww62zfddua 286 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 286 4 Structure structure NN work_kkta46aprvda3kxuww62zfddua 286 5 of of IN work_kkta46aprvda3kxuww62zfddua 286 6 the the DT work_kkta46aprvda3kxuww62zfddua 286 7 c c NNP work_kkta46aprvda3kxuww62zfddua 286 8 ring ring NN work_kkta46aprvda3kxuww62zfddua 286 9 of of IN work_kkta46aprvda3kxuww62zfddua 286 10 the the DT work_kkta46aprvda3kxuww62zfddua 286 11 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 286 12 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 286 13 syn syn NN work_kkta46aprvda3kxuww62zfddua 286 14 glass glass NN work_kkta46aprvda3kxuww62zfddua 286 15 shaped shape VBD work_kkta46aprvda3kxuww62zfddua 286 16 complex complex JJ work_kkta46aprvda3kxuww62zfddua 286 17 . . . work_kkta46aprvda3kxuww62zfddua 287 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 287 2 inset inset NN work_kkta46aprvda3kxuww62zfddua 287 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 287 4 Sodium Sodium NNP work_kkta46aprvda3kxuww62zfddua 287 5 ion ion NN work_kkta46aprvda3kxuww62zfddua 287 6 binding bind VBG work_kkta46aprvda3kxuww62zfddua 287 7 site site NN work_kkta46aprvda3kxuww62zfddua 287 8 with with IN work_kkta46aprvda3kxuww62zfddua 287 9 the the DT work_kkta46aprvda3kxuww62zfddua 287 10 ion ion NN work_kkta46aprvda3kxuww62zfddua 287 11 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 287 12 shell shell NNP work_kkta46aprvda3kxuww62zfddua 287 13 formed form VBD work_kkta46aprvda3kxuww62zfddua 287 14 b b NNP work_kkta46aprvda3kxuww62zfddua 287 15 ometry ometry NN work_kkta46aprvda3kxuww62zfddua 287 16 . . . work_kkta46aprvda3kxuww62zfddua 288 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 288 2 C C NNP work_kkta46aprvda3kxuww62zfddua 288 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 288 4 The the DT work_kkta46aprvda3kxuww62zfddua 288 5 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 288 6 ATP atp NN work_kkta46aprvda3kxuww62zfddua 288 7 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 288 8 c c NN work_kkta46aprvda3kxuww62zfddua 288 9 ring ring VB work_kkta46aprvda3kxuww62zfddua 288 10 structure structure NN work_kkta46aprvda3kxuww62zfddua 288 11 from from IN work_kkta46aprvda3kxuww62zfddua 288 12 E. E. NNP work_kkta46aprvda3kxuww62zfddua 288 13 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 288 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 288 15 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 288 16 ID ID NNP work_kkta46aprvda3kxuww62zfddua 288 17 : : : work_kkta46aprvda3kxuww62zfddua 288 18 2BL2 2bl2 CD work_kkta46aprvda3kxuww62zfddua 288 19 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 288 20 96 96 CD work_kkta46aprvda3kxuww62zfddua 288 21 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 288 22 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 288 23 revealing reveal VBG work_kkta46aprvda3kxuww62zfddua 288 24 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 288 25 C C NNP work_kkta46aprvda3kxuww62zfddua 288 26 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 288 27 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 288 28 left leave VBN work_kkta46aprvda3kxuww62zfddua 288 29 ; ; : work_kkta46aprvda3kxuww62zfddua 288 30 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 288 31 ID ID NNP work_kkta46aprvda3kxuww62zfddua 288 32 : : : work_kkta46aprvda3kxuww62zfddua 288 33 1R5Z 1r5z CD work_kkta46aprvda3kxuww62zfddua 288 34 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 288 35 51 51 CD work_kkta46aprvda3kxuww62zfddua 288 36 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 288 37 ; ; : work_kkta46aprvda3kxuww62zfddua 288 38 blue blue NNP work_kkta46aprvda3kxuww62zfddua 288 39 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 288 40 . . . work_kkta46aprvda3kxuww62zfddua 289 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 289 2 inset inset NN work_kkta46aprvda3kxuww62zfddua 289 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 289 4 Sodium Sodium NNP work_kkta46aprvda3kxuww62zfddua 289 5 ion ion NN work_kkta46aprvda3kxuww62zfddua 289 6 binding binding NN work_kkta46aprvda3kxuww62zfddua 289 7 site site NN work_kkta46aprvda3kxuww62zfddua 289 8 of of IN work_kkta46aprvda3kxuww62zfddua 289 9 the the DT work_kkta46aprvda3kxuww62zfddua 289 10 E. E. NNP work_kkta46aprvda3kxuww62zfddua 289 11 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 289 12 c c NN work_kkta46aprvda3kxuww62zfddua 289 13 Q65 Q65 NNP work_kkta46aprvda3kxuww62zfddua 289 14 and and CC work_kkta46aprvda3kxuww62zfddua 289 15 Y68 Y68 NNP work_kkta46aprvda3kxuww62zfddua 289 16 having have VBG work_kkta46aprvda3kxuww62zfddua 289 17 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 289 18 bonding bond VBG work_kkta46aprvda3kxuww62zfddua 289 19 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 289 20 with with IN work_kkta46aprvda3kxuww62zfddua 289 21 E139 E139 NNP work_kkta46aprvda3kxuww62zfddua 289 22 . . . work_kkta46aprvda3kxuww62zfddua 290 1 tartaricus tartaricus NNP work_kkta46aprvda3kxuww62zfddua 290 2 c c NNP work_kkta46aprvda3kxuww62zfddua 290 3 ring ring NN work_kkta46aprvda3kxuww62zfddua 290 4 forms form NNS work_kkta46aprvda3kxuww62zfddua 290 5 a a DT work_kkta46aprvda3kxuww62zfddua 290 6 cylindrical cylindrical JJ work_kkta46aprvda3kxuww62zfddua 290 7 , , , work_kkta46aprvda3kxuww62zfddua 290 8 hourglass hourglass NN work_kkta46aprvda3kxuww62zfddua 290 9 shaped shaped JJ work_kkta46aprvda3kxuww62zfddua 290 10 protein protein NN work_kkta46aprvda3kxuww62zfddua 290 11 complex complex NN work_kkta46aprvda3kxuww62zfddua 290 12 with with IN work_kkta46aprvda3kxuww62zfddua 290 13 an an DT work_kkta46aprvda3kxuww62zfddua 290 14 outer outer JJ work_kkta46aprvda3kxuww62zfddua 290 15 diameter diameter NN work_kkta46aprvda3kxuww62zfddua 290 16 of of IN work_kkta46aprvda3kxuww62zfddua 290 17 ~50 ~50 NNP work_kkta46aprvda3kxuww62zfddua 290 18 Å Å NNP work_kkta46aprvda3kxuww62zfddua 290 19 and and CC work_kkta46aprvda3kxuww62zfddua 290 20 an an DT work_kkta46aprvda3kxuww62zfddua 290 21 inner inner JJ work_kkta46aprvda3kxuww62zfddua 290 22 diameter diameter NN work_kkta46aprvda3kxuww62zfddua 290 23 of of IN work_kkta46aprvda3kxuww62zfddua 290 24 ~17 ~17 . work_kkta46aprvda3kxuww62zfddua 290 25 Å Å NNP work_kkta46aprvda3kxuww62zfddua 290 26 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 290 27 98 98 CD work_kkta46aprvda3kxuww62zfddua 290 28 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 290 29 , , , work_kkta46aprvda3kxuww62zfddua 290 30 the the DT work_kkta46aprvda3kxuww62zfddua 290 31 decameric decameric JJ work_kkta46aprvda3kxuww62zfddua 290 32 ring ring NN work_kkta46aprvda3kxuww62zfddua 290 33 of of IN work_kkta46aprvda3kxuww62zfddua 290 34 E. E. NNP work_kkta46aprvda3kxuww62zfddua 290 35 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 290 36 is be VBZ work_kkta46aprvda3kxuww62zfddua 290 37 much much RB work_kkta46aprvda3kxuww62zfddua 290 38 more more RBR work_kkta46aprvda3kxuww62zfddua 290 39 wider wider RBR work_kkta46aprvda3kxuww62zfddua 290 40 spanning span VBG work_kkta46aprvda3kxuww62zfddua 290 41 an an DT work_kkta46aprvda3kxuww62zfddua 290 42 external external JJ work_kkta46aprvda3kxuww62zfddua 290 43 diameter diameter NN work_kkta46aprvda3kxuww62zfddua 290 44 of of IN work_kkta46aprvda3kxuww62zfddua 290 45 83 83 CD work_kkta46aprvda3kxuww62zfddua 290 46 Å Å NNP work_kkta46aprvda3kxuww62zfddua 290 47 and and CC work_kkta46aprvda3kxuww62zfddua 290 48 an an DT work_kkta46aprvda3kxuww62zfddua 290 49 inner inner JJ work_kkta46aprvda3kxuww62zfddua 290 50 diameter diameter NN work_kkta46aprvda3kxuww62zfddua 290 51 of of IN work_kkta46aprvda3kxuww62zfddua 290 52 54 54 CD work_kkta46aprvda3kxuww62zfddua 290 53 Å Å NNP work_kkta46aprvda3kxuww62zfddua 290 54 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 290 55 96 96 CD work_kkta46aprvda3kxuww62zfddua 290 56 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 290 57 . . . work_kkta46aprvda3kxuww62zfddua 291 1 Although although IN work_kkta46aprvda3kxuww62zfddua 291 2 among among IN work_kkta46aprvda3kxuww62zfddua 291 3 all all PDT work_kkta46aprvda3kxuww62zfddua 291 4 the the DT work_kkta46aprvda3kxuww62zfddua 291 5 solved solve VBN work_kkta46aprvda3kxuww62zfddua 291 6 c c NN work_kkta46aprvda3kxuww62zfddua 291 7 ring ring NN work_kkta46aprvda3kxuww62zfddua 291 8 structures structure NNS work_kkta46aprvda3kxuww62zfddua 291 9 , , , work_kkta46aprvda3kxuww62zfddua 291 10 the the DT work_kkta46aprvda3kxuww62zfddua 291 11 E. E. NNP work_kkta46aprvda3kxuww62zfddua 291 12 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 291 13 c c NNP work_kkta46aprvda3kxuww62zfddua 291 14 ring ring NN work_kkta46aprvda3kxuww62zfddua 291 15 has have VBZ work_kkta46aprvda3kxuww62zfddua 291 16 only only RB work_kkta46aprvda3kxuww62zfddua 291 17 10 10 CD work_kkta46aprvda3kxuww62zfddua 291 18 protomers protomer NNS work_kkta46aprvda3kxuww62zfddua 291 19 , , , work_kkta46aprvda3kxuww62zfddua 291 20 the the DT work_kkta46aprvda3kxuww62zfddua 291 21 external external JJ work_kkta46aprvda3kxuww62zfddua 291 22 c c NNP work_kkta46aprvda3kxuww62zfddua 291 23 ring ring NN work_kkta46aprvda3kxuww62zfddua 291 24 diameter diameter NN work_kkta46aprvda3kxuww62zfddua 291 25 is be VBZ work_kkta46aprvda3kxuww62zfddua 291 26 wider wide JJR work_kkta46aprvda3kxuww62zfddua 291 27 than than IN work_kkta46aprvda3kxuww62zfddua 291 28 the the DT work_kkta46aprvda3kxuww62zfddua 291 29 one one CD work_kkta46aprvda3kxuww62zfddua 291 30 of of IN work_kkta46aprvda3kxuww62zfddua 291 31 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 291 32 ATP atp NN work_kkta46aprvda3kxuww62zfddua 291 33 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 291 34 c c NN work_kkta46aprvda3kxuww62zfddua 291 35 rings ring NNS work_kkta46aprvda3kxuww62zfddua 291 36 . . . work_kkta46aprvda3kxuww62zfddua 292 1 This this DT work_kkta46aprvda3kxuww62zfddua 292 2 structural structural JJ work_kkta46aprvda3kxuww62zfddua 292 3 feature feature NN work_kkta46aprvda3kxuww62zfddua 292 4 enables enable VBZ work_kkta46aprvda3kxuww62zfddua 292 5 the the DT work_kkta46aprvda3kxuww62zfddua 292 6 funnel funnel NN work_kkta46aprvda3kxuww62zfddua 292 7 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 292 8 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 292 9 C C NNP work_kkta46aprvda3kxuww62zfddua 292 10 of of IN work_kkta46aprvda3kxuww62zfddua 292 11 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 292 12 ATP atp NN work_kkta46aprvda3kxuww62zfddua 292 13 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 292 14 , , , work_kkta46aprvda3kxuww62zfddua 292 15 which which WDT work_kkta46aprvda3kxuww62zfddua 292 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 292 17 not not RB work_kkta46aprvda3kxuww62zfddua 292 18 present present JJ work_kkta46aprvda3kxuww62zfddua 292 19 in in IN work_kkta46aprvda3kxuww62zfddua 292 20 F1FO f1fo JJ work_kkta46aprvda3kxuww62zfddua 292 21 ATP atp NN work_kkta46aprvda3kxuww62zfddua 292 22 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 292 23 , , , work_kkta46aprvda3kxuww62zfddua 292 24 to to TO work_kkta46aprvda3kxuww62zfddua 292 25 pen- pen- VB work_kkta46aprvda3kxuww62zfddua 292 26 etrate etrate VB work_kkta46aprvda3kxuww62zfddua 292 27 into into IN work_kkta46aprvda3kxuww62zfddua 292 28 the the DT work_kkta46aprvda3kxuww62zfddua 292 29 central central JJ work_kkta46aprvda3kxuww62zfddua 292 30 cavity cavity NN work_kkta46aprvda3kxuww62zfddua 292 31 of of IN work_kkta46aprvda3kxuww62zfddua 292 32 the the DT work_kkta46aprvda3kxuww62zfddua 292 33 c c NN work_kkta46aprvda3kxuww62zfddua 292 34 ring ring NN work_kkta46aprvda3kxuww62zfddua 292 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 292 36 52 52 CD work_kkta46aprvda3kxuww62zfddua 292 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 292 38 , , , work_kkta46aprvda3kxuww62zfddua 292 39 and and CC work_kkta46aprvda3kxuww62zfddua 292 40 allowing allow VBG work_kkta46aprvda3kxuww62zfddua 292 41 a a DT work_kkta46aprvda3kxuww62zfddua 292 42 direct direct JJ work_kkta46aprvda3kxuww62zfddua 292 43 translation translation NN work_kkta46aprvda3kxuww62zfddua 292 44 event event NN work_kkta46aprvda3kxuww62zfddua 292 45 between between IN work_kkta46aprvda3kxuww62zfddua 292 46 c c NN work_kkta46aprvda3kxuww62zfddua 292 47 ring ring NN work_kkta46aprvda3kxuww62zfddua 292 48 rotation rotation NN work_kkta46aprvda3kxuww62zfddua 292 49 and and CC work_kkta46aprvda3kxuww62zfddua 292 50 ATP atp NN work_kkta46aprvda3kxuww62zfddua 292 51 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 292 52 in in IN work_kkta46aprvda3kxuww62zfddua 292 53 the the DT work_kkta46aprvda3kxuww62zfddua 292 54 A3B3 A3B3 NNP work_kkta46aprvda3kxuww62zfddua 292 55 headpiece headpiece NN work_kkta46aprvda3kxuww62zfddua 292 56 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 292 57 Fig fig NN work_kkta46aprvda3kxuww62zfddua 292 58 . . . work_kkta46aprvda3kxuww62zfddua 293 1 4B 4B NNP work_kkta46aprvda3kxuww62zfddua 293 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 293 3 . . . work_kkta46aprvda3kxuww62zfddua 294 1 A a DT work_kkta46aprvda3kxuww62zfddua 294 2 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 294 3 comparison comparison NN work_kkta46aprvda3kxuww62zfddua 294 4 of of IN work_kkta46aprvda3kxuww62zfddua 294 5 all all PDT work_kkta46aprvda3kxuww62zfddua 294 6 the the DT work_kkta46aprvda3kxuww62zfddua 294 7 sequences sequence NNS work_kkta46aprvda3kxuww62zfddua 294 8 available available JJ work_kkta46aprvda3kxuww62zfddua 294 9 for for IN work_kkta46aprvda3kxuww62zfddua 294 10 c c NN work_kkta46aprvda3kxuww62zfddua 294 11 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 294 12 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 294 13 as as IN work_kkta46aprvda3kxuww62zfddua 294 14 of of IN work_kkta46aprvda3kxuww62zfddua 294 15 Sept. September NNP work_kkta46aprvda3kxuww62zfddua 294 16 1 1 CD work_kkta46aprvda3kxuww62zfddua 294 17 . . CD work_kkta46aprvda3kxuww62zfddua 294 18 , , , work_kkta46aprvda3kxuww62zfddua 294 19 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 294 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 294 21 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 294 22 the the DT work_kkta46aprvda3kxuww62zfddua 294 23 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 294 24 binding bind VBG work_kkta46aprvda3kxuww62zfddua 294 25 motif motif NN work_kkta46aprvda3kxuww62zfddua 294 26 Q q NN work_kkta46aprvda3kxuww62zfddua 294 27 / / SYM work_kkta46aprvda3kxuww62zfddua 294 28 E e NN work_kkta46aprvda3kxuww62zfddua 294 29 … … NFP work_kkta46aprvda3kxuww62zfddua 294 30 E e NN work_kkta46aprvda3kxuww62zfddua 294 31 T t NN work_kkta46aprvda3kxuww62zfddua 294 32 / / SYM work_kkta46aprvda3kxuww62zfddua 294 33 S s NN work_kkta46aprvda3kxuww62zfddua 294 34 to to TO work_kkta46aprvda3kxuww62zfddua 294 35 be be VB work_kkta46aprvda3kxuww62zfddua 294 36 present present JJ work_kkta46aprvda3kxuww62zfddua 294 37 in in IN work_kkta46aprvda3kxuww62zfddua 294 38 all all DT work_kkta46aprvda3kxuww62zfddua 294 39 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 294 40 and and CC work_kkta46aprvda3kxuww62zfddua 294 41 halobacteria halobacteria NNS work_kkta46aprvda3kxuww62zfddua 294 42 , , , work_kkta46aprvda3kxuww62zfddua 294 43 as as RB work_kkta46aprvda3kxuww62zfddua 294 44 well well RB work_kkta46aprvda3kxuww62zfddua 294 45 as as IN work_kkta46aprvda3kxuww62zfddua 294 46 in in IN work_kkta46aprvda3kxuww62zfddua 294 47 species species NN work_kkta46aprvda3kxuww62zfddua 294 48 of of IN work_kkta46aprvda3kxuww62zfddua 294 49 the the DT work_kkta46aprvda3kxuww62zfddua 294 50 genera genera NN work_kkta46aprvda3kxuww62zfddua 294 51 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 294 52 , , , work_kkta46aprvda3kxuww62zfddua 294 53 Thermococcus Thermococcus NNP work_kkta46aprvda3kxuww62zfddua 294 54 , , , work_kkta46aprvda3kxuww62zfddua 294 55 Desulfurococcus Desulfurococcus NNP work_kkta46aprvda3kxuww62zfddua 294 56 , , , work_kkta46aprvda3kxuww62zfddua 294 57 Ignisphaera Ignisphaera NNP work_kkta46aprvda3kxuww62zfddua 294 58 , , , work_kkta46aprvda3kxuww62zfddua 294 59 Staphylothermus Staphylothermus NNP work_kkta46aprvda3kxuww62zfddua 294 60 and and CC work_kkta46aprvda3kxuww62zfddua 294 61 Nanoarchaeum Nanoarchaeum NNP work_kkta46aprvda3kxuww62zfddua 294 62 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 294 63 Table table NN work_kkta46aprvda3kxuww62zfddua 294 64 1 1 CD work_kkta46aprvda3kxuww62zfddua 294 65 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 294 66 . . . work_kkta46aprvda3kxuww62zfddua 295 1 Of of IN work_kkta46aprvda3kxuww62zfddua 295 2 these these DT work_kkta46aprvda3kxuww62zfddua 295 3 , , , work_kkta46aprvda3kxuww62zfddua 295 4 the the DT work_kkta46aprvda3kxuww62zfddua 295 5 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 295 6 ATP atp NN work_kkta46aprvda3kxuww62zfddua 295 7 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 295 8 from from IN work_kkta46aprvda3kxuww62zfddua 295 9 Methanobrevibacter Methanobrevibacter NNP work_kkta46aprvda3kxuww62zfddua 295 10 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 295 11 and and CC work_kkta46aprvda3kxuww62zfddua 295 12 P. p. NN work_kkta46aprvda3kxuww62zfddua 295 13 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 295 14 have have VBP work_kkta46aprvda3kxuww62zfddua 295 15 been be VBN work_kkta46aprvda3kxuww62zfddua 295 16 shown show VBN work_kkta46aprvda3kxuww62zfddua 295 17 to to TO work_kkta46aprvda3kxuww62zfddua 295 18 be be VB work_kkta46aprvda3kxuww62zfddua 295 19 Na+ na+ RB work_kkta46aprvda3kxuww62zfddua 295 20 specific specific JJ work_kkta46aprvda3kxuww62zfddua 295 21 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 295 22 65,86,99 65,86,99 NNP work_kkta46aprvda3kxuww62zfddua 295 23 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 295 24 . . . work_kkta46aprvda3kxuww62zfddua 296 1 Structural structural JJ work_kkta46aprvda3kxuww62zfddua 296 2 models model NNS work_kkta46aprvda3kxuww62zfddua 296 3 of of IN work_kkta46aprvda3kxuww62zfddua 296 4 a a DT work_kkta46aprvda3kxuww62zfddua 296 5 c10 c10 NN work_kkta46aprvda3kxuww62zfddua 296 6 ring ring NN work_kkta46aprvda3kxuww62zfddua 296 7 of of IN work_kkta46aprvda3kxuww62zfddua 296 8 P. P. NNP work_kkta46aprvda3kxuww62zfddua 296 9 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 296 10 and and CC work_kkta46aprvda3kxuww62zfddua 296 11 a a DT work_kkta46aprvda3kxuww62zfddua 296 12 c3 c3 NN work_kkta46aprvda3kxuww62zfddua 296 13 construct construct NN work_kkta46aprvda3kxuww62zfddua 296 14 of of IN work_kkta46aprvda3kxuww62zfddua 296 15 M. M. NNP work_kkta46aprvda3kxuww62zfddua 296 16 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 296 17 , , , work_kkta46aprvda3kxuww62zfddua 296 18 generated generate VBD work_kkta46aprvda3kxuww62zfddua 296 19 com- com- NN work_kkta46aprvda3kxuww62zfddua 296 20 putationally putationally RB work_kkta46aprvda3kxuww62zfddua 296 21 , , , work_kkta46aprvda3kxuww62zfddua 296 22 revealed reveal VBD work_kkta46aprvda3kxuww62zfddua 296 23 the the DT work_kkta46aprvda3kxuww62zfddua 296 24 nature nature NN work_kkta46aprvda3kxuww62zfddua 296 25 of of IN work_kkta46aprvda3kxuww62zfddua 296 26 the the DT work_kkta46aprvda3kxuww62zfddua 296 27 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 296 28 binding bind VBG work_kkta46aprvda3kxuww62zfddua 296 29 sites site NNS work_kkta46aprvda3kxuww62zfddua 296 30 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 296 31 Fig fig NN work_kkta46aprvda3kxuww62zfddua 296 32 . . . work_kkta46aprvda3kxuww62zfddua 297 1 5 5 LS work_kkta46aprvda3kxuww62zfddua 297 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 297 3 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 297 4 86 86 CD work_kkta46aprvda3kxuww62zfddua 297 5 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 297 6 . . . work_kkta46aprvda3kxuww62zfddua 298 1 The the DT work_kkta46aprvda3kxuww62zfddua 298 2 c10 c10 NN work_kkta46aprvda3kxuww62zfddua 298 3 ring ring NN work_kkta46aprvda3kxuww62zfddua 298 4 and and CC work_kkta46aprvda3kxuww62zfddua 298 5 the the DT work_kkta46aprvda3kxuww62zfddua 298 6 c3 c3 NN work_kkta46aprvda3kxuww62zfddua 298 7 construct construct NN work_kkta46aprvda3kxuww62zfddua 298 8 consist consist NN work_kkta46aprvda3kxuww62zfddua 298 9 of of IN work_kkta46aprvda3kxuww62zfddua 298 10 c c NN work_kkta46aprvda3kxuww62zfddua 298 11 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 298 12 with with IN work_kkta46aprvda3kxuww62zfddua 298 13 four four CD work_kkta46aprvda3kxuww62zfddua 298 14 trans- trans- NN work_kkta46aprvda3kxuww62zfddua 298 15 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 298 16 helices helix NNS work_kkta46aprvda3kxuww62zfddua 298 17 each each DT work_kkta46aprvda3kxuww62zfddua 298 18 . . . work_kkta46aprvda3kxuww62zfddua 299 1 In in IN work_kkta46aprvda3kxuww62zfddua 299 2 the the DT work_kkta46aprvda3kxuww62zfddua 299 3 c10 c10 NN work_kkta46aprvda3kxuww62zfddua 299 4 ring ring NN work_kkta46aprvda3kxuww62zfddua 299 5 of of IN work_kkta46aprvda3kxuww62zfddua 299 6 P. P. NNP work_kkta46aprvda3kxuww62zfddua 299 7 furiosus furiosu VBG work_kkta46aprvda3kxuww62zfddua 299 8 the the DT work_kkta46aprvda3kxuww62zfddua 299 9 Na Na NNP work_kkta46aprvda3kxuww62zfddua 299 10 + + CC work_kkta46aprvda3kxuww62zfddua 299 11 binding bind VBG work_kkta46aprvda3kxuww62zfddua 299 12 site site NN work_kkta46aprvda3kxuww62zfddua 299 13 is be VBZ work_kkta46aprvda3kxuww62zfddua 299 14 within within IN work_kkta46aprvda3kxuww62zfddua 299 15 one one CD work_kkta46aprvda3kxuww62zfddua 299 16 c c NNP work_kkta46aprvda3kxuww62zfddua 299 17 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 299 18 flanked flank VBN work_kkta46aprvda3kxuww62zfddua 299 19 by by IN work_kkta46aprvda3kxuww62zfddua 299 20 transmembrane transmembrane NNP work_kkta46aprvda3kxuww62zfddua 299 21 helix helix NNP work_kkta46aprvda3kxuww62zfddua 299 22 2 2 CD work_kkta46aprvda3kxuww62zfddua 299 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 299 24 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 299 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 299 26 and and CC work_kkta46aprvda3kxuww62zfddua 299 27 helix helix NN work_kkta46aprvda3kxuww62zfddua 299 28 4 4 CD work_kkta46aprvda3kxuww62zfddua 299 29 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 299 30 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 299 31 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 299 32 . . . work_kkta46aprvda3kxuww62zfddua 300 1 The the DT work_kkta46aprvda3kxuww62zfddua 300 2 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 300 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 300 4 coordinated coordinate VBN work_kkta46aprvda3kxuww62zfddua 300 5 by by IN work_kkta46aprvda3kxuww62zfddua 300 6 E142 E142 NNP work_kkta46aprvda3kxuww62zfddua 300 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 300 8 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 300 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 300 10 , , , work_kkta46aprvda3kxuww62zfddua 300 11 Q113 Q113 NNP work_kkta46aprvda3kxuww62zfddua 300 12 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 300 13 TM3 TM3 NNP work_kkta46aprvda3kxuww62zfddua 300 14 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 300 15 , , , work_kkta46aprvda3kxuww62zfddua 300 16 T56 T56 NNP work_kkta46aprvda3kxuww62zfddua 300 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 300 18 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 300 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 300 20 , , , work_kkta46aprvda3kxuww62zfddua 300 21 and and CC work_kkta46aprvda3kxuww62zfddua 300 22 Q57 Q57 NNP work_kkta46aprvda3kxuww62zfddua 300 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 300 24 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 300 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 300 26 , , , work_kkta46aprvda3kxuww62zfddua 300 27 and and CC work_kkta46aprvda3kxuww62zfddua 300 28 by by IN work_kkta46aprvda3kxuww62zfddua 300 29 the the DT work_kkta46aprvda3kxuww62zfddua 300 30 backbone backbone NN work_kkta46aprvda3kxuww62zfddua 300 31 of of IN work_kkta46aprvda3kxuww62zfddua 300 32 L53 L53 NNP work_kkta46aprvda3kxuww62zfddua 300 33 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 300 34 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 300 35 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 300 36 . . . work_kkta46aprvda3kxuww62zfddua 301 1 Y60 Y60 NNP work_kkta46aprvda3kxuww62zfddua 301 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 301 3 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 301 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 301 5 is be VBZ work_kkta46aprvda3kxuww62zfddua 301 6 not not RB work_kkta46aprvda3kxuww62zfddua 301 7 directly directly RB work_kkta46aprvda3kxuww62zfddua 301 8 involved involve VBN work_kkta46aprvda3kxuww62zfddua 301 9 in in IN work_kkta46aprvda3kxuww62zfddua 301 10 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 301 11 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 301 12 , , , work_kkta46aprvda3kxuww62zfddua 301 13 but but CC work_kkta46aprvda3kxuww62zfddua 301 14 forms form VBZ work_kkta46aprvda3kxuww62zfddua 301 15 a a DT work_kkta46aprvda3kxuww62zfddua 301 16 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 301 17 - - HYPH work_kkta46aprvda3kxuww62zfddua 301 18 bond bond NN work_kkta46aprvda3kxuww62zfddua 301 19 with with IN work_kkta46aprvda3kxuww62zfddua 301 20 E142 E142 NNP work_kkta46aprvda3kxuww62zfddua 301 21 , , , work_kkta46aprvda3kxuww62zfddua 301 22 and and CC work_kkta46aprvda3kxuww62zfddua 301 23 therefore therefore RB work_kkta46aprvda3kxuww62zfddua 301 24 stabilizes stabilize VBZ work_kkta46aprvda3kxuww62zfddua 301 25 the the DT work_kkta46aprvda3kxuww62zfddua 301 26 geome- geome- XX work_kkta46aprvda3kxuww62zfddua 301 27 try try NN work_kkta46aprvda3kxuww62zfddua 301 28 of of IN work_kkta46aprvda3kxuww62zfddua 301 29 the the DT work_kkta46aprvda3kxuww62zfddua 301 30 ion ion NN work_kkta46aprvda3kxuww62zfddua 301 31 - - HYPH work_kkta46aprvda3kxuww62zfddua 301 32 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 301 33 shell shell NN work_kkta46aprvda3kxuww62zfddua 301 34 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 301 35 Fig fig NN work_kkta46aprvda3kxuww62zfddua 301 36 . . . work_kkta46aprvda3kxuww62zfddua 302 1 5A 5a RB work_kkta46aprvda3kxuww62zfddua 302 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 302 3 . . . work_kkta46aprvda3kxuww62zfddua 303 1 This this DT work_kkta46aprvda3kxuww62zfddua 303 2 kind kind NN work_kkta46aprvda3kxuww62zfddua 303 3 of of IN work_kkta46aprvda3kxuww62zfddua 303 4 network network NN work_kkta46aprvda3kxuww62zfddua 303 5 is be VBZ work_kkta46aprvda3kxuww62zfddua 303 6 iden- iden- NNP work_kkta46aprvda3kxuww62zfddua 303 7 tical tical JJ work_kkta46aprvda3kxuww62zfddua 303 8 to to IN work_kkta46aprvda3kxuww62zfddua 303 9 that that DT work_kkta46aprvda3kxuww62zfddua 303 10 revealed reveal VBN work_kkta46aprvda3kxuww62zfddua 303 11 by by IN work_kkta46aprvda3kxuww62zfddua 303 12 the the DT work_kkta46aprvda3kxuww62zfddua 303 13 crystal crystal NN work_kkta46aprvda3kxuww62zfddua 303 14 structure structure NN work_kkta46aprvda3kxuww62zfddua 303 15 of of IN work_kkta46aprvda3kxuww62zfddua 303 16 the the DT work_kkta46aprvda3kxuww62zfddua 303 17 c10 c10 NN work_kkta46aprvda3kxuww62zfddua 303 18 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 303 19 from from IN work_kkta46aprvda3kxuww62zfddua 303 20 E. E. NNP work_kkta46aprvda3kxuww62zfddua 303 21 hirae hirae NNP work_kkta46aprvda3kxuww62zfddua 303 22 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 303 23 96 96 CD work_kkta46aprvda3kxuww62zfddua 303 24 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 303 25 . . . work_kkta46aprvda3kxuww62zfddua 304 1 Between between IN work_kkta46aprvda3kxuww62zfddua 304 2 two two CD work_kkta46aprvda3kxuww62zfddua 304 3 c c NN work_kkta46aprvda3kxuww62zfddua 304 4 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 304 5 is be VBZ work_kkta46aprvda3kxuww62zfddua 304 6 no no DT work_kkta46aprvda3kxuww62zfddua 304 7 second second JJ work_kkta46aprvda3kxuww62zfddua 304 8 ion ion NN work_kkta46aprvda3kxuww62zfddua 304 9 binding bind VBG work_kkta46aprvda3kxuww62zfddua 304 10 site site NN work_kkta46aprvda3kxuww62zfddua 304 11 in in IN work_kkta46aprvda3kxuww62zfddua 304 12 the the DT work_kkta46aprvda3kxuww62zfddua 304 13 c c NNP work_kkta46aprvda3kxuww62zfddua 304 14 ring ring NN work_kkta46aprvda3kxuww62zfddua 304 15 of of IN work_kkta46aprvda3kxuww62zfddua 304 16 P. p. NN work_kkta46aprvda3kxuww62zfddua 304 17 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 304 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 304 19 Fig fig NN work_kkta46aprvda3kxuww62zfddua 304 20 . . . work_kkta46aprvda3kxuww62zfddua 305 1 5B 5b JJ work_kkta46aprvda3kxuww62zfddua 305 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 305 3 . . . work_kkta46aprvda3kxuww62zfddua 306 1 There there RB work_kkta46aprvda3kxuww62zfddua 306 2 the the DT work_kkta46aprvda3kxuww62zfddua 306 3 essential essential JJ work_kkta46aprvda3kxuww62zfddua 306 4 glutamate glutamate NN work_kkta46aprvda3kxuww62zfddua 306 5 of of IN work_kkta46aprvda3kxuww62zfddua 306 6 the the DT work_kkta46aprvda3kxuww62zfddua 306 7 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 306 8 binding binding NN work_kkta46aprvda3kxuww62zfddua 306 9 site site NN work_kkta46aprvda3kxuww62zfddua 306 10 was be VBD work_kkta46aprvda3kxuww62zfddua 306 11 replaced replace VBN work_kkta46aprvda3kxuww62zfddua 306 12 by by IN work_kkta46aprvda3kxuww62zfddua 306 13 a a DT work_kkta46aprvda3kxuww62zfddua 306 14 methionine methionine NN work_kkta46aprvda3kxuww62zfddua 306 15 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 306 16 M55 M55 NNP work_kkta46aprvda3kxuww62zfddua 306 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 306 18 during during IN work_kkta46aprvda3kxuww62zfddua 306 19 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 306 20 and and CC work_kkta46aprvda3kxuww62zfddua 306 21 there- there- NN work_kkta46aprvda3kxuww62zfddua 306 22 fore fore NN work_kkta46aprvda3kxuww62zfddua 306 23 nature nature NN work_kkta46aprvda3kxuww62zfddua 306 24 designed design VBD work_kkta46aprvda3kxuww62zfddua 306 25 an an DT work_kkta46aprvda3kxuww62zfddua 306 26 unusual unusual JJ work_kkta46aprvda3kxuww62zfddua 306 27 c c NN work_kkta46aprvda3kxuww62zfddua 306 28 ring ring NN work_kkta46aprvda3kxuww62zfddua 306 29 with with IN work_kkta46aprvda3kxuww62zfddua 306 30 only only RB work_kkta46aprvda3kxuww62zfddua 306 31 one one CD work_kkta46aprvda3kxuww62zfddua 306 32 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 306 33 binding bind VBG work_kkta46aprvda3kxuww62zfddua 306 34 site site NN work_kkta46aprvda3kxuww62zfddua 306 35 in in IN work_kkta46aprvda3kxuww62zfddua 306 36 one one CD work_kkta46aprvda3kxuww62zfddua 306 37 c c NNP work_kkta46aprvda3kxuww62zfddua 306 38 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 306 39 . . . work_kkta46aprvda3kxuww62zfddua 307 1 This this DT work_kkta46aprvda3kxuww62zfddua 307 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 307 3 different different JJ work_kkta46aprvda3kxuww62zfddua 307 4 in in IN work_kkta46aprvda3kxuww62zfddua 307 5 the the DT work_kkta46aprvda3kxuww62zfddua 307 6 c c NNP work_kkta46aprvda3kxuww62zfddua 307 7 ring ring NN work_kkta46aprvda3kxuww62zfddua 307 8 of of IN work_kkta46aprvda3kxuww62zfddua 307 9 M. M. NNP work_kkta46aprvda3kxuww62zfddua 307 10 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 307 11 . . . work_kkta46aprvda3kxuww62zfddua 308 1 As as IN work_kkta46aprvda3kxuww62zfddua 308 2 was be VBD work_kkta46aprvda3kxuww62zfddua 308 3 evident evident JJ work_kkta46aprvda3kxuww62zfddua 308 4 from from IN work_kkta46aprvda3kxuww62zfddua 308 5 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 308 6 comparisons comparison NNS work_kkta46aprvda3kxuww62zfddua 308 7 and and CC work_kkta46aprvda3kxuww62zfddua 308 8 confirmed confirm VBN work_kkta46aprvda3kxuww62zfddua 308 9 by by IN work_kkta46aprvda3kxuww62zfddua 308 10 modeling model VBG work_kkta46aprvda3kxuww62zfddua 308 11 studies study NNS work_kkta46aprvda3kxuww62zfddua 308 12 using use VBG work_kkta46aprvda3kxuww62zfddua 308 13 a a DT work_kkta46aprvda3kxuww62zfddua 308 14 c3 c3 NN work_kkta46aprvda3kxuww62zfddua 308 15 construct construct NN work_kkta46aprvda3kxuww62zfddua 308 16 , , , work_kkta46aprvda3kxuww62zfddua 308 17 M. M. NNP work_kkta46aprvda3kxuww62zfddua 308 18 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 308 19 has have VBZ work_kkta46aprvda3kxuww62zfddua 308 20 one one CD work_kkta46aprvda3kxuww62zfddua 308 21 Na Na NNS work_kkta46aprvda3kxuww62zfddua 308 22 + + CC work_kkta46aprvda3kxuww62zfddua 308 23 binding bind VBG work_kkta46aprvda3kxuww62zfddua 308 24 site site NN work_kkta46aprvda3kxuww62zfddua 308 25 within within IN work_kkta46aprvda3kxuww62zfddua 308 26 one one CD work_kkta46aprvda3kxuww62zfddua 308 27 c c NNP work_kkta46aprvda3kxuww62zfddua 308 28 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 308 29 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 308 30 Fig fig NN work_kkta46aprvda3kxuww62zfddua 308 31 . . . work_kkta46aprvda3kxuww62zfddua 309 1 5C 5C NNP work_kkta46aprvda3kxuww62zfddua 309 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 309 3 , , , work_kkta46aprvda3kxuww62zfddua 309 4 as as IN work_kkta46aprvda3kxuww62zfddua 309 5 in in IN work_kkta46aprvda3kxuww62zfddua 309 6 P. P. NNP work_kkta46aprvda3kxuww62zfddua 309 7 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 309 8 , , , work_kkta46aprvda3kxuww62zfddua 309 9 but but CC work_kkta46aprvda3kxuww62zfddua 309 10 also also RB work_kkta46aprvda3kxuww62zfddua 309 11 a a DT work_kkta46aprvda3kxuww62zfddua 309 12 second second JJ work_kkta46aprvda3kxuww62zfddua 309 13 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 309 14 binding binding NN work_kkta46aprvda3kxuww62zfddua 309 15 site site NN work_kkta46aprvda3kxuww62zfddua 309 16 between between IN work_kkta46aprvda3kxuww62zfddua 309 17 two two CD work_kkta46aprvda3kxuww62zfddua 309 18 c c NN work_kkta46aprvda3kxuww62zfddua 309 19 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 309 20 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 309 21 Fig fig NN work_kkta46aprvda3kxuww62zfddua 309 22 . . . work_kkta46aprvda3kxuww62zfddua 310 1 5D 5d LS work_kkta46aprvda3kxuww62zfddua 310 2 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 310 3 . . . work_kkta46aprvda3kxuww62zfddua 311 1 Both both DT work_kkta46aprvda3kxuww62zfddua 311 2 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 311 3 binding bind VBG work_kkta46aprvda3kxuww62zfddua 311 4 sites site NNS work_kkta46aprvda3kxuww62zfddua 311 5 are be VBP work_kkta46aprvda3kxuww62zfddua 311 6 completely completely RB work_kkta46aprvda3kxuww62zfddua 311 7 identical identical JJ work_kkta46aprvda3kxuww62zfddua 311 8 in in IN work_kkta46aprvda3kxuww62zfddua 311 9 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 311 10 amino amino JJ work_kkta46aprvda3kxuww62zfddua 311 11 acid acid NN work_kkta46aprvda3kxuww62zfddua 311 12 composition composition NN work_kkta46aprvda3kxuww62zfddua 311 13 . . . work_kkta46aprvda3kxuww62zfddua 312 1 Within within IN work_kkta46aprvda3kxuww62zfddua 312 2 one one CD work_kkta46aprvda3kxuww62zfddua 312 3 c c NN work_kkta46aprvda3kxuww62zfddua 312 4 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 312 5 the the DT work_kkta46aprvda3kxuww62zfddua 312 6 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 312 7 is be VBZ work_kkta46aprvda3kxuww62zfddua 312 8 coordinated coordinate VBN work_kkta46aprvda3kxuww62zfddua 312 9 by by IN work_kkta46aprvda3kxuww62zfddua 312 10 the the DT work_kkta46aprvda3kxuww62zfddua 312 11 side side NN work_kkta46aprvda3kxuww62zfddua 312 12 chains chain NNS work_kkta46aprvda3kxuww62zfddua 312 13 of of IN work_kkta46aprvda3kxuww62zfddua 312 14 the the DT work_kkta46aprvda3kxuww62zfddua 312 15 amino amino NN work_kkta46aprvda3kxuww62zfddua 312 16 acids acid NNS work_kkta46aprvda3kxuww62zfddua 312 17 E140 E140 NNP work_kkta46aprvda3kxuww62zfddua 312 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 312 19 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 312 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 312 21 , , , work_kkta46aprvda3kxuww62zfddua 312 22 Q111 Q111 NNP work_kkta46aprvda3kxuww62zfddua 312 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 312 24 TM3 TM3 NNP work_kkta46aprvda3kxuww62zfddua 312 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 312 26 , , , work_kkta46aprvda3kxuww62zfddua 312 27 Q61 Q61 NNP work_kkta46aprvda3kxuww62zfddua 312 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 312 29 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 312 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 312 31 T60 t60 UH work_kkta46aprvda3kxuww62zfddua 312 32 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 312 33 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 312 34 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 312 35 and and CC work_kkta46aprvda3kxuww62zfddua 312 36 L57 L57 NNP work_kkta46aprvda3kxuww62zfddua 312 37 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 312 38 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 312 39 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 312 40 . . . work_kkta46aprvda3kxuww62zfddua 313 1 Again again RB work_kkta46aprvda3kxuww62zfddua 313 2 Y64 Y64 NNP work_kkta46aprvda3kxuww62zfddua 313 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 313 4 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 313 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 313 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 313 7 for for IN work_kkta46aprvda3kxuww62zfddua 313 8 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 313 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 313 10 bonding bonding NN work_kkta46aprvda3kxuww62zfddua 313 11 with with IN work_kkta46aprvda3kxuww62zfddua 313 12 the the DT work_kkta46aprvda3kxuww62zfddua 313 13 side side NN work_kkta46aprvda3kxuww62zfddua 313 14 chain chain NN work_kkta46aprvda3kxuww62zfddua 313 15 of of IN work_kkta46aprvda3kxuww62zfddua 313 16 E140 E140 NNP work_kkta46aprvda3kxuww62zfddua 313 17 . . . work_kkta46aprvda3kxuww62zfddua 314 1 The the DT work_kkta46aprvda3kxuww62zfddua 314 2 second second JJ work_kkta46aprvda3kxuww62zfddua 314 3 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 314 4 binding binding NN work_kkta46aprvda3kxuww62zfddua 314 5 site site NN work_kkta46aprvda3kxuww62zfddua 314 6 in in IN work_kkta46aprvda3kxuww62zfddua 314 7 the the DT work_kkta46aprvda3kxuww62zfddua 314 8 c c NNP work_kkta46aprvda3kxuww62zfddua 314 9 ring ring NN work_kkta46aprvda3kxuww62zfddua 314 10 of of IN work_kkta46aprvda3kxuww62zfddua 314 11 M. M. NNP work_kkta46aprvda3kxuww62zfddua 314 12 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 314 13 is be VBZ work_kkta46aprvda3kxuww62zfddua 314 14 between between IN work_kkta46aprvda3kxuww62zfddua 314 15 two two CD work_kkta46aprvda3kxuww62zfddua 314 16 c c NN work_kkta46aprvda3kxuww62zfddua 314 17 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 314 18 . . . work_kkta46aprvda3kxuww62zfddua 315 1 Again again RB work_kkta46aprvda3kxuww62zfddua 315 2 E59 E59 NNP work_kkta46aprvda3kxuww62zfddua 315 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 315 4 TM2′ TM2′ NNP work_kkta46aprvda3kxuww62zfddua 315 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 315 6 , , , work_kkta46aprvda3kxuww62zfddua 315 7 Q30 Q30 NNP work_kkta46aprvda3kxuww62zfddua 315 8 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 315 9 TM1′ TM1′ NNP work_kkta46aprvda3kxuww62zfddua 315 10 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 315 11 , , , work_kkta46aprvda3kxuww62zfddua 315 12 Q142 Q142 NNP work_kkta46aprvda3kxuww62zfddua 315 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 315 14 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 315 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 315 16 , , , work_kkta46aprvda3kxuww62zfddua 315 17 T141 T141 NNP work_kkta46aprvda3kxuww62zfddua 315 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 315 19 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 315 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 315 21 and and CC work_kkta46aprvda3kxuww62zfddua 315 22 L138 L138 NNP work_kkta46aprvda3kxuww62zfddua 315 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 315 24 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 315 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 315 26 are be VBP work_kkta46aprvda3kxuww62zfddua 315 27 directly directly RB work_kkta46aprvda3kxuww62zfddua 315 28 involved involve VBN work_kkta46aprvda3kxuww62zfddua 315 29 in in IN work_kkta46aprvda3kxuww62zfddua 315 30 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 315 31 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 315 32 . . . work_kkta46aprvda3kxuww62zfddua 316 1 Y145 Y145 NNP work_kkta46aprvda3kxuww62zfddua 316 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 316 3 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 316 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 316 5 stabilizes stabilize VBZ work_kkta46aprvda3kxuww62zfddua 316 6 the the DT work_kkta46aprvda3kxuww62zfddua 316 7 geometry geometry NN work_kkta46aprvda3kxuww62zfddua 316 8 of of IN work_kkta46aprvda3kxuww62zfddua 316 9 the the DT work_kkta46aprvda3kxuww62zfddua 316 10 ion ion NN work_kkta46aprvda3kxuww62zfddua 316 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 316 12 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 316 13 shell shell NN work_kkta46aprvda3kxuww62zfddua 316 14 by by IN work_kkta46aprvda3kxuww62zfddua 316 15 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 316 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 316 17 bonding bonding NN work_kkta46aprvda3kxuww62zfddua 316 18 with with IN work_kkta46aprvda3kxuww62zfddua 316 19 E59 E59 NNP work_kkta46aprvda3kxuww62zfddua 316 20 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 316 21 86 86 CD work_kkta46aprvda3kxuww62zfddua 316 22 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 316 23 . . . work_kkta46aprvda3kxuww62zfddua 317 1 Therefore therefore RB work_kkta46aprvda3kxuww62zfddua 317 2 nature nature NN work_kkta46aprvda3kxuww62zfddua 317 3 designed design VBN work_kkta46aprvda3kxuww62zfddua 317 4 in in IN work_kkta46aprvda3kxuww62zfddua 317 5 the the DT work_kkta46aprvda3kxuww62zfddua 317 6 case case NN work_kkta46aprvda3kxuww62zfddua 317 7 of of IN work_kkta46aprvda3kxuww62zfddua 317 8 M. M. NNP work_kkta46aprvda3kxuww62zfddua 317 9 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 317 10 a a DT work_kkta46aprvda3kxuww62zfddua 317 11 c c NN work_kkta46aprvda3kxuww62zfddua 317 12 ring ring NN work_kkta46aprvda3kxuww62zfddua 317 13 , , , work_kkta46aprvda3kxuww62zfddua 317 14 which which WDT work_kkta46aprvda3kxuww62zfddua 317 15 has have VBZ work_kkta46aprvda3kxuww62zfddua 317 16 one one CD work_kkta46aprvda3kxuww62zfddua 317 17 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 317 18 binding bind VBG work_kkta46aprvda3kxuww62zfddua 317 19 site site NN work_kkta46aprvda3kxuww62zfddua 317 20 within within IN work_kkta46aprvda3kxuww62zfddua 317 21 and and CC work_kkta46aprvda3kxuww62zfddua 317 22 another another DT work_kkta46aprvda3kxuww62zfddua 317 23 between between IN work_kkta46aprvda3kxuww62zfddua 317 24 each each DT work_kkta46aprvda3kxuww62zfddua 317 25 c c NNP work_kkta46aprvda3kxuww62zfddua 317 26 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 317 27 . . . work_kkta46aprvda3kxuww62zfddua 318 1 6 6 CD work_kkta46aprvda3kxuww62zfddua 318 2 . . . work_kkta46aprvda3kxuww62zfddua 319 1 Adaptations adaptation NNS work_kkta46aprvda3kxuww62zfddua 319 2 of of IN work_kkta46aprvda3kxuww62zfddua 319 3 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 319 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 319 5 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 319 6 to to IN work_kkta46aprvda3kxuww62zfddua 319 7 the the DT work_kkta46aprvda3kxuww62zfddua 319 8 inhospitable inhospitable JJ work_kkta46aprvda3kxuww62zfddua 319 9 environments environment NNS work_kkta46aprvda3kxuww62zfddua 319 10 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 319 11 hosts host NNS work_kkta46aprvda3kxuww62zfddua 319 12 thrive thrive VBP work_kkta46aprvda3kxuww62zfddua 319 13 in in IN work_kkta46aprvda3kxuww62zfddua 319 14 Sodium Sodium NNP work_kkta46aprvda3kxuww62zfddua 319 15 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 319 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 319 17 advantageous advantageous JJ work_kkta46aprvda3kxuww62zfddua 319 18 for for IN work_kkta46aprvda3kxuww62zfddua 319 19 organisms organism NNS work_kkta46aprvda3kxuww62zfddua 319 20 that that WDT work_kkta46aprvda3kxuww62zfddua 319 21 live live VBP work_kkta46aprvda3kxuww62zfddua 319 22 on on IN work_kkta46aprvda3kxuww62zfddua 319 23 the the DT work_kkta46aprvda3kxuww62zfddua 319 24 thermodynamic thermodynamic JJ work_kkta46aprvda3kxuww62zfddua 319 25 edge edge NN work_kkta46aprvda3kxuww62zfddua 319 26 of of IN work_kkta46aprvda3kxuww62zfddua 319 27 life life NN work_kkta46aprvda3kxuww62zfddua 319 28 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 319 29 20 20 CD work_kkta46aprvda3kxuww62zfddua 319 30 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 319 31 like like IN work_kkta46aprvda3kxuww62zfddua 319 32 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 319 33 or or CC work_kkta46aprvda3kxuww62zfddua 319 34 T. t. NN work_kkta46aprvda3kxuww62zfddua 319 35 onnurineus onnurineus JJ work_kkta46aprvda3kxuww62zfddua 319 36 thriving thriving NN work_kkta46aprvda3kxuww62zfddua 319 37 on on IN work_kkta46aprvda3kxuww62zfddua 319 38 formate formate NN work_kkta46aprvda3kxuww62zfddua 319 39 . . . work_kkta46aprvda3kxuww62zfddua 320 1 Any any DT work_kkta46aprvda3kxuww62zfddua 320 2 reduction reduction NN work_kkta46aprvda3kxuww62zfddua 320 3 in in IN work_kkta46aprvda3kxuww62zfddua 320 4 the the DT work_kkta46aprvda3kxuww62zfddua 320 5 magnitude magnitude NN work_kkta46aprvda3kxuww62zfddua 320 6 of of IN work_kkta46aprvda3kxuww62zfddua 320 7 the the DT work_kkta46aprvda3kxuww62zfddua 320 8 electro- electro- NN work_kkta46aprvda3kxuww62zfddua 320 9 chemical chemical NN work_kkta46aprvda3kxuww62zfddua 320 10 ion ion NN work_kkta46aprvda3kxuww62zfddua 320 11 potential potential NN work_kkta46aprvda3kxuww62zfddua 320 12 across across IN work_kkta46aprvda3kxuww62zfddua 320 13 the the DT work_kkta46aprvda3kxuww62zfddua 320 14 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 320 15 by by IN work_kkta46aprvda3kxuww62zfddua 320 16 leakage leakage NN work_kkta46aprvda3kxuww62zfddua 320 17 of of IN work_kkta46aprvda3kxuww62zfddua 320 18 ions ion NNS work_kkta46aprvda3kxuww62zfddua 320 19 back back RB work_kkta46aprvda3kxuww62zfddua 320 20 into into IN work_kkta46aprvda3kxuww62zfddua 320 21 the the DT work_kkta46aprvda3kxuww62zfddua 320 22 cell cell NN work_kkta46aprvda3kxuww62zfddua 320 23 would would MD work_kkta46aprvda3kxuww62zfddua 320 24 be be VB work_kkta46aprvda3kxuww62zfddua 320 25 detrimental detrimental JJ work_kkta46aprvda3kxuww62zfddua 320 26 . . . work_kkta46aprvda3kxuww62zfddua 321 1 Biological biological JJ work_kkta46aprvda3kxuww62zfddua 321 2 membranes membrane NNS work_kkta46aprvda3kxuww62zfddua 321 3 are be VBP work_kkta46aprvda3kxuww62zfddua 321 4 leakier leaky JJR work_kkta46aprvda3kxuww62zfddua 321 5 for for IN work_kkta46aprvda3kxuww62zfddua 321 6 protons proton NNS work_kkta46aprvda3kxuww62zfddua 321 7 than than IN work_kkta46aprvda3kxuww62zfddua 321 8 for for IN work_kkta46aprvda3kxuww62zfddua 321 9 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 321 10 ions ion NNS work_kkta46aprvda3kxuww62zfddua 321 11 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 321 12 102 102 CD work_kkta46aprvda3kxuww62zfddua 321 13 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 321 14 . . . work_kkta46aprvda3kxuww62zfddua 322 1 Thus thus RB work_kkta46aprvda3kxuww62zfddua 322 2 , , , work_kkta46aprvda3kxuww62zfddua 322 3 a a DT work_kkta46aprvda3kxuww62zfddua 322 4 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 322 5 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 322 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 322 7 Database Database NNP work_kkta46aprvda3kxuww62zfddua 322 8 ID ID NNP work_kkta46aprvda3kxuww62zfddua 322 9 : : : work_kkta46aprvda3kxuww62zfddua 322 10 EMD EMD NNP work_kkta46aprvda3kxuww62zfddua 322 11 5335 5335 CD work_kkta46aprvda3kxuww62zfddua 322 12 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 322 13 48 48 CD work_kkta46aprvda3kxuww62zfddua 322 14 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 322 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 322 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 322 17 shown show VBN work_kkta46aprvda3kxuww62zfddua 322 18 as as IN work_kkta46aprvda3kxuww62zfddua 322 19 gray gray JJ work_kkta46aprvda3kxuww62zfddua 322 20 surface surface NN work_kkta46aprvda3kxuww62zfddua 322 21 . . . work_kkta46aprvda3kxuww62zfddua 323 1 The the DT work_kkta46aprvda3kxuww62zfddua 323 2 density density NN work_kkta46aprvda3kxuww62zfddua 323 3 corresponding correspond VBG work_kkta46aprvda3kxuww62zfddua 323 4 to to IN work_kkta46aprvda3kxuww62zfddua 323 5 the the DT work_kkta46aprvda3kxuww62zfddua 323 6 c c NNP work_kkta46aprvda3kxuww62zfddua 323 7 egments egment NNS work_kkta46aprvda3kxuww62zfddua 323 8 near near IN work_kkta46aprvda3kxuww62zfddua 323 9 the the DT work_kkta46aprvda3kxuww62zfddua 323 10 middle middle NN work_kkta46aprvda3kxuww62zfddua 323 11 of of IN work_kkta46aprvda3kxuww62zfddua 323 12 the the DT work_kkta46aprvda3kxuww62zfddua 323 13 c c NN work_kkta46aprvda3kxuww62zfddua 323 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 323 15 ring ring NN work_kkta46aprvda3kxuww62zfddua 323 16 show show VBP work_kkta46aprvda3kxuww62zfddua 323 17 the the DT work_kkta46aprvda3kxuww62zfddua 323 18 contacts contact NNS work_kkta46aprvda3kxuww62zfddua 323 19 of of IN work_kkta46aprvda3kxuww62zfddua 323 20 c c NN work_kkta46aprvda3kxuww62zfddua 323 21 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 323 22 with with IN work_kkta46aprvda3kxuww62zfddua 323 23 helices helix NNS work_kkta46aprvda3kxuww62zfddua 323 24 of of IN work_kkta46aprvda3kxuww62zfddua 323 25 the the DT work_kkta46aprvda3kxuww62zfddua 323 26 a a DT work_kkta46aprvda3kxuww62zfddua 323 27 thase thase NN work_kkta46aprvda3kxuww62zfddua 323 28 from from IN work_kkta46aprvda3kxuww62zfddua 323 29 Ilyobacter Ilyobacter NNP work_kkta46aprvda3kxuww62zfddua 323 30 tartaricus tartaricus NN work_kkta46aprvda3kxuww62zfddua 323 31 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 323 32 PDB PDB NNP work_kkta46aprvda3kxuww62zfddua 323 33 ID ID NNP work_kkta46aprvda3kxuww62zfddua 323 34 : : : work_kkta46aprvda3kxuww62zfddua 323 35 1YCE 1YCE NNP work_kkta46aprvda3kxuww62zfddua 323 36 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 323 37 98 98 CD work_kkta46aprvda3kxuww62zfddua 323 38 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 323 39 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 323 40 showing show VBG work_kkta46aprvda3kxuww62zfddua 323 41 a a DT work_kkta46aprvda3kxuww62zfddua 323 42 narrower narrow JJR work_kkta46aprvda3kxuww62zfddua 323 43 cylindrical cylindrical JJ work_kkta46aprvda3kxuww62zfddua 323 44 , , , work_kkta46aprvda3kxuww62zfddua 323 45 hour- hour- JJ work_kkta46aprvda3kxuww62zfddua 323 46 y y NNP work_kkta46aprvda3kxuww62zfddua 323 47 E65 E65 NNP work_kkta46aprvda3kxuww62zfddua 323 48 , , , work_kkta46aprvda3kxuww62zfddua 323 49 Q32 Q32 NNP work_kkta46aprvda3kxuww62zfddua 323 50 , , , work_kkta46aprvda3kxuww62zfddua 323 51 V63 V63 NNP work_kkta46aprvda3kxuww62zfddua 323 52 and and CC work_kkta46aprvda3kxuww62zfddua 323 53 S66 S66 NNP work_kkta46aprvda3kxuww62zfddua 323 54 and and CC work_kkta46aprvda3kxuww62zfddua 323 55 Y70 Y70 NNP work_kkta46aprvda3kxuww62zfddua 323 56 is be VBZ work_kkta46aprvda3kxuww62zfddua 323 57 making make VBG work_kkta46aprvda3kxuww62zfddua 323 58 a a DT work_kkta46aprvda3kxuww62zfddua 323 59 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 323 60 bond bond NN work_kkta46aprvda3kxuww62zfddua 323 61 with with IN work_kkta46aprvda3kxuww62zfddua 323 62 E65 E65 NNP work_kkta46aprvda3kxuww62zfddua 323 63 to to TO work_kkta46aprvda3kxuww62zfddua 323 64 stabilize stabilize VB work_kkta46aprvda3kxuww62zfddua 323 65 the the DT work_kkta46aprvda3kxuww62zfddua 323 66 ge- ge- NN work_kkta46aprvda3kxuww62zfddua 323 67 a a DT work_kkta46aprvda3kxuww62zfddua 323 68 wider wide JJR work_kkta46aprvda3kxuww62zfddua 323 69 diameter diameter NN work_kkta46aprvda3kxuww62zfddua 323 70 at at IN work_kkta46aprvda3kxuww62zfddua 323 71 the the DT work_kkta46aprvda3kxuww62zfddua 323 72 upper upper JJ work_kkta46aprvda3kxuww62zfddua 323 73 part part NN work_kkta46aprvda3kxuww62zfddua 323 74 of of IN work_kkta46aprvda3kxuww62zfddua 323 75 the the DT work_kkta46aprvda3kxuww62zfddua 323 76 cylinder cylinder NN work_kkta46aprvda3kxuww62zfddua 323 77 , , , work_kkta46aprvda3kxuww62zfddua 323 78 which which WDT work_kkta46aprvda3kxuww62zfddua 323 79 could could MD work_kkta46aprvda3kxuww62zfddua 323 80 accommodate accommodate VB work_kkta46aprvda3kxuww62zfddua 323 81 the the DT work_kkta46aprvda3kxuww62zfddua 323 82 funnel funnel NN work_kkta46aprvda3kxuww62zfddua 323 83 ring ring NN work_kkta46aprvda3kxuww62zfddua 323 84 showing show VBG work_kkta46aprvda3kxuww62zfddua 323 85 the the DT work_kkta46aprvda3kxuww62zfddua 323 86 Na+ Na+ NNP work_kkta46aprvda3kxuww62zfddua 323 87 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 323 88 shell shell NN work_kkta46aprvda3kxuww62zfddua 323 89 formed form VBN work_kkta46aprvda3kxuww62zfddua 323 90 by by IN work_kkta46aprvda3kxuww62zfddua 323 91 amino amino JJ work_kkta46aprvda3kxuww62zfddua 323 92 acids acid NNS work_kkta46aprvda3kxuww62zfddua 323 93 E139 E139 NNP work_kkta46aprvda3kxuww62zfddua 323 94 , , , work_kkta46aprvda3kxuww62zfddua 323 95 Q110 Q110 NNP work_kkta46aprvda3kxuww62zfddua 323 96 , , , work_kkta46aprvda3kxuww62zfddua 323 97 L61 L61 NNP work_kkta46aprvda3kxuww62zfddua 323 98 , , , work_kkta46aprvda3kxuww62zfddua 323 99 T64 T64 NNP work_kkta46aprvda3kxuww62zfddua 323 100 and and CC work_kkta46aprvda3kxuww62zfddua 323 101 948 948 CD work_kkta46aprvda3kxuww62zfddua 323 102 G. G. NNP work_kkta46aprvda3kxuww62zfddua 323 103 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 323 104 et et FW work_kkta46aprvda3kxuww62zfddua 323 105 al al NNP work_kkta46aprvda3kxuww62zfddua 323 106 . . . work_kkta46aprvda3kxuww62zfddua 324 1 / / NFP work_kkta46aprvda3kxuww62zfddua 324 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 324 3 et et NN work_kkta46aprvda3kxuww62zfddua 324 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 324 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 324 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 324 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 324 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 324 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 324 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 324 11 seen see VBN work_kkta46aprvda3kxuww62zfddua 324 12 as as IN work_kkta46aprvda3kxuww62zfddua 324 13 the the DT work_kkta46aprvda3kxuww62zfddua 324 14 primary primary JJ work_kkta46aprvda3kxuww62zfddua 324 15 event event NN work_kkta46aprvda3kxuww62zfddua 324 16 in in IN work_kkta46aprvda3kxuww62zfddua 324 17 the the DT work_kkta46aprvda3kxuww62zfddua 324 18 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 324 19 of of IN work_kkta46aprvda3kxuww62zfddua 324 20 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 324 21 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 324 22 20,103,104 20,103,104 CD work_kkta46aprvda3kxuww62zfddua 324 23 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 324 24 . . . work_kkta46aprvda3kxuww62zfddua 325 1 Indeed indeed RB work_kkta46aprvda3kxuww62zfddua 325 2 , , , work_kkta46aprvda3kxuww62zfddua 325 3 an an DT work_kkta46aprvda3kxuww62zfddua 325 4 acetogen acetogen NN work_kkta46aprvda3kxuww62zfddua 325 5 with with IN work_kkta46aprvda3kxuww62zfddua 325 6 an an DT work_kkta46aprvda3kxuww62zfddua 325 7 ancient ancient JJ work_kkta46aprvda3kxuww62zfddua 325 8 pathway pathway NN work_kkta46aprvda3kxuww62zfddua 325 9 in in IN work_kkta46aprvda3kxuww62zfddua 325 10 which which WDT work_kkta46aprvda3kxuww62zfddua 325 11 carbon carbon NN work_kkta46aprvda3kxuww62zfddua 325 12 dioxide dioxide NN work_kkta46aprvda3kxuww62zfddua 325 13 fixation fixation NN work_kkta46aprvda3kxuww62zfddua 325 14 is be VBZ work_kkta46aprvda3kxuww62zfddua 325 15 coupled couple VBN work_kkta46aprvda3kxuww62zfddua 325 16 to to IN work_kkta46aprvda3kxuww62zfddua 325 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 325 18 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 325 19 by by IN work_kkta46aprvda3kxuww62zfddua 325 20 a a DT work_kkta46aprvda3kxuww62zfddua 325 21 chemiosmotic chemiosmotic JJ work_kkta46aprvda3kxuww62zfddua 325 22 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 325 23 re- re- JJ work_kkta46aprvda3kxuww62zfddua 325 24 Table table NN work_kkta46aprvda3kxuww62zfddua 325 25 1 1 CD work_kkta46aprvda3kxuww62zfddua 325 26 Ion Ion NNP work_kkta46aprvda3kxuww62zfddua 325 27 binding bind VBG work_kkta46aprvda3kxuww62zfddua 325 28 motifs motif NNS work_kkta46aprvda3kxuww62zfddua 325 29 of of IN work_kkta46aprvda3kxuww62zfddua 325 30 different different JJ work_kkta46aprvda3kxuww62zfddua 325 31 archaeal archaeal NN work_kkta46aprvda3kxuww62zfddua 325 32 and and CC work_kkta46aprvda3kxuww62zfddua 325 33 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 325 34 c c NN work_kkta46aprvda3kxuww62zfddua 325 35 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 325 36 . . . work_kkta46aprvda3kxuww62zfddua 326 1 Organism Organism NNP work_kkta46aprvda3kxuww62zfddua 326 2 Bacteria Bacteria NNP work_kkta46aprvda3kxuww62zfddua 326 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 326 4 c c NN work_kkta46aprvda3kxuww62zfddua 326 5 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 326 6 with with IN work_kkta46aprvda3kxuww62zfddua 326 7 one one CD work_kkta46aprvda3kxuww62zfddua 326 8 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 326 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 326 10 d d NNP work_kkta46aprvda3kxuww62zfddua 326 11 Acetobacterium Acetobacterium NNP work_kkta46aprvda3kxuww62zfddua 326 12 woodii woodii VB work_kkta46aprvda3kxuww62zfddua 326 13 c c NN work_kkta46aprvda3kxuww62zfddua 326 14 2 2 CD work_kkta46aprvda3kxuww62zfddua 326 15 /c /c NN work_kkta46aprvda3kxuww62zfddua 326 16 3 3 CD work_kkta46aprvda3kxuww62zfddua 326 17 Ilyobacter Ilyobacter NNP work_kkta46aprvda3kxuww62zfddua 326 18 tartaricus tartaricus NN work_kkta46aprvda3kxuww62zfddua 326 19 Propionigenium Propionigenium NNP work_kkta46aprvda3kxuww62zfddua 326 20 modestum modestum NN work_kkta46aprvda3kxuww62zfddua 326 21 Bacillus bacillus NN work_kkta46aprvda3kxuww62zfddua 326 22 subtilis subtili VBZ work_kkta46aprvda3kxuww62zfddua 326 23 Escherichia Escherichia NNP work_kkta46aprvda3kxuww62zfddua 326 24 coli coli NNS work_kkta46aprvda3kxuww62zfddua 326 25 Bacteria Bacteria NNS work_kkta46aprvda3kxuww62zfddua 326 26 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 326 27 c c NN work_kkta46aprvda3kxuww62zfddua 326 28 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 326 29 with with IN work_kkta46aprvda3kxuww62zfddua 326 30 two two CD work_kkta46aprvda3kxuww62zfddua 326 31 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 326 32 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 326 33 Enterococcus Enterococcus NNP work_kkta46aprvda3kxuww62zfddua 326 34 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 326 35 e e VBZ work_kkta46aprvda3kxuww62zfddua 326 36 a a DT work_kkta46aprvda3kxuww62zfddua 326 37 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 326 38 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 326 39 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 326 40 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 326 41 c c NN work_kkta46aprvda3kxuww62zfddua 326 42 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 326 43 with with IN work_kkta46aprvda3kxuww62zfddua 326 44 one one CD work_kkta46aprvda3kxuww62zfddua 326 45 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 326 46 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 326 47 f f NNP work_kkta46aprvda3kxuww62zfddua 326 48 Archaeoglobus Archaeoglobus NNP work_kkta46aprvda3kxuww62zfddua 326 49 fulgidus fulgidus NN work_kkta46aprvda3kxuww62zfddua 326 50 Ferroglobus Ferroglobus NNP work_kkta46aprvda3kxuww62zfddua 326 51 placidus placidus NN work_kkta46aprvda3kxuww62zfddua 326 52 Haladaptatus Haladaptatus NNP work_kkta46aprvda3kxuww62zfddua 326 53 paucihalophilus paucihalophilus JJ work_kkta46aprvda3kxuww62zfddua 326 54 Halalkalicoccus Halalkalicoccus NNP work_kkta46aprvda3kxuww62zfddua 326 55 jeotgali jeotgali NNP work_kkta46aprvda3kxuww62zfddua 326 56 Haloarcula Haloarcula NNP work_kkta46aprvda3kxuww62zfddua 326 57 hispanica hispanica NNP work_kkta46aprvda3kxuww62zfddua 326 58 Halobacterium Halobacterium NNP work_kkta46aprvda3kxuww62zfddua 326 59 salinarum salinarum NN work_kkta46aprvda3kxuww62zfddua 326 60 Haloferax Haloferax NNP work_kkta46aprvda3kxuww62zfddua 326 61 volcanii volcanii JJ work_kkta46aprvda3kxuww62zfddua 326 62 Halogeometricum Halogeometricum NNP work_kkta46aprvda3kxuww62zfddua 326 63 borinquense borinquense NN work_kkta46aprvda3kxuww62zfddua 326 64 Halopiger Halopiger NNP work_kkta46aprvda3kxuww62zfddua 326 65 xanaduensis xanaduensis NN work_kkta46aprvda3kxuww62zfddua 326 66 Haloquadratum Haloquadratum NNP work_kkta46aprvda3kxuww62zfddua 326 67 walsbyi walsbyi NNP work_kkta46aprvda3kxuww62zfddua 326 68 Halorhabdus Halorhabdus NNP work_kkta46aprvda3kxuww62zfddua 326 69 utahensis utahensis NN work_kkta46aprvda3kxuww62zfddua 326 70 Halorubrum Halorubrum NNP work_kkta46aprvda3kxuww62zfddua 326 71 lacusprofundi lacusprofundi NN work_kkta46aprvda3kxuww62zfddua 326 72 Haloterrigena Haloterrigena NNP work_kkta46aprvda3kxuww62zfddua 326 73 turkmenica turkmenica NNP work_kkta46aprvda3kxuww62zfddua 326 74 Methanocella Methanocella NNP work_kkta46aprvda3kxuww62zfddua 326 75 paludicola paludicola NNP work_kkta46aprvda3kxuww62zfddua 326 76 Methanococcoides Methanococcoides NNP work_kkta46aprvda3kxuww62zfddua 326 77 burtonii burtonii NN work_kkta46aprvda3kxuww62zfddua 326 78 Methanocorpusculum Methanocorpusculum NNP work_kkta46aprvda3kxuww62zfddua 326 79 labreanum labreanum NN work_kkta46aprvda3kxuww62zfddua 326 80 Methanoculleus Methanoculleus NNP work_kkta46aprvda3kxuww62zfddua 326 81 marisnigri marisnigri VBP work_kkta46aprvda3kxuww62zfddua 326 82 Methanohalobium Methanohalobium NNP work_kkta46aprvda3kxuww62zfddua 326 83 evestigatum evestigatum NN work_kkta46aprvda3kxuww62zfddua 326 84 Methanohalophilus Methanohalophilus NNP work_kkta46aprvda3kxuww62zfddua 326 85 mahii mahii NN work_kkta46aprvda3kxuww62zfddua 326 86 Methanomethylovorans Methanomethylovorans NNP work_kkta46aprvda3kxuww62zfddua 326 87 hollandica hollandica NNP work_kkta46aprvda3kxuww62zfddua 326 88 Methanoplanus Methanoplanus NNP work_kkta46aprvda3kxuww62zfddua 326 89 petrolearius petrolearius NN work_kkta46aprvda3kxuww62zfddua 326 90 Methanoregula Methanoregula NNP work_kkta46aprvda3kxuww62zfddua 326 91 boonei boonei CC work_kkta46aprvda3kxuww62zfddua 326 92 Methanosaeta Methanosaeta NNP work_kkta46aprvda3kxuww62zfddua 326 93 concilii concilii NN work_kkta46aprvda3kxuww62zfddua 326 94 Methanosalsum Methanosalsum NNP work_kkta46aprvda3kxuww62zfddua 326 95 zhilinae zhilinae NNP work_kkta46aprvda3kxuww62zfddua 326 96 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 326 97 acetivorans acetivorans NNPS work_kkta46aprvda3kxuww62zfddua 326 98 Methanosphaerula Methanosphaerula NNP work_kkta46aprvda3kxuww62zfddua 326 99 palustris palustris NN work_kkta46aprvda3kxuww62zfddua 326 100 Methanothermus Methanothermus NNP work_kkta46aprvda3kxuww62zfddua 326 101 fervidus fervidus NN work_kkta46aprvda3kxuww62zfddua 326 102 Natrialba Natrialba NNP work_kkta46aprvda3kxuww62zfddua 326 103 magadii magadii JJ work_kkta46aprvda3kxuww62zfddua 326 104 Natronococcus Natronococcus NNP work_kkta46aprvda3kxuww62zfddua 326 105 occultus occultus NN work_kkta46aprvda3kxuww62zfddua 326 106 Natronomonas Natronomonas NNP work_kkta46aprvda3kxuww62zfddua 326 107 pharaonis pharaonis NN work_kkta46aprvda3kxuww62zfddua 326 108 Natronorubrum Natronorubrum NNP work_kkta46aprvda3kxuww62zfddua 326 109 tibetense tibetense NN work_kkta46aprvda3kxuww62zfddua 326 110 Picrophilus Picrophilus NNP work_kkta46aprvda3kxuww62zfddua 326 111 torridus torridus VB work_kkta46aprvda3kxuww62zfddua 326 112 Thermoplasma Thermoplasma NNP work_kkta46aprvda3kxuww62zfddua 326 113 acidophilum acidophilum NN work_kkta46aprvda3kxuww62zfddua 326 114 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 326 115 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 326 116 c c NN work_kkta46aprvda3kxuww62zfddua 326 117 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 326 118 with with IN work_kkta46aprvda3kxuww62zfddua 326 119 two two CD work_kkta46aprvda3kxuww62zfddua 326 120 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 326 121 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 326 122 Methanobacterium Methanobacterium NNP work_kkta46aprvda3kxuww62zfddua 326 123 sp sp NNP work_kkta46aprvda3kxuww62zfddua 326 124 . . . work_kkta46aprvda3kxuww62zfddua 327 1 AL-21 al-21 RB work_kkta46aprvda3kxuww62zfddua 327 2 g g LS work_kkta46aprvda3kxuww62zfddua 327 3 a a DT work_kkta46aprvda3kxuww62zfddua 327 4 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 327 5 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 327 6 Methanobrevibacter Methanobrevibacter NNP work_kkta46aprvda3kxuww62zfddua 327 7 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 327 8 g g NNP work_kkta46aprvda3kxuww62zfddua 327 9 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 327 10 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 327 11 Methanosphaera Methanosphaera NNP work_kkta46aprvda3kxuww62zfddua 327 12 stadtmanae stadtmanae NNP work_kkta46aprvda3kxuww62zfddua 327 13 g g NNP work_kkta46aprvda3kxuww62zfddua 327 14 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 327 15 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 327 16 Methanothermobacter Methanothermobacter NNP work_kkta46aprvda3kxuww62zfddua 327 17 thermautotrophicus thermautotrophicus NN work_kkta46aprvda3kxuww62zfddua 327 18 g g NN work_kkta46aprvda3kxuww62zfddua 327 19 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 327 20 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 327 21 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 327 22 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 327 23 e e NNP work_kkta46aprvda3kxuww62zfddua 327 24 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 327 25 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 327 26 Thermococcus Thermococcus NNP work_kkta46aprvda3kxuww62zfddua 327 27 onnurineus onnurineus NNP work_kkta46aprvda3kxuww62zfddua 327 28 e e NN work_kkta46aprvda3kxuww62zfddua 327 29 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 327 30 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 327 31 lies lie VBZ work_kkta46aprvda3kxuww62zfddua 327 32 on on IN work_kkta46aprvda3kxuww62zfddua 327 33 a a DT work_kkta46aprvda3kxuww62zfddua 327 34 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 327 35 potential potential NN work_kkta46aprvda3kxuww62zfddua 327 36 . . . work_kkta46aprvda3kxuww62zfddua 328 1 This this DT work_kkta46aprvda3kxuww62zfddua 328 2 pathway pathway NN work_kkta46aprvda3kxuww62zfddua 328 3 allows allow VBZ work_kkta46aprvda3kxuww62zfddua 328 4 for for IN work_kkta46aprvda3kxuww62zfddua 328 5 the the DT work_kkta46aprvda3kxuww62zfddua 328 6 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 328 7 of of IN work_kkta46aprvda3kxuww62zfddua 328 8 only only RB work_kkta46aprvda3kxuww62zfddua 328 9 a a DT work_kkta46aprvda3kxuww62zfddua 328 10 fraction fraction NN work_kkta46aprvda3kxuww62zfddua 328 11 of of IN work_kkta46aprvda3kxuww62zfddua 328 12 an an DT work_kkta46aprvda3kxuww62zfddua 328 13 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 328 14 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 328 15 104 104 CD work_kkta46aprvda3kxuww62zfddua 328 16 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 328 17 . . . work_kkta46aprvda3kxuww62zfddua 329 1 The the DT work_kkta46aprvda3kxuww62zfddua 329 2 same same JJ work_kkta46aprvda3kxuww62zfddua 329 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 329 4 true true JJ work_kkta46aprvda3kxuww62zfddua 329 5 for for IN work_kkta46aprvda3kxuww62zfddua 329 6 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 329 7 that that WDT work_kkta46aprvda3kxuww62zfddua 329 8 em- em- NNP work_kkta46aprvda3kxuww62zfddua 329 9 ploy ploy VBP work_kkta46aprvda3kxuww62zfddua 329 10 pretty pretty RB work_kkta46aprvda3kxuww62zfddua 329 11 much much RB work_kkta46aprvda3kxuww62zfddua 329 12 the the DT work_kkta46aprvda3kxuww62zfddua 329 13 same same JJ work_kkta46aprvda3kxuww62zfddua 329 14 pathway pathway NN work_kkta46aprvda3kxuww62zfddua 329 15 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 329 16 29 29 CD work_kkta46aprvda3kxuww62zfddua 329 17 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 329 18 . . . work_kkta46aprvda3kxuww62zfddua 330 1 So so RB work_kkta46aprvda3kxuww62zfddua 330 2 far far RB work_kkta46aprvda3kxuww62zfddua 330 3 , , , work_kkta46aprvda3kxuww62zfddua 330 4 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 330 5 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 330 6 has have VBZ work_kkta46aprvda3kxuww62zfddua 330 7 Site site NN work_kkta46aprvda3kxuww62zfddua 330 8 1 1 CD work_kkta46aprvda3kxuww62zfddua 330 9 b b CD work_kkta46aprvda3kxuww62zfddua 330 10 Site site NN work_kkta46aprvda3kxuww62zfddua 330 11 2 2 CD work_kkta46aprvda3kxuww62zfddua 330 12 b b NN work_kkta46aprvda3kxuww62zfddua 330 13 Ion Ion NNP work_kkta46aprvda3kxuww62zfddua 330 14 c c NN work_kkta46aprvda3kxuww62zfddua 330 15 Q q NN work_kkta46aprvda3kxuww62zfddua 330 16 VxETTxxY VxETTxxY : work_kkta46aprvda3kxuww62zfddua 330 17 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 18 + + DT work_kkta46aprvda3kxuww62zfddua 330 19 Q q NN work_kkta46aprvda3kxuww62zfddua 330 20 VxESTxxY VxESTxxY : work_kkta46aprvda3kxuww62zfddua 330 21 Na na NN work_kkta46aprvda3kxuww62zfddua 330 22 + + ADD work_kkta46aprvda3kxuww62zfddua 330 23 Q q NN work_kkta46aprvda3kxuww62zfddua 330 24 IxESTxxY IxESTxxY . work_kkta46aprvda3kxuww62zfddua 330 25 Na na NN work_kkta46aprvda3kxuww62zfddua 330 26 + + CC work_kkta46aprvda3kxuww62zfddua 330 27 N n NN work_kkta46aprvda3kxuww62zfddua 330 28 LxEALxxI lxealxxi NN work_kkta46aprvda3kxuww62zfddua 330 29 H h NN work_kkta46aprvda3kxuww62zfddua 330 30 + + CC work_kkta46aprvda3kxuww62zfddua 330 31 I -PRON- PRP work_kkta46aprvda3kxuww62zfddua 330 32 LxDAIxxI LxDAIxxI : work_kkta46aprvda3kxuww62zfddua 330 33 H h NN work_kkta46aprvda3kxuww62zfddua 330 34 + + CC work_kkta46aprvda3kxuww62zfddua 330 35 V v NN work_kkta46aprvda3kxuww62zfddua 330 36 LxGTQxxY LxGTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 37 -- -- : work_kkta46aprvda3kxuww62zfddua 330 38 Q q NN work_kkta46aprvda3kxuww62zfddua 330 39 MxETYxxL MxETYxxL . work_kkta46aprvda3kxuww62zfddua 330 40 Na na NN work_kkta46aprvda3kxuww62zfddua 330 41 + + CC work_kkta46aprvda3kxuww62zfddua 330 42 E e NN work_kkta46aprvda3kxuww62zfddua 330 43 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 44 Na na NN work_kkta46aprvda3kxuww62zfddua 330 45 + + CC work_kkta46aprvda3kxuww62zfddua 330 46 E e NN work_kkta46aprvda3kxuww62zfddua 330 47 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 48 Na na NN work_kkta46aprvda3kxuww62zfddua 330 49 + + CC work_kkta46aprvda3kxuww62zfddua 330 50 E e NN work_kkta46aprvda3kxuww62zfddua 330 51 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 52 Na na IN work_kkta46aprvda3kxuww62zfddua 330 53 + + CC work_kkta46aprvda3kxuww62zfddua 330 54 E e NN work_kkta46aprvda3kxuww62zfddua 330 55 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 56 Na na IN work_kkta46aprvda3kxuww62zfddua 330 57 + + CC work_kkta46aprvda3kxuww62zfddua 330 58 E e NN work_kkta46aprvda3kxuww62zfddua 330 59 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 60 Na na IN work_kkta46aprvda3kxuww62zfddua 330 61 + + CC work_kkta46aprvda3kxuww62zfddua 330 62 E e NN work_kkta46aprvda3kxuww62zfddua 330 63 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 64 Na na IN work_kkta46aprvda3kxuww62zfddua 330 65 + + CC work_kkta46aprvda3kxuww62zfddua 330 66 E e NN work_kkta46aprvda3kxuww62zfddua 330 67 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 68 Na na IN work_kkta46aprvda3kxuww62zfddua 330 69 + + CC work_kkta46aprvda3kxuww62zfddua 330 70 E e NN work_kkta46aprvda3kxuww62zfddua 330 71 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 72 Na na IN work_kkta46aprvda3kxuww62zfddua 330 73 + + CC work_kkta46aprvda3kxuww62zfddua 330 74 E e NN work_kkta46aprvda3kxuww62zfddua 330 75 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 76 Na na IN work_kkta46aprvda3kxuww62zfddua 330 77 + + CC work_kkta46aprvda3kxuww62zfddua 330 78 E e NN work_kkta46aprvda3kxuww62zfddua 330 79 LxETIxxL LxETIxxL . work_kkta46aprvda3kxuww62zfddua 330 80 Na na NN work_kkta46aprvda3kxuww62zfddua 330 81 + + CC work_kkta46aprvda3kxuww62zfddua 330 82 E e NN work_kkta46aprvda3kxuww62zfddua 330 83 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 84 Na na IN work_kkta46aprvda3kxuww62zfddua 330 85 + + CC work_kkta46aprvda3kxuww62zfddua 330 86 E e NN work_kkta46aprvda3kxuww62zfddua 330 87 LxETIxxL LxETIxxL . work_kkta46aprvda3kxuww62zfddua 330 88 Na na NN work_kkta46aprvda3kxuww62zfddua 330 89 + + CC work_kkta46aprvda3kxuww62zfddua 330 90 E e NN work_kkta46aprvda3kxuww62zfddua 330 91 LxETLxxL LxETLxxL . work_kkta46aprvda3kxuww62zfddua 330 92 Na Na NNS work_kkta46aprvda3kxuww62zfddua 330 93 + + CC work_kkta46aprvda3kxuww62zfddua 330 94 Q q NN work_kkta46aprvda3kxuww62zfddua 330 95 IxETLxxL ixetlxxl XX work_kkta46aprvda3kxuww62zfddua 330 96 Na na NN work_kkta46aprvda3kxuww62zfddua 330 97 + + CC work_kkta46aprvda3kxuww62zfddua 330 98 E e NN work_kkta46aprvda3kxuww62zfddua 330 99 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 100 Na na NN work_kkta46aprvda3kxuww62zfddua 330 101 + + CC work_kkta46aprvda3kxuww62zfddua 330 102 E e NN work_kkta46aprvda3kxuww62zfddua 330 103 LxETVxxF LxETVxxF '' work_kkta46aprvda3kxuww62zfddua 330 104 Na na NN work_kkta46aprvda3kxuww62zfddua 330 105 + + CC work_kkta46aprvda3kxuww62zfddua 330 106 E e NN work_kkta46aprvda3kxuww62zfddua 330 107 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 108 Na na NN work_kkta46aprvda3kxuww62zfddua 330 109 + + CC work_kkta46aprvda3kxuww62zfddua 330 110 E e NN work_kkta46aprvda3kxuww62zfddua 330 111 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 112 Na na NN work_kkta46aprvda3kxuww62zfddua 330 113 + + CC work_kkta46aprvda3kxuww62zfddua 330 114 E e NN work_kkta46aprvda3kxuww62zfddua 330 115 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 116 Na na NN work_kkta46aprvda3kxuww62zfddua 330 117 + + CC work_kkta46aprvda3kxuww62zfddua 330 118 E e NN work_kkta46aprvda3kxuww62zfddua 330 119 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 120 Na na NN work_kkta46aprvda3kxuww62zfddua 330 121 + + DT work_kkta46aprvda3kxuww62zfddua 330 122 Q q NN work_kkta46aprvda3kxuww62zfddua 330 123 IxETVxxF IxETVxxF . work_kkta46aprvda3kxuww62zfddua 330 124 Na na NN work_kkta46aprvda3kxuww62zfddua 330 125 + + CC work_kkta46aprvda3kxuww62zfddua 330 126 E e NN work_kkta46aprvda3kxuww62zfddua 330 127 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 128 Na na NN work_kkta46aprvda3kxuww62zfddua 330 129 + + CC work_kkta46aprvda3kxuww62zfddua 330 130 E e NN work_kkta46aprvda3kxuww62zfddua 330 131 LxETLxxF LxETLxxF '' work_kkta46aprvda3kxuww62zfddua 330 132 Na na NN work_kkta46aprvda3kxuww62zfddua 330 133 + + DT work_kkta46aprvda3kxuww62zfddua 330 134 Q q NN work_kkta46aprvda3kxuww62zfddua 330 135 IxEAIxxF ixeaixxf NN work_kkta46aprvda3kxuww62zfddua 330 136 H h NN work_kkta46aprvda3kxuww62zfddua 330 137 + + CC work_kkta46aprvda3kxuww62zfddua 330 138 E e NN work_kkta46aprvda3kxuww62zfddua 330 139 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 140 Na na NN work_kkta46aprvda3kxuww62zfddua 330 141 + + NNS work_kkta46aprvda3kxuww62zfddua 330 142 /H /H . work_kkta46aprvda3kxuww62zfddua 330 143 + + SYM work_kkta46aprvda3kxuww62zfddua 330 144 E e NN work_kkta46aprvda3kxuww62zfddua 330 145 IxETIxxF IxETIxxF '' work_kkta46aprvda3kxuww62zfddua 330 146 Na na NN work_kkta46aprvda3kxuww62zfddua 330 147 + + DT work_kkta46aprvda3kxuww62zfddua 330 148 Q q NN work_kkta46aprvda3kxuww62zfddua 330 149 LxETHxxF LxETHxxF . work_kkta46aprvda3kxuww62zfddua 330 150 Na na NN work_kkta46aprvda3kxuww62zfddua 330 151 + + CC work_kkta46aprvda3kxuww62zfddua 330 152 E e NN work_kkta46aprvda3kxuww62zfddua 330 153 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 154 Na na IN work_kkta46aprvda3kxuww62zfddua 330 155 + + CC work_kkta46aprvda3kxuww62zfddua 330 156 E e NN work_kkta46aprvda3kxuww62zfddua 330 157 LxETLxxF LxETLxxF '' work_kkta46aprvda3kxuww62zfddua 330 158 Na na NN work_kkta46aprvda3kxuww62zfddua 330 159 + + CC work_kkta46aprvda3kxuww62zfddua 330 160 E e NN work_kkta46aprvda3kxuww62zfddua 330 161 LxETLxxL LxETLxxL '' work_kkta46aprvda3kxuww62zfddua 330 162 Na na IN work_kkta46aprvda3kxuww62zfddua 330 163 + + CC work_kkta46aprvda3kxuww62zfddua 330 164 E e NN work_kkta46aprvda3kxuww62zfddua 330 165 LxETLxxL LxETLxxL . work_kkta46aprvda3kxuww62zfddua 330 166 Na Na NNS work_kkta46aprvda3kxuww62zfddua 330 167 + + CC work_kkta46aprvda3kxuww62zfddua 330 168 Q q NN work_kkta46aprvda3kxuww62zfddua 330 169 IxETLxxI IxETLxxI : work_kkta46aprvda3kxuww62zfddua 330 170 Na na NN work_kkta46aprvda3kxuww62zfddua 330 171 + + CC work_kkta46aprvda3kxuww62zfddua 330 172 Q q NN work_kkta46aprvda3kxuww62zfddua 330 173 IxETLxxI IxETLxxI : work_kkta46aprvda3kxuww62zfddua 330 174 Na na NN work_kkta46aprvda3kxuww62zfddua 330 175 + + CC work_kkta46aprvda3kxuww62zfddua 330 176 Q q NN work_kkta46aprvda3kxuww62zfddua 330 177 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 178 Na na RB work_kkta46aprvda3kxuww62zfddua 330 179 + + DT work_kkta46aprvda3kxuww62zfddua 330 180 Q q NN work_kkta46aprvda3kxuww62zfddua 330 181 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 182 Na na RB work_kkta46aprvda3kxuww62zfddua 330 183 + + DT work_kkta46aprvda3kxuww62zfddua 330 184 Q q NN work_kkta46aprvda3kxuww62zfddua 330 185 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 186 Na na RB work_kkta46aprvda3kxuww62zfddua 330 187 + + DT work_kkta46aprvda3kxuww62zfddua 330 188 Q q NN work_kkta46aprvda3kxuww62zfddua 330 189 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 190 Na na RB work_kkta46aprvda3kxuww62zfddua 330 191 + + CC work_kkta46aprvda3kxuww62zfddua 330 192 Q q NN work_kkta46aprvda3kxuww62zfddua 330 193 IxETQxxY IxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 194 Na na NN work_kkta46aprvda3kxuww62zfddua 330 195 + + CC work_kkta46aprvda3kxuww62zfddua 330 196 Q q NN work_kkta46aprvda3kxuww62zfddua 330 197 IxETQxxY IxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 198 Na na NN work_kkta46aprvda3kxuww62zfddua 330 199 + + CC work_kkta46aprvda3kxuww62zfddua 330 200 Q q NN work_kkta46aprvda3kxuww62zfddua 330 201 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 202 Na na RB work_kkta46aprvda3kxuww62zfddua 330 203 + + DT work_kkta46aprvda3kxuww62zfddua 330 204 Q q NN work_kkta46aprvda3kxuww62zfddua 330 205 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 206 Na Na NNS work_kkta46aprvda3kxuww62zfddua 330 207 + + DT work_kkta46aprvda3kxuww62zfddua 330 208 V v NN work_kkta46aprvda3kxuww62zfddua 330 209 LxMTQxxY LxMTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 210 -- -- : work_kkta46aprvda3kxuww62zfddua 330 211 Q q NN work_kkta46aprvda3kxuww62zfddua 330 212 MxETMxxF MxETMxxF . work_kkta46aprvda3kxuww62zfddua 330 213 Na Na NNS work_kkta46aprvda3kxuww62zfddua 330 214 + + CC work_kkta46aprvda3kxuww62zfddua 330 215 V v NN work_kkta46aprvda3kxuww62zfddua 330 216 LxMTQxxY LxMTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 217 -- -- : work_kkta46aprvda3kxuww62zfddua 330 218 Q q NN work_kkta46aprvda3kxuww62zfddua 330 219 MxETMxxF MxETMxxF . work_kkta46aprvda3kxuww62zfddua 330 220 Na na NN work_kkta46aprvda3kxuww62zfddua 330 221 + + NFP work_kkta46aprvda3kxuww62zfddua 330 222 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 223 continued continue VBN work_kkta46aprvda3kxuww62zfddua 330 224 on on IN work_kkta46aprvda3kxuww62zfddua 330 225 next next JJ work_kkta46aprvda3kxuww62zfddua 330 226 page page NN work_kkta46aprvda3kxuww62zfddua 330 227 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 228 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 330 229 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 230 c c NN work_kkta46aprvda3kxuww62zfddua 330 231 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 232 with with IN work_kkta46aprvda3kxuww62zfddua 330 233 three three CD work_kkta46aprvda3kxuww62zfddua 330 234 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 330 235 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 236 h h LS work_kkta46aprvda3kxuww62zfddua 330 237 Methanocaldococcus methanocaldococcus NN work_kkta46aprvda3kxuww62zfddua 330 238 jannaschii jannaschii NN work_kkta46aprvda3kxuww62zfddua 330 239 a a DT work_kkta46aprvda3kxuww62zfddua 330 240 H1-H2 h1-h2 NN work_kkta46aprvda3kxuww62zfddua 330 241 A A NNP work_kkta46aprvda3kxuww62zfddua 330 242 LxQTQxxY LxQTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 243 -- -- : work_kkta46aprvda3kxuww62zfddua 330 244 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 245 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 246 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 247 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 248 + + CC work_kkta46aprvda3kxuww62zfddua 330 249 H5-H6 h5-h6 NN work_kkta46aprvda3kxuww62zfddua 330 250 Q q NN work_kkta46aprvda3kxuww62zfddua 330 251 MxETFxxF MxETFxxF . work_kkta46aprvda3kxuww62zfddua 330 252 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 253 + + NNP work_kkta46aprvda3kxuww62zfddua 330 254 Methanococcus methanococcus NN work_kkta46aprvda3kxuww62zfddua 330 255 maripaludis maripaludis NN work_kkta46aprvda3kxuww62zfddua 330 256 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 257 A a NN work_kkta46aprvda3kxuww62zfddua 330 258 LxQTQxxY LxQTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 259 -- -- : work_kkta46aprvda3kxuww62zfddua 330 260 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 261 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 262 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 263 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 264 + + CC work_kkta46aprvda3kxuww62zfddua 330 265 H5-H6 h5-h6 NN work_kkta46aprvda3kxuww62zfddua 330 266 Q q NN work_kkta46aprvda3kxuww62zfddua 330 267 MxETFxxF MxETFxxF . work_kkta46aprvda3kxuww62zfddua 330 268 Na na RB work_kkta46aprvda3kxuww62zfddua 330 269 + + NNS work_kkta46aprvda3kxuww62zfddua 330 270 Methanospirillum Methanospirillum NNP work_kkta46aprvda3kxuww62zfddua 330 271 hungatei hungatei VB work_kkta46aprvda3kxuww62zfddua 330 272 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 273 V v NN work_kkta46aprvda3kxuww62zfddua 330 274 IxQTQxxY ixqtqxxy ADD work_kkta46aprvda3kxuww62zfddua 330 275 -- -- : work_kkta46aprvda3kxuww62zfddua 330 276 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 277 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 278 VxETQxxY VxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 279 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 280 + + CC work_kkta46aprvda3kxuww62zfddua 330 281 H5-H6 h5-h6 NN work_kkta46aprvda3kxuww62zfddua 330 282 Q q NN work_kkta46aprvda3kxuww62zfddua 330 283 MxETFxxF MxETFxxF . work_kkta46aprvda3kxuww62zfddua 330 284 Na na NN work_kkta46aprvda3kxuww62zfddua 330 285 + + SYM work_kkta46aprvda3kxuww62zfddua 330 286 Methanothermococcus Methanothermococcus NNP work_kkta46aprvda3kxuww62zfddua 330 287 okinawensis okinawensis NN work_kkta46aprvda3kxuww62zfddua 330 288 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 289 A A NNP work_kkta46aprvda3kxuww62zfddua 330 290 LxQTQxxY LxQTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 291 -- -- : work_kkta46aprvda3kxuww62zfddua 330 292 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 293 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 294 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 295 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 296 + + CC work_kkta46aprvda3kxuww62zfddua 330 297 H5-H6 h5-h6 NN work_kkta46aprvda3kxuww62zfddua 330 298 Q q NN work_kkta46aprvda3kxuww62zfddua 330 299 MxETFxxF MxETFxxF . work_kkta46aprvda3kxuww62zfddua 330 300 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 301 + + DT work_kkta46aprvda3kxuww62zfddua 330 302 Methanotorris Methanotorris NNP work_kkta46aprvda3kxuww62zfddua 330 303 igneus igneus NNP work_kkta46aprvda3kxuww62zfddua 330 304 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 305 A A NNP work_kkta46aprvda3kxuww62zfddua 330 306 LxQTQxxY LxQTQxxY '' work_kkta46aprvda3kxuww62zfddua 330 307 -- -- : work_kkta46aprvda3kxuww62zfddua 330 308 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 309 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 310 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 311 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 312 + + CC work_kkta46aprvda3kxuww62zfddua 330 313 H5-H6 h5-h6 NN work_kkta46aprvda3kxuww62zfddua 330 314 Q q NN work_kkta46aprvda3kxuww62zfddua 330 315 MxETFxxF MxETFxxF . work_kkta46aprvda3kxuww62zfddua 330 316 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 317 + + NNP work_kkta46aprvda3kxuww62zfddua 330 318 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 330 319 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 320 c c NN work_kkta46aprvda3kxuww62zfddua 330 321 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 322 with with IN work_kkta46aprvda3kxuww62zfddua 330 323 13 13 CD work_kkta46aprvda3kxuww62zfddua 330 324 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 330 325 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 326 Methanopyrus Methanopyrus NNP work_kkta46aprvda3kxuww62zfddua 330 327 kandleri kandleri NN work_kkta46aprvda3kxuww62zfddua 330 328 i i PRP work_kkta46aprvda3kxuww62zfddua 330 329 Q q VBP work_kkta46aprvda3kxuww62zfddua 330 330 FxETQxxY FxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 331 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 332 + + DT work_kkta46aprvda3kxuww62zfddua 330 333 Crenarchaeota Crenarchaeota NNP work_kkta46aprvda3kxuww62zfddua 330 334 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 335 c c NNP work_kkta46aprvda3kxuww62zfddua 330 336 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 337 with with IN work_kkta46aprvda3kxuww62zfddua 330 338 one one CD work_kkta46aprvda3kxuww62zfddua 330 339 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 330 340 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 341 f f NNP work_kkta46aprvda3kxuww62zfddua 330 342 Acidianus Acidianus NNP work_kkta46aprvda3kxuww62zfddua 330 343 hospitalis hospitali VBZ work_kkta46aprvda3kxuww62zfddua 330 344 V v NN work_kkta46aprvda3kxuww62zfddua 330 345 IxEGIxxY IxEGIxxY . work_kkta46aprvda3kxuww62zfddua 330 346 H h NN work_kkta46aprvda3kxuww62zfddua 330 347 + + CC work_kkta46aprvda3kxuww62zfddua 330 348 Acidilobus Acidilobus NNP work_kkta46aprvda3kxuww62zfddua 330 349 saccharovorans saccharovoran VBZ work_kkta46aprvda3kxuww62zfddua 330 350 V v NN work_kkta46aprvda3kxuww62zfddua 330 351 LxEGIxxY LxEGIxxY NNP work_kkta46aprvda3kxuww62zfddua 330 352 H H NNP work_kkta46aprvda3kxuww62zfddua 330 353 + + SYM work_kkta46aprvda3kxuww62zfddua 330 354 Aeropyrum Aeropyrum NNP work_kkta46aprvda3kxuww62zfddua 330 355 pernix pernix NN work_kkta46aprvda3kxuww62zfddua 330 356 V v NN work_kkta46aprvda3kxuww62zfddua 330 357 LxEGIxxY lxegixxy NN work_kkta46aprvda3kxuww62zfddua 330 358 H h NN work_kkta46aprvda3kxuww62zfddua 330 359 + + CC work_kkta46aprvda3kxuww62zfddua 330 360 Caldisphaera Caldisphaera NNP work_kkta46aprvda3kxuww62zfddua 330 361 lagunensis lagunensis VB work_kkta46aprvda3kxuww62zfddua 330 362 V v NN work_kkta46aprvda3kxuww62zfddua 330 363 LxEGIxxY lxegixxy NN work_kkta46aprvda3kxuww62zfddua 330 364 H H NNP work_kkta46aprvda3kxuww62zfddua 330 365 + + CC work_kkta46aprvda3kxuww62zfddua 330 366 Caldivirga Caldivirga NNP work_kkta46aprvda3kxuww62zfddua 330 367 maquilingensis maquilingensis NN work_kkta46aprvda3kxuww62zfddua 330 368 M m NN work_kkta46aprvda3kxuww62zfddua 330 369 FxETIxxY fxetixxy NN work_kkta46aprvda3kxuww62zfddua 330 370 H H NNP work_kkta46aprvda3kxuww62zfddua 330 371 + + CC work_kkta46aprvda3kxuww62zfddua 330 372 Hyperthermus hyperthermus NN work_kkta46aprvda3kxuww62zfddua 330 373 butylicus butylicus NN work_kkta46aprvda3kxuww62zfddua 330 374 L l NN work_kkta46aprvda3kxuww62zfddua 330 375 LxEGIxxY LxEGIxxY : work_kkta46aprvda3kxuww62zfddua 330 376 H H NNP work_kkta46aprvda3kxuww62zfddua 330 377 + + CC work_kkta46aprvda3kxuww62zfddua 330 378 Ignicoccus Ignicoccus NNP work_kkta46aprvda3kxuww62zfddua 330 379 hospitalis hospitali VBD work_kkta46aprvda3kxuww62zfddua 330 380 L L NNP work_kkta46aprvda3kxuww62zfddua 330 381 IxETPxxY IxETPxxY : work_kkta46aprvda3kxuww62zfddua 330 382 H h NN work_kkta46aprvda3kxuww62zfddua 330 383 + + CC work_kkta46aprvda3kxuww62zfddua 330 384 Metallosphaera metallosphaera NN work_kkta46aprvda3kxuww62zfddua 330 385 sedula sedula VB work_kkta46aprvda3kxuww62zfddua 330 386 V v NN work_kkta46aprvda3kxuww62zfddua 330 387 IxEGIxxY IxEGIxxY . work_kkta46aprvda3kxuww62zfddua 330 388 H h NN work_kkta46aprvda3kxuww62zfddua 330 389 + + CC work_kkta46aprvda3kxuww62zfddua 330 390 Pyrobaculum Pyrobaculum NNP work_kkta46aprvda3kxuww62zfddua 330 391 aerophilum aerophilum NN work_kkta46aprvda3kxuww62zfddua 330 392 V v NN work_kkta46aprvda3kxuww62zfddua 330 393 LxEAIxxY LxEAIxxY . work_kkta46aprvda3kxuww62zfddua 330 394 H H NNP work_kkta46aprvda3kxuww62zfddua 330 395 + + SYM work_kkta46aprvda3kxuww62zfddua 330 396 Pyrolobus Pyrolobus NNP work_kkta46aprvda3kxuww62zfddua 330 397 fumarii fumarii VBZ work_kkta46aprvda3kxuww62zfddua 330 398 V v NN work_kkta46aprvda3kxuww62zfddua 330 399 LxEGIxxY lxegixxy NN work_kkta46aprvda3kxuww62zfddua 330 400 H H NNP work_kkta46aprvda3kxuww62zfddua 330 401 + + CC work_kkta46aprvda3kxuww62zfddua 330 402 Sulfolobus Sulfolobus NNP work_kkta46aprvda3kxuww62zfddua 330 403 acidocaldarius acidocaldarius NN work_kkta46aprvda3kxuww62zfddua 330 404 V v NN work_kkta46aprvda3kxuww62zfddua 330 405 IxEGIxxY IxEGIxxY . work_kkta46aprvda3kxuww62zfddua 330 406 H h NN work_kkta46aprvda3kxuww62zfddua 330 407 + + CC work_kkta46aprvda3kxuww62zfddua 330 408 Thermofilum thermofilum NN work_kkta46aprvda3kxuww62zfddua 330 409 pendens penden VBZ work_kkta46aprvda3kxuww62zfddua 330 410 L l NN work_kkta46aprvda3kxuww62zfddua 330 411 LxEGIxxY LxEGIxxY : work_kkta46aprvda3kxuww62zfddua 330 412 H h NN work_kkta46aprvda3kxuww62zfddua 330 413 + + SYM work_kkta46aprvda3kxuww62zfddua 330 414 Thermoproteus Thermoproteus NNP work_kkta46aprvda3kxuww62zfddua 330 415 neutrophilus neutrophilus IN work_kkta46aprvda3kxuww62zfddua 330 416 L l NN work_kkta46aprvda3kxuww62zfddua 330 417 LxEAVxxY lxeavxxy NN work_kkta46aprvda3kxuww62zfddua 330 418 H h NN work_kkta46aprvda3kxuww62zfddua 330 419 + + SYM work_kkta46aprvda3kxuww62zfddua 330 420 Thermosphaera Thermosphaera NNP work_kkta46aprvda3kxuww62zfddua 330 421 aggregans aggregan NNS work_kkta46aprvda3kxuww62zfddua 330 422 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 423 YxELWxxL yxelwxxl NN work_kkta46aprvda3kxuww62zfddua 330 424 H h NN work_kkta46aprvda3kxuww62zfddua 330 425 + + CC work_kkta46aprvda3kxuww62zfddua 330 426 Vulcanisaeta vulcanisaeta NN work_kkta46aprvda3kxuww62zfddua 330 427 distributa distributa NN work_kkta46aprvda3kxuww62zfddua 330 428 I -PRON- PRP work_kkta46aprvda3kxuww62zfddua 330 429 LxEAIxxY LxEAIxxY . work_kkta46aprvda3kxuww62zfddua 330 430 H h NN work_kkta46aprvda3kxuww62zfddua 330 431 + + CC work_kkta46aprvda3kxuww62zfddua 330 432 Crenarchaeota crenarchaeota NN work_kkta46aprvda3kxuww62zfddua 330 433 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 434 c c NN work_kkta46aprvda3kxuww62zfddua 330 435 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 436 with with IN work_kkta46aprvda3kxuww62zfddua 330 437 two two CD work_kkta46aprvda3kxuww62zfddua 330 438 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 330 439 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 440 g g LS work_kkta46aprvda3kxuww62zfddua 330 441 Desulfurococcus Desulfurococcus NNP work_kkta46aprvda3kxuww62zfddua 330 442 kamchatkensis kamchatkensis NN work_kkta46aprvda3kxuww62zfddua 330 443 a a DT work_kkta46aprvda3kxuww62zfddua 330 444 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 445 M M NNP work_kkta46aprvda3kxuww62zfddua 330 446 LxMTQxxY lxmtqxxy NN work_kkta46aprvda3kxuww62zfddua 330 447 -- -- : work_kkta46aprvda3kxuww62zfddua 330 448 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 449 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 450 YxELWxxY YxELWxxY . work_kkta46aprvda3kxuww62zfddua 330 451 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 452 + + SYM work_kkta46aprvda3kxuww62zfddua 330 453 Ignisphaera Ignisphaera NNP work_kkta46aprvda3kxuww62zfddua 330 454 aggregans aggregans NNPS work_kkta46aprvda3kxuww62zfddua 330 455 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 456 T T NNP work_kkta46aprvda3kxuww62zfddua 330 457 FxMTQxxA FxMTQxxA '' work_kkta46aprvda3kxuww62zfddua 330 458 -- -- : work_kkta46aprvda3kxuww62zfddua 330 459 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 460 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 461 YxELFxxI YxELFxxI . work_kkta46aprvda3kxuww62zfddua 330 462 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 463 + + SYM work_kkta46aprvda3kxuww62zfddua 330 464 Staphylothermus Staphylothermus NNP work_kkta46aprvda3kxuww62zfddua 330 465 marinus marinus NN work_kkta46aprvda3kxuww62zfddua 330 466 H1-H2 H1-H2 NNP work_kkta46aprvda3kxuww62zfddua 330 467 M M NNP work_kkta46aprvda3kxuww62zfddua 330 468 LxMTQxxY lxmtqxxy XX work_kkta46aprvda3kxuww62zfddua 330 469 -- -- : work_kkta46aprvda3kxuww62zfddua 330 470 H3-H4 H3-H4 NNP work_kkta46aprvda3kxuww62zfddua 330 471 Q Q NNP work_kkta46aprvda3kxuww62zfddua 330 472 YxELIxxL yxelixxl ADD work_kkta46aprvda3kxuww62zfddua 330 473 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 474 + + NNP work_kkta46aprvda3kxuww62zfddua 330 475 Nanoarchaeota Nanoarchaeota NNP work_kkta46aprvda3kxuww62zfddua 330 476 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 477 c c NN work_kkta46aprvda3kxuww62zfddua 330 478 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 479 with with IN work_kkta46aprvda3kxuww62zfddua 330 480 one one CD work_kkta46aprvda3kxuww62zfddua 330 481 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 330 482 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 483 f f NNP work_kkta46aprvda3kxuww62zfddua 330 484 Nanoarchaeum nanoarchaeum JJ work_kkta46aprvda3kxuww62zfddua 330 485 equitans equitan NNS work_kkta46aprvda3kxuww62zfddua 330 486 Q q NN work_kkta46aprvda3kxuww62zfddua 330 487 LxETQxxY LxETQxxY . work_kkta46aprvda3kxuww62zfddua 330 488 Na Na NNP work_kkta46aprvda3kxuww62zfddua 330 489 + + SYM work_kkta46aprvda3kxuww62zfddua 330 490 Korarchaeota Korarchaeota NNP work_kkta46aprvda3kxuww62zfddua 330 491 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 492 c c NN work_kkta46aprvda3kxuww62zfddua 330 493 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 494 with with IN work_kkta46aprvda3kxuww62zfddua 330 495 one one CD work_kkta46aprvda3kxuww62zfddua 330 496 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 330 497 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 498 f f NNP work_kkta46aprvda3kxuww62zfddua 330 499 Korarchaeum Korarchaeum NNP work_kkta46aprvda3kxuww62zfddua 330 500 cryptofilum cryptofilum NN work_kkta46aprvda3kxuww62zfddua 330 501 L l NN work_kkta46aprvda3kxuww62zfddua 330 502 LxEGVxxY LxEGVxxY : work_kkta46aprvda3kxuww62zfddua 330 503 H H NNP work_kkta46aprvda3kxuww62zfddua 330 504 + + CC work_kkta46aprvda3kxuww62zfddua 330 505 Thaumarchaeota thaumarchaeota NN work_kkta46aprvda3kxuww62zfddua 330 506 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 507 c c NN work_kkta46aprvda3kxuww62zfddua 330 508 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 330 509 with with IN work_kkta46aprvda3kxuww62zfddua 330 510 one one CD work_kkta46aprvda3kxuww62zfddua 330 511 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 330 512 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 513 f f NNP work_kkta46aprvda3kxuww62zfddua 330 514 Cenarchaeum Cenarchaeum NNP work_kkta46aprvda3kxuww62zfddua 330 515 symbiosum symbiosum NN work_kkta46aprvda3kxuww62zfddua 330 516 L l NN work_kkta46aprvda3kxuww62zfddua 330 517 MxESIxxY mxesixxy NN work_kkta46aprvda3kxuww62zfddua 330 518 H H NNP work_kkta46aprvda3kxuww62zfddua 330 519 + + CC work_kkta46aprvda3kxuww62zfddua 330 520 Nitrosopumilus nitrosopumilus JJ work_kkta46aprvda3kxuww62zfddua 330 521 maritimus maritimus NN work_kkta46aprvda3kxuww62zfddua 330 522 L l NN work_kkta46aprvda3kxuww62zfddua 330 523 MxESIxxY MxESIxxY : work_kkta46aprvda3kxuww62zfddua 330 524 H H NNP work_kkta46aprvda3kxuww62zfddua 330 525 + + CC work_kkta46aprvda3kxuww62zfddua 330 526 Nitrosoarchaeum Nitrosoarchaeum NNP work_kkta46aprvda3kxuww62zfddua 330 527 limnia limnia NN work_kkta46aprvda3kxuww62zfddua 330 528 L l NN work_kkta46aprvda3kxuww62zfddua 330 529 MxESIxxY mxesixxy NN work_kkta46aprvda3kxuww62zfddua 330 530 H H NNP work_kkta46aprvda3kxuww62zfddua 330 531 + + CC work_kkta46aprvda3kxuww62zfddua 330 532 Nitrososphaera Nitrososphaera NNP work_kkta46aprvda3kxuww62zfddua 330 533 gargensis gargensis NN work_kkta46aprvda3kxuww62zfddua 330 534 L l NN work_kkta46aprvda3kxuww62zfddua 330 535 MxESIxxY MxESIxxY : work_kkta46aprvda3kxuww62zfddua 330 536 H h NN work_kkta46aprvda3kxuww62zfddua 330 537 + + CC work_kkta46aprvda3kxuww62zfddua 330 538 Organism organism NN work_kkta46aprvda3kxuww62zfddua 330 539 Site site NN work_kkta46aprvda3kxuww62zfddua 330 540 1 1 CD work_kkta46aprvda3kxuww62zfddua 330 541 b b CD work_kkta46aprvda3kxuww62zfddua 330 542 Site site NN work_kkta46aprvda3kxuww62zfddua 330 543 2 2 CD work_kkta46aprvda3kxuww62zfddua 330 544 b b NN work_kkta46aprvda3kxuww62zfddua 330 545 Ion Ion NNP work_kkta46aprvda3kxuww62zfddua 330 546 c c NNP work_kkta46aprvda3kxuww62zfddua 330 547 Table table NN work_kkta46aprvda3kxuww62zfddua 330 548 1 1 CD work_kkta46aprvda3kxuww62zfddua 330 549 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 330 550 continued continue VBD work_kkta46aprvda3kxuww62zfddua 330 551 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 330 552 a a DT work_kkta46aprvda3kxuww62zfddua 330 553 H1 h1 NN work_kkta46aprvda3kxuww62zfddua 330 554 = = SYM work_kkta46aprvda3kxuww62zfddua 330 555 Helix Helix NNP work_kkta46aprvda3kxuww62zfddua 330 556 1 1 CD work_kkta46aprvda3kxuww62zfddua 330 557 , , , work_kkta46aprvda3kxuww62zfddua 330 558 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 330 559 = = SYM work_kkta46aprvda3kxuww62zfddua 330 560 Helix Helix NNP work_kkta46aprvda3kxuww62zfddua 330 561 2 2 CD work_kkta46aprvda3kxuww62zfddua 330 562 , , , work_kkta46aprvda3kxuww62zfddua 330 563 H3 H3 NNP work_kkta46aprvda3kxuww62zfddua 330 564 = = SYM work_kkta46aprvda3kxuww62zfddua 330 565 Helix Helix NNP work_kkta46aprvda3kxuww62zfddua 330 566 3 3 CD work_kkta46aprvda3kxuww62zfddua 330 567 , , , work_kkta46aprvda3kxuww62zfddua 330 568 H4 H4 NNP work_kkta46aprvda3kxuww62zfddua 330 569 = = SYM work_kkta46aprvda3kxuww62zfddua 330 570 Helix Helix NNP work_kkta46aprvda3kxuww62zfddua 330 571 4 4 CD work_kkta46aprvda3kxuww62zfddua 330 572 , , , work_kkta46aprvda3kxuww62zfddua 330 573 H5 H5 NNP work_kkta46aprvda3kxuww62zfddua 330 574 = = SYM work_kkta46aprvda3kxuww62zfddua 330 575 Helix Helix NNP work_kkta46aprvda3kxuww62zfddua 330 576 5 5 CD work_kkta46aprvda3kxuww62zfddua 330 577 , , , work_kkta46aprvda3kxuww62zfddua 330 578 H6 H6 NNP work_kkta46aprvda3kxuww62zfddua 330 579 = = SYM work_kkta46aprvda3kxuww62zfddua 330 580 Helix Helix NNP work_kkta46aprvda3kxuww62zfddua 330 581 6 6 CD work_kkta46aprvda3kxuww62zfddua 330 582 . . . work_kkta46aprvda3kxuww62zfddua 330 583 b b LS work_kkta46aprvda3kxuww62zfddua 330 584 Site site NN work_kkta46aprvda3kxuww62zfddua 330 585 1 1 CD work_kkta46aprvda3kxuww62zfddua 330 586 and and CC work_kkta46aprvda3kxuww62zfddua 330 587 2 2 CD work_kkta46aprvda3kxuww62zfddua 330 588 describes describe VBZ work_kkta46aprvda3kxuww62zfddua 330 589 amino amino JJ work_kkta46aprvda3kxuww62zfddua 330 590 acids acid NNS work_kkta46aprvda3kxuww62zfddua 330 591 of of IN work_kkta46aprvda3kxuww62zfddua 330 592 the the DT work_kkta46aprvda3kxuww62zfddua 330 593 H+ H+ NNP work_kkta46aprvda3kxuww62zfddua 330 594 or or CC work_kkta46aprvda3kxuww62zfddua 330 595 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 330 596 binding bind VBG work_kkta46aprvda3kxuww62zfddua 330 597 motif motif NN work_kkta46aprvda3kxuww62zfddua 330 598 in in IN work_kkta46aprvda3kxuww62zfddua 330 599 helix helix NN work_kkta46aprvda3kxuww62zfddua 330 600 one one CD work_kkta46aprvda3kxuww62zfddua 330 601 and and CC work_kkta46aprvda3kxuww62zfddua 330 602 two two CD work_kkta46aprvda3kxuww62zfddua 330 603 of of IN work_kkta46aprvda3kxuww62zfddua 330 604 the the DT work_kkta46aprvda3kxuww62zfddua 330 605 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 330 606 - - HYPH work_kkta46aprvda3kxuww62zfddua 330 607 like like NNP work_kkta46aprvda3kxuww62zfddua 330 608 c c NNP work_kkta46aprvda3kxuww62zfddua 330 609 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 330 610 . . . work_kkta46aprvda3kxuww62zfddua 331 1 c c LS work_kkta46aprvda3kxuww62zfddua 331 2 Except Except NNP work_kkta46aprvda3kxuww62zfddua 331 3 were be VBD work_kkta46aprvda3kxuww62zfddua 331 4 indicated indicate VBN work_kkta46aprvda3kxuww62zfddua 331 5 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 331 6 ● ● NFP work_kkta46aprvda3kxuww62zfddua 331 7 , , , work_kkta46aprvda3kxuww62zfddua 331 8 experimental experimental JJ work_kkta46aprvda3kxuww62zfddua 331 9 evidence evidence NN work_kkta46aprvda3kxuww62zfddua 331 10 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 331 11 , , , work_kkta46aprvda3kxuww62zfddua 331 12 the the DT work_kkta46aprvda3kxuww62zfddua 331 13 ion ion NN work_kkta46aprvda3kxuww62zfddua 331 14 specificity specificity NN work_kkta46aprvda3kxuww62zfddua 331 15 is be VBZ work_kkta46aprvda3kxuww62zfddua 331 16 suggested suggest VBN work_kkta46aprvda3kxuww62zfddua 331 17 based base VBN work_kkta46aprvda3kxuww62zfddua 331 18 on on IN work_kkta46aprvda3kxuww62zfddua 331 19 the the DT work_kkta46aprvda3kxuww62zfddua 331 20 presence presence NN work_kkta46aprvda3kxuww62zfddua 331 21 or or CC work_kkta46aprvda3kxuww62zfddua 331 22 absence absence NN work_kkta46aprvda3kxuww62zfddua 331 23 of of IN work_kkta46aprvda3kxuww62zfddua 331 24 the the DT work_kkta46aprvda3kxuww62zfddua 331 25 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 331 26 binding bind VBG work_kkta46aprvda3kxuww62zfddua 331 27 motif motif NN work_kkta46aprvda3kxuww62zfddua 331 28 . . . work_kkta46aprvda3kxuww62zfddua 332 1 d d LS work_kkta46aprvda3kxuww62zfddua 332 2 In in IN work_kkta46aprvda3kxuww62zfddua 332 3 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 332 4 c c NN work_kkta46aprvda3kxuww62zfddua 332 5 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 332 6 , , , work_kkta46aprvda3kxuww62zfddua 332 7 the the DT work_kkta46aprvda3kxuww62zfddua 332 8 ion ion NN work_kkta46aprvda3kxuww62zfddua 332 9 binding bind VBG work_kkta46aprvda3kxuww62zfddua 332 10 site site NN work_kkta46aprvda3kxuww62zfddua 332 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 332 12 between between IN work_kkta46aprvda3kxuww62zfddua 332 13 two two CD work_kkta46aprvda3kxuww62zfddua 332 14 c c NN work_kkta46aprvda3kxuww62zfddua 332 15 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 332 16 and and CC work_kkta46aprvda3kxuww62zfddua 332 17 built build VBN work_kkta46aprvda3kxuww62zfddua 332 18 by by IN work_kkta46aprvda3kxuww62zfddua 332 19 Q Q NNP work_kkta46aprvda3kxuww62zfddua 332 20 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 332 21 site site NN work_kkta46aprvda3kxuww62zfddua 332 22 1 1 CD work_kkta46aprvda3kxuww62zfddua 332 23 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 332 24 and and CC work_kkta46aprvda3kxuww62zfddua 332 25 ET ET NNP work_kkta46aprvda3kxuww62zfddua 332 26 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 332 27 site site NN work_kkta46aprvda3kxuww62zfddua 332 28 2 2 CD work_kkta46aprvda3kxuww62zfddua 332 29 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 332 30 . . . work_kkta46aprvda3kxuww62zfddua 333 1 e e LS work_kkta46aprvda3kxuww62zfddua 333 2 In in IN work_kkta46aprvda3kxuww62zfddua 333 3 these these DT work_kkta46aprvda3kxuww62zfddua 333 4 c c NN work_kkta46aprvda3kxuww62zfddua 333 5 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 333 6 , , , work_kkta46aprvda3kxuww62zfddua 333 7 the the DT work_kkta46aprvda3kxuww62zfddua 333 8 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 333 9 binding binding JJ work_kkta46aprvda3kxuww62zfddua 333 10 motif motif NN work_kkta46aprvda3kxuww62zfddua 333 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 333 12 shared share VBN work_kkta46aprvda3kxuww62zfddua 333 13 by by IN work_kkta46aprvda3kxuww62zfddua 333 14 H1–H2 h1–h2 NN work_kkta46aprvda3kxuww62zfddua 333 15 and and CC work_kkta46aprvda3kxuww62zfddua 333 16 H3–H4 H3–H4 NNP work_kkta46aprvda3kxuww62zfddua 333 17 . . . work_kkta46aprvda3kxuww62zfddua 334 1 There there EX work_kkta46aprvda3kxuww62zfddua 334 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 334 3 only only RB work_kkta46aprvda3kxuww62zfddua 334 4 one one CD work_kkta46aprvda3kxuww62zfddua 334 5 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 334 6 binding bind VBG work_kkta46aprvda3kxuww62zfddua 334 7 site site NN work_kkta46aprvda3kxuww62zfddua 334 8 in in IN work_kkta46aprvda3kxuww62zfddua 334 9 four four CD work_kkta46aprvda3kxuww62zfddua 334 10 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 334 11 helices helix NNS work_kkta46aprvda3kxuww62zfddua 334 12 . . . work_kkta46aprvda3kxuww62zfddua 335 1 f f LS work_kkta46aprvda3kxuww62zfddua 335 2 As as IN work_kkta46aprvda3kxuww62zfddua 335 3 in in IN work_kkta46aprvda3kxuww62zfddua 335 4 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 335 5 c c NN work_kkta46aprvda3kxuww62zfddua 335 6 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 335 7 , , , work_kkta46aprvda3kxuww62zfddua 335 8 the the DT work_kkta46aprvda3kxuww62zfddua 335 9 ion ion NN work_kkta46aprvda3kxuww62zfddua 335 10 binding bind VBG work_kkta46aprvda3kxuww62zfddua 335 11 site site NN work_kkta46aprvda3kxuww62zfddua 335 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 335 13 between between IN work_kkta46aprvda3kxuww62zfddua 335 14 two two CD work_kkta46aprvda3kxuww62zfddua 335 15 c c NN work_kkta46aprvda3kxuww62zfddua 335 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 335 17 and and CC work_kkta46aprvda3kxuww62zfddua 335 18 built build VBN work_kkta46aprvda3kxuww62zfddua 335 19 by by IN work_kkta46aprvda3kxuww62zfddua 335 20 Q Q NNP work_kkta46aprvda3kxuww62zfddua 335 21 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 335 22 site site NN work_kkta46aprvda3kxuww62zfddua 335 23 1 1 CD work_kkta46aprvda3kxuww62zfddua 335 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 335 25 and and CC work_kkta46aprvda3kxuww62zfddua 335 26 ET ET NNP work_kkta46aprvda3kxuww62zfddua 335 27 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 335 28 site site NN work_kkta46aprvda3kxuww62zfddua 335 29 2 2 CD work_kkta46aprvda3kxuww62zfddua 335 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 335 31 . . . work_kkta46aprvda3kxuww62zfddua 336 1 g g LS work_kkta46aprvda3kxuww62zfddua 336 2 These these DT work_kkta46aprvda3kxuww62zfddua 336 3 c c NN work_kkta46aprvda3kxuww62zfddua 336 4 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 336 5 have have VBP work_kkta46aprvda3kxuww62zfddua 336 6 two two CD work_kkta46aprvda3kxuww62zfddua 336 7 ion ion NN work_kkta46aprvda3kxuww62zfddua 336 8 binding bind VBG work_kkta46aprvda3kxuww62zfddua 336 9 sites site NNS work_kkta46aprvda3kxuww62zfddua 336 10 in in IN work_kkta46aprvda3kxuww62zfddua 336 11 four four CD work_kkta46aprvda3kxuww62zfddua 336 12 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 336 13 helices helix NNS work_kkta46aprvda3kxuww62zfddua 336 14 . . . work_kkta46aprvda3kxuww62zfddua 337 1 One one CD work_kkta46aprvda3kxuww62zfddua 337 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 337 3 within within IN work_kkta46aprvda3kxuww62zfddua 337 4 one one CD work_kkta46aprvda3kxuww62zfddua 337 5 c c NNP work_kkta46aprvda3kxuww62zfddua 337 6 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 337 7 , , , work_kkta46aprvda3kxuww62zfddua 337 8 one one CD work_kkta46aprvda3kxuww62zfddua 337 9 inbetween inbetween VBN work_kkta46aprvda3kxuww62zfddua 337 10 two two CD work_kkta46aprvda3kxuww62zfddua 337 11 c c NN work_kkta46aprvda3kxuww62zfddua 337 12 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 337 13 . . . work_kkta46aprvda3kxuww62zfddua 338 1 h h LS work_kkta46aprvda3kxuww62zfddua 338 2 In in IN work_kkta46aprvda3kxuww62zfddua 338 3 these these DT work_kkta46aprvda3kxuww62zfddua 338 4 c c NN work_kkta46aprvda3kxuww62zfddua 338 5 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 338 6 , , , work_kkta46aprvda3kxuww62zfddua 338 7 the the DT work_kkta46aprvda3kxuww62zfddua 338 8 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 338 9 binding binding JJ work_kkta46aprvda3kxuww62zfddua 338 10 motif motif NN work_kkta46aprvda3kxuww62zfddua 338 11 is be VBZ work_kkta46aprvda3kxuww62zfddua 338 12 shared share VBN work_kkta46aprvda3kxuww62zfddua 338 13 by by IN work_kkta46aprvda3kxuww62zfddua 338 14 H1–H2 h1–h2 NN work_kkta46aprvda3kxuww62zfddua 338 15 , , , work_kkta46aprvda3kxuww62zfddua 338 16 H3–H4 H3–H4 NNP work_kkta46aprvda3kxuww62zfddua 338 17 and and CC work_kkta46aprvda3kxuww62zfddua 338 18 H5–H6 H5–H6 NNP work_kkta46aprvda3kxuww62zfddua 338 19 . . . work_kkta46aprvda3kxuww62zfddua 339 1 There there EX work_kkta46aprvda3kxuww62zfddua 339 2 are be VBP work_kkta46aprvda3kxuww62zfddua 339 3 two two CD work_kkta46aprvda3kxuww62zfddua 339 4 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 339 5 binding bind VBG work_kkta46aprvda3kxuww62zfddua 339 6 sites site NNS work_kkta46aprvda3kxuww62zfddua 339 7 in in IN work_kkta46aprvda3kxuww62zfddua 339 8 six six CD work_kkta46aprvda3kxuww62zfddua 339 9 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 339 10 helices helix NNS work_kkta46aprvda3kxuww62zfddua 339 11 . . . work_kkta46aprvda3kxuww62zfddua 340 1 i i PRP work_kkta46aprvda3kxuww62zfddua 340 2 This this DT work_kkta46aprvda3kxuww62zfddua 340 3 c c NNP work_kkta46aprvda3kxuww62zfddua 340 4 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 340 5 has have VBZ work_kkta46aprvda3kxuww62zfddua 340 6 thirteen thirteen CD work_kkta46aprvda3kxuww62zfddua 340 7 covalently covalently RB work_kkta46aprvda3kxuww62zfddua 340 8 linked link VBN work_kkta46aprvda3kxuww62zfddua 340 9 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 340 10 , , , work_kkta46aprvda3kxuww62zfddua 340 11 each each DT work_kkta46aprvda3kxuww62zfddua 340 12 has have VBZ work_kkta46aprvda3kxuww62zfddua 340 13 the the DT work_kkta46aprvda3kxuww62zfddua 340 14 depicted depict VBN work_kkta46aprvda3kxuww62zfddua 340 15 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 340 16 binding binding NN work_kkta46aprvda3kxuww62zfddua 340 17 site site NN work_kkta46aprvda3kxuww62zfddua 340 18 . . . work_kkta46aprvda3kxuww62zfddua 341 1 949G. 949g. JJ work_kkta46aprvda3kxuww62zfddua 342 1 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 342 2 et et FW work_kkta46aprvda3kxuww62zfddua 342 3 al al NNP work_kkta46aprvda3kxuww62zfddua 342 4 . . . work_kkta46aprvda3kxuww62zfddua 343 1 / / NFP work_kkta46aprvda3kxuww62zfddua 343 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 343 3 et et NN work_kkta46aprvda3kxuww62zfddua 343 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 343 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 343 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 343 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 343 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 343 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 343 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 343 11 only only RB work_kkta46aprvda3kxuww62zfddua 343 12 been be VBN work_kkta46aprvda3kxuww62zfddua 343 13 observed observe VBN work_kkta46aprvda3kxuww62zfddua 343 14 in in IN work_kkta46aprvda3kxuww62zfddua 343 15 anaerobes anaerobe NNS work_kkta46aprvda3kxuww62zfddua 343 16 . . . work_kkta46aprvda3kxuww62zfddua 344 1 In in IN work_kkta46aprvda3kxuww62zfddua 344 2 addition addition NN work_kkta46aprvda3kxuww62zfddua 344 3 to to IN work_kkta46aprvda3kxuww62zfddua 344 4 living live VBG work_kkta46aprvda3kxuww62zfddua 344 5 in in IN work_kkta46aprvda3kxuww62zfddua 344 6 low low JJ work_kkta46aprvda3kxuww62zfddua 344 7 energy energy NN work_kkta46aprvda3kxuww62zfddua 344 8 envi- envi- NNS work_kkta46aprvda3kxuww62zfddua 344 9 ronments ronment NNS work_kkta46aprvda3kxuww62zfddua 344 10 these these DT work_kkta46aprvda3kxuww62zfddua 344 11 environments environment NNS work_kkta46aprvda3kxuww62zfddua 344 12 are be VBP work_kkta46aprvda3kxuww62zfddua 344 13 full full JJ work_kkta46aprvda3kxuww62zfddua 344 14 of of IN work_kkta46aprvda3kxuww62zfddua 344 15 fermentation fermentation NN work_kkta46aprvda3kxuww62zfddua 344 16 end end NN work_kkta46aprvda3kxuww62zfddua 344 17 products product NNS work_kkta46aprvda3kxuww62zfddua 344 18 such such JJ work_kkta46aprvda3kxuww62zfddua 344 19 as as IN work_kkta46aprvda3kxuww62zfddua 344 20 short short JJ work_kkta46aprvda3kxuww62zfddua 344 21 chain chain NN work_kkta46aprvda3kxuww62zfddua 344 22 fatty fatty NN work_kkta46aprvda3kxuww62zfddua 344 23 acids acid NNS work_kkta46aprvda3kxuww62zfddua 344 24 . . . work_kkta46aprvda3kxuww62zfddua 345 1 These these DT work_kkta46aprvda3kxuww62zfddua 345 2 act act VBP work_kkta46aprvda3kxuww62zfddua 345 3 as as IN work_kkta46aprvda3kxuww62zfddua 345 4 proton proton NNP work_kkta46aprvda3kxuww62zfddua 345 5 ferries ferry VBZ work_kkta46aprvda3kxuww62zfddua 345 6 to to TO work_kkta46aprvda3kxuww62zfddua 345 7 decouple decouple VB work_kkta46aprvda3kxuww62zfddua 345 8 metabo- metabo- JJ work_kkta46aprvda3kxuww62zfddua 345 9 lism lism NN work_kkta46aprvda3kxuww62zfddua 345 10 from from IN work_kkta46aprvda3kxuww62zfddua 345 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 345 12 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 345 13 . . . work_kkta46aprvda3kxuww62zfddua 346 1 These these DT work_kkta46aprvda3kxuww62zfddua 346 2 fermentation fermentation NN work_kkta46aprvda3kxuww62zfddua 346 3 end end NN work_kkta46aprvda3kxuww62zfddua 346 4 products product NNS work_kkta46aprvda3kxuww62zfddua 346 5 can can MD work_kkta46aprvda3kxuww62zfddua 346 6 not not RB work_kkta46aprvda3kxuww62zfddua 346 7 shuffle shuffle VB work_kkta46aprvda3kxuww62zfddua 346 8 back back RP work_kkta46aprvda3kxuww62zfddua 346 9 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 346 10 into into IN work_kkta46aprvda3kxuww62zfddua 346 11 the the DT work_kkta46aprvda3kxuww62zfddua 346 12 cell cell NN work_kkta46aprvda3kxuww62zfddua 346 13 and and CC work_kkta46aprvda3kxuww62zfddua 346 14 thus thus RB work_kkta46aprvda3kxuww62zfddua 346 15 , , , work_kkta46aprvda3kxuww62zfddua 346 16 a a DT work_kkta46aprvda3kxuww62zfddua 346 17 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 346 18 potential potential NN work_kkta46aprvda3kxuww62zfddua 346 19 is be VBZ work_kkta46aprvda3kxuww62zfddua 346 20 not not RB work_kkta46aprvda3kxuww62zfddua 346 21 dissipated dissipate VBN work_kkta46aprvda3kxuww62zfddua 346 22 by by IN work_kkta46aprvda3kxuww62zfddua 346 23 short short JJ work_kkta46aprvda3kxuww62zfddua 346 24 chain chain NN work_kkta46aprvda3kxuww62zfddua 346 25 fatty fatty NN work_kkta46aprvda3kxuww62zfddua 346 26 acids acid NNS work_kkta46aprvda3kxuww62zfddua 346 27 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 346 28 20 20 CD work_kkta46aprvda3kxuww62zfddua 346 29 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 346 30 . . . work_kkta46aprvda3kxuww62zfddua 347 1 A a DT work_kkta46aprvda3kxuww62zfddua 347 2 Na+-dependent Na+-dependent NNP work_kkta46aprvda3kxuww62zfddua 347 3 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 347 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 347 5 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 347 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 347 7 fully fully RB work_kkta46aprvda3kxuww62zfddua 347 8 consistent consistent JJ work_kkta46aprvda3kxuww62zfddua 347 9 with with IN work_kkta46aprvda3kxuww62zfddua 347 10 the the DT work_kkta46aprvda3kxuww62zfddua 347 11 phys- phys- NNP work_kkta46aprvda3kxuww62zfddua 347 12 iology iology NN work_kkta46aprvda3kxuww62zfddua 347 13 of of IN work_kkta46aprvda3kxuww62zfddua 347 14 M. M. NNP work_kkta46aprvda3kxuww62zfddua 347 15 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 347 16 . . . work_kkta46aprvda3kxuww62zfddua 348 1 It -PRON- PRP work_kkta46aprvda3kxuww62zfddua 348 2 has have VBZ work_kkta46aprvda3kxuww62zfddua 348 3 no no DT work_kkta46aprvda3kxuww62zfddua 348 4 cytochromes cytochrome NNS work_kkta46aprvda3kxuww62zfddua 348 5 and and CC work_kkta46aprvda3kxuww62zfddua 348 6 only only RB work_kkta46aprvda3kxuww62zfddua 348 7 the the DT work_kkta46aprvda3kxuww62zfddua 348 8 Na+- Na+- NNP work_kkta46aprvda3kxuww62zfddua 348 9 Fig Fig NNP work_kkta46aprvda3kxuww62zfddua 348 10 . . . work_kkta46aprvda3kxuww62zfddua 349 1 5 5 CD work_kkta46aprvda3kxuww62zfddua 349 2 . . . work_kkta46aprvda3kxuww62zfddua 350 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 350 2 A a NN work_kkta46aprvda3kxuww62zfddua 350 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 350 4 Computationally computationally RB work_kkta46aprvda3kxuww62zfddua 350 5 derived derive VBN work_kkta46aprvda3kxuww62zfddua 350 6 structural structural JJ work_kkta46aprvda3kxuww62zfddua 350 7 model model NN work_kkta46aprvda3kxuww62zfddua 350 8 of of IN work_kkta46aprvda3kxuww62zfddua 350 9 the the DT work_kkta46aprvda3kxuww62zfddua 350 10 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 350 11 binding binding NN work_kkta46aprvda3kxuww62zfddua 350 12 site site NN work_kkta46aprvda3kxuww62zfddua 350 13 of of IN work_kkta46aprvda3kxuww62zfddua 350 14 the the DT work_kkta46aprvda3kxuww62zfddua 350 15 c c NNP work_kkta46aprvda3kxuww62zfddua 350 16 ring ring NN work_kkta46aprvda3kxuww62zfddua 350 17 from from IN work_kkta46aprvda3kxuww62zfddua 350 18 P. P. NNP work_kkta46aprvda3kxuww62zfddua 350 19 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 350 20 . . . work_kkta46aprvda3kxuww62zfddua 351 1 The the DT work_kkta46aprvda3kxuww62zfddua 351 2 ion ion NN work_kkta46aprvda3kxuww62zfddua 351 3 binding bind VBG work_kkta46aprvda3kxuww62zfddua 351 4 site site NN work_kkta46aprvda3kxuww62zfddua 351 5 is be VBZ work_kkta46aprvda3kxuww62zfddua 351 6 within within IN work_kkta46aprvda3kxuww62zfddua 351 7 one one CD work_kkta46aprvda3kxuww62zfddua 351 8 c c NNP work_kkta46aprvda3kxuww62zfddua 351 9 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 351 10 between between IN work_kkta46aprvda3kxuww62zfddua 351 11 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 351 12 and and CC work_kkta46aprvda3kxuww62zfddua 351 13 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 351 14 . . . work_kkta46aprvda3kxuww62zfddua 352 1 The the DT work_kkta46aprvda3kxuww62zfddua 352 2 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 352 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 352 4 coordinated coordinate VBN work_kkta46aprvda3kxuww62zfddua 352 5 by by IN work_kkta46aprvda3kxuww62zfddua 352 6 E142 E142 NNP work_kkta46aprvda3kxuww62zfddua 352 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 352 8 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 352 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 352 10 , , , work_kkta46aprvda3kxuww62zfddua 352 11 Q113 Q113 NNP work_kkta46aprvda3kxuww62zfddua 352 12 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 352 13 TM3 TM3 NNP work_kkta46aprvda3kxuww62zfddua 352 14 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 352 15 , , , work_kkta46aprvda3kxuww62zfddua 352 16 T56 T56 NNP work_kkta46aprvda3kxuww62zfddua 352 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 352 18 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 352 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 352 20 , , , work_kkta46aprvda3kxuww62zfddua 352 21 and and CC work_kkta46aprvda3kxuww62zfddua 352 22 Q57 Q57 NNP work_kkta46aprvda3kxuww62zfddua 352 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 352 24 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 352 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 352 26 , , , work_kkta46aprvda3kxuww62zfddua 352 27 and and CC work_kkta46aprvda3kxuww62zfddua 352 28 by by IN work_kkta46aprvda3kxuww62zfddua 352 29 the the DT work_kkta46aprvda3kxuww62zfddua 352 30 backbone backbone NN work_kkta46aprvda3kxuww62zfddua 352 31 of of IN work_kkta46aprvda3kxuww62zfddua 352 32 L53 L53 NNP work_kkta46aprvda3kxuww62zfddua 352 33 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 352 34 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 352 35 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 352 36 . . . work_kkta46aprvda3kxuww62zfddua 353 1 Y60 Y60 NNP work_kkta46aprvda3kxuww62zfddua 353 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 353 3 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 353 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 353 5 is be VBZ work_kkta46aprvda3kxuww62zfddua 353 6 not not RB work_kkta46aprvda3kxuww62zfddua 353 7 directly directly RB work_kkta46aprvda3kxuww62zfddua 353 8 involved involve VBN work_kkta46aprvda3kxuww62zfddua 353 9 in in IN work_kkta46aprvda3kxuww62zfddua 353 10 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 353 11 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 353 12 , , , work_kkta46aprvda3kxuww62zfddua 353 13 but but CC work_kkta46aprvda3kxuww62zfddua 353 14 forms form VBZ work_kkta46aprvda3kxuww62zfddua 353 15 a a DT work_kkta46aprvda3kxuww62zfddua 353 16 hydrogen- hydrogen- FW work_kkta46aprvda3kxuww62zfddua 353 17 bond bond NN work_kkta46aprvda3kxuww62zfddua 353 18 with with IN work_kkta46aprvda3kxuww62zfddua 353 19 E142 E142 NNP work_kkta46aprvda3kxuww62zfddua 353 20 . . . work_kkta46aprvda3kxuww62zfddua 354 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 354 2 B b NN work_kkta46aprvda3kxuww62zfddua 354 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 354 4 Between between IN work_kkta46aprvda3kxuww62zfddua 354 5 two two CD work_kkta46aprvda3kxuww62zfddua 354 6 c c NN work_kkta46aprvda3kxuww62zfddua 354 7 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 354 8 is be VBZ work_kkta46aprvda3kxuww62zfddua 354 9 no no DT work_kkta46aprvda3kxuww62zfddua 354 10 second second JJ work_kkta46aprvda3kxuww62zfddua 354 11 ion ion NN work_kkta46aprvda3kxuww62zfddua 354 12 binding bind VBG work_kkta46aprvda3kxuww62zfddua 354 13 site site NN work_kkta46aprvda3kxuww62zfddua 354 14 in in IN work_kkta46aprvda3kxuww62zfddua 354 15 the the DT work_kkta46aprvda3kxuww62zfddua 354 16 c c NNP work_kkta46aprvda3kxuww62zfddua 354 17 ring ring NN work_kkta46aprvda3kxuww62zfddua 354 18 of of IN work_kkta46aprvda3kxuww62zfddua 354 19 P. P. NNP work_kkta46aprvda3kxuww62zfddua 354 20 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 354 21 . . . work_kkta46aprvda3kxuww62zfddua 355 1 There there RB work_kkta46aprvda3kxuww62zfddua 355 2 the the DT work_kkta46aprvda3kxuww62zfddua 355 3 essential essential JJ work_kkta46aprvda3kxuww62zfddua 355 4 glutamate glutamate NN work_kkta46aprvda3kxuww62zfddua 355 5 of of IN work_kkta46aprvda3kxuww62zfddua 355 6 the the DT work_kkta46aprvda3kxuww62zfddua 355 7 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 355 8 binding binding NN work_kkta46aprvda3kxuww62zfddua 355 9 site site NN work_kkta46aprvda3kxuww62zfddua 355 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 355 11 replaced replace VBN work_kkta46aprvda3kxuww62zfddua 355 12 by by IN work_kkta46aprvda3kxuww62zfddua 355 13 a a DT work_kkta46aprvda3kxuww62zfddua 355 14 methionine methionine NN work_kkta46aprvda3kxuww62zfddua 355 15 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 355 16 M55 M55 NNP work_kkta46aprvda3kxuww62zfddua 355 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 355 18 . . . work_kkta46aprvda3kxuww62zfddua 356 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 356 2 C C NNP work_kkta46aprvda3kxuww62zfddua 356 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 356 4 The the DT work_kkta46aprvda3kxuww62zfddua 356 5 c c NNP work_kkta46aprvda3kxuww62zfddua 356 6 ring ring NN work_kkta46aprvda3kxuww62zfddua 356 7 of of IN work_kkta46aprvda3kxuww62zfddua 356 8 M. M. NNP work_kkta46aprvda3kxuww62zfddua 356 9 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 356 10 has have VBZ work_kkta46aprvda3kxuww62zfddua 356 11 two two CD work_kkta46aprvda3kxuww62zfddua 356 12 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 356 13 binding bind VBG work_kkta46aprvda3kxuww62zfddua 356 14 sites site NNS work_kkta46aprvda3kxuww62zfddua 356 15 . . . work_kkta46aprvda3kxuww62zfddua 357 1 According accord VBG work_kkta46aprvda3kxuww62zfddua 357 2 to to IN work_kkta46aprvda3kxuww62zfddua 357 3 the the DT work_kkta46aprvda3kxuww62zfddua 357 4 computationally computationally RB work_kkta46aprvda3kxuww62zfddua 357 5 derived derive VBN work_kkta46aprvda3kxuww62zfddua 357 6 model model NN work_kkta46aprvda3kxuww62zfddua 357 7 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 357 8 86 86 CD work_kkta46aprvda3kxuww62zfddua 357 9 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 357 10 the the DT work_kkta46aprvda3kxuww62zfddua 357 11 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 357 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 357 13 coordinated coordinate VBN work_kkta46aprvda3kxuww62zfddua 357 14 by by IN work_kkta46aprvda3kxuww62zfddua 357 15 the the DT work_kkta46aprvda3kxuww62zfddua 357 16 side side NN work_kkta46aprvda3kxuww62zfddua 357 17 chains chain NNS work_kkta46aprvda3kxuww62zfddua 357 18 of of IN work_kkta46aprvda3kxuww62zfddua 357 19 the the DT work_kkta46aprvda3kxuww62zfddua 357 20 amino amino NN work_kkta46aprvda3kxuww62zfddua 357 21 acids acid NNS work_kkta46aprvda3kxuww62zfddua 357 22 E140 E140 NNP work_kkta46aprvda3kxuww62zfddua 357 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 357 24 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 357 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 357 26 , , , work_kkta46aprvda3kxuww62zfddua 357 27 Q111 Q111 NNP work_kkta46aprvda3kxuww62zfddua 357 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 357 29 TM3 TM3 NNP work_kkta46aprvda3kxuww62zfddua 357 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 357 31 , , , work_kkta46aprvda3kxuww62zfddua 357 32 Q61 Q61 NNP work_kkta46aprvda3kxuww62zfddua 357 33 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 357 34 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 357 35 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 357 36 T60 t60 UH work_kkta46aprvda3kxuww62zfddua 357 37 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 357 38 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 357 39 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 357 40 and and CC work_kkta46aprvda3kxuww62zfddua 357 41 L57 L57 NNP work_kkta46aprvda3kxuww62zfddua 357 42 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 357 43 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 357 44 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 357 45 within within IN work_kkta46aprvda3kxuww62zfddua 357 46 one one CD work_kkta46aprvda3kxuww62zfddua 357 47 c c NNP work_kkta46aprvda3kxuww62zfddua 357 48 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 357 49 . . . work_kkta46aprvda3kxuww62zfddua 358 1 Again again RB work_kkta46aprvda3kxuww62zfddua 358 2 Y64 Y64 NNP work_kkta46aprvda3kxuww62zfddua 358 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 358 4 TM2 TM2 NNP work_kkta46aprvda3kxuww62zfddua 358 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 358 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 358 7 for for IN work_kkta46aprvda3kxuww62zfddua 358 8 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 358 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 358 10 bonding bonding NN work_kkta46aprvda3kxuww62zfddua 358 11 with with IN work_kkta46aprvda3kxuww62zfddua 358 12 the the DT work_kkta46aprvda3kxuww62zfddua 358 13 side side NN work_kkta46aprvda3kxuww62zfddua 358 14 chain chain NN work_kkta46aprvda3kxuww62zfddua 358 15 of of IN work_kkta46aprvda3kxuww62zfddua 358 16 E140 E140 NNP work_kkta46aprvda3kxuww62zfddua 358 17 . . . work_kkta46aprvda3kxuww62zfddua 359 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 359 2 D d NN work_kkta46aprvda3kxuww62zfddua 359 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 359 4 The the DT work_kkta46aprvda3kxuww62zfddua 359 5 second second JJ work_kkta46aprvda3kxuww62zfddua 359 6 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 359 7 binding binding NN work_kkta46aprvda3kxuww62zfddua 359 8 site site NN work_kkta46aprvda3kxuww62zfddua 359 9 in in IN work_kkta46aprvda3kxuww62zfddua 359 10 M. M. NNP work_kkta46aprvda3kxuww62zfddua 359 11 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 359 12 is be VBZ work_kkta46aprvda3kxuww62zfddua 359 13 between between IN work_kkta46aprvda3kxuww62zfddua 359 14 two two CD work_kkta46aprvda3kxuww62zfddua 359 15 c c NN work_kkta46aprvda3kxuww62zfddua 359 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 359 17 . . . work_kkta46aprvda3kxuww62zfddua 360 1 Again again RB work_kkta46aprvda3kxuww62zfddua 360 2 E59 E59 NNP work_kkta46aprvda3kxuww62zfddua 360 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 360 4 TM2′ TM2′ NNP work_kkta46aprvda3kxuww62zfddua 360 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 360 6 , , , work_kkta46aprvda3kxuww62zfddua 360 7 Q30 Q30 NNP work_kkta46aprvda3kxuww62zfddua 360 8 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 360 9 TM1′ TM1′ NNP work_kkta46aprvda3kxuww62zfddua 360 10 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 360 11 , , , work_kkta46aprvda3kxuww62zfddua 360 12 Q142 Q142 NNP work_kkta46aprvda3kxuww62zfddua 360 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 360 14 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 360 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 360 16 , , , work_kkta46aprvda3kxuww62zfddua 360 17 T141 T141 NNP work_kkta46aprvda3kxuww62zfddua 360 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 360 19 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 360 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 360 21 and and CC work_kkta46aprvda3kxuww62zfddua 360 22 L138 L138 NNP work_kkta46aprvda3kxuww62zfddua 360 23 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 360 24 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 360 25 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 360 26 are be VBP work_kkta46aprvda3kxuww62zfddua 360 27 directly directly RB work_kkta46aprvda3kxuww62zfddua 360 28 involved involve VBN work_kkta46aprvda3kxuww62zfddua 360 29 in in IN work_kkta46aprvda3kxuww62zfddua 360 30 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 360 31 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 360 32 . . . work_kkta46aprvda3kxuww62zfddua 361 1 Y145 Y145 NNP work_kkta46aprvda3kxuww62zfddua 361 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 361 3 TM4 TM4 NNP work_kkta46aprvda3kxuww62zfddua 361 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 361 5 stabilizes stabilize VBZ work_kkta46aprvda3kxuww62zfddua 361 6 the the DT work_kkta46aprvda3kxuww62zfddua 361 7 geometry geometry NN work_kkta46aprvda3kxuww62zfddua 361 8 of of IN work_kkta46aprvda3kxuww62zfddua 361 9 the the DT work_kkta46aprvda3kxuww62zfddua 361 10 ion ion NN work_kkta46aprvda3kxuww62zfddua 361 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 361 12 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 361 13 shell shell NN work_kkta46aprvda3kxuww62zfddua 361 14 by by IN work_kkta46aprvda3kxuww62zfddua 361 15 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 361 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 361 17 bonding bonding NN work_kkta46aprvda3kxuww62zfddua 361 18 with with IN work_kkta46aprvda3kxuww62zfddua 361 19 E59 E59 NNP work_kkta46aprvda3kxuww62zfddua 361 20 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 361 21 86 86 CD work_kkta46aprvda3kxuww62zfddua 361 22 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 361 23 . . . work_kkta46aprvda3kxuww62zfddua 362 1 950 950 CD work_kkta46aprvda3kxuww62zfddua 362 2 G. G. NNP work_kkta46aprvda3kxuww62zfddua 362 3 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 362 4 et et FW work_kkta46aprvda3kxuww62zfddua 362 5 al al NNP work_kkta46aprvda3kxuww62zfddua 362 6 . . . work_kkta46aprvda3kxuww62zfddua 363 1 / / NFP work_kkta46aprvda3kxuww62zfddua 363 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 363 3 et et NN work_kkta46aprvda3kxuww62zfddua 363 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 363 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 363 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 363 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 363 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 363 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 363 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 363 11 motive motive JJ work_kkta46aprvda3kxuww62zfddua 363 12 methyltransferase methyltransferase NN work_kkta46aprvda3kxuww62zfddua 363 13 for for IN work_kkta46aprvda3kxuww62zfddua 363 14 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 363 15 energization energization NN work_kkta46aprvda3kxuww62zfddua 363 16 and and CC work_kkta46aprvda3kxuww62zfddua 363 17 thus thus RB work_kkta46aprvda3kxuww62zfddua 363 18 , , , work_kkta46aprvda3kxuww62zfddua 363 19 the the DT work_kkta46aprvda3kxuww62zfddua 363 20 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 363 21 potential potential NN work_kkta46aprvda3kxuww62zfddua 363 22 must must MD work_kkta46aprvda3kxuww62zfddua 363 23 be be VB work_kkta46aprvda3kxuww62zfddua 363 24 used use VBN work_kkta46aprvda3kxuww62zfddua 363 25 to to TO work_kkta46aprvda3kxuww62zfddua 363 26 drive drive VB work_kkta46aprvda3kxuww62zfddua 363 27 ATP atp NN work_kkta46aprvda3kxuww62zfddua 363 28 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 363 29 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 363 30 20,29,86 20,29,86 CD work_kkta46aprvda3kxuww62zfddua 363 31 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 363 32 . . . work_kkta46aprvda3kxuww62zfddua 364 1 With with IN work_kkta46aprvda3kxuww62zfddua 364 2 the the DT work_kkta46aprvda3kxuww62zfddua 364 3 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 364 4 of of IN work_kkta46aprvda3kxuww62zfddua 364 5 cytochromes cytochrome NNS work_kkta46aprvda3kxuww62zfddua 364 6 and and CC work_kkta46aprvda3kxuww62zfddua 364 7 an an DT work_kkta46aprvda3kxuww62zfddua 364 8 additional additional JJ work_kkta46aprvda3kxuww62zfddua 364 9 proton proton NN work_kkta46aprvda3kxuww62zfddua 364 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 364 11 pumping pump VBG work_kkta46aprvda3kxuww62zfddua 364 12 elec- elec- NNP work_kkta46aprvda3kxuww62zfddua 364 13 tron tron NNP work_kkta46aprvda3kxuww62zfddua 364 14 transfer transfer NN work_kkta46aprvda3kxuww62zfddua 364 15 chain chain NN work_kkta46aprvda3kxuww62zfddua 364 16 in in IN work_kkta46aprvda3kxuww62zfddua 364 17 some some DT work_kkta46aprvda3kxuww62zfddua 364 18 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 364 19 like like IN work_kkta46aprvda3kxuww62zfddua 364 20 the the DT work_kkta46aprvda3kxuww62zfddua 364 21 Methanosarcinales Methanosarcinales NNPS work_kkta46aprvda3kxuww62zfddua 364 22 , , , work_kkta46aprvda3kxuww62zfddua 364 23 an an DT work_kkta46aprvda3kxuww62zfddua 364 24 organism organism NN work_kkta46aprvda3kxuww62zfddua 364 25 arose arise VBD work_kkta46aprvda3kxuww62zfddua 364 26 that that IN work_kkta46aprvda3kxuww62zfddua 364 27 couples couple VBZ work_kkta46aprvda3kxuww62zfddua 364 28 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 364 29 metabolism metabolism NN work_kkta46aprvda3kxuww62zfddua 364 30 to to IN work_kkta46aprvda3kxuww62zfddua 364 31 the the DT work_kkta46aprvda3kxuww62zfddua 364 32 generation generation NN work_kkta46aprvda3kxuww62zfddua 364 33 of of IN work_kkta46aprvda3kxuww62zfddua 364 34 a a DT work_kkta46aprvda3kxuww62zfddua 364 35 proton proton JJ work_kkta46aprvda3kxuww62zfddua 364 36 potential potential NN work_kkta46aprvda3kxuww62zfddua 364 37 and and CC work_kkta46aprvda3kxuww62zfddua 364 38 a a DT work_kkta46aprvda3kxuww62zfddua 364 39 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 364 40 ion ion NN work_kkta46aprvda3kxuww62zfddua 364 41 potential potential NN work_kkta46aprvda3kxuww62zfddua 364 42 . . . work_kkta46aprvda3kxuww62zfddua 365 1 The the DT work_kkta46aprvda3kxuww62zfddua 365 2 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 365 3 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 365 4 adapted adapt VBD work_kkta46aprvda3kxuww62zfddua 365 5 to to IN work_kkta46aprvda3kxuww62zfddua 365 6 this this DT work_kkta46aprvda3kxuww62zfddua 365 7 scenario scenario NN work_kkta46aprvda3kxuww62zfddua 365 8 by by IN work_kkta46aprvda3kxuww62zfddua 365 9 using use VBG work_kkta46aprvda3kxuww62zfddua 365 10 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 365 11 and and CC work_kkta46aprvda3kxuww62zfddua 365 12 H+ h+ VB work_kkta46aprvda3kxuww62zfddua 365 13 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 365 14 29,30 29,30 CD work_kkta46aprvda3kxuww62zfddua 365 15 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 365 16 . . . work_kkta46aprvda3kxuww62zfddua 366 1 Apparently apparently RB work_kkta46aprvda3kxuww62zfddua 366 2 , , , work_kkta46aprvda3kxuww62zfddua 366 3 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 366 4 and and CC work_kkta46aprvda3kxuww62zfddua 366 5 H+ H+ NNP work_kkta46aprvda3kxuww62zfddua 366 6 concurrently concurrently RB work_kkta46aprvda3kxuww62zfddua 366 7 drive drive VBP work_kkta46aprvda3kxuww62zfddua 366 8 ATP atp NN work_kkta46aprvda3kxuww62zfddua 366 9 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 366 10 . . . work_kkta46aprvda3kxuww62zfddua 367 1 The the DT work_kkta46aprvda3kxuww62zfddua 367 2 ion ion NN work_kkta46aprvda3kxuww62zfddua 367 3 binding bind VBG work_kkta46aprvda3kxuww62zfddua 367 4 site site NN work_kkta46aprvda3kxuww62zfddua 367 5 has have VBZ work_kkta46aprvda3kxuww62zfddua 367 6 a a DT work_kkta46aprvda3kxuww62zfddua 367 7 high high JJ work_kkta46aprvda3kxuww62zfddua 367 8 prefer- prefer- JJ work_kkta46aprvda3kxuww62zfddua 367 9 ence ence NN work_kkta46aprvda3kxuww62zfddua 367 10 for for IN work_kkta46aprvda3kxuww62zfddua 367 11 H+ H+ JJS work_kkta46aprvda3kxuww62zfddua 367 12 , , , work_kkta46aprvda3kxuww62zfddua 367 13 but but CC work_kkta46aprvda3kxuww62zfddua 367 14 under under IN work_kkta46aprvda3kxuww62zfddua 367 15 physiological physiological JJ work_kkta46aprvda3kxuww62zfddua 367 16 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 367 17 of of IN work_kkta46aprvda3kxuww62zfddua 367 18 pH pH NNP work_kkta46aprvda3kxuww62zfddua 367 19 7.5 7.5 CD work_kkta46aprvda3kxuww62zfddua 367 20 and and CC work_kkta46aprvda3kxuww62zfddua 367 21 400 400 CD work_kkta46aprvda3kxuww62zfddua 367 22 mM mm NN work_kkta46aprvda3kxuww62zfddua 367 23 NaCl NaCl NNP work_kkta46aprvda3kxuww62zfddua 367 24 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 367 25 sea sea NN work_kkta46aprvda3kxuww62zfddua 367 26 water water NN work_kkta46aprvda3kxuww62zfddua 367 27 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 367 28 both both CC work_kkta46aprvda3kxuww62zfddua 367 29 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 367 30 and and CC work_kkta46aprvda3kxuww62zfddua 367 31 H+ h+ ADD work_kkta46aprvda3kxuww62zfddua 367 32 are be VBP work_kkta46aprvda3kxuww62zfddua 367 33 used use VBN work_kkta46aprvda3kxuww62zfddua 367 34 simultaneously simultaneously RB work_kkta46aprvda3kxuww62zfddua 367 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 367 36 100 100 CD work_kkta46aprvda3kxuww62zfddua 367 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 367 38 . . . work_kkta46aprvda3kxuww62zfddua 368 1 The the DT work_kkta46aprvda3kxuww62zfddua 368 2 minimal minimal JJ work_kkta46aprvda3kxuww62zfddua 368 3 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 368 4 binding binding JJ work_kkta46aprvda3kxuww62zfddua 368 5 motif motif NN work_kkta46aprvda3kxuww62zfddua 368 6 is be VBZ work_kkta46aprvda3kxuww62zfddua 368 7 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 368 8 but but CC work_kkta46aprvda3kxuww62zfddua 368 9 the the DT work_kkta46aprvda3kxuww62zfddua 368 10 residues residue NNS work_kkta46aprvda3kxuww62zfddua 368 11 involved involve VBN work_kkta46aprvda3kxuww62zfddua 368 12 in in IN work_kkta46aprvda3kxuww62zfddua 368 13 Na+ na+ CC work_kkta46aprvda3kxuww62zfddua 368 14 binding binding JJ work_kkta46aprvda3kxuww62zfddua 368 15 in in IN work_kkta46aprvda3kxuww62zfddua 368 16 bacterial bacterial JJ work_kkta46aprvda3kxuww62zfddua 368 17 c c NN work_kkta46aprvda3kxuww62zfddua 368 18 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 368 19 are be VBP work_kkta46aprvda3kxuww62zfddua 368 20 less less RBR work_kkta46aprvda3kxuww62zfddua 368 21 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 368 22 . . . work_kkta46aprvda3kxuww62zfddua 369 1 Noteworthy noteworthy JJ work_kkta46aprvda3kxuww62zfddua 369 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 369 3 the the DT work_kkta46aprvda3kxuww62zfddua 369 4 change change NN work_kkta46aprvda3kxuww62zfddua 369 5 of of IN work_kkta46aprvda3kxuww62zfddua 369 6 glutamine glutamine NN work_kkta46aprvda3kxuww62zfddua 369 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 369 8 Q Q NNP work_kkta46aprvda3kxuww62zfddua 369 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 369 10 of of IN work_kkta46aprvda3kxuww62zfddua 369 11 the the DT work_kkta46aprvda3kxuww62zfddua 369 12 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 369 13 binding bind VBG work_kkta46aprvda3kxuww62zfddua 369 14 motif motif NN work_kkta46aprvda3kxuww62zfddua 369 15 Q Q NNP work_kkta46aprvda3kxuww62zfddua 369 16 … … NFP work_kkta46aprvda3kxuww62zfddua 369 17 ES es NN work_kkta46aprvda3kxuww62zfddua 369 18 / / SYM work_kkta46aprvda3kxuww62zfddua 369 19 T t NN work_kkta46aprvda3kxuww62zfddua 369 20 to to IN work_kkta46aprvda3kxuww62zfddua 369 21 a a DT work_kkta46aprvda3kxuww62zfddua 369 22 second second JJ work_kkta46aprvda3kxuww62zfddua 369 23 glutamate glutamate NN work_kkta46aprvda3kxuww62zfddua 369 24 , , , work_kkta46aprvda3kxuww62zfddua 369 25 and and CC work_kkta46aprvda3kxuww62zfddua 369 26 indeed indeed RB work_kkta46aprvda3kxuww62zfddua 369 27 , , , work_kkta46aprvda3kxuww62zfddua 369 28 this this DT work_kkta46aprvda3kxuww62zfddua 369 29 exchange exchange NN work_kkta46aprvda3kxuww62zfddua 369 30 still still RB work_kkta46aprvda3kxuww62zfddua 369 31 allows allow VBZ work_kkta46aprvda3kxuww62zfddua 369 32 for for IN work_kkta46aprvda3kxuww62zfddua 369 33 Na+ na+ DT work_kkta46aprvda3kxuww62zfddua 369 34 binding binding JJ work_kkta46aprvda3kxuww62zfddua 369 35 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 369 36 101 101 CD work_kkta46aprvda3kxuww62zfddua 369 37 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 369 38 . . . work_kkta46aprvda3kxuww62zfddua 370 1 Such such PDT work_kkta46aprvda3kxuww62zfddua 370 2 a a DT work_kkta46aprvda3kxuww62zfddua 370 3 Q q NN work_kkta46aprvda3kxuww62zfddua 370 4 → → SYM work_kkta46aprvda3kxuww62zfddua 370 5 E e NN work_kkta46aprvda3kxuww62zfddua 370 6 exchange exchange NN work_kkta46aprvda3kxuww62zfddua 370 7 is be VBZ work_kkta46aprvda3kxuww62zfddua 370 8 present present JJ work_kkta46aprvda3kxuww62zfddua 370 9 in in IN work_kkta46aprvda3kxuww62zfddua 370 10 a a DT work_kkta46aprvda3kxuww62zfddua 370 11 lot lot NN work_kkta46aprvda3kxuww62zfddua 370 12 of of IN work_kkta46aprvda3kxuww62zfddua 370 13 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 370 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 370 15 Table table NN work_kkta46aprvda3kxuww62zfddua 370 16 1 1 CD work_kkta46aprvda3kxuww62zfddua 370 17 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 370 18 . . . work_kkta46aprvda3kxuww62zfddua 371 1 The the DT work_kkta46aprvda3kxuww62zfddua 371 2 ion ion NN work_kkta46aprvda3kxuww62zfddua 371 3 specificity specificity NN work_kkta46aprvda3kxuww62zfddua 371 4 of of IN work_kkta46aprvda3kxuww62zfddua 371 5 the the DT work_kkta46aprvda3kxuww62zfddua 371 6 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 371 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 371 8 bound bind VBN work_kkta46aprvda3kxuww62zfddua 371 9 hydrogenase hydrogenase NN work_kkta46aprvda3kxuww62zfddua 371 10 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 371 11 Mbh Mbh NNP work_kkta46aprvda3kxuww62zfddua 371 12 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 371 13 of of IN work_kkta46aprvda3kxuww62zfddua 371 14 P. P. NNP work_kkta46aprvda3kxuww62zfddua 371 15 furiosus furiosus NNP work_kkta46aprvda3kxuww62zfddua 371 16 has have VBZ work_kkta46aprvda3kxuww62zfddua 371 17 not not RB work_kkta46aprvda3kxuww62zfddua 371 18 been be VBN work_kkta46aprvda3kxuww62zfddua 371 19 addressed address VBN work_kkta46aprvda3kxuww62zfddua 371 20 experimentally experimentally RB work_kkta46aprvda3kxuww62zfddua 371 21 , , , work_kkta46aprvda3kxuww62zfddua 371 22 but but CC work_kkta46aprvda3kxuww62zfddua 371 23 there there EX work_kkta46aprvda3kxuww62zfddua 371 24 is be VBZ work_kkta46aprvda3kxuww62zfddua 371 25 no no DT work_kkta46aprvda3kxuww62zfddua 371 26 reason reason NN work_kkta46aprvda3kxuww62zfddua 371 27 to to TO work_kkta46aprvda3kxuww62zfddua 371 28 believe believe VB work_kkta46aprvda3kxuww62zfddua 371 29 that that IN work_kkta46aprvda3kxuww62zfddua 371 30 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 371 31 ions ion NNS work_kkta46aprvda3kxuww62zfddua 371 32 are be VBP work_kkta46aprvda3kxuww62zfddua 371 33 not not RB work_kkta46aprvda3kxuww62zfddua 371 34 the the DT work_kkta46aprvda3kxuww62zfddua 371 35 coupling coupling NN work_kkta46aprvda3kxuww62zfddua 371 36 ion ion NN work_kkta46aprvda3kxuww62zfddua 371 37 . . . work_kkta46aprvda3kxuww62zfddua 372 1 It -PRON- PRP work_kkta46aprvda3kxuww62zfddua 372 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 372 3 also also RB work_kkta46aprvda3kxuww62zfddua 372 4 notewor- notewor- NN work_kkta46aprvda3kxuww62zfddua 372 5 thy thy NN work_kkta46aprvda3kxuww62zfddua 372 6 , , , work_kkta46aprvda3kxuww62zfddua 372 7 that that IN work_kkta46aprvda3kxuww62zfddua 372 8 some some DT work_kkta46aprvda3kxuww62zfddua 372 9 of of IN work_kkta46aprvda3kxuww62zfddua 372 10 the the DT work_kkta46aprvda3kxuww62zfddua 372 11 halophilic halophilic JJ work_kkta46aprvda3kxuww62zfddua 372 12 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 372 13 have have VBP work_kkta46aprvda3kxuww62zfddua 372 14 a a DT work_kkta46aprvda3kxuww62zfddua 372 15 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 372 16 ion ion NN work_kkta46aprvda3kxuww62zfddua 372 17 binding binding NN work_kkta46aprvda3kxuww62zfddua 372 18 site site NN work_kkta46aprvda3kxuww62zfddua 372 19 : : : work_kkta46aprvda3kxuww62zfddua 372 20 but but CC work_kkta46aprvda3kxuww62zfddua 372 21 whether whether IN work_kkta46aprvda3kxuww62zfddua 372 22 the the DT work_kkta46aprvda3kxuww62zfddua 372 23 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 372 24 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 372 25 indeed indeed RB work_kkta46aprvda3kxuww62zfddua 372 26 uses use VBZ work_kkta46aprvda3kxuww62zfddua 372 27 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 372 28 or or CC work_kkta46aprvda3kxuww62zfddua 372 29 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 372 30 and and CC work_kkta46aprvda3kxuww62zfddua 372 31 H+ h+ ADD work_kkta46aprvda3kxuww62zfddua 372 32 has have VBZ work_kkta46aprvda3kxuww62zfddua 372 33 to to TO work_kkta46aprvda3kxuww62zfddua 372 34 be be VB work_kkta46aprvda3kxuww62zfddua 372 35 established establish VBN work_kkta46aprvda3kxuww62zfddua 372 36 . . . work_kkta46aprvda3kxuww62zfddua 373 1 Apart apart RB work_kkta46aprvda3kxuww62zfddua 373 2 from from IN work_kkta46aprvda3kxuww62zfddua 373 3 the the DT work_kkta46aprvda3kxuww62zfddua 373 4 Euryarchaeota Euryarchaeota NNP work_kkta46aprvda3kxuww62zfddua 373 5 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 373 6 Methanogens Methanogens NNP work_kkta46aprvda3kxuww62zfddua 373 7 , , , work_kkta46aprvda3kxuww62zfddua 373 8 Thermococci Thermococci NNP work_kkta46aprvda3kxuww62zfddua 373 9 and and CC work_kkta46aprvda3kxuww62zfddua 373 10 Pyrococci Pyrococci NNP work_kkta46aprvda3kxuww62zfddua 373 11 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 373 12 , , , work_kkta46aprvda3kxuww62zfddua 373 13 only only RB work_kkta46aprvda3kxuww62zfddua 373 14 the the DT work_kkta46aprvda3kxuww62zfddua 373 15 genera genera NN work_kkta46aprvda3kxuww62zfddua 373 16 Desulfurococcus Desulfurococcus NNP work_kkta46aprvda3kxuww62zfddua 373 17 , , , work_kkta46aprvda3kxuww62zfddua 373 18 Ignisphaera Ignisphaera NNP work_kkta46aprvda3kxuww62zfddua 373 19 and and CC work_kkta46aprvda3kxuww62zfddua 373 20 Staphylothermus Staphylothermus NNP work_kkta46aprvda3kxuww62zfddua 373 21 of of IN work_kkta46aprvda3kxuww62zfddua 373 22 the the DT work_kkta46aprvda3kxuww62zfddua 373 23 phylum phylum NN work_kkta46aprvda3kxuww62zfddua 373 24 Crenarchaeota Crenarchaeota NNP work_kkta46aprvda3kxuww62zfddua 373 25 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 373 26 86 86 CD work_kkta46aprvda3kxuww62zfddua 373 27 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 373 28 as as RB work_kkta46aprvda3kxuww62zfddua 373 29 well well RB work_kkta46aprvda3kxuww62zfddua 373 30 as as IN work_kkta46aprvda3kxuww62zfddua 373 31 Nanoarchaeum nanoarchaeum JJ work_kkta46aprvda3kxuww62zfddua 373 32 equitans equitan NNS work_kkta46aprvda3kxuww62zfddua 373 33 of of IN work_kkta46aprvda3kxuww62zfddua 373 34 the the DT work_kkta46aprvda3kxuww62zfddua 373 35 phylum phylum NN work_kkta46aprvda3kxuww62zfddua 373 36 Nanoarchaeota Nanoarchaeota NNP work_kkta46aprvda3kxuww62zfddua 373 37 have have VBP work_kkta46aprvda3kxuww62zfddua 373 38 the the DT work_kkta46aprvda3kxuww62zfddua 373 39 conserved conserve VBN work_kkta46aprvda3kxuww62zfddua 373 40 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 373 41 binding bind VBG work_kkta46aprvda3kxuww62zfddua 373 42 site site NN work_kkta46aprvda3kxuww62zfddua 373 43 . . . work_kkta46aprvda3kxuww62zfddua 374 1 Unfortunately unfortunately RB work_kkta46aprvda3kxuww62zfddua 374 2 , , , work_kkta46aprvda3kxuww62zfddua 374 3 nothing nothing NN work_kkta46aprvda3kxuww62zfddua 374 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 374 5 known know VBN work_kkta46aprvda3kxuww62zfddua 374 6 about about IN work_kkta46aprvda3kxuww62zfddua 374 7 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 374 8 physiology physiology NN work_kkta46aprvda3kxuww62zfddua 374 9 but but CC work_kkta46aprvda3kxuww62zfddua 374 10 it -PRON- PRP work_kkta46aprvda3kxuww62zfddua 374 11 can can MD work_kkta46aprvda3kxuww62zfddua 374 12 be be VB work_kkta46aprvda3kxuww62zfddua 374 13 concluded conclude VBN work_kkta46aprvda3kxuww62zfddua 374 14 that that IN work_kkta46aprvda3kxuww62zfddua 374 15 Na+ Na+ NNP work_kkta46aprvda3kxuww62zfddua 374 16 is be VBZ work_kkta46aprvda3kxuww62zfddua 374 17 important important JJ work_kkta46aprvda3kxuww62zfddua 374 18 for for IN work_kkta46aprvda3kxuww62zfddua 374 19 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 374 20 physiology physiology NN work_kkta46aprvda3kxuww62zfddua 374 21 . . . work_kkta46aprvda3kxuww62zfddua 375 1 Another another DT work_kkta46aprvda3kxuww62zfddua 375 2 adaptation adaptation NN work_kkta46aprvda3kxuww62zfddua 375 3 is be VBZ work_kkta46aprvda3kxuww62zfddua 375 4 the the DT work_kkta46aprvda3kxuww62zfddua 375 5 increase increase NN work_kkta46aprvda3kxuww62zfddua 375 6 in in IN work_kkta46aprvda3kxuww62zfddua 375 7 length length NN work_kkta46aprvda3kxuww62zfddua 375 8 of of IN work_kkta46aprvda3kxuww62zfddua 375 9 the the DT work_kkta46aprvda3kxuww62zfddua 375 10 c c NN work_kkta46aprvda3kxuww62zfddua 375 11 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 375 12 with with IN work_kkta46aprvda3kxuww62zfddua 375 13 in- in- JJ work_kkta46aprvda3kxuww62zfddua 375 14 creasing creasing NN work_kkta46aprvda3kxuww62zfddua 375 15 temperature temperature NN work_kkta46aprvda3kxuww62zfddua 375 16 . . . work_kkta46aprvda3kxuww62zfddua 376 1 At at IN work_kkta46aprvda3kxuww62zfddua 376 2 least least JJS work_kkta46aprvda3kxuww62zfddua 376 3 in in IN work_kkta46aprvda3kxuww62zfddua 376 4 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 376 5 , , , work_kkta46aprvda3kxuww62zfddua 376 6 there there EX work_kkta46aprvda3kxuww62zfddua 376 7 is be VBZ work_kkta46aprvda3kxuww62zfddua 376 8 a a DT work_kkta46aprvda3kxuww62zfddua 376 9 clear clear JJ work_kkta46aprvda3kxuww62zfddua 376 10 tendency tendency NN work_kkta46aprvda3kxuww62zfddua 376 11 from from IN work_kkta46aprvda3kxuww62zfddua 376 12 one one CD work_kkta46aprvda3kxuww62zfddua 376 13 hairpin hairpin NN work_kkta46aprvda3kxuww62zfddua 376 14 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 376 15 most most JJS work_kkta46aprvda3kxuww62zfddua 376 16 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 376 17 , , , work_kkta46aprvda3kxuww62zfddua 376 18 e. e. NNP work_kkta46aprvda3kxuww62zfddua 376 19 g. g. NNP work_kkta46aprvda3kxuww62zfddua 376 20 M. M. NNP work_kkta46aprvda3kxuww62zfddua 376 21 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 376 22 , , , work_kkta46aprvda3kxuww62zfddua 376 23 35 35 CD work_kkta46aprvda3kxuww62zfddua 376 24 ° ° , work_kkta46aprvda3kxuww62zfddua 376 25 C C NNP work_kkta46aprvda3kxuww62zfddua 376 26 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 376 27 to to IN work_kkta46aprvda3kxuww62zfddua 376 28 two two CD work_kkta46aprvda3kxuww62zfddua 376 29 hair- hair- NNS work_kkta46aprvda3kxuww62zfddua 376 30 pins pin NNS work_kkta46aprvda3kxuww62zfddua 376 31 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 376 32 M. M. NNP work_kkta46aprvda3kxuww62zfddua 376 33 thermautotrophicus thermautotrophicus NNP work_kkta46aprvda3kxuww62zfddua 376 34 , , , work_kkta46aprvda3kxuww62zfddua 376 35 70 70 CD work_kkta46aprvda3kxuww62zfddua 376 36 ° ° , work_kkta46aprvda3kxuww62zfddua 376 37 C C NNP work_kkta46aprvda3kxuww62zfddua 376 38 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 376 39 , , , work_kkta46aprvda3kxuww62zfddua 376 40 three three CD work_kkta46aprvda3kxuww62zfddua 376 41 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 376 42 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 376 43 M. M. NNP work_kkta46aprvda3kxuww62zfddua 376 44 jannaschii jannaschii NNP work_kkta46aprvda3kxuww62zfddua 376 45 , , , work_kkta46aprvda3kxuww62zfddua 376 46 85 85 CD work_kkta46aprvda3kxuww62zfddua 376 47 ° ° , work_kkta46aprvda3kxuww62zfddua 376 48 C C NNP work_kkta46aprvda3kxuww62zfddua 376 49 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 376 50 and and CC work_kkta46aprvda3kxuww62zfddua 376 51 13 13 CD work_kkta46aprvda3kxuww62zfddua 376 52 hairpins hairpin NNS work_kkta46aprvda3kxuww62zfddua 376 53 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 376 54 M. M. NNP work_kkta46aprvda3kxuww62zfddua 376 55 kandleri kandleri NNP work_kkta46aprvda3kxuww62zfddua 376 56 , , , work_kkta46aprvda3kxuww62zfddua 376 57 98 98 CD work_kkta46aprvda3kxuww62zfddua 376 58 ° ° , work_kkta46aprvda3kxuww62zfddua 376 59 C C NNP work_kkta46aprvda3kxuww62zfddua 376 60 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 376 61 . . . work_kkta46aprvda3kxuww62zfddua 377 1 The the DT work_kkta46aprvda3kxuww62zfddua 377 2 higher high JJR work_kkta46aprvda3kxuww62zfddua 377 3 the the DT work_kkta46aprvda3kxuww62zfddua 377 4 number number NN work_kkta46aprvda3kxuww62zfddua 377 5 of of IN work_kkta46aprvda3kxuww62zfddua 377 6 covalent covalent NN work_kkta46aprvda3kxuww62zfddua 377 7 linkages linkage VBZ work_kkta46aprvda3kxuww62zfddua 377 8 the the DT work_kkta46aprvda3kxuww62zfddua 377 9 higher high JJR work_kkta46aprvda3kxuww62zfddua 377 10 the the DT work_kkta46aprvda3kxuww62zfddua 377 11 stability stability NN work_kkta46aprvda3kxuww62zfddua 377 12 of of IN work_kkta46aprvda3kxuww62zfddua 377 13 the the DT work_kkta46aprvda3kxuww62zfddua 377 14 rotating rotating NN work_kkta46aprvda3kxuww62zfddua 377 15 c c NNP work_kkta46aprvda3kxuww62zfddua 377 16 ring ring NN work_kkta46aprvda3kxuww62zfddua 377 17 . . . work_kkta46aprvda3kxuww62zfddua 378 1 These these DT work_kkta46aprvda3kxuww62zfddua 378 2 arguments argument NNS work_kkta46aprvda3kxuww62zfddua 378 3 may may MD work_kkta46aprvda3kxuww62zfddua 378 4 be be VB work_kkta46aprvda3kxuww62zfddua 378 5 true true JJ work_kkta46aprvda3kxuww62zfddua 378 6 for for IN work_kkta46aprvda3kxuww62zfddua 378 7 the the DT work_kkta46aprvda3kxuww62zfddua 378 8 two two CD work_kkta46aprvda3kxuww62zfddua 378 9 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 378 10 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 378 11 that that WDT work_kkta46aprvda3kxuww62zfddua 378 12 may may MD work_kkta46aprvda3kxuww62zfddua 378 13 gives give VBZ work_kkta46aprvda3kxuww62zfddua 378 14 additional additional JJ work_kkta46aprvda3kxuww62zfddua 378 15 stabil- stabil- XX work_kkta46aprvda3kxuww62zfddua 378 16 ity ity NN work_kkta46aprvda3kxuww62zfddua 378 17 to to IN work_kkta46aprvda3kxuww62zfddua 378 18 the the DT work_kkta46aprvda3kxuww62zfddua 378 19 rotating rotating NN work_kkta46aprvda3kxuww62zfddua 378 20 nanomachine nanomachine NN work_kkta46aprvda3kxuww62zfddua 378 21 . . . work_kkta46aprvda3kxuww62zfddua 379 1 7 7 LS work_kkta46aprvda3kxuww62zfddua 379 2 . . . work_kkta46aprvda3kxuww62zfddua 380 1 Conclusion conclusion NN work_kkta46aprvda3kxuww62zfddua 380 2 A1AO a1ao NN work_kkta46aprvda3kxuww62zfddua 380 3 ATP atp NN work_kkta46aprvda3kxuww62zfddua 380 4 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 380 5 of of IN work_kkta46aprvda3kxuww62zfddua 380 6 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 380 7 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 380 8 have have VBP work_kkta46aprvda3kxuww62zfddua 380 9 unique unique JJ work_kkta46aprvda3kxuww62zfddua 380 10 structural structural JJ work_kkta46aprvda3kxuww62zfddua 380 11 and and CC work_kkta46aprvda3kxuww62zfddua 380 12 functional functional JJ work_kkta46aprvda3kxuww62zfddua 380 13 features feature NNS work_kkta46aprvda3kxuww62zfddua 380 14 , , , work_kkta46aprvda3kxuww62zfddua 380 15 including include VBG work_kkta46aprvda3kxuww62zfddua 380 16 an an DT work_kkta46aprvda3kxuww62zfddua 380 17 optimized optimize VBN work_kkta46aprvda3kxuww62zfddua 380 18 P P NNP work_kkta46aprvda3kxuww62zfddua 380 19 - - HYPH work_kkta46aprvda3kxuww62zfddua 380 20 loop loop NN work_kkta46aprvda3kxuww62zfddua 380 21 design design NN work_kkta46aprvda3kxuww62zfddua 380 22 of of IN work_kkta46aprvda3kxuww62zfddua 380 23 the the DT work_kkta46aprvda3kxuww62zfddua 380 24 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 380 25 A a DT work_kkta46aprvda3kxuww62zfddua 380 26 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 380 27 , , , work_kkta46aprvda3kxuww62zfddua 380 28 enabling enable VBG work_kkta46aprvda3kxuww62zfddua 380 29 the the DT work_kkta46aprvda3kxuww62zfddua 380 30 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 380 31 to to TO work_kkta46aprvda3kxuww62zfddua 380 32 catalyze catalyze VB work_kkta46aprvda3kxuww62zfddua 380 33 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 380 34 apart apart RB work_kkta46aprvda3kxuww62zfddua 380 35 from from IN work_kkta46aprvda3kxuww62zfddua 380 36 GTP GTP NNP work_kkta46aprvda3kxuww62zfddua 380 37 and and CC work_kkta46aprvda3kxuww62zfddua 380 38 UTP UTP NNP work_kkta46aprvda3kxuww62zfddua 380 39 . . . work_kkta46aprvda3kxuww62zfddua 381 1 The the DT work_kkta46aprvda3kxuww62zfddua 381 2 80 80 CD work_kkta46aprvda3kxuww62zfddua 381 3 Å Å NNP work_kkta46aprvda3kxuww62zfddua 381 4 long long JJ work_kkta46aprvda3kxuww62zfddua 381 5 central central JJ work_kkta46aprvda3kxuww62zfddua 381 6 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 381 7 with with IN work_kkta46aprvda3kxuww62zfddua 381 8 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 381 9 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 381 10 C c NN work_kkta46aprvda3kxuww62zfddua 381 11 , , , work_kkta46aprvda3kxuww62zfddua 381 12 D d NN work_kkta46aprvda3kxuww62zfddua 381 13 and and CC work_kkta46aprvda3kxuww62zfddua 381 14 F F NNP work_kkta46aprvda3kxuww62zfddua 381 15 , , , work_kkta46aprvda3kxuww62zfddua 381 16 reflects reflect VBZ work_kkta46aprvda3kxuww62zfddua 381 17 a a DT work_kkta46aprvda3kxuww62zfddua 381 18 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 381 19 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 381 20 diverse diverse JJ work_kkta46aprvda3kxuww62zfddua 381 21 to to IN work_kkta46aprvda3kxuww62zfddua 381 22 the the DT work_kkta46aprvda3kxuww62zfddua 381 23 Wankel Wankel NNP work_kkta46aprvda3kxuww62zfddua 381 24 engine engine NN work_kkta46aprvda3kxuww62zfddua 381 25 like like IN work_kkta46aprvda3kxuww62zfddua 381 26 form form NN work_kkta46aprvda3kxuww62zfddua 381 27 , , , work_kkta46aprvda3kxuww62zfddua 381 28 described describe VBN work_kkta46aprvda3kxuww62zfddua 381 29 for for IN work_kkta46aprvda3kxuww62zfddua 381 30 the the DT work_kkta46aprvda3kxuww62zfddua 381 31 γ γ NN work_kkta46aprvda3kxuww62zfddua 381 32 – – : work_kkta46aprvda3kxuww62zfddua 381 33 ε ε NN work_kkta46aprvda3kxuww62zfddua 381 34 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 381 35 ensemble ensemble NN work_kkta46aprvda3kxuww62zfddua 381 36 of of IN work_kkta46aprvda3kxuww62zfddua 381 37 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 381 38 ATP atp NN work_kkta46aprvda3kxuww62zfddua 381 39 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 381 40 . . . work_kkta46aprvda3kxuww62zfddua 382 1 A a DT work_kkta46aprvda3kxuww62zfddua 382 2 hallmark hallmark NN work_kkta46aprvda3kxuww62zfddua 382 3 of of IN work_kkta46aprvda3kxuww62zfddua 382 4 the the DT work_kkta46aprvda3kxuww62zfddua 382 5 classification classification NN work_kkta46aprvda3kxuww62zfddua 382 6 of of IN work_kkta46aprvda3kxuww62zfddua 382 7 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 382 8 ATP atp NN work_kkta46aprvda3kxuww62zfddua 382 9 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 382 10 is be VBZ work_kkta46aprvda3kxuww62zfddua 382 11 the the DT work_kkta46aprvda3kxuww62zfddua 382 12 number number NN work_kkta46aprvda3kxuww62zfddua 382 13 951G. 951g. NN work_kkta46aprvda3kxuww62zfddua 383 1 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 383 2 et et FW work_kkta46aprvda3kxuww62zfddua 383 3 al al NNP work_kkta46aprvda3kxuww62zfddua 383 4 . . . work_kkta46aprvda3kxuww62zfddua 384 1 / / NFP work_kkta46aprvda3kxuww62zfddua 384 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 384 3 et et NN work_kkta46aprvda3kxuww62zfddua 384 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 384 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 384 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 384 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 384 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 384 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 384 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 384 11 and and CC work_kkta46aprvda3kxuww62zfddua 384 12 structures structure NNS work_kkta46aprvda3kxuww62zfddua 384 13 of of IN work_kkta46aprvda3kxuww62zfddua 384 14 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 384 15 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 384 16 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 384 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 384 18 E e NN work_kkta46aprvda3kxuww62zfddua 384 19 – – : work_kkta46aprvda3kxuww62zfddua 384 20 H h NN work_kkta46aprvda3kxuww62zfddua 384 21 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 384 22 . . . work_kkta46aprvda3kxuww62zfddua 385 1 A a DT work_kkta46aprvda3kxuww62zfddua 385 2 primary primary JJ work_kkta46aprvda3kxuww62zfddua 385 3 function function NN work_kkta46aprvda3kxuww62zfddua 385 4 is be VBZ work_kkta46aprvda3kxuww62zfddua 385 5 to to TO work_kkta46aprvda3kxuww62zfddua 385 6 allow allow VB work_kkta46aprvda3kxuww62zfddua 385 7 the the DT work_kkta46aprvda3kxuww62zfddua 385 8 rotary rotary JJ work_kkta46aprvda3kxuww62zfddua 385 9 elements element NNS work_kkta46aprvda3kxuww62zfddua 385 10 of of IN work_kkta46aprvda3kxuww62zfddua 385 11 AO AO NNP work_kkta46aprvda3kxuww62zfddua 385 12 and and CC work_kkta46aprvda3kxuww62zfddua 385 13 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 385 14 to to TO work_kkta46aprvda3kxuww62zfddua 385 15 move move VB work_kkta46aprvda3kxuww62zfddua 385 16 relative relative JJ work_kkta46aprvda3kxuww62zfddua 385 17 to to IN work_kkta46aprvda3kxuww62zfddua 385 18 each each DT work_kkta46aprvda3kxuww62zfddua 385 19 other other JJ work_kkta46aprvda3kxuww62zfddua 385 20 . . . work_kkta46aprvda3kxuww62zfddua 386 1 Their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 386 2 importance importance NN work_kkta46aprvda3kxuww62zfddua 386 3 for for IN work_kkta46aprvda3kxuww62zfddua 386 4 regulation regulation NN work_kkta46aprvda3kxuww62zfddua 386 5 and and CC work_kkta46aprvda3kxuww62zfddua 386 6 fine fine NN work_kkta46aprvda3kxuww62zfddua 386 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 386 8 tuning tuning NN work_kkta46aprvda3kxuww62zfddua 386 9 of of IN work_kkta46aprvda3kxuww62zfddua 386 10 the the DT work_kkta46aprvda3kxuww62zfddua 386 11 entire entire JJ work_kkta46aprvda3kxuww62zfddua 386 12 enzyme enzyme NNS work_kkta46aprvda3kxuww62zfddua 386 13 will will MD work_kkta46aprvda3kxuww62zfddua 386 14 be be VB work_kkta46aprvda3kxuww62zfddua 386 15 a a DT work_kkta46aprvda3kxuww62zfddua 386 16 topic topic NN work_kkta46aprvda3kxuww62zfddua 386 17 for for IN work_kkta46aprvda3kxuww62zfddua 386 18 the the DT work_kkta46aprvda3kxuww62zfddua 386 19 near near JJ work_kkta46aprvda3kxuww62zfddua 386 20 future future NN work_kkta46aprvda3kxuww62zfddua 386 21 . . . work_kkta46aprvda3kxuww62zfddua 387 1 So so RB work_kkta46aprvda3kxuww62zfddua 387 2 far far RB work_kkta46aprvda3kxuww62zfddua 387 3 , , , work_kkta46aprvda3kxuww62zfddua 387 4 biochemical biochemical JJ work_kkta46aprvda3kxuww62zfddua 387 5 and and CC work_kkta46aprvda3kxuww62zfddua 387 6 structural structural JJ work_kkta46aprvda3kxuww62zfddua 387 7 work work NN work_kkta46aprvda3kxuww62zfddua 387 8 on on IN work_kkta46aprvda3kxuww62zfddua 387 9 these these DT work_kkta46aprvda3kxuww62zfddua 387 10 unique unique JJ work_kkta46aprvda3kxuww62zfddua 387 11 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 387 12 has have VBZ work_kkta46aprvda3kxuww62zfddua 387 13 been be VBN work_kkta46aprvda3kxuww62zfddua 387 14 done do VBN work_kkta46aprvda3kxuww62zfddua 387 15 with with IN work_kkta46aprvda3kxuww62zfddua 387 16 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 387 17 isolated isolate VBN work_kkta46aprvda3kxuww62zfddua 387 18 directly directly RB work_kkta46aprvda3kxuww62zfddua 387 19 from from IN work_kkta46aprvda3kxuww62zfddua 387 20 cells cell NNS work_kkta46aprvda3kxuww62zfddua 387 21 of of IN work_kkta46aprvda3kxuww62zfddua 387 22 these these DT work_kkta46aprvda3kxuww62zfddua 387 23 hyperthermophiles hyperthermophile NNS work_kkta46aprvda3kxuww62zfddua 387 24 . . . work_kkta46aprvda3kxuww62zfddua 388 1 Since since IN work_kkta46aprvda3kxuww62zfddua 388 2 these these DT work_kkta46aprvda3kxuww62zfddua 388 3 are be VBP work_kkta46aprvda3kxuww62zfddua 388 4 difficult difficult JJ work_kkta46aprvda3kxuww62zfddua 388 5 to to TO work_kkta46aprvda3kxuww62zfddua 388 6 grow grow VB work_kkta46aprvda3kxuww62zfddua 388 7 and and CC work_kkta46aprvda3kxuww62zfddua 388 8 yields yield NNS work_kkta46aprvda3kxuww62zfddua 388 9 are be VBP work_kkta46aprvda3kxuww62zfddua 388 10 low low JJ work_kkta46aprvda3kxuww62zfddua 388 11 , , , work_kkta46aprvda3kxuww62zfddua 388 12 biochemical biochemical JJ work_kkta46aprvda3kxuww62zfddua 388 13 analyses analysis NNS work_kkta46aprvda3kxuww62zfddua 388 14 are be VBP work_kkta46aprvda3kxuww62zfddua 388 15 a a DT work_kkta46aprvda3kxuww62zfddua 388 16 challenge challenge NN work_kkta46aprvda3kxuww62zfddua 388 17 and and CC work_kkta46aprvda3kxuww62zfddua 388 18 not not RB work_kkta46aprvda3kxuww62zfddua 388 19 possible possible JJ work_kkta46aprvda3kxuww62zfddua 388 20 for for IN work_kkta46aprvda3kxuww62zfddua 388 21 many many JJ work_kkta46aprvda3kxuww62zfddua 388 22 interesting interesting JJ work_kkta46aprvda3kxuww62zfddua 388 23 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 388 24 . . . work_kkta46aprvda3kxuww62zfddua 389 1 The the DT work_kkta46aprvda3kxuww62zfddua 389 2 advent advent NN work_kkta46aprvda3kxuww62zfddua 389 3 of of IN work_kkta46aprvda3kxuww62zfddua 389 4 genetic genetic JJ work_kkta46aprvda3kxuww62zfddua 389 5 systems system NNS work_kkta46aprvda3kxuww62zfddua 389 6 , , , work_kkta46aprvda3kxuww62zfddua 389 7 overexpression overexpression NN work_kkta46aprvda3kxuww62zfddua 389 8 , , , work_kkta46aprvda3kxuww62zfddua 389 9 tagging tagging NN work_kkta46aprvda3kxuww62zfddua 389 10 and and CC work_kkta46aprvda3kxuww62zfddua 389 11 affinity affinity NN work_kkta46aprvda3kxuww62zfddua 389 12 purification purification NN work_kkta46aprvda3kxuww62zfddua 389 13 will will MD work_kkta46aprvda3kxuww62zfddua 389 14 bring bring VB work_kkta46aprvda3kxuww62zfddua 389 15 the the DT work_kkta46aprvda3kxuww62zfddua 389 16 field field NN work_kkta46aprvda3kxuww62zfddua 389 17 into into IN work_kkta46aprvda3kxuww62zfddua 389 18 the the DT work_kkta46aprvda3kxuww62zfddua 389 19 next next JJ work_kkta46aprvda3kxuww62zfddua 389 20 round round NN work_kkta46aprvda3kxuww62zfddua 389 21 . . . work_kkta46aprvda3kxuww62zfddua 390 1 There there EX work_kkta46aprvda3kxuww62zfddua 390 2 is be VBZ work_kkta46aprvda3kxuww62zfddua 390 3 still still RB work_kkta46aprvda3kxuww62zfddua 390 4 lot lot NN work_kkta46aprvda3kxuww62zfddua 390 5 to to TO work_kkta46aprvda3kxuww62zfddua 390 6 do do VB work_kkta46aprvda3kxuww62zfddua 390 7 to to TO work_kkta46aprvda3kxuww62zfddua 390 8 unravel unravel VB work_kkta46aprvda3kxuww62zfddua 390 9 the the DT work_kkta46aprvda3kxuww62zfddua 390 10 beauty beauty NN work_kkta46aprvda3kxuww62zfddua 390 11 of of IN work_kkta46aprvda3kxuww62zfddua 390 12 these these DT work_kkta46aprvda3kxuww62zfddua 390 13 fascinating fascinating JJ work_kkta46aprvda3kxuww62zfddua 390 14 enzymes enzyme NNS work_kkta46aprvda3kxuww62zfddua 390 15 . . . work_kkta46aprvda3kxuww62zfddua 391 1 Acknowledgments acknowledgment NNS work_kkta46aprvda3kxuww62zfddua 391 2 This this DT work_kkta46aprvda3kxuww62zfddua 391 3 work work NN work_kkta46aprvda3kxuww62zfddua 391 4 was be VBD work_kkta46aprvda3kxuww62zfddua 391 5 supported support VBN work_kkta46aprvda3kxuww62zfddua 391 6 by by IN work_kkta46aprvda3kxuww62zfddua 391 7 a a DT work_kkta46aprvda3kxuww62zfddua 391 8 grant grant NN work_kkta46aprvda3kxuww62zfddua 391 9 from from IN work_kkta46aprvda3kxuww62zfddua 391 10 the the DT work_kkta46aprvda3kxuww62zfddua 391 11 Deutsche Deutsche NNP work_kkta46aprvda3kxuww62zfddua 391 12 Forschungsgemeinschaft Forschungsgemeinschaft NNP work_kkta46aprvda3kxuww62zfddua 391 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 391 14 through through IN work_kkta46aprvda3kxuww62zfddua 391 15 SFB SFB NNP work_kkta46aprvda3kxuww62zfddua 391 16 807 807 CD work_kkta46aprvda3kxuww62zfddua 391 17 , , , work_kkta46aprvda3kxuww62zfddua 391 18 V. V. NNP work_kkta46aprvda3kxuww62zfddua 391 19 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 391 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 391 21 and and CC work_kkta46aprvda3kxuww62zfddua 391 22 the the DT work_kkta46aprvda3kxuww62zfddua 391 23 Ministry Ministry NNP work_kkta46aprvda3kxuww62zfddua 391 24 of of IN work_kkta46aprvda3kxuww62zfddua 391 25 Education Education NNP work_kkta46aprvda3kxuww62zfddua 391 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 391 27 Singapore Singapore NNP work_kkta46aprvda3kxuww62zfddua 391 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 391 29 MOE MOE NNP work_kkta46aprvda3kxuww62zfddua 391 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 391 31 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 391 32 MOE2011-T2 MOE2011-T2 NNP work_kkta46aprvda3kxuww62zfddua 391 33 - - HYPH work_kkta46aprvda3kxuww62zfddua 391 34 2 2 CD work_kkta46aprvda3kxuww62zfddua 391 35 - - HYPH work_kkta46aprvda3kxuww62zfddua 391 36 156 156 CD work_kkta46aprvda3kxuww62zfddua 391 37 ; ; : work_kkta46aprvda3kxuww62zfddua 391 38 ARC ARC NNP work_kkta46aprvda3kxuww62zfddua 391 39 18/12 18/12 CD work_kkta46aprvda3kxuww62zfddua 391 40 ; ; : work_kkta46aprvda3kxuww62zfddua 391 41 G. G. NNP work_kkta46aprvda3kxuww62zfddua 391 42 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 391 43 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 391 44 . . . work_kkta46aprvda3kxuww62zfddua 392 1 References reference NNS work_kkta46aprvda3kxuww62zfddua 392 2 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 392 3 1 1 CD work_kkta46aprvda3kxuww62zfddua 392 4 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 392 5 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 393 1 Stetter stetter VB work_kkta46aprvda3kxuww62zfddua 393 2 , , , work_kkta46aprvda3kxuww62zfddua 393 3 History history NN work_kkta46aprvda3kxuww62zfddua 393 4 of of IN work_kkta46aprvda3kxuww62zfddua 393 5 discovery discovery NN work_kkta46aprvda3kxuww62zfddua 393 6 of of IN work_kkta46aprvda3kxuww62zfddua 393 7 the the DT work_kkta46aprvda3kxuww62zfddua 393 8 first first JJ work_kkta46aprvda3kxuww62zfddua 393 9 hyperthermophiles hyperthermophile NNS work_kkta46aprvda3kxuww62zfddua 393 10 , , , work_kkta46aprvda3kxuww62zfddua 393 11 Extremophiles Extremophiles NNP work_kkta46aprvda3kxuww62zfddua 393 12 10 10 CD work_kkta46aprvda3kxuww62zfddua 393 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 393 14 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 393 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 393 16 357–362 357–362 CD work_kkta46aprvda3kxuww62zfddua 393 17 . . . work_kkta46aprvda3kxuww62zfddua 394 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 394 2 2 2 LS work_kkta46aprvda3kxuww62zfddua 394 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 394 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 394 5 Fiala Fiala NNP work_kkta46aprvda3kxuww62zfddua 394 6 , , , work_kkta46aprvda3kxuww62zfddua 394 7 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 395 1 Stetter Stetter NNP work_kkta46aprvda3kxuww62zfddua 395 2 , , , work_kkta46aprvda3kxuww62zfddua 395 3 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 395 4 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 395 5 sp sp NNP work_kkta46aprvda3kxuww62zfddua 395 6 . . . work_kkta46aprvda3kxuww62zfddua 396 1 nov nov NNP work_kkta46aprvda3kxuww62zfddua 396 2 . . NNP work_kkta46aprvda3kxuww62zfddua 396 3 represents represent VBZ work_kkta46aprvda3kxuww62zfddua 396 4 a a DT work_kkta46aprvda3kxuww62zfddua 396 5 novel novel JJ work_kkta46aprvda3kxuww62zfddua 396 6 genus genus NN work_kkta46aprvda3kxuww62zfddua 396 7 of of IN work_kkta46aprvda3kxuww62zfddua 396 8 marine marine JJ work_kkta46aprvda3kxuww62zfddua 396 9 heterotrophic heterotrophic JJ work_kkta46aprvda3kxuww62zfddua 396 10 archaebacteria archaebacteria NNP work_kkta46aprvda3kxuww62zfddua 396 11 growing grow VBG work_kkta46aprvda3kxuww62zfddua 396 12 optimally optimally RB work_kkta46aprvda3kxuww62zfddua 396 13 at at IN work_kkta46aprvda3kxuww62zfddua 396 14 100 100 CD work_kkta46aprvda3kxuww62zfddua 396 15 ° ° NNS work_kkta46aprvda3kxuww62zfddua 396 16 C C NNP work_kkta46aprvda3kxuww62zfddua 396 17 , , , work_kkta46aprvda3kxuww62zfddua 396 18 Arch Arch NNP work_kkta46aprvda3kxuww62zfddua 396 19 . . . work_kkta46aprvda3kxuww62zfddua 397 1 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 397 2 . . . work_kkta46aprvda3kxuww62zfddua 398 1 145 145 CD work_kkta46aprvda3kxuww62zfddua 398 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 398 3 1986 1986 CD work_kkta46aprvda3kxuww62zfddua 398 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 398 5 56–61 56–61 JJ work_kkta46aprvda3kxuww62zfddua 398 6 . . . work_kkta46aprvda3kxuww62zfddua 399 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 399 2 3 3 CD work_kkta46aprvda3kxuww62zfddua 399 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 399 4 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 400 1 Stetter Stetter NNP work_kkta46aprvda3kxuww62zfddua 400 2 , , , work_kkta46aprvda3kxuww62zfddua 400 3 H. H. NNP work_kkta46aprvda3kxuww62zfddua 400 4 König König NNP work_kkta46aprvda3kxuww62zfddua 400 5 , , , work_kkta46aprvda3kxuww62zfddua 400 6 E. E. NNP work_kkta46aprvda3kxuww62zfddua 400 7 Stackebrandt Stackebrandt NNP work_kkta46aprvda3kxuww62zfddua 400 8 , , , work_kkta46aprvda3kxuww62zfddua 400 9 Pyrodictium Pyrodictium NNP work_kkta46aprvda3kxuww62zfddua 400 10 gen gen NNP work_kkta46aprvda3kxuww62zfddua 400 11 . . NNP work_kkta46aprvda3kxuww62zfddua 400 12 nov nov NNP work_kkta46aprvda3kxuww62zfddua 400 13 . . NNP work_kkta46aprvda3kxuww62zfddua 400 14 , , , work_kkta46aprvda3kxuww62zfddua 400 15 a a DT work_kkta46aprvda3kxuww62zfddua 400 16 new new JJ work_kkta46aprvda3kxuww62zfddua 400 17 genus genus NN work_kkta46aprvda3kxuww62zfddua 400 18 of of IN work_kkta46aprvda3kxuww62zfddua 400 19 submarine submarine NN work_kkta46aprvda3kxuww62zfddua 400 20 disc disc NN work_kkta46aprvda3kxuww62zfddua 400 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 400 22 shaped shape VBN work_kkta46aprvda3kxuww62zfddua 400 23 sulphur sulphur NNP work_kkta46aprvda3kxuww62zfddua 400 24 reducing reduce VBG work_kkta46aprvda3kxuww62zfddua 400 25 archaebacteria archaebacteria NNP work_kkta46aprvda3kxuww62zfddua 400 26 growing grow VBG work_kkta46aprvda3kxuww62zfddua 400 27 optimally optimally RB work_kkta46aprvda3kxuww62zfddua 400 28 at at IN work_kkta46aprvda3kxuww62zfddua 400 29 105 105 CD work_kkta46aprvda3kxuww62zfddua 400 30 ° ° NNS work_kkta46aprvda3kxuww62zfddua 400 31 C C NNP work_kkta46aprvda3kxuww62zfddua 400 32 , , , work_kkta46aprvda3kxuww62zfddua 400 33 Syst Syst NNP work_kkta46aprvda3kxuww62zfddua 400 34 . . . work_kkta46aprvda3kxuww62zfddua 401 1 Appl Appl NNP work_kkta46aprvda3kxuww62zfddua 401 2 . . . work_kkta46aprvda3kxuww62zfddua 402 1 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 402 2 . . . work_kkta46aprvda3kxuww62zfddua 403 1 4 4 CD work_kkta46aprvda3kxuww62zfddua 403 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 403 3 1983 1983 CD work_kkta46aprvda3kxuww62zfddua 403 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 403 5 535–551 535–551 CD work_kkta46aprvda3kxuww62zfddua 403 6 . . . work_kkta46aprvda3kxuww62zfddua 404 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 404 2 4 4 CD work_kkta46aprvda3kxuww62zfddua 404 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 404 4 W. W. NNP work_kkta46aprvda3kxuww62zfddua 404 5 Zillig Zillig NNP work_kkta46aprvda3kxuww62zfddua 404 6 , , , work_kkta46aprvda3kxuww62zfddua 404 7 I. I. NNP work_kkta46aprvda3kxuww62zfddua 404 8 Holz Holz NNP work_kkta46aprvda3kxuww62zfddua 404 9 , , , work_kkta46aprvda3kxuww62zfddua 404 10 D. D. NNP work_kkta46aprvda3kxuww62zfddua 404 11 Janekovic Janekovic NNP work_kkta46aprvda3kxuww62zfddua 404 12 , , , work_kkta46aprvda3kxuww62zfddua 404 13 H.P. H.P. NNP work_kkta46aprvda3kxuww62zfddua 405 1 Klenk Klenk NNP work_kkta46aprvda3kxuww62zfddua 405 2 , , , work_kkta46aprvda3kxuww62zfddua 405 3 E. E. NNP work_kkta46aprvda3kxuww62zfddua 405 4 Imsel Imsel NNP work_kkta46aprvda3kxuww62zfddua 405 5 , , , work_kkta46aprvda3kxuww62zfddua 405 6 J. J. NNP work_kkta46aprvda3kxuww62zfddua 405 7 Trent Trent NNP work_kkta46aprvda3kxuww62zfddua 405 8 , , , work_kkta46aprvda3kxuww62zfddua 405 9 S. S. NNP work_kkta46aprvda3kxuww62zfddua 405 10 Wunderl Wunderl NNP work_kkta46aprvda3kxuww62zfddua 405 11 , , , work_kkta46aprvda3kxuww62zfddua 405 12 V.H. V.H. NNP work_kkta46aprvda3kxuww62zfddua 406 1 Forjaz Forjaz NNP work_kkta46aprvda3kxuww62zfddua 406 2 , , , work_kkta46aprvda3kxuww62zfddua 406 3 R. R. NNP work_kkta46aprvda3kxuww62zfddua 406 4 Coutinho Coutinho NNP work_kkta46aprvda3kxuww62zfddua 406 5 , , , work_kkta46aprvda3kxuww62zfddua 406 6 T. T. NNP work_kkta46aprvda3kxuww62zfddua 406 7 Ferreira Ferreira NNP work_kkta46aprvda3kxuww62zfddua 406 8 , , , work_kkta46aprvda3kxuww62zfddua 406 9 Hyperthermus Hyperthermus NNP work_kkta46aprvda3kxuww62zfddua 406 10 butylicus butylicus NN work_kkta46aprvda3kxuww62zfddua 406 11 , , , work_kkta46aprvda3kxuww62zfddua 406 12 a a DT work_kkta46aprvda3kxuww62zfddua 406 13 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 406 14 sulfur sulfur NN work_kkta46aprvda3kxuww62zfddua 406 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 406 16 reducing reduce VBG work_kkta46aprvda3kxuww62zfddua 406 17 ar- ar- NNP work_kkta46aprvda3kxuww62zfddua 406 18 chaebacterium chaebacterium NN work_kkta46aprvda3kxuww62zfddua 406 19 that that IN work_kkta46aprvda3kxuww62zfddua 406 20 ferments ferment NNS work_kkta46aprvda3kxuww62zfddua 406 21 peptides peptide NNS work_kkta46aprvda3kxuww62zfddua 406 22 , , , work_kkta46aprvda3kxuww62zfddua 406 23 J. J. NNP work_kkta46aprvda3kxuww62zfddua 406 24 Bacteriol Bacteriol NNP work_kkta46aprvda3kxuww62zfddua 406 25 . . . work_kkta46aprvda3kxuww62zfddua 407 1 172 172 CD work_kkta46aprvda3kxuww62zfddua 407 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 407 3 1990 1990 CD work_kkta46aprvda3kxuww62zfddua 407 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 407 5 3959–3965 3959–3965 CD work_kkta46aprvda3kxuww62zfddua 407 6 . . . work_kkta46aprvda3kxuww62zfddua 408 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 408 2 5 5 CD work_kkta46aprvda3kxuww62zfddua 408 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 408 4 M. M. NNP work_kkta46aprvda3kxuww62zfddua 408 5 Kurr Kurr NNP work_kkta46aprvda3kxuww62zfddua 408 6 , , , work_kkta46aprvda3kxuww62zfddua 408 7 R. R. NNP work_kkta46aprvda3kxuww62zfddua 408 8 Huber Huber NNP work_kkta46aprvda3kxuww62zfddua 408 9 , , , work_kkta46aprvda3kxuww62zfddua 408 10 H. H. NNP work_kkta46aprvda3kxuww62zfddua 408 11 Konig Konig NNP work_kkta46aprvda3kxuww62zfddua 408 12 , , , work_kkta46aprvda3kxuww62zfddua 408 13 H.W. H.W. NNP work_kkta46aprvda3kxuww62zfddua 409 1 Jannasch Jannasch NNP work_kkta46aprvda3kxuww62zfddua 409 2 , , , work_kkta46aprvda3kxuww62zfddua 409 3 H. H. NNP work_kkta46aprvda3kxuww62zfddua 409 4 Fricke Fricke NNP work_kkta46aprvda3kxuww62zfddua 409 5 , , , work_kkta46aprvda3kxuww62zfddua 409 6 A. a. NN work_kkta46aprvda3kxuww62zfddua 409 7 Trincone Trincone NNP work_kkta46aprvda3kxuww62zfddua 409 8 , , , work_kkta46aprvda3kxuww62zfddua 409 9 J.K. J.K. NNP work_kkta46aprvda3kxuww62zfddua 409 10 Kristjansson Kristjansson NNP work_kkta46aprvda3kxuww62zfddua 409 11 , , , work_kkta46aprvda3kxuww62zfddua 409 12 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 410 1 Stetter stetter VB work_kkta46aprvda3kxuww62zfddua 410 2 , , , work_kkta46aprvda3kxuww62zfddua 410 3 Methanopyrus Methanopyrus NNP work_kkta46aprvda3kxuww62zfddua 410 4 kandleri kandleri NN work_kkta46aprvda3kxuww62zfddua 410 5 , , , work_kkta46aprvda3kxuww62zfddua 410 6 gen gen NNP work_kkta46aprvda3kxuww62zfddua 410 7 . . NNP work_kkta46aprvda3kxuww62zfddua 410 8 and and CC work_kkta46aprvda3kxuww62zfddua 410 9 sp sp NNP work_kkta46aprvda3kxuww62zfddua 410 10 . . . work_kkta46aprvda3kxuww62zfddua 411 1 nov nov NNP work_kkta46aprvda3kxuww62zfddua 411 2 . . NNP work_kkta46aprvda3kxuww62zfddua 411 3 represents represent VBZ work_kkta46aprvda3kxuww62zfddua 411 4 a a DT work_kkta46aprvda3kxuww62zfddua 411 5 novel novel JJ work_kkta46aprvda3kxuww62zfddua 411 6 group group NN work_kkta46aprvda3kxuww62zfddua 411 7 of of IN work_kkta46aprvda3kxuww62zfddua 411 8 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 411 9 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 411 10 , , , work_kkta46aprvda3kxuww62zfddua 411 11 growing grow VBG work_kkta46aprvda3kxuww62zfddua 411 12 at at IN work_kkta46aprvda3kxuww62zfddua 411 13 110 110 CD work_kkta46aprvda3kxuww62zfddua 411 14 ° ° NNS work_kkta46aprvda3kxuww62zfddua 411 15 C C NNP work_kkta46aprvda3kxuww62zfddua 411 16 , , , work_kkta46aprvda3kxuww62zfddua 411 17 Arch Arch NNP work_kkta46aprvda3kxuww62zfddua 411 18 . . . work_kkta46aprvda3kxuww62zfddua 412 1 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 412 2 . . . work_kkta46aprvda3kxuww62zfddua 413 1 156 156 CD work_kkta46aprvda3kxuww62zfddua 413 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 413 3 1991 1991 CD work_kkta46aprvda3kxuww62zfddua 413 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 413 5 239–247 239–247 CD work_kkta46aprvda3kxuww62zfddua 413 6 . . . work_kkta46aprvda3kxuww62zfddua 414 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 414 2 6 6 CD work_kkta46aprvda3kxuww62zfddua 414 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 414 4 E. E. NNP work_kkta46aprvda3kxuww62zfddua 414 5 Blöchl Blöchl NNP work_kkta46aprvda3kxuww62zfddua 414 6 , , , work_kkta46aprvda3kxuww62zfddua 414 7 R. R. NNP work_kkta46aprvda3kxuww62zfddua 414 8 Rachel Rachel NNP work_kkta46aprvda3kxuww62zfddua 414 9 , , , work_kkta46aprvda3kxuww62zfddua 414 10 S. S. NNP work_kkta46aprvda3kxuww62zfddua 414 11 Burggraf Burggraf NNP work_kkta46aprvda3kxuww62zfddua 414 12 , , , work_kkta46aprvda3kxuww62zfddua 414 13 D. D. NNP work_kkta46aprvda3kxuww62zfddua 414 14 Hafenbradl Hafenbradl NNP work_kkta46aprvda3kxuww62zfddua 414 15 , , , work_kkta46aprvda3kxuww62zfddua 414 16 H.W. H.W. NNP work_kkta46aprvda3kxuww62zfddua 415 1 Jannasch Jannasch NNP work_kkta46aprvda3kxuww62zfddua 415 2 , , , work_kkta46aprvda3kxuww62zfddua 415 3 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 416 1 Stetter Stetter NNP work_kkta46aprvda3kxuww62zfddua 416 2 , , , work_kkta46aprvda3kxuww62zfddua 416 3 Pyrolobus Pyrolobus NNP work_kkta46aprvda3kxuww62zfddua 416 4 fumarii fumarii NNS work_kkta46aprvda3kxuww62zfddua 416 5 , , , work_kkta46aprvda3kxuww62zfddua 416 6 gen gen NNP work_kkta46aprvda3kxuww62zfddua 416 7 . . NNP work_kkta46aprvda3kxuww62zfddua 416 8 and and CC work_kkta46aprvda3kxuww62zfddua 416 9 sp sp NNP work_kkta46aprvda3kxuww62zfddua 416 10 . . . work_kkta46aprvda3kxuww62zfddua 417 1 nov nov NNP work_kkta46aprvda3kxuww62zfddua 417 2 . . NNP work_kkta46aprvda3kxuww62zfddua 417 3 , , , work_kkta46aprvda3kxuww62zfddua 417 4 represents represent VBZ work_kkta46aprvda3kxuww62zfddua 417 5 a a DT work_kkta46aprvda3kxuww62zfddua 417 6 novel novel JJ work_kkta46aprvda3kxuww62zfddua 417 7 group group NN work_kkta46aprvda3kxuww62zfddua 417 8 of of IN work_kkta46aprvda3kxuww62zfddua 417 9 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 417 10 , , , work_kkta46aprvda3kxuww62zfddua 417 11 ex- ex- XX work_kkta46aprvda3kxuww62zfddua 417 12 tending tend VBG work_kkta46aprvda3kxuww62zfddua 417 13 the the DT work_kkta46aprvda3kxuww62zfddua 417 14 upper upper JJ work_kkta46aprvda3kxuww62zfddua 417 15 temperature temperature NN work_kkta46aprvda3kxuww62zfddua 417 16 limit limit NN work_kkta46aprvda3kxuww62zfddua 417 17 for for IN work_kkta46aprvda3kxuww62zfddua 417 18 life life NN work_kkta46aprvda3kxuww62zfddua 417 19 to to IN work_kkta46aprvda3kxuww62zfddua 417 20 113 113 CD work_kkta46aprvda3kxuww62zfddua 417 21 ° ° NNS work_kkta46aprvda3kxuww62zfddua 417 22 C C NNP work_kkta46aprvda3kxuww62zfddua 417 23 , , , work_kkta46aprvda3kxuww62zfddua 417 24 Extremophiles Extremophiles NNP work_kkta46aprvda3kxuww62zfddua 417 25 1 1 CD work_kkta46aprvda3kxuww62zfddua 417 26 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 417 27 1997 1997 CD work_kkta46aprvda3kxuww62zfddua 417 28 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 417 29 14–21 14–21 CD work_kkta46aprvda3kxuww62zfddua 417 30 . . . work_kkta46aprvda3kxuww62zfddua 418 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 418 2 7 7 CD work_kkta46aprvda3kxuww62zfddua 418 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 418 4 H.P. H.P. NNP work_kkta46aprvda3kxuww62zfddua 419 1 Klenk Klenk NNP work_kkta46aprvda3kxuww62zfddua 419 2 , , , work_kkta46aprvda3kxuww62zfddua 419 3 M. M. NNP work_kkta46aprvda3kxuww62zfddua 419 4 Spitzer Spitzer NNP work_kkta46aprvda3kxuww62zfddua 419 5 , , , work_kkta46aprvda3kxuww62zfddua 419 6 T. T. NNP work_kkta46aprvda3kxuww62zfddua 419 7 Ochsenreiter Ochsenreiter NNP work_kkta46aprvda3kxuww62zfddua 419 8 , , , work_kkta46aprvda3kxuww62zfddua 419 9 G. G. NNP work_kkta46aprvda3kxuww62zfddua 419 10 Fuellen Fuellen NNP work_kkta46aprvda3kxuww62zfddua 419 11 , , , work_kkta46aprvda3kxuww62zfddua 419 12 Phylogenomics Phylogenomics NNP work_kkta46aprvda3kxuww62zfddua 419 13 of of IN work_kkta46aprvda3kxuww62zfddua 419 14 hyperthermo- hyperthermo- NNP work_kkta46aprvda3kxuww62zfddua 419 15 philic philic NNP work_kkta46aprvda3kxuww62zfddua 419 16 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 419 17 and and CC work_kkta46aprvda3kxuww62zfddua 419 18 Bacteria Bacteria NNP work_kkta46aprvda3kxuww62zfddua 419 19 , , , work_kkta46aprvda3kxuww62zfddua 419 20 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 419 21 . . . work_kkta46aprvda3kxuww62zfddua 420 1 Soc Soc NNP work_kkta46aprvda3kxuww62zfddua 420 2 . . . work_kkta46aprvda3kxuww62zfddua 421 1 Trans tran NNS work_kkta46aprvda3kxuww62zfddua 421 2 . . . work_kkta46aprvda3kxuww62zfddua 422 1 32 32 CD work_kkta46aprvda3kxuww62zfddua 422 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 422 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 422 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 422 5 175–178 175–178 CD work_kkta46aprvda3kxuww62zfddua 422 6 . . . work_kkta46aprvda3kxuww62zfddua 423 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 423 2 8 8 CD work_kkta46aprvda3kxuww62zfddua 423 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 423 4 B. B. NNP work_kkta46aprvda3kxuww62zfddua 423 5 Snel Snel NNP work_kkta46aprvda3kxuww62zfddua 423 6 , , , work_kkta46aprvda3kxuww62zfddua 423 7 M.A. M.A. NNP work_kkta46aprvda3kxuww62zfddua 424 1 Huynen Huynen NNP work_kkta46aprvda3kxuww62zfddua 424 2 , , , work_kkta46aprvda3kxuww62zfddua 424 3 B.E. B.E. NNP work_kkta46aprvda3kxuww62zfddua 425 1 Dutilh dutilh VB work_kkta46aprvda3kxuww62zfddua 425 2 , , , work_kkta46aprvda3kxuww62zfddua 425 3 Genome Genome NNP work_kkta46aprvda3kxuww62zfddua 425 4 trees tree NNS work_kkta46aprvda3kxuww62zfddua 425 5 and and CC work_kkta46aprvda3kxuww62zfddua 425 6 the the DT work_kkta46aprvda3kxuww62zfddua 425 7 nature nature NN work_kkta46aprvda3kxuww62zfddua 425 8 of of IN work_kkta46aprvda3kxuww62zfddua 425 9 genome genome JJ work_kkta46aprvda3kxuww62zfddua 425 10 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 425 11 , , , work_kkta46aprvda3kxuww62zfddua 425 12 Annu Annu NNP work_kkta46aprvda3kxuww62zfddua 425 13 . . . work_kkta46aprvda3kxuww62zfddua 426 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 427 1 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 427 2 . . . work_kkta46aprvda3kxuww62zfddua 428 1 59 59 CD work_kkta46aprvda3kxuww62zfddua 428 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 428 3 2005 2005 CD work_kkta46aprvda3kxuww62zfddua 428 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 428 5 191–209 191–209 CD work_kkta46aprvda3kxuww62zfddua 428 6 . . . work_kkta46aprvda3kxuww62zfddua 429 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 429 2 9 9 CD work_kkta46aprvda3kxuww62zfddua 429 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 429 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 429 5 Gribaldo Gribaldo NNP work_kkta46aprvda3kxuww62zfddua 429 6 , , , work_kkta46aprvda3kxuww62zfddua 429 7 C. C. NNP work_kkta46aprvda3kxuww62zfddua 429 8 Brochier Brochier NNP work_kkta46aprvda3kxuww62zfddua 429 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 429 10 Armanet Armanet NNP work_kkta46aprvda3kxuww62zfddua 429 11 , , , work_kkta46aprvda3kxuww62zfddua 429 12 The the DT work_kkta46aprvda3kxuww62zfddua 429 13 origin origin NN work_kkta46aprvda3kxuww62zfddua 429 14 and and CC work_kkta46aprvda3kxuww62zfddua 429 15 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 429 16 of of IN work_kkta46aprvda3kxuww62zfddua 429 17 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 429 18 : : : work_kkta46aprvda3kxuww62zfddua 429 19 a a DT work_kkta46aprvda3kxuww62zfddua 429 20 state state NN work_kkta46aprvda3kxuww62zfddua 429 21 of of IN work_kkta46aprvda3kxuww62zfddua 429 22 the the DT work_kkta46aprvda3kxuww62zfddua 429 23 art art NN work_kkta46aprvda3kxuww62zfddua 429 24 , , , work_kkta46aprvda3kxuww62zfddua 429 25 Philos Philos NNP work_kkta46aprvda3kxuww62zfddua 429 26 . . . work_kkta46aprvda3kxuww62zfddua 430 1 Trans tran NNS work_kkta46aprvda3kxuww62zfddua 430 2 . . . work_kkta46aprvda3kxuww62zfddua 431 1 R. R. NNP work_kkta46aprvda3kxuww62zfddua 431 2 Soc Soc NNP work_kkta46aprvda3kxuww62zfddua 431 3 . . . work_kkta46aprvda3kxuww62zfddua 432 1 Lond lond NN work_kkta46aprvda3kxuww62zfddua 432 2 . . . work_kkta46aprvda3kxuww62zfddua 433 1 B B NNP work_kkta46aprvda3kxuww62zfddua 433 2 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 433 3 . . . work_kkta46aprvda3kxuww62zfddua 434 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 434 2 . . . work_kkta46aprvda3kxuww62zfddua 435 1 361 361 CD work_kkta46aprvda3kxuww62zfddua 435 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 435 3 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 435 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 435 5 1007–1022 1007–1022 CD work_kkta46aprvda3kxuww62zfddua 435 6 . . . work_kkta46aprvda3kxuww62zfddua 436 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 436 2 10 10 CD work_kkta46aprvda3kxuww62zfddua 436 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 436 4 D.W. D.W. NNP work_kkta46aprvda3kxuww62zfddua 436 5 Schwartzman Schwartzman NNP work_kkta46aprvda3kxuww62zfddua 436 6 , , , work_kkta46aprvda3kxuww62zfddua 436 7 C.H. C.H. NNP work_kkta46aprvda3kxuww62zfddua 437 1 Lineweaver lineweaver NN work_kkta46aprvda3kxuww62zfddua 437 2 , , , work_kkta46aprvda3kxuww62zfddua 437 3 The the DT work_kkta46aprvda3kxuww62zfddua 437 4 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 437 5 origin origin NN work_kkta46aprvda3kxuww62zfddua 437 6 of of IN work_kkta46aprvda3kxuww62zfddua 437 7 life life NN work_kkta46aprvda3kxuww62zfddua 437 8 revisited revisit VBN work_kkta46aprvda3kxuww62zfddua 437 9 , , , work_kkta46aprvda3kxuww62zfddua 437 10 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 437 11 . . . work_kkta46aprvda3kxuww62zfddua 438 1 Soc Soc NNP work_kkta46aprvda3kxuww62zfddua 438 2 . . . work_kkta46aprvda3kxuww62zfddua 439 1 Trans tran NNS work_kkta46aprvda3kxuww62zfddua 439 2 . . . work_kkta46aprvda3kxuww62zfddua 440 1 32 32 CD work_kkta46aprvda3kxuww62zfddua 440 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 440 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 440 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 440 5 168–171 168–171 CD work_kkta46aprvda3kxuww62zfddua 440 6 . . . work_kkta46aprvda3kxuww62zfddua 441 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 441 2 11 11 CD work_kkta46aprvda3kxuww62zfddua 441 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 441 4 T.M. T.M. NNP work_kkta46aprvda3kxuww62zfddua 442 1 Hoehler Hoehler NNP work_kkta46aprvda3kxuww62zfddua 442 2 , , , work_kkta46aprvda3kxuww62zfddua 442 3 Biogeochemistry Biogeochemistry NNP work_kkta46aprvda3kxuww62zfddua 442 4 of of IN work_kkta46aprvda3kxuww62zfddua 442 5 dihydrogen dihydrogen NNP work_kkta46aprvda3kxuww62zfddua 442 6 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 442 7 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 442 8 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 442 9 , , , work_kkta46aprvda3kxuww62zfddua 442 10 Met Met NNP work_kkta46aprvda3kxuww62zfddua 442 11 . . . work_kkta46aprvda3kxuww62zfddua 443 1 Ions Ions NNP work_kkta46aprvda3kxuww62zfddua 443 2 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 443 3 . . . work_kkta46aprvda3kxuww62zfddua 444 1 Syst Syst NNP work_kkta46aprvda3kxuww62zfddua 444 2 . . . work_kkta46aprvda3kxuww62zfddua 445 1 43 43 CD work_kkta46aprvda3kxuww62zfddua 445 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 445 3 2005 2005 CD work_kkta46aprvda3kxuww62zfddua 445 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 445 5 9–48 9–48 CD work_kkta46aprvda3kxuww62zfddua 445 6 . . . work_kkta46aprvda3kxuww62zfddua 446 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 446 2 12 12 CD work_kkta46aprvda3kxuww62zfddua 446 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 446 4 J.P. J.P. NNP work_kkta46aprvda3kxuww62zfddua 447 1 Amend amend VB work_kkta46aprvda3kxuww62zfddua 447 2 , , , work_kkta46aprvda3kxuww62zfddua 447 3 E.L. E.L. NNP work_kkta46aprvda3kxuww62zfddua 448 1 Shock shock NN work_kkta46aprvda3kxuww62zfddua 448 2 , , , work_kkta46aprvda3kxuww62zfddua 448 3 Energetics Energetics NNPS work_kkta46aprvda3kxuww62zfddua 448 4 of of IN work_kkta46aprvda3kxuww62zfddua 448 5 overall overall JJ work_kkta46aprvda3kxuww62zfddua 448 6 metabolic metabolic JJ work_kkta46aprvda3kxuww62zfddua 448 7 reactions reaction NNS work_kkta46aprvda3kxuww62zfddua 448 8 of of IN work_kkta46aprvda3kxuww62zfddua 448 9 thermophilic thermophilic JJ work_kkta46aprvda3kxuww62zfddua 448 10 and and CC work_kkta46aprvda3kxuww62zfddua 448 11 hyperthermophilic hyperthermophilic NN work_kkta46aprvda3kxuww62zfddua 448 12 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 448 13 and and CC work_kkta46aprvda3kxuww62zfddua 448 14 bacteria bacteria NNS work_kkta46aprvda3kxuww62zfddua 448 15 , , , work_kkta46aprvda3kxuww62zfddua 448 16 FEMS FEMS NNP work_kkta46aprvda3kxuww62zfddua 448 17 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 448 18 . . . work_kkta46aprvda3kxuww62zfddua 449 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 450 1 25 25 CD work_kkta46aprvda3kxuww62zfddua 450 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 450 3 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 450 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 450 5 175–243 175–243 CD work_kkta46aprvda3kxuww62zfddua 450 6 . . . work_kkta46aprvda3kxuww62zfddua 451 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 451 2 13 13 CD work_kkta46aprvda3kxuww62zfddua 451 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 451 4 R. R. NNP work_kkta46aprvda3kxuww62zfddua 451 5 Conrad Conrad NNP work_kkta46aprvda3kxuww62zfddua 451 6 , , , work_kkta46aprvda3kxuww62zfddua 451 7 Soil Soil NNP work_kkta46aprvda3kxuww62zfddua 451 8 microorganisms microorganism NNS work_kkta46aprvda3kxuww62zfddua 451 9 as as IN work_kkta46aprvda3kxuww62zfddua 451 10 controllers controller NNS work_kkta46aprvda3kxuww62zfddua 451 11 of of IN work_kkta46aprvda3kxuww62zfddua 451 12 atmospheric atmospheric JJ work_kkta46aprvda3kxuww62zfddua 451 13 trace trace NN work_kkta46aprvda3kxuww62zfddua 451 14 gases gas NNS work_kkta46aprvda3kxuww62zfddua 451 15 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 451 16 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 451 17 , , , work_kkta46aprvda3kxuww62zfddua 451 18 CO CO NNP work_kkta46aprvda3kxuww62zfddua 451 19 , , , work_kkta46aprvda3kxuww62zfddua 451 20 CH4 CH4 NNP work_kkta46aprvda3kxuww62zfddua 451 21 , , , work_kkta46aprvda3kxuww62zfddua 451 22 OCS OCS NNP work_kkta46aprvda3kxuww62zfddua 451 23 , , , work_kkta46aprvda3kxuww62zfddua 451 24 N2O n2o NN work_kkta46aprvda3kxuww62zfddua 451 25 , , , work_kkta46aprvda3kxuww62zfddua 451 26 and and CC work_kkta46aprvda3kxuww62zfddua 451 27 NO no UH work_kkta46aprvda3kxuww62zfddua 451 28 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 451 29 , , , work_kkta46aprvda3kxuww62zfddua 451 30 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 451 31 . . . work_kkta46aprvda3kxuww62zfddua 452 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 453 1 60 60 CD work_kkta46aprvda3kxuww62zfddua 453 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 453 3 1996 1996 CD work_kkta46aprvda3kxuww62zfddua 453 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 453 5 609–640 609–640 CD work_kkta46aprvda3kxuww62zfddua 453 6 . . . work_kkta46aprvda3kxuww62zfddua 454 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 454 2 14 14 CD work_kkta46aprvda3kxuww62zfddua 454 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 454 4 H. H. NNP work_kkta46aprvda3kxuww62zfddua 454 5 Elderfield Elderfield NNP work_kkta46aprvda3kxuww62zfddua 454 6 , , , work_kkta46aprvda3kxuww62zfddua 454 7 A. A. NNP work_kkta46aprvda3kxuww62zfddua 454 8 Schultz Schultz NNP work_kkta46aprvda3kxuww62zfddua 454 9 , , , work_kkta46aprvda3kxuww62zfddua 454 10 Mid Mid NNP work_kkta46aprvda3kxuww62zfddua 454 11 - - NNP work_kkta46aprvda3kxuww62zfddua 454 12 ocean ocean NNP work_kkta46aprvda3kxuww62zfddua 454 13 ridge ridge NNP work_kkta46aprvda3kxuww62zfddua 454 14 hydrothermal hydrothermal NNP work_kkta46aprvda3kxuww62zfddua 454 15 fluxes flux NNS work_kkta46aprvda3kxuww62zfddua 454 16 and and CC work_kkta46aprvda3kxuww62zfddua 454 17 the the DT work_kkta46aprvda3kxuww62zfddua 454 18 chemical chemical JJ work_kkta46aprvda3kxuww62zfddua 454 19 composition composition NN work_kkta46aprvda3kxuww62zfddua 454 20 of of IN work_kkta46aprvda3kxuww62zfddua 454 21 the the DT work_kkta46aprvda3kxuww62zfddua 454 22 ocean ocean NN work_kkta46aprvda3kxuww62zfddua 454 23 , , , work_kkta46aprvda3kxuww62zfddua 454 24 Annu Annu NNP work_kkta46aprvda3kxuww62zfddua 454 25 . . . work_kkta46aprvda3kxuww62zfddua 455 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 456 1 Earth Earth NNP work_kkta46aprvda3kxuww62zfddua 456 2 Planet Planet NNP work_kkta46aprvda3kxuww62zfddua 456 3 . . . work_kkta46aprvda3kxuww62zfddua 457 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 457 2 . . . work_kkta46aprvda3kxuww62zfddua 458 1 24 24 CD work_kkta46aprvda3kxuww62zfddua 458 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 458 3 1996 1996 CD work_kkta46aprvda3kxuww62zfddua 458 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 458 5 191–224 191–224 CD work_kkta46aprvda3kxuww62zfddua 458 6 . . . work_kkta46aprvda3kxuww62zfddua 459 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 459 2 15 15 CD work_kkta46aprvda3kxuww62zfddua 459 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 459 4 D.S. D.S. NNP work_kkta46aprvda3kxuww62zfddua 460 1 Kelley Kelley NNP work_kkta46aprvda3kxuww62zfddua 460 2 , , , work_kkta46aprvda3kxuww62zfddua 460 3 J.A. J.A. NNP work_kkta46aprvda3kxuww62zfddua 461 1 Baross Baross NNP work_kkta46aprvda3kxuww62zfddua 461 2 , , , work_kkta46aprvda3kxuww62zfddua 461 3 J.R. J.R. NNP work_kkta46aprvda3kxuww62zfddua 461 4 Delaney Delaney NNP work_kkta46aprvda3kxuww62zfddua 461 5 , , , work_kkta46aprvda3kxuww62zfddua 461 6 Volcanoes Volcanoes NNP work_kkta46aprvda3kxuww62zfddua 461 7 , , , work_kkta46aprvda3kxuww62zfddua 461 8 fluids fluid NNS work_kkta46aprvda3kxuww62zfddua 461 9 , , , work_kkta46aprvda3kxuww62zfddua 461 10 and and CC work_kkta46aprvda3kxuww62zfddua 461 11 life life NN work_kkta46aprvda3kxuww62zfddua 461 12 at at IN work_kkta46aprvda3kxuww62zfddua 461 13 mid mid NNP work_kkta46aprvda3kxuww62zfddua 461 14 - - NNP work_kkta46aprvda3kxuww62zfddua 461 15 ocean ocean NNP work_kkta46aprvda3kxuww62zfddua 461 16 ridge ridge NN work_kkta46aprvda3kxuww62zfddua 461 17 spreading spread VBG work_kkta46aprvda3kxuww62zfddua 461 18 centers center NNS work_kkta46aprvda3kxuww62zfddua 461 19 , , , work_kkta46aprvda3kxuww62zfddua 461 20 Annu Annu NNP work_kkta46aprvda3kxuww62zfddua 461 21 . . . work_kkta46aprvda3kxuww62zfddua 462 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 463 1 Earth Earth NNP work_kkta46aprvda3kxuww62zfddua 463 2 Planet Planet NNP work_kkta46aprvda3kxuww62zfddua 463 3 . . . work_kkta46aprvda3kxuww62zfddua 464 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 464 2 . . . work_kkta46aprvda3kxuww62zfddua 465 1 30 30 CD work_kkta46aprvda3kxuww62zfddua 465 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 465 3 2002 2002 CD work_kkta46aprvda3kxuww62zfddua 465 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 465 5 385–491 385–491 CD work_kkta46aprvda3kxuww62zfddua 465 6 . . . work_kkta46aprvda3kxuww62zfddua 466 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 466 2 16 16 CD work_kkta46aprvda3kxuww62zfddua 466 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 466 4 T.M. T.M. NNP work_kkta46aprvda3kxuww62zfddua 467 1 McCollom McCollom NNP work_kkta46aprvda3kxuww62zfddua 467 2 , , , work_kkta46aprvda3kxuww62zfddua 467 3 J.S. J.S. NNP work_kkta46aprvda3kxuww62zfddua 468 1 Seewald Seewald VBN work_kkta46aprvda3kxuww62zfddua 468 2 , , , work_kkta46aprvda3kxuww62zfddua 468 3 Abiotic abiotic JJ work_kkta46aprvda3kxuww62zfddua 468 4 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 468 5 of of IN work_kkta46aprvda3kxuww62zfddua 468 6 organic organic JJ work_kkta46aprvda3kxuww62zfddua 468 7 compounds compound NNS work_kkta46aprvda3kxuww62zfddua 468 8 in in IN work_kkta46aprvda3kxuww62zfddua 468 9 deep deep JJ work_kkta46aprvda3kxuww62zfddua 468 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 468 11 sea sea NN work_kkta46aprvda3kxuww62zfddua 468 12 hydrothermal hydrothermal NN work_kkta46aprvda3kxuww62zfddua 468 13 environments environment NNS work_kkta46aprvda3kxuww62zfddua 468 14 , , , work_kkta46aprvda3kxuww62zfddua 468 15 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 468 16 . . . work_kkta46aprvda3kxuww62zfddua 469 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 470 1 107 107 CD work_kkta46aprvda3kxuww62zfddua 470 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 470 3 2007 2007 CD work_kkta46aprvda3kxuww62zfddua 470 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 470 5 382–401 382–401 CD work_kkta46aprvda3kxuww62zfddua 470 6 . . . work_kkta46aprvda3kxuww62zfddua 471 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 471 2 17 17 CD work_kkta46aprvda3kxuww62zfddua 471 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 471 4 U. U. NNP work_kkta46aprvda3kxuww62zfddua 471 5 Deppenmeier Deppenmeier NNP work_kkta46aprvda3kxuww62zfddua 471 6 , , , work_kkta46aprvda3kxuww62zfddua 471 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 471 8 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 471 9 , , , work_kkta46aprvda3kxuww62zfddua 471 10 Life Life NNP work_kkta46aprvda3kxuww62zfddua 471 11 close close RB work_kkta46aprvda3kxuww62zfddua 471 12 to to IN work_kkta46aprvda3kxuww62zfddua 471 13 the the DT work_kkta46aprvda3kxuww62zfddua 471 14 thermodynamic thermodynamic JJ work_kkta46aprvda3kxuww62zfddua 471 15 limit limit NN work_kkta46aprvda3kxuww62zfddua 471 16 : : : work_kkta46aprvda3kxuww62zfddua 471 17 how how WRB work_kkta46aprvda3kxuww62zfddua 471 18 methano- methano- NNP work_kkta46aprvda3kxuww62zfddua 471 19 genic genic NNP work_kkta46aprvda3kxuww62zfddua 471 20 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 471 21 conserve conserve VB work_kkta46aprvda3kxuww62zfddua 471 22 energy energy NN work_kkta46aprvda3kxuww62zfddua 471 23 , , , work_kkta46aprvda3kxuww62zfddua 471 24 Results Results NNP work_kkta46aprvda3kxuww62zfddua 471 25 Probl Probl NNP work_kkta46aprvda3kxuww62zfddua 471 26 . . . work_kkta46aprvda3kxuww62zfddua 472 1 Cell Cell NNP work_kkta46aprvda3kxuww62zfddua 472 2 Differ Differ NNP work_kkta46aprvda3kxuww62zfddua 472 3 . . . work_kkta46aprvda3kxuww62zfddua 473 1 45 45 CD work_kkta46aprvda3kxuww62zfddua 473 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 473 3 2008 2008 CD work_kkta46aprvda3kxuww62zfddua 473 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 473 5 123–152 123–152 CD work_kkta46aprvda3kxuww62zfddua 473 6 . . . work_kkta46aprvda3kxuww62zfddua 474 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 474 2 18 18 CD work_kkta46aprvda3kxuww62zfddua 474 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 474 4 E.J. E.J. NNP work_kkta46aprvda3kxuww62zfddua 475 1 Boekema Boekema NNP work_kkta46aprvda3kxuww62zfddua 475 2 , , , work_kkta46aprvda3kxuww62zfddua 475 3 J.F. J.F. NNP work_kkta46aprvda3kxuww62zfddua 476 1 van van NNP work_kkta46aprvda3kxuww62zfddua 476 2 Breemen Breemen NNP work_kkta46aprvda3kxuww62zfddua 476 3 , , , work_kkta46aprvda3kxuww62zfddua 476 4 A. A. NNP work_kkta46aprvda3kxuww62zfddua 476 5 Brisson Brisson NNP work_kkta46aprvda3kxuww62zfddua 476 6 , , , work_kkta46aprvda3kxuww62zfddua 476 7 T. T. NNP work_kkta46aprvda3kxuww62zfddua 476 8 Ubbink Ubbink NNP work_kkta46aprvda3kxuww62zfddua 476 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 476 10 Kok Kok NNP work_kkta46aprvda3kxuww62zfddua 476 11 , , , work_kkta46aprvda3kxuww62zfddua 476 12 W.N. W.N. NNP work_kkta46aprvda3kxuww62zfddua 477 1 Konings Konings NNP work_kkta46aprvda3kxuww62zfddua 477 2 , , , work_kkta46aprvda3kxuww62zfddua 477 3 J.S. J.S. NNP work_kkta46aprvda3kxuww62zfddua 478 1 Lolkema Lolkema NNP work_kkta46aprvda3kxuww62zfddua 478 2 , , , work_kkta46aprvda3kxuww62zfddua 478 3 Connecting Connecting NNP work_kkta46aprvda3kxuww62zfddua 478 4 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 478 5 in in IN work_kkta46aprvda3kxuww62zfddua 478 6 V v NN work_kkta46aprvda3kxuww62zfddua 478 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 478 8 type type NN work_kkta46aprvda3kxuww62zfddua 478 9 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 478 10 , , , work_kkta46aprvda3kxuww62zfddua 478 11 Nature nature NN work_kkta46aprvda3kxuww62zfddua 478 12 401 401 CD work_kkta46aprvda3kxuww62zfddua 478 13 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 478 14 1999 1999 CD work_kkta46aprvda3kxuww62zfddua 478 15 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 478 16 37–38 37–38 CD work_kkta46aprvda3kxuww62zfddua 478 17 . . . work_kkta46aprvda3kxuww62zfddua 479 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 479 2 19 19 CD work_kkta46aprvda3kxuww62zfddua 479 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 479 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 479 5 Schäfer Schäfer NNP work_kkta46aprvda3kxuww62zfddua 479 6 , , , work_kkta46aprvda3kxuww62zfddua 479 7 M. M. NNP work_kkta46aprvda3kxuww62zfddua 479 8 Engelhard Engelhard NNP work_kkta46aprvda3kxuww62zfddua 479 9 , , , work_kkta46aprvda3kxuww62zfddua 479 10 V. V. NNP work_kkta46aprvda3kxuww62zfddua 479 11 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 479 12 , , , work_kkta46aprvda3kxuww62zfddua 479 13 Bioenergetics Bioenergetics NNP work_kkta46aprvda3kxuww62zfddua 479 14 of of IN work_kkta46aprvda3kxuww62zfddua 479 15 the the DT work_kkta46aprvda3kxuww62zfddua 479 16 Archaea Archaea NNP work_kkta46aprvda3kxuww62zfddua 479 17 , , , work_kkta46aprvda3kxuww62zfddua 479 18 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 479 19 . . . work_kkta46aprvda3kxuww62zfddua 480 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 480 2 . . . work_kkta46aprvda3kxuww62zfddua 481 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 481 2 . . . work_kkta46aprvda3kxuww62zfddua 482 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 483 1 63 63 CD work_kkta46aprvda3kxuww62zfddua 483 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 483 3 1999 1999 CD work_kkta46aprvda3kxuww62zfddua 483 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 483 5 570–620 570–620 CD work_kkta46aprvda3kxuww62zfddua 483 6 . . . work_kkta46aprvda3kxuww62zfddua 484 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 484 2 20 20 CD work_kkta46aprvda3kxuww62zfddua 484 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 484 4 F. F. NNP work_kkta46aprvda3kxuww62zfddua 484 5 Mayer Mayer NNP work_kkta46aprvda3kxuww62zfddua 484 6 , , , work_kkta46aprvda3kxuww62zfddua 484 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 484 8 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 484 9 , , , work_kkta46aprvda3kxuww62zfddua 484 10 Adaptations Adaptations NNPS work_kkta46aprvda3kxuww62zfddua 484 11 of of IN work_kkta46aprvda3kxuww62zfddua 484 12 anaerobic anaerobic JJ work_kkta46aprvda3kxuww62zfddua 484 13 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 484 14 to to IN work_kkta46aprvda3kxuww62zfddua 484 15 life life NN work_kkta46aprvda3kxuww62zfddua 484 16 under under IN work_kkta46aprvda3kxuww62zfddua 484 17 extreme extreme JJ work_kkta46aprvda3kxuww62zfddua 484 18 energy energy NN work_kkta46aprvda3kxuww62zfddua 484 19 limitation limitation NN work_kkta46aprvda3kxuww62zfddua 484 20 , , , work_kkta46aprvda3kxuww62zfddua 484 21 FEMS FEMS NNP work_kkta46aprvda3kxuww62zfddua 484 22 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 484 23 . . . work_kkta46aprvda3kxuww62zfddua 485 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 486 1 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 486 2 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 486 3 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 486 4 , , , work_kkta46aprvda3kxuww62zfddua 486 5 http://dx.doi.org/10.1111/1574-6976 http://dx.doi.org/10.1111/1574-6976 NN work_kkta46aprvda3kxuww62zfddua 486 6 . . . work_kkta46aprvda3kxuww62zfddua 487 1 12043 12043 CD work_kkta46aprvda3kxuww62zfddua 487 2 . . . work_kkta46aprvda3kxuww62zfddua 488 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 488 2 21 21 CD work_kkta46aprvda3kxuww62zfddua 488 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 488 4 R. R. NNP work_kkta46aprvda3kxuww62zfddua 488 5 Sapra Sapra NNP work_kkta46aprvda3kxuww62zfddua 488 6 , , , work_kkta46aprvda3kxuww62zfddua 488 7 K. K. NNP work_kkta46aprvda3kxuww62zfddua 488 8 Bagramyan Bagramyan NNP work_kkta46aprvda3kxuww62zfddua 488 9 , , , work_kkta46aprvda3kxuww62zfddua 488 10 M.W.W. M.W.W. NNP work_kkta46aprvda3kxuww62zfddua 489 1 Adams Adams NNP work_kkta46aprvda3kxuww62zfddua 489 2 , , , work_kkta46aprvda3kxuww62zfddua 489 3 A a DT work_kkta46aprvda3kxuww62zfddua 489 4 simple simple JJ work_kkta46aprvda3kxuww62zfddua 489 5 energy energy NN work_kkta46aprvda3kxuww62zfddua 489 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 489 7 conserving conserve VBG work_kkta46aprvda3kxuww62zfddua 489 8 system system NN work_kkta46aprvda3kxuww62zfddua 489 9 : : : work_kkta46aprvda3kxuww62zfddua 489 10 pro- pro- NN work_kkta46aprvda3kxuww62zfddua 489 11 ton ton NN work_kkta46aprvda3kxuww62zfddua 489 12 reduction reduction NN work_kkta46aprvda3kxuww62zfddua 489 13 coupled couple VBN work_kkta46aprvda3kxuww62zfddua 489 14 to to IN work_kkta46aprvda3kxuww62zfddua 489 15 proton proton NNP work_kkta46aprvda3kxuww62zfddua 489 16 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 489 17 , , , work_kkta46aprvda3kxuww62zfddua 489 18 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 489 19 . . . work_kkta46aprvda3kxuww62zfddua 490 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 490 2 . . . work_kkta46aprvda3kxuww62zfddua 491 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 491 2 . . . work_kkta46aprvda3kxuww62zfddua 492 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 492 2 . . . work_kkta46aprvda3kxuww62zfddua 493 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 493 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 493 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 494 1 100 100 CD work_kkta46aprvda3kxuww62zfddua 494 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 494 3 2003 2003 CD work_kkta46aprvda3kxuww62zfddua 494 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 494 5 7545–7550 7545–7550 CD work_kkta46aprvda3kxuww62zfddua 494 6 . . . work_kkta46aprvda3kxuww62zfddua 495 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 495 2 22 22 CD work_kkta46aprvda3kxuww62zfddua 495 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 495 4 G.J. G.J. NNP work_kkta46aprvda3kxuww62zfddua 496 1 Schut Schut NNP work_kkta46aprvda3kxuww62zfddua 496 2 , , , work_kkta46aprvda3kxuww62zfddua 496 3 E.S. E.S. NNP work_kkta46aprvda3kxuww62zfddua 497 1 Boyd Boyd NNP work_kkta46aprvda3kxuww62zfddua 497 2 , , , work_kkta46aprvda3kxuww62zfddua 497 3 J.W. J.W. NNP work_kkta46aprvda3kxuww62zfddua 498 1 Peters Peters NNP work_kkta46aprvda3kxuww62zfddua 498 2 , , , work_kkta46aprvda3kxuww62zfddua 498 3 M.W. M.W. NNP work_kkta46aprvda3kxuww62zfddua 499 1 Adams Adams NNP work_kkta46aprvda3kxuww62zfddua 499 2 , , , work_kkta46aprvda3kxuww62zfddua 499 3 The the DT work_kkta46aprvda3kxuww62zfddua 499 4 modular modular JJ work_kkta46aprvda3kxuww62zfddua 499 5 respiratory respiratory JJ work_kkta46aprvda3kxuww62zfddua 499 6 complexes complex NNS work_kkta46aprvda3kxuww62zfddua 499 7 involved involve VBN work_kkta46aprvda3kxuww62zfddua 499 8 in in IN work_kkta46aprvda3kxuww62zfddua 499 9 hydrogen hydrogen NN work_kkta46aprvda3kxuww62zfddua 499 10 and and CC work_kkta46aprvda3kxuww62zfddua 499 11 sulfur sulfur NN work_kkta46aprvda3kxuww62zfddua 499 12 metabolism metabolism NN work_kkta46aprvda3kxuww62zfddua 499 13 by by IN work_kkta46aprvda3kxuww62zfddua 499 14 heterotrophic heterotrophic JJ work_kkta46aprvda3kxuww62zfddua 499 15 hyperthermophilic hyperthermophilic NN work_kkta46aprvda3kxuww62zfddua 499 16 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 499 17 and and CC work_kkta46aprvda3kxuww62zfddua 499 18 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 499 19 evolutionary evolutionary JJ work_kkta46aprvda3kxuww62zfddua 499 20 implications implication NNS work_kkta46aprvda3kxuww62zfddua 499 21 , , , work_kkta46aprvda3kxuww62zfddua 499 22 FEMS FEMS NNP work_kkta46aprvda3kxuww62zfddua 499 23 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 499 24 . . . work_kkta46aprvda3kxuww62zfddua 500 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 501 1 37 37 CD work_kkta46aprvda3kxuww62zfddua 501 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 501 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 501 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 501 5 182–203 182–203 CD work_kkta46aprvda3kxuww62zfddua 501 6 . . . work_kkta46aprvda3kxuww62zfddua 502 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 502 2 23 23 CD work_kkta46aprvda3kxuww62zfddua 502 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 502 4 Y.J. Y.J. NNP work_kkta46aprvda3kxuww62zfddua 503 1 Kim Kim NNP work_kkta46aprvda3kxuww62zfddua 503 2 , , , work_kkta46aprvda3kxuww62zfddua 503 3 H.S. H.S. NNP work_kkta46aprvda3kxuww62zfddua 504 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 504 2 , , , work_kkta46aprvda3kxuww62zfddua 504 3 E.S. E.S. NNP work_kkta46aprvda3kxuww62zfddua 505 1 Kim Kim NNP work_kkta46aprvda3kxuww62zfddua 505 2 , , , work_kkta46aprvda3kxuww62zfddua 505 3 S.S. S.S. NNP work_kkta46aprvda3kxuww62zfddua 505 4 Bae Bae NNP work_kkta46aprvda3kxuww62zfddua 505 5 , , , work_kkta46aprvda3kxuww62zfddua 505 6 J.K. J.K. NNP work_kkta46aprvda3kxuww62zfddua 505 7 Lim Lim NNP work_kkta46aprvda3kxuww62zfddua 505 8 , , , work_kkta46aprvda3kxuww62zfddua 505 9 R. R. NNP work_kkta46aprvda3kxuww62zfddua 505 10 Matsumi Matsumi NNP work_kkta46aprvda3kxuww62zfddua 505 11 , , , work_kkta46aprvda3kxuww62zfddua 505 12 A.V. A.V. NNP work_kkta46aprvda3kxuww62zfddua 506 1 Lebedinsky Lebedinsky NNP work_kkta46aprvda3kxuww62zfddua 506 2 , , , work_kkta46aprvda3kxuww62zfddua 506 3 T.G. T.G. NNP work_kkta46aprvda3kxuww62zfddua 507 1 Sokolova Sokolova NNP work_kkta46aprvda3kxuww62zfddua 507 2 , , , work_kkta46aprvda3kxuww62zfddua 507 3 D.A. D.A. NNP work_kkta46aprvda3kxuww62zfddua 508 1 Kozhevnikova Kozhevnikova NNP work_kkta46aprvda3kxuww62zfddua 508 2 , , , work_kkta46aprvda3kxuww62zfddua 508 3 S.S. S.S. NNP work_kkta46aprvda3kxuww62zfddua 508 4 Cha Cha NNP work_kkta46aprvda3kxuww62zfddua 508 5 , , , work_kkta46aprvda3kxuww62zfddua 508 6 S.J. S.J. NNP work_kkta46aprvda3kxuww62zfddua 509 1 Kim Kim NNP work_kkta46aprvda3kxuww62zfddua 509 2 , , , work_kkta46aprvda3kxuww62zfddua 509 3 K.K. K.K. NNP work_kkta46aprvda3kxuww62zfddua 510 1 Kwon Kwon NNP work_kkta46aprvda3kxuww62zfddua 510 2 , , , work_kkta46aprvda3kxuww62zfddua 510 3 T. T. NNP work_kkta46aprvda3kxuww62zfddua 510 4 Imanaka Imanaka NNP work_kkta46aprvda3kxuww62zfddua 510 5 , , , work_kkta46aprvda3kxuww62zfddua 510 6 H. H. NNP work_kkta46aprvda3kxuww62zfddua 510 7 Atomi Atomi NNP work_kkta46aprvda3kxuww62zfddua 510 8 , , , work_kkta46aprvda3kxuww62zfddua 510 9 E.A. E.A. NNP work_kkta46aprvda3kxuww62zfddua 511 1 Bonch Bonch NNP work_kkta46aprvda3kxuww62zfddua 511 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 511 3 Osmolovskaya Osmolovskaya NNP work_kkta46aprvda3kxuww62zfddua 511 4 , , , work_kkta46aprvda3kxuww62zfddua 511 5 J.H. J.H. NNP work_kkta46aprvda3kxuww62zfddua 512 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 512 2 , , , work_kkta46aprvda3kxuww62zfddua 512 3 S.G. S.G. NNP work_kkta46aprvda3kxuww62zfddua 512 4 Kang Kang NNP work_kkta46aprvda3kxuww62zfddua 512 5 , , , work_kkta46aprvda3kxuww62zfddua 512 6 Formate Formate NNP work_kkta46aprvda3kxuww62zfddua 512 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 512 8 driven drive VBN work_kkta46aprvda3kxuww62zfddua 512 9 growth growth NN work_kkta46aprvda3kxuww62zfddua 512 10 coupled couple VBN work_kkta46aprvda3kxuww62zfddua 512 11 with with IN work_kkta46aprvda3kxuww62zfddua 512 12 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 512 13 production production NN work_kkta46aprvda3kxuww62zfddua 512 14 , , , work_kkta46aprvda3kxuww62zfddua 512 15 Nature nature NN work_kkta46aprvda3kxuww62zfddua 512 16 467 467 CD work_kkta46aprvda3kxuww62zfddua 512 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 512 18 2010 2010 CD work_kkta46aprvda3kxuww62zfddua 512 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 512 20 352–355 352–355 CD work_kkta46aprvda3kxuww62zfddua 512 21 . . . work_kkta46aprvda3kxuww62zfddua 513 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 513 2 24 24 CD work_kkta46aprvda3kxuww62zfddua 513 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 513 4 J.K. J.K. NNP work_kkta46aprvda3kxuww62zfddua 513 5 Lim Lim NNP work_kkta46aprvda3kxuww62zfddua 513 6 , , , work_kkta46aprvda3kxuww62zfddua 513 7 S.S. S.S. NNP work_kkta46aprvda3kxuww62zfddua 513 8 Bae Bae NNP work_kkta46aprvda3kxuww62zfddua 513 9 , , , work_kkta46aprvda3kxuww62zfddua 513 10 T.W. T.W. NNP work_kkta46aprvda3kxuww62zfddua 514 1 Kim Kim NNP work_kkta46aprvda3kxuww62zfddua 514 2 , , , work_kkta46aprvda3kxuww62zfddua 514 3 J.H. J.H. NNP work_kkta46aprvda3kxuww62zfddua 515 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 515 2 , , , work_kkta46aprvda3kxuww62zfddua 515 3 H.S. H.S. NNP work_kkta46aprvda3kxuww62zfddua 516 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 516 2 , , , work_kkta46aprvda3kxuww62zfddua 516 3 S.G. S.G. NNP work_kkta46aprvda3kxuww62zfddua 516 4 Kang Kang NNP work_kkta46aprvda3kxuww62zfddua 516 5 , , , work_kkta46aprvda3kxuww62zfddua 516 6 Thermodynamics Thermodynamics NNP work_kkta46aprvda3kxuww62zfddua 516 7 of of IN work_kkta46aprvda3kxuww62zfddua 516 8 formate formate NN work_kkta46aprvda3kxuww62zfddua 516 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 516 10 oxidizing oxidize VBG work_kkta46aprvda3kxuww62zfddua 516 11 metabolism metabolism NN work_kkta46aprvda3kxuww62zfddua 516 12 and and CC work_kkta46aprvda3kxuww62zfddua 516 13 implications implication NNS work_kkta46aprvda3kxuww62zfddua 516 14 for for IN work_kkta46aprvda3kxuww62zfddua 516 15 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 516 16 production production NN work_kkta46aprvda3kxuww62zfddua 516 17 , , , work_kkta46aprvda3kxuww62zfddua 516 18 Appl Appl NNP work_kkta46aprvda3kxuww62zfddua 516 19 . . . work_kkta46aprvda3kxuww62zfddua 517 1 Environ Environ NNP work_kkta46aprvda3kxuww62zfddua 517 2 . . . work_kkta46aprvda3kxuww62zfddua 518 1 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 518 2 . . . work_kkta46aprvda3kxuww62zfddua 519 1 78 78 CD work_kkta46aprvda3kxuww62zfddua 519 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 519 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 519 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 519 5 7393–7397 7393–7397 CD work_kkta46aprvda3kxuww62zfddua 519 6 . . . work_kkta46aprvda3kxuww62zfddua 520 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 520 2 25 25 CD work_kkta46aprvda3kxuww62zfddua 520 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 520 4 U. U. NNP work_kkta46aprvda3kxuww62zfddua 520 5 Deppenmeier Deppenmeier NNP work_kkta46aprvda3kxuww62zfddua 520 6 , , , work_kkta46aprvda3kxuww62zfddua 520 7 The the DT work_kkta46aprvda3kxuww62zfddua 520 8 unique unique JJ work_kkta46aprvda3kxuww62zfddua 520 9 biochemistry biochemistry NN work_kkta46aprvda3kxuww62zfddua 520 10 of of IN work_kkta46aprvda3kxuww62zfddua 520 11 methanogenesis methanogenesis NN work_kkta46aprvda3kxuww62zfddua 520 12 , , , work_kkta46aprvda3kxuww62zfddua 520 13 Prog Prog NNP work_kkta46aprvda3kxuww62zfddua 520 14 . . . work_kkta46aprvda3kxuww62zfddua 521 1 Nucleic Nucleic NNP work_kkta46aprvda3kxuww62zfddua 521 2 Acid Acid NNP work_kkta46aprvda3kxuww62zfddua 521 3 Res Res NNP work_kkta46aprvda3kxuww62zfddua 521 4 . . . work_kkta46aprvda3kxuww62zfddua 522 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 522 2 . . . work_kkta46aprvda3kxuww62zfddua 523 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 523 2 . . . work_kkta46aprvda3kxuww62zfddua 524 1 71 71 CD work_kkta46aprvda3kxuww62zfddua 524 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 524 3 2002 2002 CD work_kkta46aprvda3kxuww62zfddua 524 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 524 5 223–283 223–283 CD work_kkta46aprvda3kxuww62zfddua 524 6 . . . work_kkta46aprvda3kxuww62zfddua 525 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 525 2 26 26 CD work_kkta46aprvda3kxuww62zfddua 525 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 525 4 V. V. NNP work_kkta46aprvda3kxuww62zfddua 525 5 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 525 6 , , , work_kkta46aprvda3kxuww62zfddua 525 7 C. C. NNP work_kkta46aprvda3kxuww62zfddua 525 8 Winner Winner NNP work_kkta46aprvda3kxuww62zfddua 525 9 , , , work_kkta46aprvda3kxuww62zfddua 525 10 G. G. NNP work_kkta46aprvda3kxuww62zfddua 525 11 Gottschalk Gottschalk NNP work_kkta46aprvda3kxuww62zfddua 525 12 , , , work_kkta46aprvda3kxuww62zfddua 525 13 Electron Electron NNP work_kkta46aprvda3kxuww62zfddua 525 14 transport transport NN work_kkta46aprvda3kxuww62zfddua 525 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 525 16 driven drive VBN work_kkta46aprvda3kxuww62zfddua 525 17 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 525 18 extrusion extrusion NN work_kkta46aprvda3kxuww62zfddua 525 19 during during IN work_kkta46aprvda3kxuww62zfddua 525 20 methanogenesis methanogenesis NN work_kkta46aprvda3kxuww62zfddua 525 21 from from IN work_kkta46aprvda3kxuww62zfddua 525 22 formaldehyde formaldehyde NN work_kkta46aprvda3kxuww62zfddua 525 23 + + NNP work_kkta46aprvda3kxuww62zfddua 525 24 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 525 25 by by IN work_kkta46aprvda3kxuww62zfddua 525 26 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 525 27 barkeri barkeri NN work_kkta46aprvda3kxuww62zfddua 525 28 , , , work_kkta46aprvda3kxuww62zfddua 525 29 Eur Eur NNP work_kkta46aprvda3kxuww62zfddua 525 30 . . . work_kkta46aprvda3kxuww62zfddua 526 1 J. J. NNP work_kkta46aprvda3kxuww62zfddua 526 2 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 526 3 . . . work_kkta46aprvda3kxuww62zfddua 527 1 178 178 CD work_kkta46aprvda3kxuww62zfddua 527 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 527 3 1988 1988 CD work_kkta46aprvda3kxuww62zfddua 527 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 527 5 519–525 519–525 CD work_kkta46aprvda3kxuww62zfddua 527 6 . . . work_kkta46aprvda3kxuww62zfddua 528 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 528 2 27 27 CD work_kkta46aprvda3kxuww62zfddua 528 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 528 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 528 5 Gottschalk Gottschalk NNP work_kkta46aprvda3kxuww62zfddua 528 6 , , , work_kkta46aprvda3kxuww62zfddua 528 7 R.K. R.K. NNP work_kkta46aprvda3kxuww62zfddua 528 8 Thauer Thauer NNP work_kkta46aprvda3kxuww62zfddua 528 9 , , , work_kkta46aprvda3kxuww62zfddua 528 10 The the DT work_kkta46aprvda3kxuww62zfddua 528 11 Na+-translocating na+-translocate VBG work_kkta46aprvda3kxuww62zfddua 528 12 methyltransferase methyltransferase NN work_kkta46aprvda3kxuww62zfddua 528 13 complex complex JJ work_kkta46aprvda3kxuww62zfddua 528 14 from from IN work_kkta46aprvda3kxuww62zfddua 528 15 methanogenic methanogenic NNP work_kkta46aprvda3kxuww62zfddua 528 16 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 528 17 , , , work_kkta46aprvda3kxuww62zfddua 528 18 Biochim Biochim NNP work_kkta46aprvda3kxuww62zfddua 528 19 . . . work_kkta46aprvda3kxuww62zfddua 529 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 529 2 . . . work_kkta46aprvda3kxuww62zfddua 530 1 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 530 2 1505 1505 CD work_kkta46aprvda3kxuww62zfddua 530 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 530 4 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 530 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 530 6 28–36 28–36 CD work_kkta46aprvda3kxuww62zfddua 530 7 . . . work_kkta46aprvda3kxuww62zfddua 531 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 531 2 28 28 CD work_kkta46aprvda3kxuww62zfddua 531 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 531 4 U. U. NNP work_kkta46aprvda3kxuww62zfddua 531 5 Deppenmeier Deppenmeier NNP work_kkta46aprvda3kxuww62zfddua 531 6 , , , work_kkta46aprvda3kxuww62zfddua 531 7 Redox Redox NNP work_kkta46aprvda3kxuww62zfddua 531 8 - - HYPH work_kkta46aprvda3kxuww62zfddua 531 9 driven drive VBN work_kkta46aprvda3kxuww62zfddua 531 10 proton proton NNP work_kkta46aprvda3kxuww62zfddua 531 11 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 531 12 in in IN work_kkta46aprvda3kxuww62zfddua 531 13 methanogenic methanogenic NNP work_kkta46aprvda3kxuww62zfddua 531 14 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 531 15 , , , work_kkta46aprvda3kxuww62zfddua 531 16 Cell Cell NNP work_kkta46aprvda3kxuww62zfddua 531 17 . . . work_kkta46aprvda3kxuww62zfddua 532 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 532 2 . . . work_kkta46aprvda3kxuww62zfddua 533 1 Life Life NNP work_kkta46aprvda3kxuww62zfddua 533 2 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 533 3 . . . work_kkta46aprvda3kxuww62zfddua 534 1 59 59 CD work_kkta46aprvda3kxuww62zfddua 534 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 534 3 2002 2002 CD work_kkta46aprvda3kxuww62zfddua 534 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 534 5 1–21 1–21 ADD work_kkta46aprvda3kxuww62zfddua 534 6 . . . work_kkta46aprvda3kxuww62zfddua 535 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 535 2 29 29 CD work_kkta46aprvda3kxuww62zfddua 535 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 535 4 R.K. R.K. NNP work_kkta46aprvda3kxuww62zfddua 535 5 Thauer Thauer NNP work_kkta46aprvda3kxuww62zfddua 535 6 , , , work_kkta46aprvda3kxuww62zfddua 535 7 A.K. A.K. NNP work_kkta46aprvda3kxuww62zfddua 536 1 Kaster Kaster NNP work_kkta46aprvda3kxuww62zfddua 536 2 , , , work_kkta46aprvda3kxuww62zfddua 536 3 H. H. NNP work_kkta46aprvda3kxuww62zfddua 536 4 Seedorf Seedorf NNP work_kkta46aprvda3kxuww62zfddua 536 5 , , , work_kkta46aprvda3kxuww62zfddua 536 6 W. W. NNP work_kkta46aprvda3kxuww62zfddua 536 7 Buckel Buckel NNP work_kkta46aprvda3kxuww62zfddua 536 8 , , , work_kkta46aprvda3kxuww62zfddua 536 9 R. R. NNP work_kkta46aprvda3kxuww62zfddua 536 10 Hedderich Hedderich NNP work_kkta46aprvda3kxuww62zfddua 536 11 , , , work_kkta46aprvda3kxuww62zfddua 536 12 Methanogenic Methanogenic NNP work_kkta46aprvda3kxuww62zfddua 536 13 archaea archaea VBD work_kkta46aprvda3kxuww62zfddua 536 14 : : : work_kkta46aprvda3kxuww62zfddua 536 15 ecologically ecologically RB work_kkta46aprvda3kxuww62zfddua 536 16 relevant relevant JJ work_kkta46aprvda3kxuww62zfddua 536 17 differences difference NNS work_kkta46aprvda3kxuww62zfddua 536 18 in in IN work_kkta46aprvda3kxuww62zfddua 536 19 energy energy NN work_kkta46aprvda3kxuww62zfddua 536 20 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 536 21 , , , work_kkta46aprvda3kxuww62zfddua 536 22 Nat Nat NNP work_kkta46aprvda3kxuww62zfddua 536 23 . . . work_kkta46aprvda3kxuww62zfddua 537 1 Rev. Rev. NNP work_kkta46aprvda3kxuww62zfddua 538 1 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 538 2 . . . work_kkta46aprvda3kxuww62zfddua 539 1 6 6 CD work_kkta46aprvda3kxuww62zfddua 539 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 539 3 2008 2008 CD work_kkta46aprvda3kxuww62zfddua 539 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 539 5 579–591 579–591 CD work_kkta46aprvda3kxuww62zfddua 539 6 . . . work_kkta46aprvda3kxuww62zfddua 540 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 540 2 30 30 CD work_kkta46aprvda3kxuww62zfddua 540 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 540 4 K. K. NNP work_kkta46aprvda3kxuww62zfddua 540 5 Schlegel Schlegel NNP work_kkta46aprvda3kxuww62zfddua 540 6 , , , work_kkta46aprvda3kxuww62zfddua 540 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 540 8 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 540 9 , , , work_kkta46aprvda3kxuww62zfddua 540 10 Evolution Evolution NNP work_kkta46aprvda3kxuww62zfddua 540 11 of of IN work_kkta46aprvda3kxuww62zfddua 540 12 Na+ Na+ NNP work_kkta46aprvda3kxuww62zfddua 540 13 and and CC work_kkta46aprvda3kxuww62zfddua 540 14 H+ H+ NNP work_kkta46aprvda3kxuww62zfddua 540 15 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 540 16 in in IN work_kkta46aprvda3kxuww62zfddua 540 17 methanogenic methanogenic NNP work_kkta46aprvda3kxuww62zfddua 540 18 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 540 19 , , , work_kkta46aprvda3kxuww62zfddua 540 20 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 540 21 . . . work_kkta46aprvda3kxuww62zfddua 541 1 Soc Soc NNP work_kkta46aprvda3kxuww62zfddua 541 2 . . . work_kkta46aprvda3kxuww62zfddua 542 1 Trans tran NNS work_kkta46aprvda3kxuww62zfddua 542 2 . . . work_kkta46aprvda3kxuww62zfddua 543 1 41 41 CD work_kkta46aprvda3kxuww62zfddua 543 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 543 3 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 543 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 543 5 421–426 421–426 CD work_kkta46aprvda3kxuww62zfddua 543 6 . . . work_kkta46aprvda3kxuww62zfddua 544 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 544 2 31 31 CD work_kkta46aprvda3kxuww62zfddua 544 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 544 4 V. V. NNP work_kkta46aprvda3kxuww62zfddua 544 5 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 544 6 , , , work_kkta46aprvda3kxuww62zfddua 544 7 C. C. NNP work_kkta46aprvda3kxuww62zfddua 544 8 Ruppert Ruppert NNP work_kkta46aprvda3kxuww62zfddua 544 9 , , , work_kkta46aprvda3kxuww62zfddua 544 10 T. T. NNP work_kkta46aprvda3kxuww62zfddua 544 11 Lemker Lemker NNP work_kkta46aprvda3kxuww62zfddua 544 12 , , , work_kkta46aprvda3kxuww62zfddua 544 13 Structure structure NN work_kkta46aprvda3kxuww62zfddua 544 14 and and CC work_kkta46aprvda3kxuww62zfddua 544 15 function function NN work_kkta46aprvda3kxuww62zfddua 544 16 of of IN work_kkta46aprvda3kxuww62zfddua 544 17 the the DT work_kkta46aprvda3kxuww62zfddua 544 18 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 544 19 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 544 20 from from IN work_kkta46aprvda3kxuww62zfddua 544 21 methanogenic methanogenic NNP work_kkta46aprvda3kxuww62zfddua 544 22 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 544 23 , , , work_kkta46aprvda3kxuww62zfddua 544 24 J. J. NNP work_kkta46aprvda3kxuww62zfddua 544 25 Bioenerg Bioenerg NNP work_kkta46aprvda3kxuww62zfddua 544 26 . . . work_kkta46aprvda3kxuww62zfddua 545 1 Biomembr Biomembr NNP work_kkta46aprvda3kxuww62zfddua 545 2 . . . work_kkta46aprvda3kxuww62zfddua 546 1 31 31 CD work_kkta46aprvda3kxuww62zfddua 546 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 546 3 1999 1999 CD work_kkta46aprvda3kxuww62zfddua 546 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 546 5 15–28 15–28 RB work_kkta46aprvda3kxuww62zfddua 546 6 . . . work_kkta46aprvda3kxuww62zfddua 547 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 547 2 32 32 CD work_kkta46aprvda3kxuww62zfddua 547 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 547 4 V. V. NNP work_kkta46aprvda3kxuww62zfddua 547 5 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 547 6 , , , work_kkta46aprvda3kxuww62zfddua 547 7 G. G. NNP work_kkta46aprvda3kxuww62zfddua 547 8 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 547 9 , , , work_kkta46aprvda3kxuww62zfddua 547 10 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 547 11 synthases synthase VBZ work_kkta46aprvda3kxuww62zfddua 547 12 : : : work_kkta46aprvda3kxuww62zfddua 547 13 structure structure NN work_kkta46aprvda3kxuww62zfddua 547 14 , , , work_kkta46aprvda3kxuww62zfddua 547 15 function function NN work_kkta46aprvda3kxuww62zfddua 547 16 and and CC work_kkta46aprvda3kxuww62zfddua 547 17 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 547 18 of of IN work_kkta46aprvda3kxuww62zfddua 547 19 unique unique JJ work_kkta46aprvda3kxuww62zfddua 547 20 energy energy NN work_kkta46aprvda3kxuww62zfddua 547 21 converters converter NNS work_kkta46aprvda3kxuww62zfddua 547 22 , , , work_kkta46aprvda3kxuww62zfddua 547 23 Cell Cell NNP work_kkta46aprvda3kxuww62zfddua 547 24 . . . work_kkta46aprvda3kxuww62zfddua 548 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 548 2 . . . work_kkta46aprvda3kxuww62zfddua 549 1 Life Life NNP work_kkta46aprvda3kxuww62zfddua 549 2 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 549 3 . . . work_kkta46aprvda3kxuww62zfddua 550 1 60 60 CD work_kkta46aprvda3kxuww62zfddua 550 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 550 3 2003 2003 CD work_kkta46aprvda3kxuww62zfddua 550 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 550 5 474–494 474–494 CD work_kkta46aprvda3kxuww62zfddua 550 6 . . . work_kkta46aprvda3kxuww62zfddua 551 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 551 2 33 33 CD work_kkta46aprvda3kxuww62zfddua 551 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 551 4 K.Y. K.Y. NNP work_kkta46aprvda3kxuww62zfddua 552 1 Pisa Pisa NNP work_kkta46aprvda3kxuww62zfddua 552 2 , , , work_kkta46aprvda3kxuww62zfddua 552 3 C. C. NNP work_kkta46aprvda3kxuww62zfddua 552 4 Weidner Weidner NNP work_kkta46aprvda3kxuww62zfddua 552 5 , , , work_kkta46aprvda3kxuww62zfddua 552 6 H. H. NNP work_kkta46aprvda3kxuww62zfddua 552 7 Maischak Maischak NNP work_kkta46aprvda3kxuww62zfddua 552 8 , , , work_kkta46aprvda3kxuww62zfddua 552 9 H. H. NNP work_kkta46aprvda3kxuww62zfddua 552 10 Kavermann Kavermann NNP work_kkta46aprvda3kxuww62zfddua 552 11 , , , work_kkta46aprvda3kxuww62zfddua 552 12 V. V. NNP work_kkta46aprvda3kxuww62zfddua 552 13 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 552 14 , , , work_kkta46aprvda3kxuww62zfddua 552 15 The the DT work_kkta46aprvda3kxuww62zfddua 552 16 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 552 17 ion ion NN work_kkta46aprvda3kxuww62zfddua 552 18 in in IN work_kkta46aprvda3kxuww62zfddua 552 19 methanoarchaeal methanoarchaeal JJ work_kkta46aprvda3kxuww62zfddua 552 20 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 552 21 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 552 22 : : : work_kkta46aprvda3kxuww62zfddua 552 23 H+ h+ ADD work_kkta46aprvda3kxuww62zfddua 552 24 versus versus IN work_kkta46aprvda3kxuww62zfddua 552 25 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 552 26 in in IN work_kkta46aprvda3kxuww62zfddua 552 27 the the DT work_kkta46aprvda3kxuww62zfddua 552 28 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 552 29 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 552 30 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 552 31 from from IN work_kkta46aprvda3kxuww62zfddua 552 32 the the DT work_kkta46aprvda3kxuww62zfddua 552 33 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 552 34 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 552 35 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 552 36 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 552 37 , , , work_kkta46aprvda3kxuww62zfddua 552 38 FEMS FEMS NNP work_kkta46aprvda3kxuww62zfddua 552 39 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 552 40 . . . work_kkta46aprvda3kxuww62zfddua 553 1 Lett Lett NNP work_kkta46aprvda3kxuww62zfddua 553 2 . . . work_kkta46aprvda3kxuww62zfddua 554 1 277 277 CD work_kkta46aprvda3kxuww62zfddua 554 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 554 3 2007 2007 CD work_kkta46aprvda3kxuww62zfddua 554 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 554 5 56–63 56–63 CD work_kkta46aprvda3kxuww62zfddua 554 6 . . . work_kkta46aprvda3kxuww62zfddua 555 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 555 2 34 34 CD work_kkta46aprvda3kxuww62zfddua 555 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 555 4 K. K. NNP work_kkta46aprvda3kxuww62zfddua 555 5 Lewalter Lewalter NNP work_kkta46aprvda3kxuww62zfddua 555 6 , , , work_kkta46aprvda3kxuww62zfddua 555 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 555 8 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 555 9 , , , work_kkta46aprvda3kxuww62zfddua 555 10 Bioenergetics Bioenergetics NNP work_kkta46aprvda3kxuww62zfddua 555 11 of of IN work_kkta46aprvda3kxuww62zfddua 555 12 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 555 13 : : : work_kkta46aprvda3kxuww62zfddua 555 14 ancient ancient JJ work_kkta46aprvda3kxuww62zfddua 555 15 energy energy NN work_kkta46aprvda3kxuww62zfddua 555 16 conserving conserve VBG work_kkta46aprvda3kxuww62zfddua 555 17 mecha- mecha- NNP work_kkta46aprvda3kxuww62zfddua 555 18 nisms nisms NNP work_kkta46aprvda3kxuww62zfddua 555 19 developed develop VBD work_kkta46aprvda3kxuww62zfddua 555 20 in in IN work_kkta46aprvda3kxuww62zfddua 555 21 the the DT work_kkta46aprvda3kxuww62zfddua 555 22 early early JJ work_kkta46aprvda3kxuww62zfddua 555 23 history history NN work_kkta46aprvda3kxuww62zfddua 555 24 of of IN work_kkta46aprvda3kxuww62zfddua 555 25 life life NN work_kkta46aprvda3kxuww62zfddua 555 26 , , , work_kkta46aprvda3kxuww62zfddua 555 27 Biochim Biochim NNP work_kkta46aprvda3kxuww62zfddua 555 28 . . . work_kkta46aprvda3kxuww62zfddua 556 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 556 2 . . . work_kkta46aprvda3kxuww62zfddua 557 1 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 557 2 1757 1757 CD work_kkta46aprvda3kxuww62zfddua 557 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 557 4 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 557 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 557 6 437–445 437–445 CD work_kkta46aprvda3kxuww62zfddua 557 7 . . . work_kkta46aprvda3kxuww62zfddua 558 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 558 2 35 35 CD work_kkta46aprvda3kxuww62zfddua 558 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 558 4 R. R. NNP work_kkta46aprvda3kxuww62zfddua 558 5 Wilms Wilms NNP work_kkta46aprvda3kxuww62zfddua 558 6 , , , work_kkta46aprvda3kxuww62zfddua 558 7 C. C. NNP work_kkta46aprvda3kxuww62zfddua 558 8 Freiberg Freiberg NNP work_kkta46aprvda3kxuww62zfddua 558 9 , , , work_kkta46aprvda3kxuww62zfddua 558 10 E. E. NNP work_kkta46aprvda3kxuww62zfddua 558 11 Wegerle Wegerle NNP work_kkta46aprvda3kxuww62zfddua 558 12 , , , work_kkta46aprvda3kxuww62zfddua 558 13 I. I. NNP work_kkta46aprvda3kxuww62zfddua 558 14 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 558 15 , , , work_kkta46aprvda3kxuww62zfddua 558 16 F. F. NNP work_kkta46aprvda3kxuww62zfddua 558 17 Mayer Mayer NNP work_kkta46aprvda3kxuww62zfddua 558 18 , , , work_kkta46aprvda3kxuww62zfddua 558 19 V. V. NNP work_kkta46aprvda3kxuww62zfddua 558 20 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 558 21 , , , work_kkta46aprvda3kxuww62zfddua 558 22 Subunit Subunit NNP work_kkta46aprvda3kxuww62zfddua 558 23 structure structure NN work_kkta46aprvda3kxuww62zfddua 558 24 and and CC work_kkta46aprvda3kxuww62zfddua 558 25 organization organization NN work_kkta46aprvda3kxuww62zfddua 558 26 of of IN work_kkta46aprvda3kxuww62zfddua 558 27 the the DT work_kkta46aprvda3kxuww62zfddua 558 28 genes gene NNS work_kkta46aprvda3kxuww62zfddua 558 29 of of IN work_kkta46aprvda3kxuww62zfddua 558 30 the the DT work_kkta46aprvda3kxuww62zfddua 558 31 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 558 32 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 558 33 from from IN work_kkta46aprvda3kxuww62zfddua 558 34 the the DT work_kkta46aprvda3kxuww62zfddua 558 35 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 558 36 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 558 37 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 558 38 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 558 39 , , , work_kkta46aprvda3kxuww62zfddua 558 40 J. J. NNP work_kkta46aprvda3kxuww62zfddua 558 41 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 558 42 . . . work_kkta46aprvda3kxuww62zfddua 559 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 559 2 . . . work_kkta46aprvda3kxuww62zfddua 560 1 271 271 CD work_kkta46aprvda3kxuww62zfddua 560 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 560 3 1996 1996 CD work_kkta46aprvda3kxuww62zfddua 560 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 560 5 18843–18852 18843–18852 ADD work_kkta46aprvda3kxuww62zfddua 560 6 . . . work_kkta46aprvda3kxuww62zfddua 561 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 561 2 36 36 CD work_kkta46aprvda3kxuww62zfddua 561 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 561 4 A. a. NN work_kkta46aprvda3kxuww62zfddua 561 5 Lingl Lingl NNP work_kkta46aprvda3kxuww62zfddua 561 6 , , , work_kkta46aprvda3kxuww62zfddua 561 7 H. H. NNP work_kkta46aprvda3kxuww62zfddua 561 8 Huber Huber NNP work_kkta46aprvda3kxuww62zfddua 561 9 , , , work_kkta46aprvda3kxuww62zfddua 561 10 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 562 1 Stetter Stetter NNP work_kkta46aprvda3kxuww62zfddua 562 2 , , , work_kkta46aprvda3kxuww62zfddua 562 3 F. F. NNP work_kkta46aprvda3kxuww62zfddua 562 4 Mayer Mayer NNP work_kkta46aprvda3kxuww62zfddua 562 5 , , , work_kkta46aprvda3kxuww62zfddua 562 6 J. J. NNP work_kkta46aprvda3kxuww62zfddua 562 7 Kellermann Kellermann NNP work_kkta46aprvda3kxuww62zfddua 562 8 , , , work_kkta46aprvda3kxuww62zfddua 562 9 V. V. NNP work_kkta46aprvda3kxuww62zfddua 562 10 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 562 11 , , , work_kkta46aprvda3kxuww62zfddua 562 12 Isolation isolation NN work_kkta46aprvda3kxuww62zfddua 562 13 of of IN work_kkta46aprvda3kxuww62zfddua 562 14 a a DT work_kkta46aprvda3kxuww62zfddua 562 15 complete complete JJ work_kkta46aprvda3kxuww62zfddua 562 16 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 562 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 562 18 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 562 19 comprising comprise VBG work_kkta46aprvda3kxuww62zfddua 562 20 nine nine CD work_kkta46aprvda3kxuww62zfddua 562 21 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 562 22 from from IN work_kkta46aprvda3kxuww62zfddua 562 23 the the DT work_kkta46aprvda3kxuww62zfddua 562 24 hyperthermophile hyperthermophile NNP work_kkta46aprvda3kxuww62zfddua 562 25 Methanococcus Methanococcus NNP work_kkta46aprvda3kxuww62zfddua 562 26 jannaschii jannaschii NN work_kkta46aprvda3kxuww62zfddua 562 27 , , , work_kkta46aprvda3kxuww62zfddua 562 28 Extremophiles Extremophiles NNP work_kkta46aprvda3kxuww62zfddua 562 29 7 7 CD work_kkta46aprvda3kxuww62zfddua 562 30 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 562 31 2003 2003 CD work_kkta46aprvda3kxuww62zfddua 562 32 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 562 33 249–257 249–257 CD work_kkta46aprvda3kxuww62zfddua 562 34 . . . work_kkta46aprvda3kxuww62zfddua 563 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 563 2 37 37 CD work_kkta46aprvda3kxuww62zfddua 563 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 563 4 R.L. R.L. NNP work_kkta46aprvda3kxuww62zfddua 564 1 Cross Cross NNP work_kkta46aprvda3kxuww62zfddua 564 2 , , , work_kkta46aprvda3kxuww62zfddua 564 3 L. L. NNP work_kkta46aprvda3kxuww62zfddua 564 4 Taiz Taiz NNP work_kkta46aprvda3kxuww62zfddua 564 5 , , , work_kkta46aprvda3kxuww62zfddua 564 6 Gene Gene NNP work_kkta46aprvda3kxuww62zfddua 564 7 duplication duplication NN work_kkta46aprvda3kxuww62zfddua 564 8 as as IN work_kkta46aprvda3kxuww62zfddua 564 9 a a DT work_kkta46aprvda3kxuww62zfddua 564 10 means means NN work_kkta46aprvda3kxuww62zfddua 564 11 for for IN work_kkta46aprvda3kxuww62zfddua 564 12 altering alter VBG work_kkta46aprvda3kxuww62zfddua 564 13 H+/ATP H+/ATP NNP work_kkta46aprvda3kxuww62zfddua 564 14 ratios ratio NNS work_kkta46aprvda3kxuww62zfddua 564 15 dur- dur- VBG work_kkta46aprvda3kxuww62zfddua 564 16 ing e VBG work_kkta46aprvda3kxuww62zfddua 564 17 the the DT work_kkta46aprvda3kxuww62zfddua 564 18 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 564 19 of of IN work_kkta46aprvda3kxuww62zfddua 564 20 FOF1 FOF1 NNP work_kkta46aprvda3kxuww62zfddua 564 21 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 564 22 and and CC work_kkta46aprvda3kxuww62zfddua 564 23 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 564 24 , , , work_kkta46aprvda3kxuww62zfddua 564 25 FEBS FEBS NNP work_kkta46aprvda3kxuww62zfddua 564 26 Lett Lett NNP work_kkta46aprvda3kxuww62zfddua 564 27 . . . work_kkta46aprvda3kxuww62zfddua 565 1 259 259 CD work_kkta46aprvda3kxuww62zfddua 565 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 565 3 1990 1990 CD work_kkta46aprvda3kxuww62zfddua 565 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 565 5 22227–22229 22227–22229 CD work_kkta46aprvda3kxuww62zfddua 565 6 . . . work_kkta46aprvda3kxuww62zfddua 566 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 566 2 38 38 CD work_kkta46aprvda3kxuww62zfddua 566 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 566 4 N. N. NNP work_kkta46aprvda3kxuww62zfddua 566 5 Nelson Nelson NNP work_kkta46aprvda3kxuww62zfddua 566 6 , , , work_kkta46aprvda3kxuww62zfddua 566 7 The the DT work_kkta46aprvda3kxuww62zfddua 566 8 vacuolar vacuolar JJ work_kkta46aprvda3kxuww62zfddua 566 9 H+-ATPase h+-atpase NN work_kkta46aprvda3kxuww62zfddua 566 10 — — : work_kkta46aprvda3kxuww62zfddua 566 11 one one CD work_kkta46aprvda3kxuww62zfddua 566 12 of of IN work_kkta46aprvda3kxuww62zfddua 566 13 the the DT work_kkta46aprvda3kxuww62zfddua 566 14 most most RBS work_kkta46aprvda3kxuww62zfddua 566 15 fundamental fundamental JJ work_kkta46aprvda3kxuww62zfddua 566 16 ion ion NN work_kkta46aprvda3kxuww62zfddua 566 17 pumps pump NNS work_kkta46aprvda3kxuww62zfddua 566 18 in in IN work_kkta46aprvda3kxuww62zfddua 566 19 nature nature NN work_kkta46aprvda3kxuww62zfddua 566 20 , , , work_kkta46aprvda3kxuww62zfddua 566 21 J. J. NNP work_kkta46aprvda3kxuww62zfddua 566 22 Exp Exp NNP work_kkta46aprvda3kxuww62zfddua 566 23 . . . work_kkta46aprvda3kxuww62zfddua 567 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 567 2 . . . work_kkta46aprvda3kxuww62zfddua 568 1 172 172 CD work_kkta46aprvda3kxuww62zfddua 568 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 568 3 1992 1992 CD work_kkta46aprvda3kxuww62zfddua 568 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 568 5 19–27 19–27 CD work_kkta46aprvda3kxuww62zfddua 568 6 . . . work_kkta46aprvda3kxuww62zfddua 569 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 569 2 39 39 CD work_kkta46aprvda3kxuww62zfddua 569 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 569 4 R.L. R.L. NNP work_kkta46aprvda3kxuww62zfddua 570 1 Cross Cross NNP work_kkta46aprvda3kxuww62zfddua 570 2 , , , work_kkta46aprvda3kxuww62zfddua 570 3 V. V. NNP work_kkta46aprvda3kxuww62zfddua 570 4 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 570 5 , , , work_kkta46aprvda3kxuww62zfddua 570 6 The the DT work_kkta46aprvda3kxuww62zfddua 570 7 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 570 8 of of IN work_kkta46aprvda3kxuww62zfddua 570 9 A- a- NN work_kkta46aprvda3kxuww62zfddua 570 10 , , , work_kkta46aprvda3kxuww62zfddua 570 11 F- F- NNP work_kkta46aprvda3kxuww62zfddua 570 12 , , , work_kkta46aprvda3kxuww62zfddua 570 13 and and CC work_kkta46aprvda3kxuww62zfddua 570 14 V v NN work_kkta46aprvda3kxuww62zfddua 570 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 570 16 type type NN work_kkta46aprvda3kxuww62zfddua 570 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 570 18 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 570 19 and and CC work_kkta46aprvda3kxuww62zfddua 570 20 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 570 21 : : : work_kkta46aprvda3kxuww62zfddua 570 22 reversals reversal NNS work_kkta46aprvda3kxuww62zfddua 570 23 in in IN work_kkta46aprvda3kxuww62zfddua 570 24 function function NN work_kkta46aprvda3kxuww62zfddua 570 25 and and CC work_kkta46aprvda3kxuww62zfddua 570 26 changes change NNS work_kkta46aprvda3kxuww62zfddua 570 27 in in IN work_kkta46aprvda3kxuww62zfddua 570 28 the the DT work_kkta46aprvda3kxuww62zfddua 570 29 H+/ATP H+/ATP NNP work_kkta46aprvda3kxuww62zfddua 570 30 stoichiometry stoichiometry NN work_kkta46aprvda3kxuww62zfddua 570 31 , , , work_kkta46aprvda3kxuww62zfddua 570 32 FEBS FEBS NNP work_kkta46aprvda3kxuww62zfddua 570 33 Lett Lett NNP work_kkta46aprvda3kxuww62zfddua 570 34 . . . work_kkta46aprvda3kxuww62zfddua 571 1 576 576 CD work_kkta46aprvda3kxuww62zfddua 571 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 571 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 571 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 571 5 1–4 1–4 CD work_kkta46aprvda3kxuww62zfddua 571 6 . . . work_kkta46aprvda3kxuww62zfddua 572 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 572 2 40 40 CD work_kkta46aprvda3kxuww62zfddua 572 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 572 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 572 5 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 572 6 , , , work_kkta46aprvda3kxuww62zfddua 572 7 H. H. NNP work_kkta46aprvda3kxuww62zfddua 572 8 Wieczorek Wieczorek NNP work_kkta46aprvda3kxuww62zfddua 572 9 , , , work_kkta46aprvda3kxuww62zfddua 572 10 W.R. W.R. NNP work_kkta46aprvda3kxuww62zfddua 572 11 Harvey Harvey NNP work_kkta46aprvda3kxuww62zfddua 572 12 , , , work_kkta46aprvda3kxuww62zfddua 572 13 V. V. NNP work_kkta46aprvda3kxuww62zfddua 572 14 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 572 15 , , , work_kkta46aprvda3kxuww62zfddua 572 16 Structure structure NN work_kkta46aprvda3kxuww62zfddua 572 17 – – : work_kkta46aprvda3kxuww62zfddua 572 18 function function NN work_kkta46aprvda3kxuww62zfddua 572 19 relationships relationship NNS work_kkta46aprvda3kxuww62zfddua 572 20 of of IN work_kkta46aprvda3kxuww62zfddua 572 21 A- a- NN work_kkta46aprvda3kxuww62zfddua 572 22 , , , work_kkta46aprvda3kxuww62zfddua 572 23 F- F- NNP work_kkta46aprvda3kxuww62zfddua 572 24 and and CC work_kkta46aprvda3kxuww62zfddua 572 25 V V NNP work_kkta46aprvda3kxuww62zfddua 572 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 572 27 ATPases ATPases NNPS work_kkta46aprvda3kxuww62zfddua 572 28 , , , work_kkta46aprvda3kxuww62zfddua 572 29 J. J. NNP work_kkta46aprvda3kxuww62zfddua 572 30 Exp Exp NNP work_kkta46aprvda3kxuww62zfddua 572 31 . . . work_kkta46aprvda3kxuww62zfddua 573 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 573 2 . . . work_kkta46aprvda3kxuww62zfddua 574 1 204 204 CD work_kkta46aprvda3kxuww62zfddua 574 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 574 3 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 574 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 574 5 2597–2605 2597–2605 CD work_kkta46aprvda3kxuww62zfddua 574 6 . . . work_kkta46aprvda3kxuww62zfddua 575 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 575 2 41 41 CD work_kkta46aprvda3kxuww62zfddua 575 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 575 4 E. E. NNP work_kkta46aprvda3kxuww62zfddua 575 5 Hilario Hilario NNP work_kkta46aprvda3kxuww62zfddua 575 6 , , , work_kkta46aprvda3kxuww62zfddua 575 7 J.P. J.P. NNP work_kkta46aprvda3kxuww62zfddua 575 8 Gogarten Gogarten NNP work_kkta46aprvda3kxuww62zfddua 575 9 , , , work_kkta46aprvda3kxuww62zfddua 575 10 The the DT work_kkta46aprvda3kxuww62zfddua 575 11 prokaryote prokaryote NN work_kkta46aprvda3kxuww62zfddua 575 12 - - HYPH work_kkta46aprvda3kxuww62zfddua 575 13 to to TO work_kkta46aprvda3kxuww62zfddua 575 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 575 15 eukaryote eukaryote NN work_kkta46aprvda3kxuww62zfddua 575 16 transition transition NN work_kkta46aprvda3kxuww62zfddua 575 17 reflected reflect VBN work_kkta46aprvda3kxuww62zfddua 575 18 in in IN work_kkta46aprvda3kxuww62zfddua 575 19 the the DT work_kkta46aprvda3kxuww62zfddua 575 20 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 575 21 of of IN work_kkta46aprvda3kxuww62zfddua 575 22 the the DT work_kkta46aprvda3kxuww62zfddua 575 23 V V NNP work_kkta46aprvda3kxuww62zfddua 575 24 / / SYM work_kkta46aprvda3kxuww62zfddua 575 25 F F NNP work_kkta46aprvda3kxuww62zfddua 575 26 / / SYM work_kkta46aprvda3kxuww62zfddua 575 27 A A NNP work_kkta46aprvda3kxuww62zfddua 575 28 - - HYPH work_kkta46aprvda3kxuww62zfddua 575 29 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 575 30 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 575 31 and and CC work_kkta46aprvda3kxuww62zfddua 575 32 proteolipid proteolipid JJ work_kkta46aprvda3kxuww62zfddua 575 33 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 575 34 , , , work_kkta46aprvda3kxuww62zfddua 575 35 J. J. NNP work_kkta46aprvda3kxuww62zfddua 575 36 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 575 37 . . . work_kkta46aprvda3kxuww62zfddua 576 1 Evol Evol NNP work_kkta46aprvda3kxuww62zfddua 576 2 . . . work_kkta46aprvda3kxuww62zfddua 577 1 46 46 CD work_kkta46aprvda3kxuww62zfddua 577 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 577 3 1998 1998 CD work_kkta46aprvda3kxuww62zfddua 577 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 577 5 703–715 703–715 CD work_kkta46aprvda3kxuww62zfddua 577 6 . . . work_kkta46aprvda3kxuww62zfddua 578 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 578 2 42 42 CD work_kkta46aprvda3kxuww62zfddua 578 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 578 4 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 578 5 Mukohata Mukohata NNP work_kkta46aprvda3kxuww62zfddua 578 6 , , , work_kkta46aprvda3kxuww62zfddua 578 7 K. K. NNP work_kkta46aprvda3kxuww62zfddua 578 8 Ihara Ihara NNP work_kkta46aprvda3kxuww62zfddua 578 9 , , , work_kkta46aprvda3kxuww62zfddua 578 10 Situation situation NN work_kkta46aprvda3kxuww62zfddua 578 11 of of IN work_kkta46aprvda3kxuww62zfddua 578 12 archaebacterial archaebacterial JJ work_kkta46aprvda3kxuww62zfddua 578 13 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 578 14 among among IN work_kkta46aprvda3kxuww62zfddua 578 15 ion ion NN work_kkta46aprvda3kxuww62zfddua 578 16 - - HYPH work_kkta46aprvda3kxuww62zfddua 578 17 translocating translocating NN work_kkta46aprvda3kxuww62zfddua 578 18 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 578 19 , , , work_kkta46aprvda3kxuww62zfddua 578 20 in in IN work_kkta46aprvda3kxuww62zfddua 578 21 : : : work_kkta46aprvda3kxuww62zfddua 578 22 C.H. C.H. NNP work_kkta46aprvda3kxuww62zfddua 579 1 Kim Kim NNP work_kkta46aprvda3kxuww62zfddua 579 2 , , , work_kkta46aprvda3kxuww62zfddua 579 3 T. T. NNP work_kkta46aprvda3kxuww62zfddua 579 4 Ozawa Ozawa NNP work_kkta46aprvda3kxuww62zfddua 579 5 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 579 6 Eds Eds NNP work_kkta46aprvda3kxuww62zfddua 579 7 . . . work_kkta46aprvda3kxuww62zfddua 580 1 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 580 2 , , , work_kkta46aprvda3kxuww62zfddua 580 3 Bioenergetics Bioenergetics NNP work_kkta46aprvda3kxuww62zfddua 580 4 , , , work_kkta46aprvda3kxuww62zfddua 580 5 Plenum Plenum NNP work_kkta46aprvda3kxuww62zfddua 580 6 Press Press NNP work_kkta46aprvda3kxuww62zfddua 580 7 , , , work_kkta46aprvda3kxuww62zfddua 580 8 New New NNP work_kkta46aprvda3kxuww62zfddua 580 9 York York NNP work_kkta46aprvda3kxuww62zfddua 580 10 , , , work_kkta46aprvda3kxuww62zfddua 580 11 1990 1990 CD work_kkta46aprvda3kxuww62zfddua 580 12 , , , work_kkta46aprvda3kxuww62zfddua 580 13 pp pp NNP work_kkta46aprvda3kxuww62zfddua 580 14 . . . work_kkta46aprvda3kxuww62zfddua 581 1 205–216 205–216 CD work_kkta46aprvda3kxuww62zfddua 581 2 . . . work_kkta46aprvda3kxuww62zfddua 582 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 582 2 43 43 CD work_kkta46aprvda3kxuww62zfddua 582 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 582 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 582 5 Schäfer Schäfer NNP work_kkta46aprvda3kxuww62zfddua 582 6 , , , work_kkta46aprvda3kxuww62zfddua 582 7 M. M. NNP work_kkta46aprvda3kxuww62zfddua 582 8 Meyering Meyering NNP work_kkta46aprvda3kxuww62zfddua 582 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 582 10 Vos Vos NNP work_kkta46aprvda3kxuww62zfddua 582 11 , , , work_kkta46aprvda3kxuww62zfddua 582 12 F F NNP work_kkta46aprvda3kxuww62zfddua 582 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 582 14 type type NNP work_kkta46aprvda3kxuww62zfddua 582 15 or or CC work_kkta46aprvda3kxuww62zfddua 582 16 V v NN work_kkta46aprvda3kxuww62zfddua 582 17 - - HYPH work_kkta46aprvda3kxuww62zfddua 582 18 type type NN work_kkta46aprvda3kxuww62zfddua 582 19 ? ? . work_kkta46aprvda3kxuww62zfddua 583 1 The the DT work_kkta46aprvda3kxuww62zfddua 583 2 chimeric chimeric JJ work_kkta46aprvda3kxuww62zfddua 583 3 nature nature NN work_kkta46aprvda3kxuww62zfddua 583 4 of of IN work_kkta46aprvda3kxuww62zfddua 583 5 the the DT work_kkta46aprvda3kxuww62zfddua 583 6 archaebacterial archaebacterial JJ work_kkta46aprvda3kxuww62zfddua 583 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 583 8 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 583 9 , , , work_kkta46aprvda3kxuww62zfddua 583 10 Biochim Biochim NNP work_kkta46aprvda3kxuww62zfddua 583 11 . . . work_kkta46aprvda3kxuww62zfddua 584 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 584 2 . . . work_kkta46aprvda3kxuww62zfddua 585 1 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 585 2 1101 1101 CD work_kkta46aprvda3kxuww62zfddua 585 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 585 4 1992 1992 CD work_kkta46aprvda3kxuww62zfddua 585 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 585 6 232–235 232–235 CD work_kkta46aprvda3kxuww62zfddua 585 7 . . . work_kkta46aprvda3kxuww62zfddua 586 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 586 2 44 44 CD work_kkta46aprvda3kxuww62zfddua 586 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 586 4 T. T. NNP work_kkta46aprvda3kxuww62zfddua 586 5 Ubbink Ubbink NNP work_kkta46aprvda3kxuww62zfddua 586 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 586 7 Kok Kok NNP work_kkta46aprvda3kxuww62zfddua 586 8 , , , work_kkta46aprvda3kxuww62zfddua 586 9 E.J. E.J. NNP work_kkta46aprvda3kxuww62zfddua 587 1 Boekema Boekema NNP work_kkta46aprvda3kxuww62zfddua 587 2 , , , work_kkta46aprvda3kxuww62zfddua 587 3 J.F. J.F. NNP work_kkta46aprvda3kxuww62zfddua 588 1 van van NNP work_kkta46aprvda3kxuww62zfddua 588 2 Breemen Breemen NNP work_kkta46aprvda3kxuww62zfddua 588 3 , , , work_kkta46aprvda3kxuww62zfddua 588 4 A. A. NNP work_kkta46aprvda3kxuww62zfddua 588 5 Brisson Brisson NNP work_kkta46aprvda3kxuww62zfddua 588 6 , , , work_kkta46aprvda3kxuww62zfddua 588 7 W.N. W.N. NNP work_kkta46aprvda3kxuww62zfddua 589 1 Konings Konings NNP work_kkta46aprvda3kxuww62zfddua 589 2 , , , work_kkta46aprvda3kxuww62zfddua 589 3 J.S. J.S. NNP work_kkta46aprvda3kxuww62zfddua 590 1 Lolkema Lolkema NNP work_kkta46aprvda3kxuww62zfddua 590 2 , , , work_kkta46aprvda3kxuww62zfddua 590 3 Stator Stator NNP work_kkta46aprvda3kxuww62zfddua 590 4 structure structure NN work_kkta46aprvda3kxuww62zfddua 590 5 and and CC work_kkta46aprvda3kxuww62zfddua 590 6 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 590 7 composition composition NN work_kkta46aprvda3kxuww62zfddua 590 8 of of IN work_kkta46aprvda3kxuww62zfddua 590 9 the the DT work_kkta46aprvda3kxuww62zfddua 590 10 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 590 11 Na Na NNP work_kkta46aprvda3kxuww62zfddua 590 12 + + DT work_kkta46aprvda3kxuww62zfddua 590 13 -ATPase -atpase NN work_kkta46aprvda3kxuww62zfddua 590 14 of of IN work_kkta46aprvda3kxuww62zfddua 590 15 the the DT work_kkta46aprvda3kxuww62zfddua 590 16 thermophilic thermophilic JJ work_kkta46aprvda3kxuww62zfddua 590 17 bacterium bacterium NN work_kkta46aprvda3kxuww62zfddua 590 18 Caloramator Caloramator NNP work_kkta46aprvda3kxuww62zfddua 590 19 fervidus fervidus NN work_kkta46aprvda3kxuww62zfddua 590 20 , , , work_kkta46aprvda3kxuww62zfddua 590 21 J. J. NNP work_kkta46aprvda3kxuww62zfddua 590 22 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 590 23 . . . work_kkta46aprvda3kxuww62zfddua 591 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 591 2 . . . work_kkta46aprvda3kxuww62zfddua 592 1 296 296 CD work_kkta46aprvda3kxuww62zfddua 592 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 592 3 2000 2000 CD work_kkta46aprvda3kxuww62zfddua 592 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 592 5 311–321 311–321 CD work_kkta46aprvda3kxuww62zfddua 592 6 . . . work_kkta46aprvda3kxuww62zfddua 593 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 593 2 45 45 CD work_kkta46aprvda3kxuww62zfddua 593 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 593 4 Ü. Ü. NNP work_kkta46aprvda3kxuww62zfddua 593 5 Coskun Coskun NNP work_kkta46aprvda3kxuww62zfddua 593 6 , , , work_kkta46aprvda3kxuww62zfddua 593 7 Y.L. Y.L. NNP work_kkta46aprvda3kxuww62zfddua 594 1 Chaban chaban JJ work_kkta46aprvda3kxuww62zfddua 594 2 , , , work_kkta46aprvda3kxuww62zfddua 594 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 594 4 Lingl Lingl NNP work_kkta46aprvda3kxuww62zfddua 594 5 , , , work_kkta46aprvda3kxuww62zfddua 594 6 V. V. NNP work_kkta46aprvda3kxuww62zfddua 594 7 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 594 8 , , , work_kkta46aprvda3kxuww62zfddua 594 9 W. W. NNP work_kkta46aprvda3kxuww62zfddua 594 10 Keegstra Keegstra NNP work_kkta46aprvda3kxuww62zfddua 594 11 , , , work_kkta46aprvda3kxuww62zfddua 594 12 E.J. E.J. NNP work_kkta46aprvda3kxuww62zfddua 595 1 Boekema Boekema NNP work_kkta46aprvda3kxuww62zfddua 595 2 , , , work_kkta46aprvda3kxuww62zfddua 595 3 G. G. NNP work_kkta46aprvda3kxuww62zfddua 595 4 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 595 5 , , , work_kkta46aprvda3kxuww62zfddua 595 6 Structure Structure NNP work_kkta46aprvda3kxuww62zfddua 595 7 and and CC work_kkta46aprvda3kxuww62zfddua 595 8 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 595 9 arrangement arrangement NN work_kkta46aprvda3kxuww62zfddua 595 10 of of IN work_kkta46aprvda3kxuww62zfddua 595 11 the the DT work_kkta46aprvda3kxuww62zfddua 595 12 A A NNP work_kkta46aprvda3kxuww62zfddua 595 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 595 14 type type NN work_kkta46aprvda3kxuww62zfddua 595 15 ATP atp NN work_kkta46aprvda3kxuww62zfddua 595 16 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 595 17 complex complex NN work_kkta46aprvda3kxuww62zfddua 595 18 from from IN work_kkta46aprvda3kxuww62zfddua 595 19 the the DT work_kkta46aprvda3kxuww62zfddua 595 20 archaeon archaeon NNP work_kkta46aprvda3kxuww62zfddua 595 21 Methanococcus Methanococcus NNP work_kkta46aprvda3kxuww62zfddua 595 22 jannaschii jannaschii NN work_kkta46aprvda3kxuww62zfddua 595 23 visualized visualize VBN work_kkta46aprvda3kxuww62zfddua 595 24 by by IN work_kkta46aprvda3kxuww62zfddua 595 25 electron electron NNP work_kkta46aprvda3kxuww62zfddua 595 26 microscopy microscopy NNP work_kkta46aprvda3kxuww62zfddua 595 27 , , , work_kkta46aprvda3kxuww62zfddua 595 28 J. J. NNP work_kkta46aprvda3kxuww62zfddua 595 29 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 595 30 . . . work_kkta46aprvda3kxuww62zfddua 596 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 596 2 . . . work_kkta46aprvda3kxuww62zfddua 597 1 279 279 CD work_kkta46aprvda3kxuww62zfddua 597 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 597 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 597 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 597 5 38644–38648 38644–38648 CD work_kkta46aprvda3kxuww62zfddua 597 6 . . . work_kkta46aprvda3kxuww62zfddua 598 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 598 2 46 46 CD work_kkta46aprvda3kxuww62zfddua 598 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 598 4 R.A. R.A. NNP work_kkta46aprvda3kxuww62zfddua 598 5 Bernal Bernal NNP work_kkta46aprvda3kxuww62zfddua 598 6 , , , work_kkta46aprvda3kxuww62zfddua 598 7 D. D. NNP work_kkta46aprvda3kxuww62zfddua 598 8 Stock Stock NNP work_kkta46aprvda3kxuww62zfddua 598 9 , , , work_kkta46aprvda3kxuww62zfddua 598 10 Three Three NNP work_kkta46aprvda3kxuww62zfddua 598 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 598 12 dimensional dimensional JJ work_kkta46aprvda3kxuww62zfddua 598 13 structure structure NN work_kkta46aprvda3kxuww62zfddua 598 14 of of IN work_kkta46aprvda3kxuww62zfddua 598 15 the the DT work_kkta46aprvda3kxuww62zfddua 598 16 intact intact JJ work_kkta46aprvda3kxuww62zfddua 598 17 Thermus Thermus NNP work_kkta46aprvda3kxuww62zfddua 598 18 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 598 19 H+-ATPase h+-atpase PRP work_kkta46aprvda3kxuww62zfddua 598 20 / / SYM work_kkta46aprvda3kxuww62zfddua 598 21 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 598 22 by by IN work_kkta46aprvda3kxuww62zfddua 598 23 electron electron NNP work_kkta46aprvda3kxuww62zfddua 598 24 microscopy microscopy NNP work_kkta46aprvda3kxuww62zfddua 598 25 , , , work_kkta46aprvda3kxuww62zfddua 598 26 Structure structure NN work_kkta46aprvda3kxuww62zfddua 598 27 12 12 CD work_kkta46aprvda3kxuww62zfddua 598 28 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 598 29 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 598 30 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 598 31 1789–1798 1789–1798 CD work_kkta46aprvda3kxuww62zfddua 598 32 . . . work_kkta46aprvda3kxuww62zfddua 599 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 599 2 47 47 CD work_kkta46aprvda3kxuww62zfddua 599 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 599 4 J. J. NNP work_kkta46aprvda3kxuww62zfddua 599 5 Vonck Vonck NNP work_kkta46aprvda3kxuww62zfddua 599 6 , , , work_kkta46aprvda3kxuww62zfddua 599 7 K.Y. K.Y. NNP work_kkta46aprvda3kxuww62zfddua 600 1 Pisa Pisa NNP work_kkta46aprvda3kxuww62zfddua 600 2 , , , work_kkta46aprvda3kxuww62zfddua 600 3 N. N. NNP work_kkta46aprvda3kxuww62zfddua 600 4 Morgner Morgner NNP work_kkta46aprvda3kxuww62zfddua 600 5 , , , work_kkta46aprvda3kxuww62zfddua 600 6 B. B. NNP work_kkta46aprvda3kxuww62zfddua 600 7 Brutschy Brutschy NNP work_kkta46aprvda3kxuww62zfddua 600 8 , , , work_kkta46aprvda3kxuww62zfddua 600 9 V. V. NNP work_kkta46aprvda3kxuww62zfddua 600 10 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 600 11 , , , work_kkta46aprvda3kxuww62zfddua 600 12 Three three CD work_kkta46aprvda3kxuww62zfddua 600 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 600 14 dimensional dimensional JJ work_kkta46aprvda3kxuww62zfddua 600 15 structure structure NN work_kkta46aprvda3kxuww62zfddua 600 16 of of IN work_kkta46aprvda3kxuww62zfddua 600 17 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 600 18 ATP atp NN work_kkta46aprvda3kxuww62zfddua 600 19 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 600 20 from from IN work_kkta46aprvda3kxuww62zfddua 600 21 the the DT work_kkta46aprvda3kxuww62zfddua 600 22 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 600 23 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 600 24 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 600 25 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 600 26 by by IN work_kkta46aprvda3kxuww62zfddua 600 27 electron electron NNP work_kkta46aprvda3kxuww62zfddua 600 28 microscopy microscopy NNP work_kkta46aprvda3kxuww62zfddua 600 29 , , , work_kkta46aprvda3kxuww62zfddua 600 30 J. J. NNP work_kkta46aprvda3kxuww62zfddua 600 31 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 600 32 . . . work_kkta46aprvda3kxuww62zfddua 601 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 601 2 . . . work_kkta46aprvda3kxuww62zfddua 602 1 284 284 CD work_kkta46aprvda3kxuww62zfddua 602 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 602 3 2009 2009 CD work_kkta46aprvda3kxuww62zfddua 602 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 602 5 10110–10119 10110–10119 CD work_kkta46aprvda3kxuww62zfddua 602 6 . . . work_kkta46aprvda3kxuww62zfddua 603 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 603 2 48 48 CD work_kkta46aprvda3kxuww62zfddua 603 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 603 4 W.C. W.C. NNP work_kkta46aprvda3kxuww62zfddua 603 5 Lau Lau NNP work_kkta46aprvda3kxuww62zfddua 603 6 , , , work_kkta46aprvda3kxuww62zfddua 603 7 J.L. J.L. NNP work_kkta46aprvda3kxuww62zfddua 604 1 Rubinstein Rubinstein NNP work_kkta46aprvda3kxuww62zfddua 604 2 , , , work_kkta46aprvda3kxuww62zfddua 604 3 Subnanometre Subnanometre NNP work_kkta46aprvda3kxuww62zfddua 604 4 - - HYPH work_kkta46aprvda3kxuww62zfddua 604 5 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 604 6 structure structure NN work_kkta46aprvda3kxuww62zfddua 604 7 of of IN work_kkta46aprvda3kxuww62zfddua 604 8 the the DT work_kkta46aprvda3kxuww62zfddua 604 9 intact intact JJ work_kkta46aprvda3kxuww62zfddua 604 10 Thermus Thermus NNP work_kkta46aprvda3kxuww62zfddua 604 11 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 604 12 H+-driven h+-driven JJ work_kkta46aprvda3kxuww62zfddua 604 13 ATP atp NN work_kkta46aprvda3kxuww62zfddua 604 14 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 604 15 , , , work_kkta46aprvda3kxuww62zfddua 604 16 Nature nature NN work_kkta46aprvda3kxuww62zfddua 604 17 481 481 CD work_kkta46aprvda3kxuww62zfddua 604 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 604 19 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 604 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 604 21 214–218 214–218 CD work_kkta46aprvda3kxuww62zfddua 604 22 . . . work_kkta46aprvda3kxuww62zfddua 605 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 605 2 49 49 CD work_kkta46aprvda3kxuww62zfddua 605 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 605 4 A. a. NN work_kkta46aprvda3kxuww62zfddua 605 5 Kumar Kumar NNP work_kkta46aprvda3kxuww62zfddua 605 6 , , , work_kkta46aprvda3kxuww62zfddua 605 7 M.S. M.S. NNP work_kkta46aprvda3kxuww62zfddua 606 1 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 606 2 , , , work_kkta46aprvda3kxuww62zfddua 606 3 A.M. A.M. NNP work_kkta46aprvda3kxuww62zfddua 606 4 Balakrishna Balakrishna NNP work_kkta46aprvda3kxuww62zfddua 606 5 , , , work_kkta46aprvda3kxuww62zfddua 606 6 J. J. NNP work_kkta46aprvda3kxuww62zfddua 606 7 Jeyakanthan Jeyakanthan NNP work_kkta46aprvda3kxuww62zfddua 606 8 , , , work_kkta46aprvda3kxuww62zfddua 606 9 G. G. NNP work_kkta46aprvda3kxuww62zfddua 606 10 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 606 11 , , , work_kkta46aprvda3kxuww62zfddua 606 12 Nucleotide Nucleotide NNP work_kkta46aprvda3kxuww62zfddua 606 13 binding bind VBG work_kkta46aprvda3kxuww62zfddua 606 14 states state NNS work_kkta46aprvda3kxuww62zfddua 606 15 of of IN work_kkta46aprvda3kxuww62zfddua 606 16 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 606 17 A A NNP work_kkta46aprvda3kxuww62zfddua 606 18 of of IN work_kkta46aprvda3kxuww62zfddua 606 19 the the DT work_kkta46aprvda3kxuww62zfddua 606 20 A A NNP work_kkta46aprvda3kxuww62zfddua 606 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 606 22 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 606 23 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 606 24 and and CC work_kkta46aprvda3kxuww62zfddua 606 25 the the DT work_kkta46aprvda3kxuww62zfddua 606 26 implication implication NN work_kkta46aprvda3kxuww62zfddua 606 27 of of IN work_kkta46aprvda3kxuww62zfddua 606 28 P p NN work_kkta46aprvda3kxuww62zfddua 606 29 - - HYPH work_kkta46aprvda3kxuww62zfddua 606 30 loop loop NN work_kkta46aprvda3kxuww62zfddua 606 31 switch switch NN work_kkta46aprvda3kxuww62zfddua 606 32 in in IN work_kkta46aprvda3kxuww62zfddua 606 33 evolution evolution NN work_kkta46aprvda3kxuww62zfddua 606 34 , , , work_kkta46aprvda3kxuww62zfddua 606 35 J. J. NNP work_kkta46aprvda3kxuww62zfddua 606 36 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 606 37 . . . work_kkta46aprvda3kxuww62zfddua 607 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 607 2 . . . work_kkta46aprvda3kxuww62zfddua 608 1 396 396 CD work_kkta46aprvda3kxuww62zfddua 608 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 608 3 2010 2010 CD work_kkta46aprvda3kxuww62zfddua 608 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 608 5 301–320 301–320 CD work_kkta46aprvda3kxuww62zfddua 608 6 . . . work_kkta46aprvda3kxuww62zfddua 609 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 609 2 50 50 CD work_kkta46aprvda3kxuww62zfddua 609 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 609 4 I.B. I.B. NNP work_kkta46aprvda3kxuww62zfddua 610 1 Schäfer schäfer VB work_kkta46aprvda3kxuww62zfddua 610 2 , , , work_kkta46aprvda3kxuww62zfddua 610 3 S.M. S.M. NNP work_kkta46aprvda3kxuww62zfddua 611 1 Bailer Bailer NNP work_kkta46aprvda3kxuww62zfddua 611 2 , , , work_kkta46aprvda3kxuww62zfddua 611 3 M.G. M.G. NNP work_kkta46aprvda3kxuww62zfddua 612 1 Düser Düser NNP work_kkta46aprvda3kxuww62zfddua 612 2 , , , work_kkta46aprvda3kxuww62zfddua 612 3 M. M. NNP work_kkta46aprvda3kxuww62zfddua 612 4 Börsch Börsch NNP work_kkta46aprvda3kxuww62zfddua 612 5 , , , work_kkta46aprvda3kxuww62zfddua 612 6 R.A. R.A. NNP work_kkta46aprvda3kxuww62zfddua 612 7 Bernal Bernal NNP work_kkta46aprvda3kxuww62zfddua 612 8 , , , work_kkta46aprvda3kxuww62zfddua 612 9 D. D. NNP work_kkta46aprvda3kxuww62zfddua 612 10 Stock Stock NNP work_kkta46aprvda3kxuww62zfddua 612 11 , , , work_kkta46aprvda3kxuww62zfddua 612 12 G. G. NNP work_kkta46aprvda3kxuww62zfddua 612 13 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 612 14 , , , work_kkta46aprvda3kxuww62zfddua 612 15 Crystal Crystal NNP work_kkta46aprvda3kxuww62zfddua 612 16 structure structure NN work_kkta46aprvda3kxuww62zfddua 612 17 of of IN work_kkta46aprvda3kxuww62zfddua 612 18 the the DT work_kkta46aprvda3kxuww62zfddua 612 19 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 612 20 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 612 21 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 612 22 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 612 23 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 612 24 B B NNP work_kkta46aprvda3kxuww62zfddua 612 25 from from IN work_kkta46aprvda3kxuww62zfddua 612 26 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 612 27 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 612 28 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 612 29 : : : work_kkta46aprvda3kxuww62zfddua 612 30 implications implication NNS work_kkta46aprvda3kxuww62zfddua 612 31 of of IN work_kkta46aprvda3kxuww62zfddua 612 32 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 612 33 - - HYPH work_kkta46aprvda3kxuww62zfddua 612 34 binding bind VBG work_kkta46aprvda3kxuww62zfddua 612 35 differences difference NNS work_kkta46aprvda3kxuww62zfddua 612 36 in in IN work_kkta46aprvda3kxuww62zfddua 612 37 the the DT work_kkta46aprvda3kxuww62zfddua 612 38 major major JJ work_kkta46aprvda3kxuww62zfddua 612 39 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 612 40 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 612 41 A a NN work_kkta46aprvda3kxuww62zfddua 612 42 and and CC work_kkta46aprvda3kxuww62zfddua 612 43 B b NN work_kkta46aprvda3kxuww62zfddua 612 44 , , , work_kkta46aprvda3kxuww62zfddua 612 45 J. J. NNP work_kkta46aprvda3kxuww62zfddua 612 46 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 612 47 . . . work_kkta46aprvda3kxuww62zfddua 613 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 613 2 . . . work_kkta46aprvda3kxuww62zfddua 614 1 358 358 CD work_kkta46aprvda3kxuww62zfddua 614 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 614 3 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 614 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 614 5 725–740 725–740 CD work_kkta46aprvda3kxuww62zfddua 614 6 . . . work_kkta46aprvda3kxuww62zfddua 615 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 615 2 51 51 CD work_kkta46aprvda3kxuww62zfddua 615 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 615 4 M. M. NNP work_kkta46aprvda3kxuww62zfddua 615 5 Iwata Iwata NNP work_kkta46aprvda3kxuww62zfddua 615 6 , , , work_kkta46aprvda3kxuww62zfddua 615 7 H. H. NNP work_kkta46aprvda3kxuww62zfddua 615 8 Imamura Imamura NNP work_kkta46aprvda3kxuww62zfddua 615 9 , , , work_kkta46aprvda3kxuww62zfddua 615 10 E. E. NNP work_kkta46aprvda3kxuww62zfddua 615 11 Stambouli Stambouli NNP work_kkta46aprvda3kxuww62zfddua 615 12 , , , work_kkta46aprvda3kxuww62zfddua 615 13 C. C. NNP work_kkta46aprvda3kxuww62zfddua 615 14 Ikeda Ikeda NNP work_kkta46aprvda3kxuww62zfddua 615 15 , , , work_kkta46aprvda3kxuww62zfddua 615 16 M. M. NNP work_kkta46aprvda3kxuww62zfddua 615 17 Tamakoshi Tamakoshi NNP work_kkta46aprvda3kxuww62zfddua 615 18 , , , work_kkta46aprvda3kxuww62zfddua 615 19 K. K. NNP work_kkta46aprvda3kxuww62zfddua 615 20 Nagata Nagata NNP work_kkta46aprvda3kxuww62zfddua 615 21 , , , work_kkta46aprvda3kxuww62zfddua 615 22 H. H. NNP work_kkta46aprvda3kxuww62zfddua 615 23 Makyio Makyio NNP work_kkta46aprvda3kxuww62zfddua 615 24 , , , work_kkta46aprvda3kxuww62zfddua 615 25 B. B. NNP work_kkta46aprvda3kxuww62zfddua 615 26 Hankamer Hankamer NNP work_kkta46aprvda3kxuww62zfddua 615 27 , , , work_kkta46aprvda3kxuww62zfddua 615 28 J. J. NNP work_kkta46aprvda3kxuww62zfddua 615 29 Barber Barber NNP work_kkta46aprvda3kxuww62zfddua 615 30 , , , work_kkta46aprvda3kxuww62zfddua 615 31 M. M. NNP work_kkta46aprvda3kxuww62zfddua 615 32 Yoshida Yoshida NNP work_kkta46aprvda3kxuww62zfddua 615 33 , , , work_kkta46aprvda3kxuww62zfddua 615 34 K. K. NNP work_kkta46aprvda3kxuww62zfddua 615 35 Yokoyama Yokoyama NNP work_kkta46aprvda3kxuww62zfddua 615 36 , , , work_kkta46aprvda3kxuww62zfddua 615 37 S. S. NNP work_kkta46aprvda3kxuww62zfddua 615 38 Iwata Iwata NNP work_kkta46aprvda3kxuww62zfddua 615 39 , , , work_kkta46aprvda3kxuww62zfddua 615 40 Crystal Crystal NNP work_kkta46aprvda3kxuww62zfddua 615 41 structure structure NN work_kkta46aprvda3kxuww62zfddua 615 42 of of IN work_kkta46aprvda3kxuww62zfddua 615 43 a a DT work_kkta46aprvda3kxuww62zfddua 615 44 central central JJ work_kkta46aprvda3kxuww62zfddua 615 45 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 615 46 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 615 47 C C NNP work_kkta46aprvda3kxuww62zfddua 615 48 and and CC work_kkta46aprvda3kxuww62zfddua 615 49 reversible reversible NNP work_kkta46aprvda3kxuww62zfddua 615 50 association association NNP work_kkta46aprvda3kxuww62zfddua 615 51 / / SYM work_kkta46aprvda3kxuww62zfddua 615 52 dissociation dissociation NN work_kkta46aprvda3kxuww62zfddua 615 53 of of IN work_kkta46aprvda3kxuww62zfddua 615 54 vacuole vacuole NN work_kkta46aprvda3kxuww62zfddua 615 55 - - HYPH work_kkta46aprvda3kxuww62zfddua 615 56 type type NN work_kkta46aprvda3kxuww62zfddua 615 57 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 615 58 , , , work_kkta46aprvda3kxuww62zfddua 615 59 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 615 60 . . . work_kkta46aprvda3kxuww62zfddua 616 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 616 2 . . . work_kkta46aprvda3kxuww62zfddua 617 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 617 2 . . . work_kkta46aprvda3kxuww62zfddua 618 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 618 2 . . . work_kkta46aprvda3kxuww62zfddua 619 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 619 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 619 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 620 1 101 101 CD work_kkta46aprvda3kxuww62zfddua 620 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 620 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 620 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 620 5 59–64 59–64 RB work_kkta46aprvda3kxuww62zfddua 620 6 . . . work_kkta46aprvda3kxuww62zfddua 621 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 621 2 52 52 CD work_kkta46aprvda3kxuww62zfddua 621 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 621 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 621 5 Saijo Saijo NNP work_kkta46aprvda3kxuww62zfddua 621 6 , , , work_kkta46aprvda3kxuww62zfddua 621 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 621 8 Arai Arai NNP work_kkta46aprvda3kxuww62zfddua 621 9 , , , work_kkta46aprvda3kxuww62zfddua 621 10 K.M. K.M. NNP work_kkta46aprvda3kxuww62zfddua 622 1 Hossain Hossain NNP work_kkta46aprvda3kxuww62zfddua 622 2 , , , work_kkta46aprvda3kxuww62zfddua 622 3 I. I. NNP work_kkta46aprvda3kxuww62zfddua 622 4 Yamato Yamato NNP work_kkta46aprvda3kxuww62zfddua 622 5 , , , work_kkta46aprvda3kxuww62zfddua 622 6 K. K. NNP work_kkta46aprvda3kxuww62zfddua 622 7 Suzuki Suzuki NNP work_kkta46aprvda3kxuww62zfddua 622 8 , , , work_kkta46aprvda3kxuww62zfddua 622 9 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 622 10 Kakinuma Kakinuma NNP work_kkta46aprvda3kxuww62zfddua 622 11 , , , work_kkta46aprvda3kxuww62zfddua 622 12 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 622 13 Ishizuka Ishizuka NNP work_kkta46aprvda3kxuww62zfddua 622 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 622 15 Katsura Katsura NNP work_kkta46aprvda3kxuww62zfddua 622 16 , , , work_kkta46aprvda3kxuww62zfddua 622 17 N. N. NNP work_kkta46aprvda3kxuww62zfddua 622 18 Ohsawa Ohsawa NNP work_kkta46aprvda3kxuww62zfddua 622 19 , , , work_kkta46aprvda3kxuww62zfddua 622 20 T. T. NNP work_kkta46aprvda3kxuww62zfddua 622 21 Terada Terada NNP work_kkta46aprvda3kxuww62zfddua 622 22 , , , work_kkta46aprvda3kxuww62zfddua 622 23 M. M. NNP work_kkta46aprvda3kxuww62zfddua 622 24 Shirouzu Shirouzu NNP work_kkta46aprvda3kxuww62zfddua 622 25 , , , work_kkta46aprvda3kxuww62zfddua 622 26 S. S. NNP work_kkta46aprvda3kxuww62zfddua 622 27 Yokoyama Yokoyama NNP work_kkta46aprvda3kxuww62zfddua 622 28 , , , work_kkta46aprvda3kxuww62zfddua 622 29 S. S. NNP work_kkta46aprvda3kxuww62zfddua 622 30 Iwata Iwata NNP work_kkta46aprvda3kxuww62zfddua 622 31 , , , work_kkta46aprvda3kxuww62zfddua 622 32 T. T. NNP work_kkta46aprvda3kxuww62zfddua 622 33 Murata Murata NNP work_kkta46aprvda3kxuww62zfddua 622 34 , , , work_kkta46aprvda3kxuww62zfddua 622 35 Crystal Crystal NNP work_kkta46aprvda3kxuww62zfddua 622 36 structure structure NN work_kkta46aprvda3kxuww62zfddua 622 37 of of IN work_kkta46aprvda3kxuww62zfddua 622 38 the the DT work_kkta46aprvda3kxuww62zfddua 622 39 central central JJ work_kkta46aprvda3kxuww62zfddua 622 40 axis axis NN work_kkta46aprvda3kxuww62zfddua 622 41 DF DF NNP work_kkta46aprvda3kxuww62zfddua 622 42 complex complex NN work_kkta46aprvda3kxuww62zfddua 622 43 of of IN work_kkta46aprvda3kxuww62zfddua 622 44 the the DT work_kkta46aprvda3kxuww62zfddua 622 45 prokaryotic prokaryotic JJ work_kkta46aprvda3kxuww62zfddua 622 46 V V NNP work_kkta46aprvda3kxuww62zfddua 622 47 - - HYPH work_kkta46aprvda3kxuww62zfddua 622 48 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 622 49 , , , work_kkta46aprvda3kxuww62zfddua 622 50 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 622 51 . . . work_kkta46aprvda3kxuww62zfddua 623 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 623 2 . . . work_kkta46aprvda3kxuww62zfddua 624 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 624 2 . . . work_kkta46aprvda3kxuww62zfddua 625 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 625 2 . . . work_kkta46aprvda3kxuww62zfddua 626 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 626 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 626 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 627 1 108 108 CD work_kkta46aprvda3kxuww62zfddua 627 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 627 3 2011 2011 CD work_kkta46aprvda3kxuww62zfddua 627 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 627 5 19955–19960 19955–19960 CD work_kkta46aprvda3kxuww62zfddua 627 6 . . . work_kkta46aprvda3kxuww62zfddua 628 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 628 2 53 53 CD work_kkta46aprvda3kxuww62zfddua 628 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 628 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 628 5 Gayen Gayen NNP work_kkta46aprvda3kxuww62zfddua 628 6 , , , work_kkta46aprvda3kxuww62zfddua 628 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 628 8 Vivekanandan Vivekanandan NNP work_kkta46aprvda3kxuww62zfddua 628 9 , , , work_kkta46aprvda3kxuww62zfddua 628 10 G. G. NNP work_kkta46aprvda3kxuww62zfddua 628 11 Biukovic Biukovic NNP work_kkta46aprvda3kxuww62zfddua 628 12 , , , work_kkta46aprvda3kxuww62zfddua 628 13 G. G. NNP work_kkta46aprvda3kxuww62zfddua 628 14 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 628 15 , , , work_kkta46aprvda3kxuww62zfddua 628 16 H.S. H.S. NNP work_kkta46aprvda3kxuww62zfddua 629 1 Yoon Yoon NNP work_kkta46aprvda3kxuww62zfddua 629 2 , , , work_kkta46aprvda3kxuww62zfddua 629 3 NMR NMR NNP work_kkta46aprvda3kxuww62zfddua 629 4 solution solution NN work_kkta46aprvda3kxuww62zfddua 629 5 struc- struc- NN work_kkta46aprvda3kxuww62zfddua 629 6 ture ture NN work_kkta46aprvda3kxuww62zfddua 629 7 of of IN work_kkta46aprvda3kxuww62zfddua 629 8 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 629 9 F F NNP work_kkta46aprvda3kxuww62zfddua 629 10 of of IN work_kkta46aprvda3kxuww62zfddua 629 11 the the DT work_kkta46aprvda3kxuww62zfddua 629 12 methanogenic methanogenic JJ work_kkta46aprvda3kxuww62zfddua 629 13 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 629 14 adenosine adenosine NN work_kkta46aprvda3kxuww62zfddua 629 15 triphosphate triphosphate NN work_kkta46aprvda3kxuww62zfddua 629 16 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 629 17 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005 NNP work_kkta46aprvda3kxuww62zfddua 629 18 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005 NNP work_kkta46aprvda3kxuww62zfddua 629 19 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010 NNP work_kkta46aprvda3kxuww62zfddua 629 20 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010 NNP work_kkta46aprvda3kxuww62zfddua 629 21 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010 NNP work_kkta46aprvda3kxuww62zfddua 629 22 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015 NNP work_kkta46aprvda3kxuww62zfddua 629 23 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015 NNP work_kkta46aprvda3kxuww62zfddua 629 24 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015 NNP work_kkta46aprvda3kxuww62zfddua 629 25 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020 NNP work_kkta46aprvda3kxuww62zfddua 629 26 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020 NNP work_kkta46aprvda3kxuww62zfddua 629 27 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020 NNP work_kkta46aprvda3kxuww62zfddua 629 28 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 NNP work_kkta46aprvda3kxuww62zfddua 629 29 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 NNP work_kkta46aprvda3kxuww62zfddua 629 30 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 NNP work_kkta46aprvda3kxuww62zfddua 629 31 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025 NNP work_kkta46aprvda3kxuww62zfddua 629 32 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 NNP work_kkta46aprvda3kxuww62zfddua 629 33 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0030 NN work_kkta46aprvda3kxuww62zfddua 629 34 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 NNP work_kkta46aprvda3kxuww62zfddua 629 35 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030 NNP work_kkta46aprvda3kxuww62zfddua 629 36 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035 NNP work_kkta46aprvda3kxuww62zfddua 629 37 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035 NNP work_kkta46aprvda3kxuww62zfddua 629 38 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040 NNP work_kkta46aprvda3kxuww62zfddua 629 39 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040 NNP work_kkta46aprvda3kxuww62zfddua 629 40 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045 NNP work_kkta46aprvda3kxuww62zfddua 629 41 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045 NNP work_kkta46aprvda3kxuww62zfddua 629 42 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050 NNP work_kkta46aprvda3kxuww62zfddua 629 43 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050 NNP work_kkta46aprvda3kxuww62zfddua 629 44 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055 NNP work_kkta46aprvda3kxuww62zfddua 629 45 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055 NNP work_kkta46aprvda3kxuww62zfddua 629 46 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055 NNP work_kkta46aprvda3kxuww62zfddua 629 47 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060 NNP work_kkta46aprvda3kxuww62zfddua 629 48 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060 NNP work_kkta46aprvda3kxuww62zfddua 629 49 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work_kkta46aprvda3kxuww62zfddua 629 132 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185 NNP work_kkta46aprvda3kxuww62zfddua 629 133 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185 NNP work_kkta46aprvda3kxuww62zfddua 629 134 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185 NNP work_kkta46aprvda3kxuww62zfddua 629 135 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190 NNP work_kkta46aprvda3kxuww62zfddua 629 136 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190 NNP work_kkta46aprvda3kxuww62zfddua 629 137 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190 NNP work_kkta46aprvda3kxuww62zfddua 629 138 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 NNP work_kkta46aprvda3kxuww62zfddua 629 139 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 NNP work_kkta46aprvda3kxuww62zfddua 629 140 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 NNP work_kkta46aprvda3kxuww62zfddua 629 141 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195 NNP work_kkta46aprvda3kxuww62zfddua 629 142 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200 NNP work_kkta46aprvda3kxuww62zfddua 629 143 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200 NNP work_kkta46aprvda3kxuww62zfddua 629 144 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205 NNP work_kkta46aprvda3kxuww62zfddua 629 145 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205 NNP work_kkta46aprvda3kxuww62zfddua 629 146 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205 NNP work_kkta46aprvda3kxuww62zfddua 629 147 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210 NNP work_kkta46aprvda3kxuww62zfddua 629 148 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210 NNP work_kkta46aprvda3kxuww62zfddua 629 149 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210 NNP work_kkta46aprvda3kxuww62zfddua 629 150 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215 NNP work_kkta46aprvda3kxuww62zfddua 629 151 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215 NNP work_kkta46aprvda3kxuww62zfddua 629 152 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 NNP work_kkta46aprvda3kxuww62zfddua 629 153 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 NNP work_kkta46aprvda3kxuww62zfddua 629 154 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 NNP work_kkta46aprvda3kxuww62zfddua 629 155 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 NNP work_kkta46aprvda3kxuww62zfddua 629 156 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 NNP work_kkta46aprvda3kxuww62zfddua 629 157 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220 NNP work_kkta46aprvda3kxuww62zfddua 629 158 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 NNP work_kkta46aprvda3kxuww62zfddua 629 159 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 NNP work_kkta46aprvda3kxuww62zfddua 629 160 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 NNP work_kkta46aprvda3kxuww62zfddua 629 161 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225 NNP work_kkta46aprvda3kxuww62zfddua 629 162 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 NNP work_kkta46aprvda3kxuww62zfddua 629 163 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0230 NN work_kkta46aprvda3kxuww62zfddua 629 164 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 NNP work_kkta46aprvda3kxuww62zfddua 629 165 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230 NNP work_kkta46aprvda3kxuww62zfddua 629 166 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 NNP work_kkta46aprvda3kxuww62zfddua 629 167 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 NNP work_kkta46aprvda3kxuww62zfddua 629 168 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 NNP work_kkta46aprvda3kxuww62zfddua 629 169 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 NNP work_kkta46aprvda3kxuww62zfddua 629 170 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235 NNP work_kkta46aprvda3kxuww62zfddua 629 171 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240 NNPS work_kkta46aprvda3kxuww62zfddua 629 172 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240 NNP work_kkta46aprvda3kxuww62zfddua 629 173 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240 NNP work_kkta46aprvda3kxuww62zfddua 629 174 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245 NNP work_kkta46aprvda3kxuww62zfddua 629 175 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245 NNP work_kkta46aprvda3kxuww62zfddua 629 176 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245 NNP work_kkta46aprvda3kxuww62zfddua 629 177 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 178 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 179 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 180 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 181 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 182 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 183 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 184 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250 NNP work_kkta46aprvda3kxuww62zfddua 629 185 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 NNP work_kkta46aprvda3kxuww62zfddua 629 186 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 NNP work_kkta46aprvda3kxuww62zfddua 629 187 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 NNP work_kkta46aprvda3kxuww62zfddua 629 188 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255 NNP work_kkta46aprvda3kxuww62zfddua 629 189 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260 NNP work_kkta46aprvda3kxuww62zfddua 629 190 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260 NNP work_kkta46aprvda3kxuww62zfddua 629 191 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0260 NN work_kkta46aprvda3kxuww62zfddua 629 192 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0260 NN work_kkta46aprvda3kxuww62zfddua 629 193 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0265 VB work_kkta46aprvda3kxuww62zfddua 629 194 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 NNP work_kkta46aprvda3kxuww62zfddua 629 195 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 NNP work_kkta46aprvda3kxuww62zfddua 629 196 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 NNP work_kkta46aprvda3kxuww62zfddua 629 197 952 952 CD work_kkta46aprvda3kxuww62zfddua 629 198 G. G. NNP work_kkta46aprvda3kxuww62zfddua 629 199 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 629 200 et et FW work_kkta46aprvda3kxuww62zfddua 629 201 al al NNP work_kkta46aprvda3kxuww62zfddua 629 202 . . . work_kkta46aprvda3kxuww62zfddua 630 1 / / NFP work_kkta46aprvda3kxuww62zfddua 630 2 Biochimica Biochimica NNP work_kkta46aprvda3kxuww62zfddua 630 3 et et NN work_kkta46aprvda3kxuww62zfddua 630 4 Biophysica Biophysica NNP work_kkta46aprvda3kxuww62zfddua 630 5 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 630 6 1837 1837 CD work_kkta46aprvda3kxuww62zfddua 630 7 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 630 8 2014 2014 CD work_kkta46aprvda3kxuww62zfddua 630 9 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 630 10 940–952 940–952 CD work_kkta46aprvda3kxuww62zfddua 630 11 and and CC work_kkta46aprvda3kxuww62zfddua 630 12 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 630 13 interaction interaction NN work_kkta46aprvda3kxuww62zfddua 630 14 with with IN work_kkta46aprvda3kxuww62zfddua 630 15 the the DT work_kkta46aprvda3kxuww62zfddua 630 16 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 630 17 - - HYPH work_kkta46aprvda3kxuww62zfddua 630 18 binding bind VBG work_kkta46aprvda3kxuww62zfddua 630 19 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 630 20 B b NN work_kkta46aprvda3kxuww62zfddua 630 21 , , , work_kkta46aprvda3kxuww62zfddua 630 22 Biochemistry Biochemistry NNP work_kkta46aprvda3kxuww62zfddua 630 23 46 46 CD work_kkta46aprvda3kxuww62zfddua 630 24 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 630 25 2007 2007 CD work_kkta46aprvda3kxuww62zfddua 630 26 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 630 27 11684–11694 11684–11694 CD work_kkta46aprvda3kxuww62zfddua 630 28 . . . work_kkta46aprvda3kxuww62zfddua 631 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 631 2 54 54 CD work_kkta46aprvda3kxuww62zfddua 631 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 631 4 M.J. M.J. NNP work_kkta46aprvda3kxuww62zfddua 631 5 Maher Maher NNP work_kkta46aprvda3kxuww62zfddua 631 6 , , , work_kkta46aprvda3kxuww62zfddua 631 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 631 8 Akimoto Akimoto NNP work_kkta46aprvda3kxuww62zfddua 631 9 , , , work_kkta46aprvda3kxuww62zfddua 631 10 M. M. NNP work_kkta46aprvda3kxuww62zfddua 631 11 Iwata Iwata NNP work_kkta46aprvda3kxuww62zfddua 631 12 , , , work_kkta46aprvda3kxuww62zfddua 631 13 K. K. NNP work_kkta46aprvda3kxuww62zfddua 631 14 Nagata Nagata NNP work_kkta46aprvda3kxuww62zfddua 631 15 , , , work_kkta46aprvda3kxuww62zfddua 631 16 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 631 17 Hori Hori NNP work_kkta46aprvda3kxuww62zfddua 631 18 , , , work_kkta46aprvda3kxuww62zfddua 631 19 M. M. NNP work_kkta46aprvda3kxuww62zfddua 631 20 Yoshida Yoshida NNP work_kkta46aprvda3kxuww62zfddua 631 21 , , , work_kkta46aprvda3kxuww62zfddua 631 22 S. S. NNP work_kkta46aprvda3kxuww62zfddua 631 23 Yokoyama Yokoyama NNP work_kkta46aprvda3kxuww62zfddua 631 24 , , , work_kkta46aprvda3kxuww62zfddua 631 25 S. S. NNP work_kkta46aprvda3kxuww62zfddua 631 26 Iwata Iwata NNP work_kkta46aprvda3kxuww62zfddua 631 27 , , , work_kkta46aprvda3kxuww62zfddua 631 28 K. K. NNP work_kkta46aprvda3kxuww62zfddua 631 29 Yokoyama Yokoyama NNP work_kkta46aprvda3kxuww62zfddua 631 30 , , , work_kkta46aprvda3kxuww62zfddua 631 31 Crystal crystal NN work_kkta46aprvda3kxuww62zfddua 631 32 structure structure NN work_kkta46aprvda3kxuww62zfddua 631 33 of of IN work_kkta46aprvda3kxuww62zfddua 631 34 A3B3 A3B3 NNP work_kkta46aprvda3kxuww62zfddua 631 35 complex complex NN work_kkta46aprvda3kxuww62zfddua 631 36 of of IN work_kkta46aprvda3kxuww62zfddua 631 37 V V NNP work_kkta46aprvda3kxuww62zfddua 631 38 - - HYPH work_kkta46aprvda3kxuww62zfddua 631 39 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 631 40 from from IN work_kkta46aprvda3kxuww62zfddua 631 41 Thermus Thermus NNP work_kkta46aprvda3kxuww62zfddua 631 42 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 631 43 , , , work_kkta46aprvda3kxuww62zfddua 631 44 EMBO EMBO NNP work_kkta46aprvda3kxuww62zfddua 631 45 J. J. NNP work_kkta46aprvda3kxuww62zfddua 632 1 28 28 CD work_kkta46aprvda3kxuww62zfddua 632 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 632 3 2009 2009 CD work_kkta46aprvda3kxuww62zfddua 632 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 632 5 3771–3779 3771–3779 CD work_kkta46aprvda3kxuww62zfddua 632 6 . . . work_kkta46aprvda3kxuww62zfddua 633 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 633 2 55 55 CD work_kkta46aprvda3kxuww62zfddua 633 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 633 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 633 5 Arai Arai NNP work_kkta46aprvda3kxuww62zfddua 633 6 , , , work_kkta46aprvda3kxuww62zfddua 633 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 633 8 Saijo Saijo NNP work_kkta46aprvda3kxuww62zfddua 633 9 , , , work_kkta46aprvda3kxuww62zfddua 633 10 K. K. NNP work_kkta46aprvda3kxuww62zfddua 633 11 Suzuki Suzuki NNP work_kkta46aprvda3kxuww62zfddua 633 12 , , , work_kkta46aprvda3kxuww62zfddua 633 13 K. K. NNP work_kkta46aprvda3kxuww62zfddua 633 14 Mizutani Mizutani NNP work_kkta46aprvda3kxuww62zfddua 633 15 , , , work_kkta46aprvda3kxuww62zfddua 633 16 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 633 17 Kakinuma Kakinuma NNP work_kkta46aprvda3kxuww62zfddua 633 18 , , , work_kkta46aprvda3kxuww62zfddua 633 19 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 633 20 Ishizuka Ishizuka NNP work_kkta46aprvda3kxuww62zfddua 633 21 - - HYPH work_kkta46aprvda3kxuww62zfddua 633 22 Katsura Katsura NNP work_kkta46aprvda3kxuww62zfddua 633 23 , , , work_kkta46aprvda3kxuww62zfddua 633 24 N. N. NNP work_kkta46aprvda3kxuww62zfddua 633 25 Ohsawa Ohsawa NNP work_kkta46aprvda3kxuww62zfddua 633 26 , , , work_kkta46aprvda3kxuww62zfddua 633 27 T. T. NNP work_kkta46aprvda3kxuww62zfddua 633 28 Terada Terada NNP work_kkta46aprvda3kxuww62zfddua 633 29 , , , work_kkta46aprvda3kxuww62zfddua 633 30 M. M. NNP work_kkta46aprvda3kxuww62zfddua 633 31 Shirouzu Shirouzu NNP work_kkta46aprvda3kxuww62zfddua 633 32 , , , work_kkta46aprvda3kxuww62zfddua 633 33 S. S. NNP work_kkta46aprvda3kxuww62zfddua 633 34 Yokoyama Yokoyama NNP work_kkta46aprvda3kxuww62zfddua 633 35 , , , work_kkta46aprvda3kxuww62zfddua 633 36 S. S. NNP work_kkta46aprvda3kxuww62zfddua 633 37 Iwata Iwata NNP work_kkta46aprvda3kxuww62zfddua 633 38 , , , work_kkta46aprvda3kxuww62zfddua 633 39 I. I. NNP work_kkta46aprvda3kxuww62zfddua 633 40 Yamato Yamato NNP work_kkta46aprvda3kxuww62zfddua 633 41 , , , work_kkta46aprvda3kxuww62zfddua 633 42 T. T. NNP work_kkta46aprvda3kxuww62zfddua 633 43 Murata Murata NNP work_kkta46aprvda3kxuww62zfddua 633 44 , , , work_kkta46aprvda3kxuww62zfddua 633 45 Rotation rotation NN work_kkta46aprvda3kxuww62zfddua 633 46 mech- mech- JJ work_kkta46aprvda3kxuww62zfddua 633 47 anism anism NN work_kkta46aprvda3kxuww62zfddua 633 48 of of IN work_kkta46aprvda3kxuww62zfddua 633 49 Enterococcus Enterococcus NNP work_kkta46aprvda3kxuww62zfddua 633 50 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 633 51 V1-ATPase V1-ATPase NNP work_kkta46aprvda3kxuww62zfddua 633 52 based base VBN work_kkta46aprvda3kxuww62zfddua 633 53 on on IN work_kkta46aprvda3kxuww62zfddua 633 54 asymmetric asymmetric JJ work_kkta46aprvda3kxuww62zfddua 633 55 crystal crystal NN work_kkta46aprvda3kxuww62zfddua 633 56 structures structure NNS work_kkta46aprvda3kxuww62zfddua 633 57 , , , work_kkta46aprvda3kxuww62zfddua 633 58 Nature nature NN work_kkta46aprvda3kxuww62zfddua 633 59 493 493 CD work_kkta46aprvda3kxuww62zfddua 633 60 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 633 61 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 633 62 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 633 63 703–707 703–707 CD work_kkta46aprvda3kxuww62zfddua 633 64 . . . work_kkta46aprvda3kxuww62zfddua 634 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 634 2 56 56 CD work_kkta46aprvda3kxuww62zfddua 634 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 634 4 Ü. Ü. NNP work_kkta46aprvda3kxuww62zfddua 634 5 Coskun Coskun NNP work_kkta46aprvda3kxuww62zfddua 634 6 , , , work_kkta46aprvda3kxuww62zfddua 634 7 M. M. NNP work_kkta46aprvda3kxuww62zfddua 634 8 Radermacher Radermacher NNP work_kkta46aprvda3kxuww62zfddua 634 9 , , , work_kkta46aprvda3kxuww62zfddua 634 10 V. V. NNP work_kkta46aprvda3kxuww62zfddua 634 11 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 634 12 , , , work_kkta46aprvda3kxuww62zfddua 634 13 T. T. NNP work_kkta46aprvda3kxuww62zfddua 634 14 Ruiz Ruiz NNP work_kkta46aprvda3kxuww62zfddua 634 15 , , , work_kkta46aprvda3kxuww62zfddua 634 16 G. G. NNP work_kkta46aprvda3kxuww62zfddua 634 17 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 634 18 , , , work_kkta46aprvda3kxuww62zfddua 634 19 Three Three NNP work_kkta46aprvda3kxuww62zfddua 634 20 - - HYPH work_kkta46aprvda3kxuww62zfddua 634 21 dimensional dimensional JJ work_kkta46aprvda3kxuww62zfddua 634 22 orga- orga- JJ work_kkta46aprvda3kxuww62zfddua 634 23 nization nization NN work_kkta46aprvda3kxuww62zfddua 634 24 of of IN work_kkta46aprvda3kxuww62zfddua 634 25 the the DT work_kkta46aprvda3kxuww62zfddua 634 26 archaeal archaeal NN work_kkta46aprvda3kxuww62zfddua 634 27 A1-ATPase A1-ATPase NNP work_kkta46aprvda3kxuww62zfddua 634 28 from from IN work_kkta46aprvda3kxuww62zfddua 634 29 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 634 30 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 634 31 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 634 32 , , , work_kkta46aprvda3kxuww62zfddua 634 33 J. J. NNP work_kkta46aprvda3kxuww62zfddua 634 34 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 634 35 . . . work_kkta46aprvda3kxuww62zfddua 635 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 635 2 . . . work_kkta46aprvda3kxuww62zfddua 636 1 279 279 CD work_kkta46aprvda3kxuww62zfddua 636 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 636 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 636 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 636 5 22759–22764 22759–22764 CD work_kkta46aprvda3kxuww62zfddua 636 6 . . . work_kkta46aprvda3kxuww62zfddua 637 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 637 2 57 57 CD work_kkta46aprvda3kxuww62zfddua 637 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 637 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 637 5 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 637 6 , , , work_kkta46aprvda3kxuww62zfddua 637 7 D.I. D.I. NNP work_kkta46aprvda3kxuww62zfddua 638 1 Svergun Svergun NNP work_kkta46aprvda3kxuww62zfddua 638 2 , , , work_kkta46aprvda3kxuww62zfddua 638 3 Ü. Ü. NNP work_kkta46aprvda3kxuww62zfddua 638 4 Coskun Coskun NNP work_kkta46aprvda3kxuww62zfddua 638 5 , , , work_kkta46aprvda3kxuww62zfddua 638 6 T. T. NNP work_kkta46aprvda3kxuww62zfddua 638 7 Lemker Lemker NNP work_kkta46aprvda3kxuww62zfddua 638 8 , , , work_kkta46aprvda3kxuww62zfddua 638 9 M.H. M.H. NNP work_kkta46aprvda3kxuww62zfddua 639 1 Koch Koch NNP work_kkta46aprvda3kxuww62zfddua 639 2 , , , work_kkta46aprvda3kxuww62zfddua 639 3 H. H. NNP work_kkta46aprvda3kxuww62zfddua 639 4 Schägger Schägger NNP work_kkta46aprvda3kxuww62zfddua 639 5 , , , work_kkta46aprvda3kxuww62zfddua 639 6 V. V. NNP work_kkta46aprvda3kxuww62zfddua 639 7 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 639 8 , , , work_kkta46aprvda3kxuww62zfddua 639 9 Structural Structural NNP work_kkta46aprvda3kxuww62zfddua 639 10 insights insight NNS work_kkta46aprvda3kxuww62zfddua 639 11 into into IN work_kkta46aprvda3kxuww62zfddua 639 12 the the DT work_kkta46aprvda3kxuww62zfddua 639 13 A1 A1 NNP work_kkta46aprvda3kxuww62zfddua 639 14 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 639 15 from from IN work_kkta46aprvda3kxuww62zfddua 639 16 the the DT work_kkta46aprvda3kxuww62zfddua 639 17 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 639 18 , , , work_kkta46aprvda3kxuww62zfddua 639 19 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 639 20 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 639 21 Gö1 Gö1 NNS work_kkta46aprvda3kxuww62zfddua 639 22 , , , work_kkta46aprvda3kxuww62zfddua 639 23 Biochemistry Biochemistry NNP work_kkta46aprvda3kxuww62zfddua 639 24 40 40 CD work_kkta46aprvda3kxuww62zfddua 639 25 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 639 26 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 639 27 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 639 28 1890–1896 1890–1896 CD work_kkta46aprvda3kxuww62zfddua 639 29 . . . work_kkta46aprvda3kxuww62zfddua 640 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 640 2 58 58 CD work_kkta46aprvda3kxuww62zfddua 640 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 640 4 Ü. Ü. NNP work_kkta46aprvda3kxuww62zfddua 640 5 Coskun Coskun NNP work_kkta46aprvda3kxuww62zfddua 640 6 , , , work_kkta46aprvda3kxuww62zfddua 640 7 G. G. NNP work_kkta46aprvda3kxuww62zfddua 640 8 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 640 9 , , , work_kkta46aprvda3kxuww62zfddua 640 10 M.H. M.H. NNP work_kkta46aprvda3kxuww62zfddua 641 1 Koch Koch NNP work_kkta46aprvda3kxuww62zfddua 641 2 , , , work_kkta46aprvda3kxuww62zfddua 641 3 J. J. NNP work_kkta46aprvda3kxuww62zfddua 641 4 Godovac Godovac NNP work_kkta46aprvda3kxuww62zfddua 641 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 641 6 Zimmermann Zimmermann NNP work_kkta46aprvda3kxuww62zfddua 641 7 , , , work_kkta46aprvda3kxuww62zfddua 641 8 T. T. NNP work_kkta46aprvda3kxuww62zfddua 641 9 Lemker Lemker NNP work_kkta46aprvda3kxuww62zfddua 641 10 , , , work_kkta46aprvda3kxuww62zfddua 641 11 V. V. NNP work_kkta46aprvda3kxuww62zfddua 641 12 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 641 13 , , , work_kkta46aprvda3kxuww62zfddua 641 14 Cross cross NN work_kkta46aprvda3kxuww62zfddua 641 15 - - NN work_kkta46aprvda3kxuww62zfddua 641 16 talk talk NN work_kkta46aprvda3kxuww62zfddua 641 17 in in IN work_kkta46aprvda3kxuww62zfddua 641 18 the the DT work_kkta46aprvda3kxuww62zfddua 641 19 A1-ATPase A1-ATPase NNP work_kkta46aprvda3kxuww62zfddua 641 20 from from IN work_kkta46aprvda3kxuww62zfddua 641 21 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 641 22 mazei mazei NNP work_kkta46aprvda3kxuww62zfddua 641 23 Gö1 Gö1 NNP work_kkta46aprvda3kxuww62zfddua 641 24 due due IN work_kkta46aprvda3kxuww62zfddua 641 25 to to IN work_kkta46aprvda3kxuww62zfddua 641 26 nucleotide- nucleotide- RB work_kkta46aprvda3kxuww62zfddua 641 27 binding bind VBG work_kkta46aprvda3kxuww62zfddua 641 28 , , , work_kkta46aprvda3kxuww62zfddua 641 29 J. J. NNP work_kkta46aprvda3kxuww62zfddua 641 30 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 641 31 . . . work_kkta46aprvda3kxuww62zfddua 642 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 642 2 . . . work_kkta46aprvda3kxuww62zfddua 643 1 277 277 CD work_kkta46aprvda3kxuww62zfddua 643 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 643 3 2002 2002 CD work_kkta46aprvda3kxuww62zfddua 643 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 643 5 17327–17333 17327–17333 CD work_kkta46aprvda3kxuww62zfddua 643 6 . . . work_kkta46aprvda3kxuww62zfddua 644 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 644 2 59 59 CD work_kkta46aprvda3kxuww62zfddua 644 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 644 4 I. I. NNP work_kkta46aprvda3kxuww62zfddua 644 5 Schäfer Schäfer NNP work_kkta46aprvda3kxuww62zfddua 644 6 , , , work_kkta46aprvda3kxuww62zfddua 644 7 M. M. NNP work_kkta46aprvda3kxuww62zfddua 644 8 Rössle Rössle NNP work_kkta46aprvda3kxuww62zfddua 644 9 , , , work_kkta46aprvda3kxuww62zfddua 644 10 G. G. NNP work_kkta46aprvda3kxuww62zfddua 644 11 Biukovic Biukovic NNP work_kkta46aprvda3kxuww62zfddua 644 12 , , , work_kkta46aprvda3kxuww62zfddua 644 13 V. V. NNP work_kkta46aprvda3kxuww62zfddua 644 14 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 644 15 , , , work_kkta46aprvda3kxuww62zfddua 644 16 G. G. NNP work_kkta46aprvda3kxuww62zfddua 644 17 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 644 18 , , , work_kkta46aprvda3kxuww62zfddua 644 19 Structural Structural NNP work_kkta46aprvda3kxuww62zfddua 644 20 and and CC work_kkta46aprvda3kxuww62zfddua 644 21 functional functional JJ work_kkta46aprvda3kxuww62zfddua 644 22 analysis analysis NN work_kkta46aprvda3kxuww62zfddua 644 23 of of IN work_kkta46aprvda3kxuww62zfddua 644 24 the the DT work_kkta46aprvda3kxuww62zfddua 644 25 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 644 26 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 644 27 F F NNP work_kkta46aprvda3kxuww62zfddua 644 28 in in IN work_kkta46aprvda3kxuww62zfddua 644 29 solution solution NN work_kkta46aprvda3kxuww62zfddua 644 30 and and CC work_kkta46aprvda3kxuww62zfddua 644 31 topological topological JJ work_kkta46aprvda3kxuww62zfddua 644 32 arrangement arrangement NN work_kkta46aprvda3kxuww62zfddua 644 33 of of IN work_kkta46aprvda3kxuww62zfddua 644 34 the the DT work_kkta46aprvda3kxuww62zfddua 644 35 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 644 36 domains domain NNS work_kkta46aprvda3kxuww62zfddua 644 37 of of IN work_kkta46aprvda3kxuww62zfddua 644 38 the the DT work_kkta46aprvda3kxuww62zfddua 644 39 methanogenic methanogenic JJ work_kkta46aprvda3kxuww62zfddua 644 40 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 644 41 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 644 42 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 644 43 , , , work_kkta46aprvda3kxuww62zfddua 644 44 J. J. NNP work_kkta46aprvda3kxuww62zfddua 644 45 Bioenerg Bioenerg NNP work_kkta46aprvda3kxuww62zfddua 644 46 . . . work_kkta46aprvda3kxuww62zfddua 645 1 Biomembr Biomembr NNP work_kkta46aprvda3kxuww62zfddua 645 2 . . . work_kkta46aprvda3kxuww62zfddua 646 1 38 38 CD work_kkta46aprvda3kxuww62zfddua 646 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 646 3 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 646 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 646 5 83–92 83–92 NN work_kkta46aprvda3kxuww62zfddua 646 6 . . . work_kkta46aprvda3kxuww62zfddua 647 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 647 2 60 60 CD work_kkta46aprvda3kxuww62zfddua 647 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 647 4 J.P. J.P. NNP work_kkta46aprvda3kxuww62zfddua 647 5 Abrahams Abrahams NNP work_kkta46aprvda3kxuww62zfddua 647 6 , , , work_kkta46aprvda3kxuww62zfddua 647 7 A.G.W. A.G.W. NNP work_kkta46aprvda3kxuww62zfddua 648 1 Leslie Leslie NNP work_kkta46aprvda3kxuww62zfddua 648 2 , , , work_kkta46aprvda3kxuww62zfddua 648 3 R. R. NNP work_kkta46aprvda3kxuww62zfddua 648 4 Lutter Lutter NNP work_kkta46aprvda3kxuww62zfddua 648 5 , , , work_kkta46aprvda3kxuww62zfddua 648 6 J.E. J.E. NNP work_kkta46aprvda3kxuww62zfddua 649 1 Walker Walker NNP work_kkta46aprvda3kxuww62zfddua 649 2 , , , work_kkta46aprvda3kxuww62zfddua 649 3 Structure structure NN work_kkta46aprvda3kxuww62zfddua 649 4 at at IN work_kkta46aprvda3kxuww62zfddua 649 5 2.8 2.8 CD work_kkta46aprvda3kxuww62zfddua 649 6 Å å NN work_kkta46aprvda3kxuww62zfddua 649 7 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 649 8 of of IN work_kkta46aprvda3kxuww62zfddua 649 9 F1-ATPase F1-ATPase NNP work_kkta46aprvda3kxuww62zfddua 649 10 from from IN work_kkta46aprvda3kxuww62zfddua 649 11 bovine bovine JJ work_kkta46aprvda3kxuww62zfddua 649 12 heart heart NN work_kkta46aprvda3kxuww62zfddua 649 13 mitochondria mitochondrion NNS work_kkta46aprvda3kxuww62zfddua 649 14 , , , work_kkta46aprvda3kxuww62zfddua 649 15 Nature nature NN work_kkta46aprvda3kxuww62zfddua 649 16 370 370 CD work_kkta46aprvda3kxuww62zfddua 649 17 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 649 18 1994 1994 CD work_kkta46aprvda3kxuww62zfddua 649 19 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 649 20 621–628 621–628 CD work_kkta46aprvda3kxuww62zfddua 649 21 . . . work_kkta46aprvda3kxuww62zfddua 650 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 650 2 61 61 CD work_kkta46aprvda3kxuww62zfddua 650 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 650 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 650 5 Wilkens Wilkens NNP work_kkta46aprvda3kxuww62zfddua 650 6 , , , work_kkta46aprvda3kxuww62zfddua 650 7 Structure structure NN work_kkta46aprvda3kxuww62zfddua 650 8 of of IN work_kkta46aprvda3kxuww62zfddua 650 9 the the DT work_kkta46aprvda3kxuww62zfddua 650 10 vacuolar vacuolar JJ work_kkta46aprvda3kxuww62zfddua 650 11 adenosine adenosine NN work_kkta46aprvda3kxuww62zfddua 650 12 triphosphatases triphosphatase NNS work_kkta46aprvda3kxuww62zfddua 650 13 , , , work_kkta46aprvda3kxuww62zfddua 650 14 Cell Cell NNP work_kkta46aprvda3kxuww62zfddua 650 15 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 650 16 . . . work_kkta46aprvda3kxuww62zfddua 651 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 651 2 . . . work_kkta46aprvda3kxuww62zfddua 652 1 34 34 CD work_kkta46aprvda3kxuww62zfddua 652 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 652 3 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 652 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 652 5 191–208 191–208 CD work_kkta46aprvda3kxuww62zfddua 652 6 . . . work_kkta46aprvda3kxuww62zfddua 653 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 653 2 62 62 CD work_kkta46aprvda3kxuww62zfddua 653 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 653 4 M. M. NNP work_kkta46aprvda3kxuww62zfddua 653 5 Radermacher Radermacher NNP work_kkta46aprvda3kxuww62zfddua 653 6 , , , work_kkta46aprvda3kxuww62zfddua 653 7 T. T. NNP work_kkta46aprvda3kxuww62zfddua 653 8 Ruiz Ruiz NNP work_kkta46aprvda3kxuww62zfddua 653 9 , , , work_kkta46aprvda3kxuww62zfddua 653 10 H. H. NNP work_kkta46aprvda3kxuww62zfddua 653 11 Wieczorek Wieczorek NNP work_kkta46aprvda3kxuww62zfddua 653 12 , , , work_kkta46aprvda3kxuww62zfddua 653 13 G. G. NNP work_kkta46aprvda3kxuww62zfddua 653 14 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 653 15 , , , work_kkta46aprvda3kxuww62zfddua 653 16 The the DT work_kkta46aprvda3kxuww62zfddua 653 17 structure structure NN work_kkta46aprvda3kxuww62zfddua 653 18 of of IN work_kkta46aprvda3kxuww62zfddua 653 19 the the DT work_kkta46aprvda3kxuww62zfddua 653 20 V1-ATPase v1-atpase NN work_kkta46aprvda3kxuww62zfddua 653 21 determined determine VBN work_kkta46aprvda3kxuww62zfddua 653 22 by by IN work_kkta46aprvda3kxuww62zfddua 653 23 three three CD work_kkta46aprvda3kxuww62zfddua 653 24 - - HYPH work_kkta46aprvda3kxuww62zfddua 653 25 dimensional dimensional JJ work_kkta46aprvda3kxuww62zfddua 653 26 electron electron NN work_kkta46aprvda3kxuww62zfddua 653 27 microscopy microscopy JJ work_kkta46aprvda3kxuww62zfddua 653 28 of of IN work_kkta46aprvda3kxuww62zfddua 653 29 single single JJ work_kkta46aprvda3kxuww62zfddua 653 30 particles particle NNS work_kkta46aprvda3kxuww62zfddua 653 31 , , , work_kkta46aprvda3kxuww62zfddua 653 32 J. J. NNP work_kkta46aprvda3kxuww62zfddua 653 33 Struct Struct NNP work_kkta46aprvda3kxuww62zfddua 653 34 . . . work_kkta46aprvda3kxuww62zfddua 654 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 654 2 . . . work_kkta46aprvda3kxuww62zfddua 655 1 135 135 CD work_kkta46aprvda3kxuww62zfddua 655 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 655 3 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 655 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 655 5 26–37 26–37 CD work_kkta46aprvda3kxuww62zfddua 655 6 . . . work_kkta46aprvda3kxuww62zfddua 656 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 656 2 63 63 CD work_kkta46aprvda3kxuww62zfddua 656 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 656 4 L.S. L.S. NNP work_kkta46aprvda3kxuww62zfddua 657 1 Holliday Holliday NNP work_kkta46aprvda3kxuww62zfddua 657 2 , , , work_kkta46aprvda3kxuww62zfddua 657 3 M. M. NNP work_kkta46aprvda3kxuww62zfddua 657 4 Lu Lu NNP work_kkta46aprvda3kxuww62zfddua 657 5 , , , work_kkta46aprvda3kxuww62zfddua 657 6 B.S. B.S. NNP work_kkta46aprvda3kxuww62zfddua 658 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 658 2 , , , work_kkta46aprvda3kxuww62zfddua 658 3 R.D. R.D. NNP work_kkta46aprvda3kxuww62zfddua 659 1 Nelson Nelson NNP work_kkta46aprvda3kxuww62zfddua 659 2 , , , work_kkta46aprvda3kxuww62zfddua 659 3 S. S. NNP work_kkta46aprvda3kxuww62zfddua 659 4 Solivan Solivan NNP work_kkta46aprvda3kxuww62zfddua 659 5 , , , work_kkta46aprvda3kxuww62zfddua 659 6 L. L. NNP work_kkta46aprvda3kxuww62zfddua 659 7 Zhang Zhang NNP work_kkta46aprvda3kxuww62zfddua 659 8 , , , work_kkta46aprvda3kxuww62zfddua 659 9 S.L. S.L. NNP work_kkta46aprvda3kxuww62zfddua 660 1 Gluck Gluck NNP work_kkta46aprvda3kxuww62zfddua 660 2 , , , work_kkta46aprvda3kxuww62zfddua 660 3 The the DT work_kkta46aprvda3kxuww62zfddua 660 4 amino- amino- NN work_kkta46aprvda3kxuww62zfddua 660 5 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 660 6 domain domain NN work_kkta46aprvda3kxuww62zfddua 660 7 of of IN work_kkta46aprvda3kxuww62zfddua 660 8 the the DT work_kkta46aprvda3kxuww62zfddua 660 9 B B NNP work_kkta46aprvda3kxuww62zfddua 660 10 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 660 11 of of IN work_kkta46aprvda3kxuww62zfddua 660 12 vacuolar vacuolar JJ work_kkta46aprvda3kxuww62zfddua 660 13 H+-ATPase h+-atpase PRP work_kkta46aprvda3kxuww62zfddua 660 14 contains contain VBZ work_kkta46aprvda3kxuww62zfddua 660 15 a a DT work_kkta46aprvda3kxuww62zfddua 660 16 filamentous filamentous JJ work_kkta46aprvda3kxuww62zfddua 660 17 actin actin JJ work_kkta46aprvda3kxuww62zfddua 660 18 binding bind VBG work_kkta46aprvda3kxuww62zfddua 660 19 site site NN work_kkta46aprvda3kxuww62zfddua 660 20 , , , work_kkta46aprvda3kxuww62zfddua 660 21 J. J. NNP work_kkta46aprvda3kxuww62zfddua 660 22 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 660 23 . . . work_kkta46aprvda3kxuww62zfddua 661 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 661 2 . . . work_kkta46aprvda3kxuww62zfddua 662 1 275 275 CD work_kkta46aprvda3kxuww62zfddua 662 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 662 3 2000 2000 CD work_kkta46aprvda3kxuww62zfddua 662 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 662 5 32331–32337 32331–32337 CD work_kkta46aprvda3kxuww62zfddua 662 6 . . . work_kkta46aprvda3kxuww62zfddua 663 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 663 2 64 64 CD work_kkta46aprvda3kxuww62zfddua 663 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 663 4 M.S. M.S. NNP work_kkta46aprvda3kxuww62zfddua 664 1 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 664 2 , , , work_kkta46aprvda3kxuww62zfddua 664 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 664 4 Kumar Kumar NNP work_kkta46aprvda3kxuww62zfddua 664 5 , , , work_kkta46aprvda3kxuww62zfddua 664 6 J. J. NNP work_kkta46aprvda3kxuww62zfddua 664 7 Jeyakanthan Jeyakanthan NNP work_kkta46aprvda3kxuww62zfddua 664 8 , , , work_kkta46aprvda3kxuww62zfddua 664 9 G. G. NNP work_kkta46aprvda3kxuww62zfddua 664 10 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 664 11 , , , work_kkta46aprvda3kxuww62zfddua 664 12 The the DT work_kkta46aprvda3kxuww62zfddua 664 13 transition transition NN work_kkta46aprvda3kxuww62zfddua 664 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 664 15 like like JJ work_kkta46aprvda3kxuww62zfddua 664 16 state state NN work_kkta46aprvda3kxuww62zfddua 664 17 and and CC work_kkta46aprvda3kxuww62zfddua 664 18 Pi pi IN work_kkta46aprvda3kxuww62zfddua 664 19 entrance entrance NN work_kkta46aprvda3kxuww62zfddua 664 20 into into IN work_kkta46aprvda3kxuww62zfddua 664 21 the the DT work_kkta46aprvda3kxuww62zfddua 664 22 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 664 23 A a DT work_kkta46aprvda3kxuww62zfddua 664 24 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 664 25 of of IN work_kkta46aprvda3kxuww62zfddua 664 26 the the DT work_kkta46aprvda3kxuww62zfddua 664 27 biological biological JJ work_kkta46aprvda3kxuww62zfddua 664 28 engine engine NN work_kkta46aprvda3kxuww62zfddua 664 29 A A NNP work_kkta46aprvda3kxuww62zfddua 664 30 - - HYPH work_kkta46aprvda3kxuww62zfddua 664 31 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 664 32 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 664 33 , , , work_kkta46aprvda3kxuww62zfddua 664 34 J. J. NNP work_kkta46aprvda3kxuww62zfddua 664 35 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 664 36 . . . work_kkta46aprvda3kxuww62zfddua 665 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 665 2 . . . work_kkta46aprvda3kxuww62zfddua 666 1 408 408 CD work_kkta46aprvda3kxuww62zfddua 666 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 666 3 2011 2011 CD work_kkta46aprvda3kxuww62zfddua 666 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 666 5 736–754 736–754 CD work_kkta46aprvda3kxuww62zfddua 666 6 . . . work_kkta46aprvda3kxuww62zfddua 667 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 667 2 65 65 CD work_kkta46aprvda3kxuww62zfddua 667 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 667 4 K.Y. K.Y. NNP work_kkta46aprvda3kxuww62zfddua 668 1 Pisa Pisa NNP work_kkta46aprvda3kxuww62zfddua 668 2 , , , work_kkta46aprvda3kxuww62zfddua 668 3 H. H. NNP work_kkta46aprvda3kxuww62zfddua 668 4 Huber Huber NNP work_kkta46aprvda3kxuww62zfddua 668 5 , , , work_kkta46aprvda3kxuww62zfddua 668 6 M. M. NNP work_kkta46aprvda3kxuww62zfddua 668 7 Thomm Thomm NNP work_kkta46aprvda3kxuww62zfddua 668 8 , , , work_kkta46aprvda3kxuww62zfddua 668 9 V. V. NNP work_kkta46aprvda3kxuww62zfddua 668 10 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 668 11 , , , work_kkta46aprvda3kxuww62zfddua 668 12 A a DT work_kkta46aprvda3kxuww62zfddua 668 13 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 668 14 ion ion NN work_kkta46aprvda3kxuww62zfddua 668 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 668 16 dependent dependent JJ work_kkta46aprvda3kxuww62zfddua 668 17 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 668 18 ATP atp NN work_kkta46aprvda3kxuww62zfddua 668 19 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 668 20 from from IN work_kkta46aprvda3kxuww62zfddua 668 21 the the DT work_kkta46aprvda3kxuww62zfddua 668 22 hyperthermophilic hyperthermophilic JJ work_kkta46aprvda3kxuww62zfddua 668 23 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 668 24 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 668 25 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 668 26 , , , work_kkta46aprvda3kxuww62zfddua 668 27 FEBS FEBS NNP work_kkta46aprvda3kxuww62zfddua 668 28 J. J. NNP work_kkta46aprvda3kxuww62zfddua 669 1 274 274 CD work_kkta46aprvda3kxuww62zfddua 669 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 669 3 2007 2007 CD work_kkta46aprvda3kxuww62zfddua 669 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 669 5 3928–3938 3928–3938 CD work_kkta46aprvda3kxuww62zfddua 669 6 . . . work_kkta46aprvda3kxuww62zfddua 670 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 670 2 66 66 CD work_kkta46aprvda3kxuww62zfddua 670 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 670 4 C. C. NNP work_kkta46aprvda3kxuww62zfddua 670 5 Chen Chen NNP work_kkta46aprvda3kxuww62zfddua 670 6 , , , work_kkta46aprvda3kxuww62zfddua 670 7 A.K. A.K. NNP work_kkta46aprvda3kxuww62zfddua 671 1 Saxena Saxena NNP work_kkta46aprvda3kxuww62zfddua 671 2 , , , work_kkta46aprvda3kxuww62zfddua 671 3 W.N. W.N. NNP work_kkta46aprvda3kxuww62zfddua 672 1 Simcoke Simcoke NNP work_kkta46aprvda3kxuww62zfddua 672 2 , , , work_kkta46aprvda3kxuww62zfddua 672 3 D.N. D.N. NNP work_kkta46aprvda3kxuww62zfddua 673 1 Garboczi Garboczi NNP work_kkta46aprvda3kxuww62zfddua 673 2 , , , work_kkta46aprvda3kxuww62zfddua 673 3 P.L. P.L. NNP work_kkta46aprvda3kxuww62zfddua 674 1 Pedersen Pedersen NNP work_kkta46aprvda3kxuww62zfddua 674 2 , , , work_kkta46aprvda3kxuww62zfddua 674 3 Y.H. Y.H. NNP work_kkta46aprvda3kxuww62zfddua 675 1 Ko Ko NNP work_kkta46aprvda3kxuww62zfddua 675 2 , , , work_kkta46aprvda3kxuww62zfddua 675 3 Mitochondrial Mitochondrial NNP work_kkta46aprvda3kxuww62zfddua 675 4 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 675 5 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 675 6 . . . work_kkta46aprvda3kxuww62zfddua 676 1 Crystal crystal JJ work_kkta46aprvda3kxuww62zfddua 676 2 structure structure NN work_kkta46aprvda3kxuww62zfddua 676 3 of of IN work_kkta46aprvda3kxuww62zfddua 676 4 the the DT work_kkta46aprvda3kxuww62zfddua 676 5 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 676 6 F1 F1 NNP work_kkta46aprvda3kxuww62zfddua 676 7 unit unit NN work_kkta46aprvda3kxuww62zfddua 676 8 in in IN work_kkta46aprvda3kxuww62zfddua 676 9 a a DT work_kkta46aprvda3kxuww62zfddua 676 10 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 676 11 - - HYPH work_kkta46aprvda3kxuww62zfddua 676 12 induced induce VBN work_kkta46aprvda3kxuww62zfddua 676 13 transition transition NN work_kkta46aprvda3kxuww62zfddua 676 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 676 15 like like JJ work_kkta46aprvda3kxuww62zfddua 676 16 state state NN work_kkta46aprvda3kxuww62zfddua 676 17 and and CC work_kkta46aprvda3kxuww62zfddua 676 18 implications implication NNS work_kkta46aprvda3kxuww62zfddua 676 19 for for IN work_kkta46aprvda3kxuww62zfddua 676 20 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 676 21 , , , work_kkta46aprvda3kxuww62zfddua 676 22 J. J. NNP work_kkta46aprvda3kxuww62zfddua 676 23 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 676 24 . . . work_kkta46aprvda3kxuww62zfddua 677 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 677 2 . . . work_kkta46aprvda3kxuww62zfddua 678 1 281 281 CD work_kkta46aprvda3kxuww62zfddua 678 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 678 3 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 678 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 678 5 13777–13783 13777–13783 CD work_kkta46aprvda3kxuww62zfddua 678 6 . . . work_kkta46aprvda3kxuww62zfddua 679 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 679 2 67 67 CD work_kkta46aprvda3kxuww62zfddua 679 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 679 4 C.A. C.A. NNP work_kkta46aprvda3kxuww62zfddua 680 1 Smith Smith NNP work_kkta46aprvda3kxuww62zfddua 680 2 , , , work_kkta46aprvda3kxuww62zfddua 680 3 I. I. NNP work_kkta46aprvda3kxuww62zfddua 680 4 Rayment Rayment NNP work_kkta46aprvda3kxuww62zfddua 680 5 , , , work_kkta46aprvda3kxuww62zfddua 680 6 X x NN work_kkta46aprvda3kxuww62zfddua 680 7 - - NN work_kkta46aprvda3kxuww62zfddua 680 8 ray ray NN work_kkta46aprvda3kxuww62zfddua 680 9 structure structure NN work_kkta46aprvda3kxuww62zfddua 680 10 of of IN work_kkta46aprvda3kxuww62zfddua 680 11 the the DT work_kkta46aprvda3kxuww62zfddua 680 12 magnesium(II)-ADP magnesium(ii)-adp CD work_kkta46aprvda3kxuww62zfddua 680 13 - - HYPH work_kkta46aprvda3kxuww62zfddua 680 14 vanadate vanadate NN work_kkta46aprvda3kxuww62zfddua 680 15 complex complex NN work_kkta46aprvda3kxuww62zfddua 680 16 of of IN work_kkta46aprvda3kxuww62zfddua 680 17 the the DT work_kkta46aprvda3kxuww62zfddua 680 18 Dictyostelium Dictyostelium NNP work_kkta46aprvda3kxuww62zfddua 680 19 discoideum discoideum NN work_kkta46aprvda3kxuww62zfddua 680 20 myosin myosin NN work_kkta46aprvda3kxuww62zfddua 680 21 motor motor NN work_kkta46aprvda3kxuww62zfddua 680 22 domain domain NN work_kkta46aprvda3kxuww62zfddua 680 23 to to IN work_kkta46aprvda3kxuww62zfddua 680 24 1.9 1.9 CD work_kkta46aprvda3kxuww62zfddua 680 25 Å å NN work_kkta46aprvda3kxuww62zfddua 680 26 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 680 27 , , , work_kkta46aprvda3kxuww62zfddua 680 28 Biochemistry Biochemistry NNP work_kkta46aprvda3kxuww62zfddua 680 29 35 35 CD work_kkta46aprvda3kxuww62zfddua 680 30 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 680 31 1996 1996 CD work_kkta46aprvda3kxuww62zfddua 680 32 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 680 33 5404–5417 5404–5417 CD work_kkta46aprvda3kxuww62zfddua 680 34 . . . work_kkta46aprvda3kxuww62zfddua 681 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 681 2 68 68 CD work_kkta46aprvda3kxuww62zfddua 681 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 681 4 A. a. NN work_kkta46aprvda3kxuww62zfddua 681 5 Kumar Kumar NNP work_kkta46aprvda3kxuww62zfddua 681 6 , , , work_kkta46aprvda3kxuww62zfddua 681 7 M.S. M.S. NNP work_kkta46aprvda3kxuww62zfddua 682 1 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 682 2 , , , work_kkta46aprvda3kxuww62zfddua 682 3 A.M. A.M. NNP work_kkta46aprvda3kxuww62zfddua 682 4 Balakrishna Balakrishna NNP work_kkta46aprvda3kxuww62zfddua 682 5 , , , work_kkta46aprvda3kxuww62zfddua 682 6 C. C. NNP work_kkta46aprvda3kxuww62zfddua 682 7 Hunke Hunke NNP work_kkta46aprvda3kxuww62zfddua 682 8 , , , work_kkta46aprvda3kxuww62zfddua 682 9 S. S. NNP work_kkta46aprvda3kxuww62zfddua 682 10 Weigelt Weigelt NNP work_kkta46aprvda3kxuww62zfddua 682 11 , , , work_kkta46aprvda3kxuww62zfddua 682 12 N. N. NNP work_kkta46aprvda3kxuww62zfddua 682 13 Sewald Sewald NNP work_kkta46aprvda3kxuww62zfddua 682 14 , , , work_kkta46aprvda3kxuww62zfddua 682 15 G. G. NNP work_kkta46aprvda3kxuww62zfddua 682 16 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 682 17 , , , work_kkta46aprvda3kxuww62zfddua 682 18 Spectroscopic Spectroscopic NNP work_kkta46aprvda3kxuww62zfddua 682 19 and and CC work_kkta46aprvda3kxuww62zfddua 682 20 crystallographic crystallographic JJ work_kkta46aprvda3kxuww62zfddua 682 21 studies study NNS work_kkta46aprvda3kxuww62zfddua 682 22 of of IN work_kkta46aprvda3kxuww62zfddua 682 23 the the DT work_kkta46aprvda3kxuww62zfddua 682 24 mutant mutant NN work_kkta46aprvda3kxuww62zfddua 682 25 R416W r416w CD work_kkta46aprvda3kxuww62zfddua 682 26 give give VBP work_kkta46aprvda3kxuww62zfddua 682 27 insight insight NN work_kkta46aprvda3kxuww62zfddua 682 28 into into IN work_kkta46aprvda3kxuww62zfddua 682 29 the the DT work_kkta46aprvda3kxuww62zfddua 682 30 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 682 31 binding bind VBG work_kkta46aprvda3kxuww62zfddua 682 32 traits trait NNS work_kkta46aprvda3kxuww62zfddua 682 33 of of IN work_kkta46aprvda3kxuww62zfddua 682 34 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 682 35 B b NN work_kkta46aprvda3kxuww62zfddua 682 36 of of IN work_kkta46aprvda3kxuww62zfddua 682 37 the the DT work_kkta46aprvda3kxuww62zfddua 682 38 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 682 39 ATP atp NN work_kkta46aprvda3kxuww62zfddua 682 40 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 682 41 , , , work_kkta46aprvda3kxuww62zfddua 682 42 Proteins Proteins NNP work_kkta46aprvda3kxuww62zfddua 682 43 75 75 CD work_kkta46aprvda3kxuww62zfddua 682 44 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 682 45 2009 2009 CD work_kkta46aprvda3kxuww62zfddua 682 46 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 682 47 807–819 807–819 CD work_kkta46aprvda3kxuww62zfddua 682 48 . . . work_kkta46aprvda3kxuww62zfddua 683 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 683 2 69 69 CD work_kkta46aprvda3kxuww62zfddua 683 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 683 4 R. R. NNP work_kkta46aprvda3kxuww62zfddua 683 5 Watanabe Watanabe NNP work_kkta46aprvda3kxuww62zfddua 683 6 , , , work_kkta46aprvda3kxuww62zfddua 683 7 R. R. NNP work_kkta46aprvda3kxuww62zfddua 683 8 Iino Iino NNP work_kkta46aprvda3kxuww62zfddua 683 9 , , , work_kkta46aprvda3kxuww62zfddua 683 10 H. H. NNP work_kkta46aprvda3kxuww62zfddua 683 11 Noji Noji NNP work_kkta46aprvda3kxuww62zfddua 683 12 , , , work_kkta46aprvda3kxuww62zfddua 683 13 Phosphate Phosphate NNP work_kkta46aprvda3kxuww62zfddua 683 14 release release NN work_kkta46aprvda3kxuww62zfddua 683 15 in in IN work_kkta46aprvda3kxuww62zfddua 683 16 F1-ATPase F1-ATPase NNP work_kkta46aprvda3kxuww62zfddua 683 17 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 683 18 cycle cycle NN work_kkta46aprvda3kxuww62zfddua 683 19 follows follow VBZ work_kkta46aprvda3kxuww62zfddua 683 20 ADP adp NN work_kkta46aprvda3kxuww62zfddua 683 21 release release NN work_kkta46aprvda3kxuww62zfddua 683 22 , , , work_kkta46aprvda3kxuww62zfddua 683 23 Nat Nat NNP work_kkta46aprvda3kxuww62zfddua 683 24 . . . work_kkta46aprvda3kxuww62zfddua 684 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 684 2 . . . work_kkta46aprvda3kxuww62zfddua 685 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 685 2 . . . work_kkta46aprvda3kxuww62zfddua 686 1 6 6 CD work_kkta46aprvda3kxuww62zfddua 686 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 686 3 2010 2010 CD work_kkta46aprvda3kxuww62zfddua 686 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 686 5 814–820 814–820 CD work_kkta46aprvda3kxuww62zfddua 686 6 . . . work_kkta46aprvda3kxuww62zfddua 687 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 687 2 70 70 CD work_kkta46aprvda3kxuww62zfddua 687 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 687 4 A. a. NN work_kkta46aprvda3kxuww62zfddua 687 5 Kumar Kumar NNP work_kkta46aprvda3kxuww62zfddua 687 6 , , , work_kkta46aprvda3kxuww62zfddua 687 7 M.S. M.S. NNP work_kkta46aprvda3kxuww62zfddua 688 1 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 688 2 , , , work_kkta46aprvda3kxuww62zfddua 688 3 G. G. NNP work_kkta46aprvda3kxuww62zfddua 688 4 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 688 5 , , , work_kkta46aprvda3kxuww62zfddua 688 6 Structure structure NN work_kkta46aprvda3kxuww62zfddua 688 7 of of IN work_kkta46aprvda3kxuww62zfddua 688 8 the the DT work_kkta46aprvda3kxuww62zfddua 688 9 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 688 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 688 11 binding bind VBG work_kkta46aprvda3kxuww62zfddua 688 12 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 688 13 B b NN work_kkta46aprvda3kxuww62zfddua 688 14 of of IN work_kkta46aprvda3kxuww62zfddua 688 15 the the DT work_kkta46aprvda3kxuww62zfddua 688 16 energy energy NN work_kkta46aprvda3kxuww62zfddua 688 17 producer producer NN work_kkta46aprvda3kxuww62zfddua 688 18 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 688 19 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 688 20 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 688 21 in in IN work_kkta46aprvda3kxuww62zfddua 688 22 complex complex NN work_kkta46aprvda3kxuww62zfddua 688 23 with with IN work_kkta46aprvda3kxuww62zfddua 688 24 adeno- adeno- XX work_kkta46aprvda3kxuww62zfddua 688 25 sine sine JJ work_kkta46aprvda3kxuww62zfddua 688 26 diphosphate diphosphate NN work_kkta46aprvda3kxuww62zfddua 688 27 , , , work_kkta46aprvda3kxuww62zfddua 688 28 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 688 29 Crystallogr Crystallogr NNP work_kkta46aprvda3kxuww62zfddua 688 30 . . . work_kkta46aprvda3kxuww62zfddua 689 1 D D NNP work_kkta46aprvda3kxuww62zfddua 689 2 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 689 3 . . . work_kkta46aprvda3kxuww62zfddua 690 1 Crystallogr Crystallogr NNP work_kkta46aprvda3kxuww62zfddua 690 2 . . . work_kkta46aprvda3kxuww62zfddua 691 1 64 64 CD work_kkta46aprvda3kxuww62zfddua 691 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 691 3 2008 2008 CD work_kkta46aprvda3kxuww62zfddua 691 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 691 5 1110–1115 1110–1115 CD work_kkta46aprvda3kxuww62zfddua 691 6 . . . work_kkta46aprvda3kxuww62zfddua 692 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 692 2 71 71 CD work_kkta46aprvda3kxuww62zfddua 692 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 692 4 M.S. M.S. NNP work_kkta46aprvda3kxuww62zfddua 693 1 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 693 2 , , , work_kkta46aprvda3kxuww62zfddua 693 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 693 4 Kumar Kumar NNP work_kkta46aprvda3kxuww62zfddua 693 5 , , , work_kkta46aprvda3kxuww62zfddua 693 6 A.M. A.M. NNP work_kkta46aprvda3kxuww62zfddua 693 7 Balakrishna Balakrishna NNP work_kkta46aprvda3kxuww62zfddua 693 8 , , , work_kkta46aprvda3kxuww62zfddua 693 9 G. G. NNP work_kkta46aprvda3kxuww62zfddua 693 10 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 693 11 , , , work_kkta46aprvda3kxuww62zfddua 693 12 A a DT work_kkta46aprvda3kxuww62zfddua 693 13 second second JJ work_kkta46aprvda3kxuww62zfddua 693 14 transient transient JJ work_kkta46aprvda3kxuww62zfddua 693 15 position position NN work_kkta46aprvda3kxuww62zfddua 693 16 of of IN work_kkta46aprvda3kxuww62zfddua 693 17 ATP atp NN work_kkta46aprvda3kxuww62zfddua 693 18 on on IN work_kkta46aprvda3kxuww62zfddua 693 19 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 693 20 trail trail NN work_kkta46aprvda3kxuww62zfddua 693 21 to to IN work_kkta46aprvda3kxuww62zfddua 693 22 the the DT work_kkta46aprvda3kxuww62zfddua 693 23 nucleotide nucleotide RB work_kkta46aprvda3kxuww62zfddua 693 24 - - HYPH work_kkta46aprvda3kxuww62zfddua 693 25 binding bind VBG work_kkta46aprvda3kxuww62zfddua 693 26 site site NN work_kkta46aprvda3kxuww62zfddua 693 27 of of IN work_kkta46aprvda3kxuww62zfddua 693 28 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 693 29 B B NNP work_kkta46aprvda3kxuww62zfddua 693 30 of of IN work_kkta46aprvda3kxuww62zfddua 693 31 the the DT work_kkta46aprvda3kxuww62zfddua 693 32 motor motor NN work_kkta46aprvda3kxuww62zfddua 693 33 protein protein NN work_kkta46aprvda3kxuww62zfddua 693 34 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 693 35 ATP atp NN work_kkta46aprvda3kxuww62zfddua 693 36 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 693 37 , , , work_kkta46aprvda3kxuww62zfddua 693 38 J. J. NNP work_kkta46aprvda3kxuww62zfddua 693 39 Struct Struct NNP work_kkta46aprvda3kxuww62zfddua 693 40 . . . work_kkta46aprvda3kxuww62zfddua 694 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 694 2 . . . work_kkta46aprvda3kxuww62zfddua 695 1 166 166 CD work_kkta46aprvda3kxuww62zfddua 695 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 695 3 2009 2009 CD work_kkta46aprvda3kxuww62zfddua 695 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 695 5 38–45 38–45 CD work_kkta46aprvda3kxuww62zfddua 695 6 . . . work_kkta46aprvda3kxuww62zfddua 696 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 696 2 72 72 CD work_kkta46aprvda3kxuww62zfddua 696 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 696 4 J.P. J.P. NNP work_kkta46aprvda3kxuww62zfddua 696 5 Abrahams Abrahams NNP work_kkta46aprvda3kxuww62zfddua 696 6 , , , work_kkta46aprvda3kxuww62zfddua 696 7 S.K. S.K. NNP work_kkta46aprvda3kxuww62zfddua 697 1 Buchanan Buchanan NNP work_kkta46aprvda3kxuww62zfddua 697 2 , , , work_kkta46aprvda3kxuww62zfddua 697 3 M.J. M.J. NNP work_kkta46aprvda3kxuww62zfddua 697 4 Vanraaij Vanraaij NNP work_kkta46aprvda3kxuww62zfddua 697 5 , , , work_kkta46aprvda3kxuww62zfddua 697 6 I.M. I.M. NNP work_kkta46aprvda3kxuww62zfddua 698 1 Fearnley Fearnley NNP work_kkta46aprvda3kxuww62zfddua 698 2 , , , work_kkta46aprvda3kxuww62zfddua 698 3 A.G.W. A.G.W. NNP work_kkta46aprvda3kxuww62zfddua 699 1 Leslie Leslie NNP work_kkta46aprvda3kxuww62zfddua 699 2 , , , work_kkta46aprvda3kxuww62zfddua 699 3 J.E. J.E. NNP work_kkta46aprvda3kxuww62zfddua 700 1 Walker Walker NNP work_kkta46aprvda3kxuww62zfddua 700 2 , , , work_kkta46aprvda3kxuww62zfddua 700 3 The the DT work_kkta46aprvda3kxuww62zfddua 700 4 structure structure NN work_kkta46aprvda3kxuww62zfddua 700 5 of of IN work_kkta46aprvda3kxuww62zfddua 700 6 bovine bovine JJ work_kkta46aprvda3kxuww62zfddua 700 7 F1-ATPase f1-atpase NN work_kkta46aprvda3kxuww62zfddua 700 8 complexed complexe VBN work_kkta46aprvda3kxuww62zfddua 700 9 with with IN work_kkta46aprvda3kxuww62zfddua 700 10 the the DT work_kkta46aprvda3kxuww62zfddua 700 11 peptide peptide JJ work_kkta46aprvda3kxuww62zfddua 700 12 antibiotic antibiotic JJ work_kkta46aprvda3kxuww62zfddua 700 13 efrapeptin efrapeptin NN work_kkta46aprvda3kxuww62zfddua 700 14 , , , work_kkta46aprvda3kxuww62zfddua 700 15 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 700 16 . . . work_kkta46aprvda3kxuww62zfddua 701 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 701 2 . . . work_kkta46aprvda3kxuww62zfddua 702 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 702 2 . . . work_kkta46aprvda3kxuww62zfddua 703 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 703 2 . . . work_kkta46aprvda3kxuww62zfddua 704 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 704 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 704 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 705 1 93 93 CD work_kkta46aprvda3kxuww62zfddua 705 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 705 3 1996 1996 CD work_kkta46aprvda3kxuww62zfddua 705 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 705 5 9420–9424 9420–9424 CD work_kkta46aprvda3kxuww62zfddua 705 6 . . . work_kkta46aprvda3kxuww62zfddua 706 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 706 2 73 73 CD work_kkta46aprvda3kxuww62zfddua 706 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 706 4 T. T. NNP work_kkta46aprvda3kxuww62zfddua 706 5 Ibuki Ibuki NNP work_kkta46aprvda3kxuww62zfddua 706 6 , , , work_kkta46aprvda3kxuww62zfddua 706 7 K. K. NNP work_kkta46aprvda3kxuww62zfddua 706 8 Imada Imada NNP work_kkta46aprvda3kxuww62zfddua 706 9 , , , work_kkta46aprvda3kxuww62zfddua 706 10 T. T. NNP work_kkta46aprvda3kxuww62zfddua 706 11 Minamino Minamino NNP work_kkta46aprvda3kxuww62zfddua 706 12 , , , work_kkta46aprvda3kxuww62zfddua 706 13 T. T. NNP work_kkta46aprvda3kxuww62zfddua 706 14 Kato Kato NNP work_kkta46aprvda3kxuww62zfddua 706 15 , , , work_kkta46aprvda3kxuww62zfddua 706 16 T. T. NNP work_kkta46aprvda3kxuww62zfddua 706 17 Miyata Miyata NNP work_kkta46aprvda3kxuww62zfddua 706 18 , , , work_kkta46aprvda3kxuww62zfddua 706 19 K. K. NNP work_kkta46aprvda3kxuww62zfddua 706 20 Namba Namba NNP work_kkta46aprvda3kxuww62zfddua 706 21 , , , work_kkta46aprvda3kxuww62zfddua 706 22 Common common JJ work_kkta46aprvda3kxuww62zfddua 706 23 architecture architecture NN work_kkta46aprvda3kxuww62zfddua 706 24 of of IN work_kkta46aprvda3kxuww62zfddua 706 25 the the DT work_kkta46aprvda3kxuww62zfddua 706 26 flagellar flagellar JJ work_kkta46aprvda3kxuww62zfddua 706 27 type type NN work_kkta46aprvda3kxuww62zfddua 706 28 III III NNP work_kkta46aprvda3kxuww62zfddua 706 29 protein protein NN work_kkta46aprvda3kxuww62zfddua 706 30 export export NN work_kkta46aprvda3kxuww62zfddua 706 31 apparatus apparatus NN work_kkta46aprvda3kxuww62zfddua 706 32 and and CC work_kkta46aprvda3kxuww62zfddua 706 33 F- F- NNP work_kkta46aprvda3kxuww62zfddua 706 34 and and CC work_kkta46aprvda3kxuww62zfddua 706 35 V v NN work_kkta46aprvda3kxuww62zfddua 706 36 - - HYPH work_kkta46aprvda3kxuww62zfddua 706 37 type type NN work_kkta46aprvda3kxuww62zfddua 706 38 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 706 39 , , , work_kkta46aprvda3kxuww62zfddua 706 40 Nat Nat NNP work_kkta46aprvda3kxuww62zfddua 706 41 . . . work_kkta46aprvda3kxuww62zfddua 707 1 Struct struct NN work_kkta46aprvda3kxuww62zfddua 707 2 . . . work_kkta46aprvda3kxuww62zfddua 708 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 708 2 . . . work_kkta46aprvda3kxuww62zfddua 709 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 709 2 . . . work_kkta46aprvda3kxuww62zfddua 710 1 18 18 CD work_kkta46aprvda3kxuww62zfddua 710 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 710 3 2011 2011 CD work_kkta46aprvda3kxuww62zfddua 710 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 710 5 277–282 277–282 CD work_kkta46aprvda3kxuww62zfddua 710 6 . . . work_kkta46aprvda3kxuww62zfddua 711 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 711 2 74 74 CD work_kkta46aprvda3kxuww62zfddua 711 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 711 4 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 711 5 Minagawa Minagawa NNP work_kkta46aprvda3kxuww62zfddua 711 6 , , , work_kkta46aprvda3kxuww62zfddua 711 7 H. H. NNP work_kkta46aprvda3kxuww62zfddua 711 8 Ueno Ueno NNP work_kkta46aprvda3kxuww62zfddua 711 9 , , , work_kkta46aprvda3kxuww62zfddua 711 10 M. M. NNP work_kkta46aprvda3kxuww62zfddua 711 11 Hara Hara NNP work_kkta46aprvda3kxuww62zfddua 711 12 , , , work_kkta46aprvda3kxuww62zfddua 711 13 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 711 14 Ishizuka Ishizuka NNP work_kkta46aprvda3kxuww62zfddua 711 15 - - HYPH work_kkta46aprvda3kxuww62zfddua 711 16 Katsura Katsura NNP work_kkta46aprvda3kxuww62zfddua 711 17 , , , work_kkta46aprvda3kxuww62zfddua 711 18 N. N. NNP work_kkta46aprvda3kxuww62zfddua 711 19 Ohsawa Ohsawa NNP work_kkta46aprvda3kxuww62zfddua 711 20 , , , work_kkta46aprvda3kxuww62zfddua 711 21 T. T. NNP work_kkta46aprvda3kxuww62zfddua 711 22 Terada Terada NNP work_kkta46aprvda3kxuww62zfddua 711 23 , , , work_kkta46aprvda3kxuww62zfddua 711 24 M. M. NNP work_kkta46aprvda3kxuww62zfddua 711 25 Shirouzu Shirouzu NNP work_kkta46aprvda3kxuww62zfddua 711 26 , , , work_kkta46aprvda3kxuww62zfddua 711 27 S. S. NNP work_kkta46aprvda3kxuww62zfddua 711 28 Yokoyama Yokoyama NNP work_kkta46aprvda3kxuww62zfddua 711 29 , , , work_kkta46aprvda3kxuww62zfddua 711 30 I. I. NNP work_kkta46aprvda3kxuww62zfddua 711 31 Yamato Yamato NNP work_kkta46aprvda3kxuww62zfddua 711 32 , , , work_kkta46aprvda3kxuww62zfddua 711 33 E. E. NNP work_kkta46aprvda3kxuww62zfddua 711 34 Muneyuki Muneyuki NNP work_kkta46aprvda3kxuww62zfddua 711 35 , , , work_kkta46aprvda3kxuww62zfddua 711 36 H. H. NNP work_kkta46aprvda3kxuww62zfddua 711 37 Noji Noji NNP work_kkta46aprvda3kxuww62zfddua 711 38 , , , work_kkta46aprvda3kxuww62zfddua 711 39 T. T. NNP work_kkta46aprvda3kxuww62zfddua 711 40 Murata Murata NNP work_kkta46aprvda3kxuww62zfddua 711 41 , , , work_kkta46aprvda3kxuww62zfddua 711 42 R. R. NNP work_kkta46aprvda3kxuww62zfddua 711 43 Iino Iino NNP work_kkta46aprvda3kxuww62zfddua 711 44 , , , work_kkta46aprvda3kxuww62zfddua 711 45 Basic basic JJ work_kkta46aprvda3kxuww62zfddua 711 46 properties property NNS work_kkta46aprvda3kxuww62zfddua 711 47 of of IN work_kkta46aprvda3kxuww62zfddua 711 48 rotary rotary JJ work_kkta46aprvda3kxuww62zfddua 711 49 dynamics dynamic NNS work_kkta46aprvda3kxuww62zfddua 711 50 of of IN work_kkta46aprvda3kxuww62zfddua 711 51 the the DT work_kkta46aprvda3kxuww62zfddua 711 52 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 711 53 motor motor NN work_kkta46aprvda3kxuww62zfddua 711 54 Enterococcus Enterococcus NNP work_kkta46aprvda3kxuww62zfddua 711 55 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 711 56 V1-ATPase V1-ATPase NNP work_kkta46aprvda3kxuww62zfddua 711 57 , , , work_kkta46aprvda3kxuww62zfddua 711 58 J. J. NNP work_kkta46aprvda3kxuww62zfddua 711 59 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 711 60 . . . work_kkta46aprvda3kxuww62zfddua 712 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 712 2 . . . work_kkta46aprvda3kxuww62zfddua 713 1 288 288 CD work_kkta46aprvda3kxuww62zfddua 713 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 713 3 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 713 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 713 5 32700–32707 32700–32707 ADD work_kkta46aprvda3kxuww62zfddua 713 6 . . . work_kkta46aprvda3kxuww62zfddua 714 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 714 2 75 75 CD work_kkta46aprvda3kxuww62zfddua 714 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 714 4 G. G. NNP work_kkta46aprvda3kxuww62zfddua 714 5 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 714 6 , , , work_kkta46aprvda3kxuww62zfddua 714 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 714 8 Marshansky Marshansky NNP work_kkta46aprvda3kxuww62zfddua 714 9 , , , work_kkta46aprvda3kxuww62zfddua 714 10 New New NNP work_kkta46aprvda3kxuww62zfddua 714 11 insights insight NNS work_kkta46aprvda3kxuww62zfddua 714 12 into into IN work_kkta46aprvda3kxuww62zfddua 714 13 structure structure NN work_kkta46aprvda3kxuww62zfddua 714 14 – – : work_kkta46aprvda3kxuww62zfddua 714 15 function function NN work_kkta46aprvda3kxuww62zfddua 714 16 relationships relationship NNS work_kkta46aprvda3kxuww62zfddua 714 17 be- be- VBD work_kkta46aprvda3kxuww62zfddua 714 18 tween tween NN work_kkta46aprvda3kxuww62zfddua 714 19 archeal archeal NN work_kkta46aprvda3kxuww62zfddua 714 20 ATP atp NN work_kkta46aprvda3kxuww62zfddua 714 21 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 714 22 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 714 23 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 714 24 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 714 25 and and CC work_kkta46aprvda3kxuww62zfddua 714 26 vacuolar vacuolar JJ work_kkta46aprvda3kxuww62zfddua 714 27 type type NN work_kkta46aprvda3kxuww62zfddua 714 28 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 714 29 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 714 30 V1VO V1VO NNP work_kkta46aprvda3kxuww62zfddua 714 31 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 714 32 , , , work_kkta46aprvda3kxuww62zfddua 714 33 Bioessays Bioessays NNP work_kkta46aprvda3kxuww62zfddua 714 34 30 30 CD work_kkta46aprvda3kxuww62zfddua 714 35 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 714 36 2008 2008 CD work_kkta46aprvda3kxuww62zfddua 714 37 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 714 38 1096–1109 1096–1109 CD work_kkta46aprvda3kxuww62zfddua 714 39 . . . work_kkta46aprvda3kxuww62zfddua 715 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 715 2 76 76 CD work_kkta46aprvda3kxuww62zfddua 715 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 715 4 A.G. A.G. NNP work_kkta46aprvda3kxuww62zfddua 715 5 Stewart Stewart NNP work_kkta46aprvda3kxuww62zfddua 715 6 , , , work_kkta46aprvda3kxuww62zfddua 715 7 M. M. NNP work_kkta46aprvda3kxuww62zfddua 715 8 Sobti Sobti NNP work_kkta46aprvda3kxuww62zfddua 715 9 , , , work_kkta46aprvda3kxuww62zfddua 715 10 R.P. R.P. NNP work_kkta46aprvda3kxuww62zfddua 716 1 Harvey Harvey NNP work_kkta46aprvda3kxuww62zfddua 716 2 , , , work_kkta46aprvda3kxuww62zfddua 716 3 D. D. NNP work_kkta46aprvda3kxuww62zfddua 716 4 Stock Stock NNP work_kkta46aprvda3kxuww62zfddua 716 5 , , , work_kkta46aprvda3kxuww62zfddua 716 6 Rotary Rotary NNP work_kkta46aprvda3kxuww62zfddua 716 7 ATPases atpase VBZ work_kkta46aprvda3kxuww62zfddua 716 8 : : : work_kkta46aprvda3kxuww62zfddua 716 9 models model NNS work_kkta46aprvda3kxuww62zfddua 716 10 , , , work_kkta46aprvda3kxuww62zfddua 716 11 machine machine NN work_kkta46aprvda3kxuww62zfddua 716 12 elements element NNS work_kkta46aprvda3kxuww62zfddua 716 13 and and CC work_kkta46aprvda3kxuww62zfddua 716 14 technical technical JJ work_kkta46aprvda3kxuww62zfddua 716 15 specifications specification NNS work_kkta46aprvda3kxuww62zfddua 716 16 , , , work_kkta46aprvda3kxuww62zfddua 716 17 Bioarchitecture Bioarchitecture NNP work_kkta46aprvda3kxuww62zfddua 716 18 3 3 CD work_kkta46aprvda3kxuww62zfddua 716 19 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 716 20 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 716 21 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 716 22 2–12 2–12 CD work_kkta46aprvda3kxuww62zfddua 716 23 . . . work_kkta46aprvda3kxuww62zfddua 717 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 717 2 77 77 CD work_kkta46aprvda3kxuww62zfddua 717 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 717 4 L.K. L.K. NNP work_kkta46aprvda3kxuww62zfddua 718 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 718 2 , , , work_kkta46aprvda3kxuww62zfddua 718 3 A.G. A.G. NNP work_kkta46aprvda3kxuww62zfddua 718 4 Stewart Stewart NNP work_kkta46aprvda3kxuww62zfddua 718 5 , , , work_kkta46aprvda3kxuww62zfddua 718 6 M. M. NNP work_kkta46aprvda3kxuww62zfddua 718 7 Donohoe Donohoe NNP work_kkta46aprvda3kxuww62zfddua 718 8 , , , work_kkta46aprvda3kxuww62zfddua 718 9 R.A. R.A. NNP work_kkta46aprvda3kxuww62zfddua 718 10 Bernal Bernal NNP work_kkta46aprvda3kxuww62zfddua 718 11 , , , work_kkta46aprvda3kxuww62zfddua 718 12 D. D. NNP work_kkta46aprvda3kxuww62zfddua 718 13 Stock Stock NNP work_kkta46aprvda3kxuww62zfddua 718 14 , , , work_kkta46aprvda3kxuww62zfddua 718 15 The the DT work_kkta46aprvda3kxuww62zfddua 718 16 structure structure NN work_kkta46aprvda3kxuww62zfddua 718 17 of of IN work_kkta46aprvda3kxuww62zfddua 718 18 the the DT work_kkta46aprvda3kxuww62zfddua 718 19 pe- pe- XX work_kkta46aprvda3kxuww62zfddua 718 20 ripheral ripheral JJ work_kkta46aprvda3kxuww62zfddua 718 21 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 718 22 of of IN work_kkta46aprvda3kxuww62zfddua 718 23 Thermus Thermus NNP work_kkta46aprvda3kxuww62zfddua 718 24 thermophilus thermophilus NN work_kkta46aprvda3kxuww62zfddua 718 25 H+-ATPase h+-atpase PRP work_kkta46aprvda3kxuww62zfddua 718 26 / / SYM work_kkta46aprvda3kxuww62zfddua 718 27 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 718 28 , , , work_kkta46aprvda3kxuww62zfddua 718 29 Nat Nat NNP work_kkta46aprvda3kxuww62zfddua 718 30 . . . work_kkta46aprvda3kxuww62zfddua 719 1 Struct struct NN work_kkta46aprvda3kxuww62zfddua 719 2 . . . work_kkta46aprvda3kxuww62zfddua 720 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 720 2 . . . work_kkta46aprvda3kxuww62zfddua 721 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 721 2 . . . work_kkta46aprvda3kxuww62zfddua 722 1 17 17 CD work_kkta46aprvda3kxuww62zfddua 722 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 722 3 2010 2010 CD work_kkta46aprvda3kxuww62zfddua 722 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 722 5 373–378 373–378 CD work_kkta46aprvda3kxuww62zfddua 722 6 . . . work_kkta46aprvda3kxuww62zfddua 723 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 723 2 78 78 CD work_kkta46aprvda3kxuww62zfddua 723 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 723 4 A.M. A.M. NNP work_kkta46aprvda3kxuww62zfddua 723 5 Balakrishna Balakrishna NNP work_kkta46aprvda3kxuww62zfddua 723 6 , , , work_kkta46aprvda3kxuww62zfddua 723 7 M.S. M.S. NNP work_kkta46aprvda3kxuww62zfddua 724 1 Manimekalai Manimekalai NNP work_kkta46aprvda3kxuww62zfddua 724 2 , , , work_kkta46aprvda3kxuww62zfddua 724 3 C. C. NNP work_kkta46aprvda3kxuww62zfddua 724 4 Hunke Hunke NNP work_kkta46aprvda3kxuww62zfddua 724 5 , , , work_kkta46aprvda3kxuww62zfddua 724 6 S. S. NNP work_kkta46aprvda3kxuww62zfddua 724 7 Gayen Gayen NNP work_kkta46aprvda3kxuww62zfddua 724 8 , , , work_kkta46aprvda3kxuww62zfddua 724 9 M. M. NNP work_kkta46aprvda3kxuww62zfddua 724 10 Rössle Rössle NNP work_kkta46aprvda3kxuww62zfddua 724 11 , , , work_kkta46aprvda3kxuww62zfddua 724 12 J. J. NNP work_kkta46aprvda3kxuww62zfddua 724 13 Jeyakanthan Jeyakanthan NNP work_kkta46aprvda3kxuww62zfddua 724 14 , , , work_kkta46aprvda3kxuww62zfddua 724 15 G. G. NNP work_kkta46aprvda3kxuww62zfddua 724 16 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 724 17 , , , work_kkta46aprvda3kxuww62zfddua 724 18 Crystal Crystal NNP work_kkta46aprvda3kxuww62zfddua 724 19 and and CC work_kkta46aprvda3kxuww62zfddua 724 20 solution solution NN work_kkta46aprvda3kxuww62zfddua 724 21 structure structure NN work_kkta46aprvda3kxuww62zfddua 724 22 of of IN work_kkta46aprvda3kxuww62zfddua 724 23 the the DT work_kkta46aprvda3kxuww62zfddua 724 24 C C NNP work_kkta46aprvda3kxuww62zfddua 724 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 724 26 terminal terminal JJ work_kkta46aprvda3kxuww62zfddua 724 27 part part NN work_kkta46aprvda3kxuww62zfddua 724 28 of of IN work_kkta46aprvda3kxuww62zfddua 724 29 the the DT work_kkta46aprvda3kxuww62zfddua 724 30 Methanocaldococcus Methanocaldococcus NNP work_kkta46aprvda3kxuww62zfddua 724 31 jannaschii jannaschii NN work_kkta46aprvda3kxuww62zfddua 724 32 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 724 33 ATP atp NN work_kkta46aprvda3kxuww62zfddua 724 34 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 724 35 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 724 36 E e NN work_kkta46aprvda3kxuww62zfddua 724 37 revealed reveal VBN work_kkta46aprvda3kxuww62zfddua 724 38 by by IN work_kkta46aprvda3kxuww62zfddua 724 39 X x NN work_kkta46aprvda3kxuww62zfddua 724 40 - - NN work_kkta46aprvda3kxuww62zfddua 724 41 ray ray NN work_kkta46aprvda3kxuww62zfddua 724 42 diffraction diffraction NN work_kkta46aprvda3kxuww62zfddua 724 43 and and CC work_kkta46aprvda3kxuww62zfddua 724 44 small small JJ work_kkta46aprvda3kxuww62zfddua 724 45 - - HYPH work_kkta46aprvda3kxuww62zfddua 724 46 angle angle NN work_kkta46aprvda3kxuww62zfddua 724 47 X x NN work_kkta46aprvda3kxuww62zfddua 724 48 - - NN work_kkta46aprvda3kxuww62zfddua 724 49 ray ray NN work_kkta46aprvda3kxuww62zfddua 724 50 scattering scattering NN work_kkta46aprvda3kxuww62zfddua 724 51 , , , work_kkta46aprvda3kxuww62zfddua 724 52 J. J. NNP work_kkta46aprvda3kxuww62zfddua 724 53 Bioenerg Bioenerg NNP work_kkta46aprvda3kxuww62zfddua 724 54 . . . work_kkta46aprvda3kxuww62zfddua 725 1 Biomembr Biomembr NNP work_kkta46aprvda3kxuww62zfddua 725 2 . . . work_kkta46aprvda3kxuww62zfddua 726 1 42 42 CD work_kkta46aprvda3kxuww62zfddua 726 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 726 3 2010 2010 CD work_kkta46aprvda3kxuww62zfddua 726 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 726 5 311–320 311–320 CD work_kkta46aprvda3kxuww62zfddua 726 6 . . . work_kkta46aprvda3kxuww62zfddua 727 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 727 2 79 79 CD work_kkta46aprvda3kxuww62zfddua 727 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 727 4 A.M. A.M. NNP work_kkta46aprvda3kxuww62zfddua 727 5 Balakrishna Balakrishna NNP work_kkta46aprvda3kxuww62zfddua 727 6 , , , work_kkta46aprvda3kxuww62zfddua 727 7 C. C. NNP work_kkta46aprvda3kxuww62zfddua 727 8 Hunke Hunke NNP work_kkta46aprvda3kxuww62zfddua 727 9 , , , work_kkta46aprvda3kxuww62zfddua 727 10 G. G. NNP work_kkta46aprvda3kxuww62zfddua 727 11 Grüber Grüber NNP work_kkta46aprvda3kxuww62zfddua 727 12 , , , work_kkta46aprvda3kxuww62zfddua 727 13 The the DT work_kkta46aprvda3kxuww62zfddua 727 14 structure structure NN work_kkta46aprvda3kxuww62zfddua 727 15 of of IN work_kkta46aprvda3kxuww62zfddua 727 16 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 727 17 E e NN work_kkta46aprvda3kxuww62zfddua 727 18 of of IN work_kkta46aprvda3kxuww62zfddua 727 19 the the DT work_kkta46aprvda3kxuww62zfddua 727 20 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 727 21 horikoshii horikoshii NN work_kkta46aprvda3kxuww62zfddua 727 22 OT3 OT3 NNP work_kkta46aprvda3kxuww62zfddua 727 23 A A NNP work_kkta46aprvda3kxuww62zfddua 727 24 - - HYPH work_kkta46aprvda3kxuww62zfddua 727 25 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 727 26 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 727 27 gives give VBZ work_kkta46aprvda3kxuww62zfddua 727 28 insight insight NN work_kkta46aprvda3kxuww62zfddua 727 29 into into IN work_kkta46aprvda3kxuww62zfddua 727 30 the the DT work_kkta46aprvda3kxuww62zfddua 727 31 elasticity elasticity NN work_kkta46aprvda3kxuww62zfddua 727 32 of of IN work_kkta46aprvda3kxuww62zfddua 727 33 the the DT work_kkta46aprvda3kxuww62zfddua 727 34 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 727 35 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 727 36 , , , work_kkta46aprvda3kxuww62zfddua 727 37 J. J. NNP work_kkta46aprvda3kxuww62zfddua 727 38 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 727 39 . . . work_kkta46aprvda3kxuww62zfddua 728 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 728 2 . . . work_kkta46aprvda3kxuww62zfddua 729 1 420 420 CD work_kkta46aprvda3kxuww62zfddua 729 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 729 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 729 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 729 5 155–163 155–163 CD work_kkta46aprvda3kxuww62zfddua 729 6 . . . work_kkta46aprvda3kxuww62zfddua 730 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 730 2 80 80 CD work_kkta46aprvda3kxuww62zfddua 730 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 730 4 A.G. A.G. NNP work_kkta46aprvda3kxuww62zfddua 730 5 Stewart Stewart NNP work_kkta46aprvda3kxuww62zfddua 730 6 , , , work_kkta46aprvda3kxuww62zfddua 730 7 L.K. L.K. NNP work_kkta46aprvda3kxuww62zfddua 731 1 Lee Lee NNP work_kkta46aprvda3kxuww62zfddua 731 2 , , , work_kkta46aprvda3kxuww62zfddua 731 3 M. M. NNP work_kkta46aprvda3kxuww62zfddua 731 4 Donohoe Donohoe NNP work_kkta46aprvda3kxuww62zfddua 731 5 , , , work_kkta46aprvda3kxuww62zfddua 731 6 J.J. J.J. NNP work_kkta46aprvda3kxuww62zfddua 731 7 Chaston Chaston NNP work_kkta46aprvda3kxuww62zfddua 731 8 , , , work_kkta46aprvda3kxuww62zfddua 731 9 D. D. NNP work_kkta46aprvda3kxuww62zfddua 731 10 Stock Stock NNP work_kkta46aprvda3kxuww62zfddua 731 11 , , , work_kkta46aprvda3kxuww62zfddua 731 12 The the DT work_kkta46aprvda3kxuww62zfddua 731 13 dynamic dynamic JJ work_kkta46aprvda3kxuww62zfddua 731 14 stator stator NN work_kkta46aprvda3kxuww62zfddua 731 15 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 731 16 of of IN work_kkta46aprvda3kxuww62zfddua 731 17 rotary rotary JJ work_kkta46aprvda3kxuww62zfddua 731 18 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 731 19 , , , work_kkta46aprvda3kxuww62zfddua 731 20 Nat Nat NNP work_kkta46aprvda3kxuww62zfddua 731 21 . . . work_kkta46aprvda3kxuww62zfddua 732 1 Commun Commun VBN work_kkta46aprvda3kxuww62zfddua 732 2 . . . work_kkta46aprvda3kxuww62zfddua 733 1 3 3 CD work_kkta46aprvda3kxuww62zfddua 733 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 733 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 733 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 733 5 687 687 CD work_kkta46aprvda3kxuww62zfddua 733 6 . . . work_kkta46aprvda3kxuww62zfddua 734 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 734 2 81 81 CD work_kkta46aprvda3kxuww62zfddua 734 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 734 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 734 5 Srinivasan Srinivasan NNP work_kkta46aprvda3kxuww62zfddua 734 6 , , , work_kkta46aprvda3kxuww62zfddua 734 7 N.K. N.K. NNP work_kkta46aprvda3kxuww62zfddua 735 1 Vyas Vyas NNP work_kkta46aprvda3kxuww62zfddua 735 2 , , , work_kkta46aprvda3kxuww62zfddua 735 3 M.L. M.L. NNP work_kkta46aprvda3kxuww62zfddua 736 1 Baker Baker NNP work_kkta46aprvda3kxuww62zfddua 736 2 , , , work_kkta46aprvda3kxuww62zfddua 736 3 F.A. F.A. NNP work_kkta46aprvda3kxuww62zfddua 737 1 Quiocho Quiocho NNP work_kkta46aprvda3kxuww62zfddua 737 2 , , , work_kkta46aprvda3kxuww62zfddua 737 3 Crystal Crystal NNP work_kkta46aprvda3kxuww62zfddua 737 4 structure structure NN work_kkta46aprvda3kxuww62zfddua 737 5 of of IN work_kkta46aprvda3kxuww62zfddua 737 6 the the DT work_kkta46aprvda3kxuww62zfddua 737 7 cytoplas- cytoplas- NNP work_kkta46aprvda3kxuww62zfddua 737 8 mic mic NNP work_kkta46aprvda3kxuww62zfddua 737 9 N N NNP work_kkta46aprvda3kxuww62zfddua 737 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 737 11 terminal terminal NN work_kkta46aprvda3kxuww62zfddua 737 12 domain domain NN work_kkta46aprvda3kxuww62zfddua 737 13 of of IN work_kkta46aprvda3kxuww62zfddua 737 14 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 737 15 I -PRON- PRP work_kkta46aprvda3kxuww62zfddua 737 16 , , , work_kkta46aprvda3kxuww62zfddua 737 17 a a DT work_kkta46aprvda3kxuww62zfddua 737 18 homolog homolog NN work_kkta46aprvda3kxuww62zfddua 737 19 of of IN work_kkta46aprvda3kxuww62zfddua 737 20 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 737 21 a a DT work_kkta46aprvda3kxuww62zfddua 737 22 , , , work_kkta46aprvda3kxuww62zfddua 737 23 of of IN work_kkta46aprvda3kxuww62zfddua 737 24 V V NNP work_kkta46aprvda3kxuww62zfddua 737 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 737 26 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 737 27 , , , work_kkta46aprvda3kxuww62zfddua 737 28 J. J. NNP work_kkta46aprvda3kxuww62zfddua 737 29 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 737 30 . . . work_kkta46aprvda3kxuww62zfddua 738 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 738 2 . . . work_kkta46aprvda3kxuww62zfddua 739 1 412 412 CD work_kkta46aprvda3kxuww62zfddua 739 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 739 3 2011 2011 CD work_kkta46aprvda3kxuww62zfddua 739 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 739 5 14–21 14–21 CD work_kkta46aprvda3kxuww62zfddua 739 6 . . . work_kkta46aprvda3kxuww62zfddua 740 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 740 2 82 82 CD work_kkta46aprvda3kxuww62zfddua 740 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 740 4 V. V. NNP work_kkta46aprvda3kxuww62zfddua 740 5 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 740 6 , , , work_kkta46aprvda3kxuww62zfddua 740 7 An an DT work_kkta46aprvda3kxuww62zfddua 740 8 exceptional exceptional JJ work_kkta46aprvda3kxuww62zfddua 740 9 variability variability NN work_kkta46aprvda3kxuww62zfddua 740 10 in in IN work_kkta46aprvda3kxuww62zfddua 740 11 the the DT work_kkta46aprvda3kxuww62zfddua 740 12 motor motor NN work_kkta46aprvda3kxuww62zfddua 740 13 of of IN work_kkta46aprvda3kxuww62zfddua 740 14 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 740 15 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 740 16 ATPases atpase NNS work_kkta46aprvda3kxuww62zfddua 740 17 : : : work_kkta46aprvda3kxuww62zfddua 740 18 from from IN work_kkta46aprvda3kxuww62zfddua 740 19 multimeric multimeric NN work_kkta46aprvda3kxuww62zfddua 740 20 to to IN work_kkta46aprvda3kxuww62zfddua 740 21 monomeric monomeric JJ work_kkta46aprvda3kxuww62zfddua 740 22 rotors rotor NNS work_kkta46aprvda3kxuww62zfddua 740 23 comprising comprise VBG work_kkta46aprvda3kxuww62zfddua 740 24 6–13 6–13 JJ work_kkta46aprvda3kxuww62zfddua 740 25 ion ion NN work_kkta46aprvda3kxuww62zfddua 740 26 binding bind VBG work_kkta46aprvda3kxuww62zfddua 740 27 sites site NNS work_kkta46aprvda3kxuww62zfddua 740 28 , , , work_kkta46aprvda3kxuww62zfddua 740 29 J. J. NNP work_kkta46aprvda3kxuww62zfddua 740 30 Bioenerg Bioenerg NNP work_kkta46aprvda3kxuww62zfddua 740 31 . . . work_kkta46aprvda3kxuww62zfddua 741 1 Biomembr Biomembr NNP work_kkta46aprvda3kxuww62zfddua 741 2 . . . work_kkta46aprvda3kxuww62zfddua 742 1 36 36 CD work_kkta46aprvda3kxuww62zfddua 742 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 742 3 2004 2004 CD work_kkta46aprvda3kxuww62zfddua 742 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 742 5 115–125 115–125 CD work_kkta46aprvda3kxuww62zfddua 742 6 . . . work_kkta46aprvda3kxuww62zfddua 743 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 743 2 83 83 CD work_kkta46aprvda3kxuww62zfddua 743 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 743 4 K. K. NNP work_kkta46aprvda3kxuww62zfddua 743 5 Ihara Ihara NNP work_kkta46aprvda3kxuww62zfddua 743 6 , , , work_kkta46aprvda3kxuww62zfddua 743 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 743 8 Watanabe Watanabe NNP work_kkta46aprvda3kxuww62zfddua 743 9 , , , work_kkta46aprvda3kxuww62zfddua 743 10 K. K. NNP work_kkta46aprvda3kxuww62zfddua 743 11 Sugimura Sugimura NNP work_kkta46aprvda3kxuww62zfddua 743 12 , , , work_kkta46aprvda3kxuww62zfddua 743 13 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 743 14 Mukohata Mukohata NNP work_kkta46aprvda3kxuww62zfddua 743 15 , , , work_kkta46aprvda3kxuww62zfddua 743 16 Identification Identification NNP work_kkta46aprvda3kxuww62zfddua 743 17 of of IN work_kkta46aprvda3kxuww62zfddua 743 18 proteolipid proteolipid NNP work_kkta46aprvda3kxuww62zfddua 743 19 from from IN work_kkta46aprvda3kxuww62zfddua 743 20 an an DT work_kkta46aprvda3kxuww62zfddua 743 21 extremely extremely RB work_kkta46aprvda3kxuww62zfddua 743 22 halophilic halophilic JJ work_kkta46aprvda3kxuww62zfddua 743 23 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 743 24 Halobacterium Halobacterium NNP work_kkta46aprvda3kxuww62zfddua 743 25 salinarum salinarum NNP work_kkta46aprvda3kxuww62zfddua 743 26 as as IN work_kkta46aprvda3kxuww62zfddua 743 27 an an DT work_kkta46aprvda3kxuww62zfddua 743 28 N′ n′ NN work_kkta46aprvda3kxuww62zfddua 743 29 , , , work_kkta46aprvda3kxuww62zfddua 743 30 N′- n′- CD work_kkta46aprvda3kxuww62zfddua 743 31 dicyclohexyl dicyclohexyl NN work_kkta46aprvda3kxuww62zfddua 743 32 - - HYPH work_kkta46aprvda3kxuww62zfddua 743 33 carbodiimide carbodiimide NN work_kkta46aprvda3kxuww62zfddua 743 34 binding binding NN work_kkta46aprvda3kxuww62zfddua 743 35 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 743 36 of of IN work_kkta46aprvda3kxuww62zfddua 743 37 ATP atp NN work_kkta46aprvda3kxuww62zfddua 743 38 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 743 39 , , , work_kkta46aprvda3kxuww62zfddua 743 40 Arch Arch NNP work_kkta46aprvda3kxuww62zfddua 743 41 . . . work_kkta46aprvda3kxuww62zfddua 744 1 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 744 2 . . . work_kkta46aprvda3kxuww62zfddua 745 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 745 2 . . . work_kkta46aprvda3kxuww62zfddua 746 1 341 341 CD work_kkta46aprvda3kxuww62zfddua 746 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 746 3 1997 1997 CD work_kkta46aprvda3kxuww62zfddua 746 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 746 5 267–272 267–272 CD work_kkta46aprvda3kxuww62zfddua 746 6 . . . work_kkta46aprvda3kxuww62zfddua 747 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 747 2 84 84 CD work_kkta46aprvda3kxuww62zfddua 747 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 747 4 K.I. K.I. NNP work_kkta46aprvda3kxuww62zfddua 748 1 Inatomi Inatomi NNP work_kkta46aprvda3kxuww62zfddua 748 2 , , , work_kkta46aprvda3kxuww62zfddua 748 3 M. M. NNP work_kkta46aprvda3kxuww62zfddua 748 4 Maeda Maeda NNP work_kkta46aprvda3kxuww62zfddua 748 5 , , , work_kkta46aprvda3kxuww62zfddua 748 6 M. M. NNP work_kkta46aprvda3kxuww62zfddua 748 7 Futai Futai NNP work_kkta46aprvda3kxuww62zfddua 748 8 , , , work_kkta46aprvda3kxuww62zfddua 748 9 Dicyclohexylcarbodiimide dicyclohexylcarbodiimide NN work_kkta46aprvda3kxuww62zfddua 748 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 748 11 binding bind VBG work_kkta46aprvda3kxuww62zfddua 748 12 protein protein NN work_kkta46aprvda3kxuww62zfddua 748 13 is be VBZ work_kkta46aprvda3kxuww62zfddua 748 14 a a DT work_kkta46aprvda3kxuww62zfddua 748 15 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 748 16 of of IN work_kkta46aprvda3kxuww62zfddua 748 17 the the DT work_kkta46aprvda3kxuww62zfddua 748 18 Methanosarcina Methanosarcina NNP work_kkta46aprvda3kxuww62zfddua 748 19 barkeri barkeri NN work_kkta46aprvda3kxuww62zfddua 748 20 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 748 21 complex complex NN work_kkta46aprvda3kxuww62zfddua 748 22 , , , work_kkta46aprvda3kxuww62zfddua 748 23 Biochem Biochem NNP work_kkta46aprvda3kxuww62zfddua 748 24 . . . work_kkta46aprvda3kxuww62zfddua 749 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 749 2 . . . work_kkta46aprvda3kxuww62zfddua 750 1 Res Res NNP work_kkta46aprvda3kxuww62zfddua 750 2 . . . work_kkta46aprvda3kxuww62zfddua 751 1 Commun Commun VBN work_kkta46aprvda3kxuww62zfddua 751 2 . . . work_kkta46aprvda3kxuww62zfddua 752 1 162 162 CD work_kkta46aprvda3kxuww62zfddua 752 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 752 3 1989 1989 CD work_kkta46aprvda3kxuww62zfddua 752 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 752 5 1585–1590 1585–1590 CD work_kkta46aprvda3kxuww62zfddua 752 6 . . . work_kkta46aprvda3kxuww62zfddua 753 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 753 2 85 85 CD work_kkta46aprvda3kxuww62zfddua 753 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 753 4 K. K. NNP work_kkta46aprvda3kxuww62zfddua 753 5 Steinert Steinert NNP work_kkta46aprvda3kxuww62zfddua 753 6 , , , work_kkta46aprvda3kxuww62zfddua 753 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 753 8 Wagner Wagner NNP work_kkta46aprvda3kxuww62zfddua 753 9 , , , work_kkta46aprvda3kxuww62zfddua 753 10 P.G. P.G. NNP work_kkta46aprvda3kxuww62zfddua 754 1 Kroth Kroth NNP work_kkta46aprvda3kxuww62zfddua 754 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 754 3 Pancic Pancic NNP work_kkta46aprvda3kxuww62zfddua 754 4 , , , work_kkta46aprvda3kxuww62zfddua 754 5 S. S. NNP work_kkta46aprvda3kxuww62zfddua 754 6 Bickel Bickel NNP work_kkta46aprvda3kxuww62zfddua 754 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 754 8 Sandkötter Sandkötter NNP work_kkta46aprvda3kxuww62zfddua 754 9 , , , work_kkta46aprvda3kxuww62zfddua 754 10 Characterization Characterization NNP work_kkta46aprvda3kxuww62zfddua 754 11 and and CC work_kkta46aprvda3kxuww62zfddua 754 12 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 754 13 structure structure NN work_kkta46aprvda3kxuww62zfddua 754 14 of of IN work_kkta46aprvda3kxuww62zfddua 754 15 the the DT work_kkta46aprvda3kxuww62zfddua 754 16 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 754 17 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 754 18 of of IN work_kkta46aprvda3kxuww62zfddua 754 19 the the DT work_kkta46aprvda3kxuww62zfddua 754 20 halophilic halophilic JJ work_kkta46aprvda3kxuww62zfddua 754 21 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 754 22 Haloferax Haloferax NNP work_kkta46aprvda3kxuww62zfddua 754 23 volcanii volcanii NNP work_kkta46aprvda3kxuww62zfddua 754 24 and and CC work_kkta46aprvda3kxuww62zfddua 754 25 organization organization NN work_kkta46aprvda3kxuww62zfddua 754 26 of of IN work_kkta46aprvda3kxuww62zfddua 754 27 the the DT work_kkta46aprvda3kxuww62zfddua 754 28 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 754 29 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 754 30 genes gene NNS work_kkta46aprvda3kxuww62zfddua 754 31 , , , work_kkta46aprvda3kxuww62zfddua 754 32 J. J. NNP work_kkta46aprvda3kxuww62zfddua 754 33 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 754 34 . . . work_kkta46aprvda3kxuww62zfddua 755 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 755 2 . . . work_kkta46aprvda3kxuww62zfddua 756 1 272 272 CD work_kkta46aprvda3kxuww62zfddua 756 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 756 3 1997 1997 CD work_kkta46aprvda3kxuww62zfddua 756 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 756 5 6261–6269 6261–6269 CD work_kkta46aprvda3kxuww62zfddua 756 6 . . . work_kkta46aprvda3kxuww62zfddua 757 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 757 2 86 86 CD work_kkta46aprvda3kxuww62zfddua 757 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 757 4 F. F. NNP work_kkta46aprvda3kxuww62zfddua 757 5 Mayer Mayer NNP work_kkta46aprvda3kxuww62zfddua 757 6 , , , work_kkta46aprvda3kxuww62zfddua 757 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 757 8 Leone Leone NNP work_kkta46aprvda3kxuww62zfddua 757 9 , , , work_kkta46aprvda3kxuww62zfddua 757 10 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 758 1 Langer Langer NNP work_kkta46aprvda3kxuww62zfddua 758 2 , , , work_kkta46aprvda3kxuww62zfddua 758 3 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 759 1 Faraldo faraldo NN work_kkta46aprvda3kxuww62zfddua 759 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 759 3 Gómez Gómez NNP work_kkta46aprvda3kxuww62zfddua 759 4 , , , work_kkta46aprvda3kxuww62zfddua 759 5 V. V. NNP work_kkta46aprvda3kxuww62zfddua 759 6 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 759 7 , , , work_kkta46aprvda3kxuww62zfddua 759 8 A a DT work_kkta46aprvda3kxuww62zfddua 759 9 c c NNP work_kkta46aprvda3kxuww62zfddua 759 10 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 759 11 with with IN work_kkta46aprvda3kxuww62zfddua 759 12 four four CD work_kkta46aprvda3kxuww62zfddua 759 13 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 759 14 helices helix NNS work_kkta46aprvda3kxuww62zfddua 759 15 and and CC work_kkta46aprvda3kxuww62zfddua 759 16 one one CD work_kkta46aprvda3kxuww62zfddua 759 17 ion ion NN work_kkta46aprvda3kxuww62zfddua 759 18 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 759 19 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 759 20 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 759 21 binding bind VBG work_kkta46aprvda3kxuww62zfddua 759 22 site site NN work_kkta46aprvda3kxuww62zfddua 759 23 in in IN work_kkta46aprvda3kxuww62zfddua 759 24 an an DT work_kkta46aprvda3kxuww62zfddua 759 25 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 759 26 ATP atp NN work_kkta46aprvda3kxuww62zfddua 759 27 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 759 28 : : : work_kkta46aprvda3kxuww62zfddua 759 29 implications implication NNS work_kkta46aprvda3kxuww62zfddua 759 30 for for IN work_kkta46aprvda3kxuww62zfddua 759 31 c c NN work_kkta46aprvda3kxuww62zfddua 759 32 ring ring NN work_kkta46aprvda3kxuww62zfddua 759 33 function function NN work_kkta46aprvda3kxuww62zfddua 759 34 and and CC work_kkta46aprvda3kxuww62zfddua 759 35 structure structure NN work_kkta46aprvda3kxuww62zfddua 759 36 , , , work_kkta46aprvda3kxuww62zfddua 759 37 J. J. NNP work_kkta46aprvda3kxuww62zfddua 759 38 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 759 39 . . . work_kkta46aprvda3kxuww62zfddua 760 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 760 2 . . . work_kkta46aprvda3kxuww62zfddua 761 1 287 287 CD work_kkta46aprvda3kxuww62zfddua 761 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 761 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 761 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 761 5 39327–39337 39327–39337 CD work_kkta46aprvda3kxuww62zfddua 761 6 . . . work_kkta46aprvda3kxuww62zfddua 762 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 762 2 87 87 CD work_kkta46aprvda3kxuww62zfddua 762 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 762 4 C. C. NNP work_kkta46aprvda3kxuww62zfddua 762 5 Ruppert Ruppert NNP work_kkta46aprvda3kxuww62zfddua 762 6 , , , work_kkta46aprvda3kxuww62zfddua 762 7 R. R. NNP work_kkta46aprvda3kxuww62zfddua 762 8 Schmid Schmid NNP work_kkta46aprvda3kxuww62zfddua 762 9 , , , work_kkta46aprvda3kxuww62zfddua 762 10 R. R. NNP work_kkta46aprvda3kxuww62zfddua 762 11 Hedderich Hedderich NNP work_kkta46aprvda3kxuww62zfddua 762 12 , , , work_kkta46aprvda3kxuww62zfddua 762 13 V. V. NNP work_kkta46aprvda3kxuww62zfddua 762 14 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 762 15 , , , work_kkta46aprvda3kxuww62zfddua 762 16 Selective selective JJ work_kkta46aprvda3kxuww62zfddua 762 17 extraction extraction NN work_kkta46aprvda3kxuww62zfddua 762 18 of of IN work_kkta46aprvda3kxuww62zfddua 762 19 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 762 20 D d NN work_kkta46aprvda3kxuww62zfddua 762 21 of of IN work_kkta46aprvda3kxuww62zfddua 762 22 the the DT work_kkta46aprvda3kxuww62zfddua 762 23 Na+-translocating na+-translocate VBG work_kkta46aprvda3kxuww62zfddua 762 24 methyltransferase methyltransferase NN work_kkta46aprvda3kxuww62zfddua 762 25 and and CC work_kkta46aprvda3kxuww62zfddua 762 26 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 762 27 c c NNP work_kkta46aprvda3kxuww62zfddua 762 28 of of IN work_kkta46aprvda3kxuww62zfddua 762 29 the the DT work_kkta46aprvda3kxuww62zfddua 762 30 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 762 31 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 762 32 from from IN work_kkta46aprvda3kxuww62zfddua 762 33 the the DT work_kkta46aprvda3kxuww62zfddua 762 34 cytoplasmic cytoplasmic JJ work_kkta46aprvda3kxuww62zfddua 762 35 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 762 36 of of IN work_kkta46aprvda3kxuww62zfddua 762 37 methanogenic methanogenic NNP work_kkta46aprvda3kxuww62zfddua 762 38 archaea archaea VBN work_kkta46aprvda3kxuww62zfddua 762 39 by by IN work_kkta46aprvda3kxuww62zfddua 762 40 chloroform/ chloroform/ NN work_kkta46aprvda3kxuww62zfddua 762 41 methanol methanol NN work_kkta46aprvda3kxuww62zfddua 762 42 and and CC work_kkta46aprvda3kxuww62zfddua 762 43 characterization characterization NN work_kkta46aprvda3kxuww62zfddua 762 44 of of IN work_kkta46aprvda3kxuww62zfddua 762 45 subunit subunit NNP work_kkta46aprvda3kxuww62zfddua 762 46 c c NN work_kkta46aprvda3kxuww62zfddua 762 47 of of IN work_kkta46aprvda3kxuww62zfddua 762 48 Methanothermobacter Methanothermobacter NNP work_kkta46aprvda3kxuww62zfddua 762 49 thermoautotrophicus thermoautotrophicus NN work_kkta46aprvda3kxuww62zfddua 762 50 as as IN work_kkta46aprvda3kxuww62zfddua 762 51 a a DT work_kkta46aprvda3kxuww62zfddua 762 52 16-kDa 16-kda CD work_kkta46aprvda3kxuww62zfddua 762 53 proteolipid proteolipid NN work_kkta46aprvda3kxuww62zfddua 762 54 , , , work_kkta46aprvda3kxuww62zfddua 762 55 FEMS FEMS NNP work_kkta46aprvda3kxuww62zfddua 762 56 Microbiol Microbiol NNP work_kkta46aprvda3kxuww62zfddua 762 57 . . . work_kkta46aprvda3kxuww62zfddua 763 1 Lett Lett NNP work_kkta46aprvda3kxuww62zfddua 763 2 . . . work_kkta46aprvda3kxuww62zfddua 764 1 195 195 CD work_kkta46aprvda3kxuww62zfddua 764 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 764 3 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 764 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 764 5 47–51 47–51 CD work_kkta46aprvda3kxuww62zfddua 764 6 . . . work_kkta46aprvda3kxuww62zfddua 765 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 765 2 88 88 CD work_kkta46aprvda3kxuww62zfddua 765 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 765 4 W.F. W.F. NNP work_kkta46aprvda3kxuww62zfddua 766 1 Fricke Fricke NNP work_kkta46aprvda3kxuww62zfddua 766 2 , , , work_kkta46aprvda3kxuww62zfddua 766 3 H. H. NNP work_kkta46aprvda3kxuww62zfddua 766 4 Seedorf Seedorf NNP work_kkta46aprvda3kxuww62zfddua 766 5 , , , work_kkta46aprvda3kxuww62zfddua 766 6 A. a. NN work_kkta46aprvda3kxuww62zfddua 766 7 Henne Henne NNP work_kkta46aprvda3kxuww62zfddua 766 8 , , , work_kkta46aprvda3kxuww62zfddua 766 9 M. M. NNP work_kkta46aprvda3kxuww62zfddua 766 10 Kruer Kruer NNP work_kkta46aprvda3kxuww62zfddua 766 11 , , , work_kkta46aprvda3kxuww62zfddua 766 12 H. H. NNP work_kkta46aprvda3kxuww62zfddua 766 13 Liesegang Liesegang NNP work_kkta46aprvda3kxuww62zfddua 766 14 , , , work_kkta46aprvda3kxuww62zfddua 766 15 R. R. NNP work_kkta46aprvda3kxuww62zfddua 766 16 Hedderich Hedderich NNP work_kkta46aprvda3kxuww62zfddua 766 17 , , , work_kkta46aprvda3kxuww62zfddua 766 18 G. G. NNP work_kkta46aprvda3kxuww62zfddua 766 19 Gottschalk Gottschalk NNP work_kkta46aprvda3kxuww62zfddua 766 20 , , , work_kkta46aprvda3kxuww62zfddua 766 21 R.K. R.K. NNP work_kkta46aprvda3kxuww62zfddua 766 22 Thauer Thauer NNP work_kkta46aprvda3kxuww62zfddua 766 23 , , , work_kkta46aprvda3kxuww62zfddua 766 24 The the DT work_kkta46aprvda3kxuww62zfddua 766 25 genome genome JJ work_kkta46aprvda3kxuww62zfddua 766 26 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 766 27 of of IN work_kkta46aprvda3kxuww62zfddua 766 28 Methanosphaera Methanosphaera NNP work_kkta46aprvda3kxuww62zfddua 766 29 stadtmanae stadtmanae NN work_kkta46aprvda3kxuww62zfddua 766 30 reveals reveal VBZ work_kkta46aprvda3kxuww62zfddua 766 31 why why WRB work_kkta46aprvda3kxuww62zfddua 766 32 this this DT work_kkta46aprvda3kxuww62zfddua 766 33 human human JJ work_kkta46aprvda3kxuww62zfddua 766 34 intestinal intestinal JJ work_kkta46aprvda3kxuww62zfddua 766 35 archaeon archaeon NN work_kkta46aprvda3kxuww62zfddua 766 36 is be VBZ work_kkta46aprvda3kxuww62zfddua 766 37 restricted restrict VBN work_kkta46aprvda3kxuww62zfddua 766 38 to to IN work_kkta46aprvda3kxuww62zfddua 766 39 methanol methanol NN work_kkta46aprvda3kxuww62zfddua 766 40 and and CC work_kkta46aprvda3kxuww62zfddua 766 41 H2 H2 NNP work_kkta46aprvda3kxuww62zfddua 766 42 for for IN work_kkta46aprvda3kxuww62zfddua 766 43 methane methane NN work_kkta46aprvda3kxuww62zfddua 766 44 formation formation NN work_kkta46aprvda3kxuww62zfddua 766 45 and and CC work_kkta46aprvda3kxuww62zfddua 766 46 ATP atp NN work_kkta46aprvda3kxuww62zfddua 766 47 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 766 48 , , , work_kkta46aprvda3kxuww62zfddua 766 49 J. J. NNP work_kkta46aprvda3kxuww62zfddua 766 50 Bacteriol Bacteriol NNP work_kkta46aprvda3kxuww62zfddua 766 51 . . . work_kkta46aprvda3kxuww62zfddua 767 1 188 188 CD work_kkta46aprvda3kxuww62zfddua 767 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 767 3 2006 2006 CD work_kkta46aprvda3kxuww62zfddua 767 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 767 5 642–658 642–658 CD work_kkta46aprvda3kxuww62zfddua 767 6 . . . work_kkta46aprvda3kxuww62zfddua 768 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 768 2 89 89 CD work_kkta46aprvda3kxuww62zfddua 768 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 768 4 C. C. NNP work_kkta46aprvda3kxuww62zfddua 768 5 Ruppert Ruppert NNP work_kkta46aprvda3kxuww62zfddua 768 6 , , , work_kkta46aprvda3kxuww62zfddua 768 7 H. H. NNP work_kkta46aprvda3kxuww62zfddua 768 8 Kavermann Kavermann NNP work_kkta46aprvda3kxuww62zfddua 768 9 , , , work_kkta46aprvda3kxuww62zfddua 768 10 S. S. NNP work_kkta46aprvda3kxuww62zfddua 768 11 Wimmers Wimmers NNP work_kkta46aprvda3kxuww62zfddua 768 12 , , , work_kkta46aprvda3kxuww62zfddua 768 13 R. R. NNP work_kkta46aprvda3kxuww62zfddua 768 14 Schmid Schmid NNP work_kkta46aprvda3kxuww62zfddua 768 15 , , , work_kkta46aprvda3kxuww62zfddua 768 16 J. J. NNP work_kkta46aprvda3kxuww62zfddua 768 17 Kellermann Kellermann NNP work_kkta46aprvda3kxuww62zfddua 768 18 , , , work_kkta46aprvda3kxuww62zfddua 768 19 F. F. NNP work_kkta46aprvda3kxuww62zfddua 768 20 Lottspeich Lottspeich NNP work_kkta46aprvda3kxuww62zfddua 768 21 , , , work_kkta46aprvda3kxuww62zfddua 768 22 H. H. NNP work_kkta46aprvda3kxuww62zfddua 768 23 Huber Huber NNP work_kkta46aprvda3kxuww62zfddua 768 24 , , , work_kkta46aprvda3kxuww62zfddua 768 25 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 769 1 Stetter Stetter NNP work_kkta46aprvda3kxuww62zfddua 769 2 , , , work_kkta46aprvda3kxuww62zfddua 769 3 V. V. NNP work_kkta46aprvda3kxuww62zfddua 769 4 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 769 5 , , , work_kkta46aprvda3kxuww62zfddua 769 6 The the DT work_kkta46aprvda3kxuww62zfddua 769 7 proteolipid proteolipid NN work_kkta46aprvda3kxuww62zfddua 769 8 of of IN work_kkta46aprvda3kxuww62zfddua 769 9 the the DT work_kkta46aprvda3kxuww62zfddua 769 10 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 769 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 769 12 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 769 13 from from IN work_kkta46aprvda3kxuww62zfddua 769 14 Methanococcus Methanococcus NNP work_kkta46aprvda3kxuww62zfddua 769 15 jannaschii jannaschii NN work_kkta46aprvda3kxuww62zfddua 769 16 has have VBZ work_kkta46aprvda3kxuww62zfddua 769 17 six six CD work_kkta46aprvda3kxuww62zfddua 769 18 predicted predict VBN work_kkta46aprvda3kxuww62zfddua 769 19 transmembrane transmembrane JJ work_kkta46aprvda3kxuww62zfddua 769 20 helices helix NNS work_kkta46aprvda3kxuww62zfddua 769 21 but but CC work_kkta46aprvda3kxuww62zfddua 769 22 only only RB work_kkta46aprvda3kxuww62zfddua 769 23 two two CD work_kkta46aprvda3kxuww62zfddua 769 24 proton proton NN work_kkta46aprvda3kxuww62zfddua 769 25 - - HYPH work_kkta46aprvda3kxuww62zfddua 769 26 translocating translocate VBG work_kkta46aprvda3kxuww62zfddua 769 27 carboxyl carboxyl NN work_kkta46aprvda3kxuww62zfddua 769 28 groups group NNS work_kkta46aprvda3kxuww62zfddua 769 29 , , , work_kkta46aprvda3kxuww62zfddua 769 30 J. J. NNP work_kkta46aprvda3kxuww62zfddua 769 31 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 769 32 . . . work_kkta46aprvda3kxuww62zfddua 770 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 770 2 . . . work_kkta46aprvda3kxuww62zfddua 771 1 274 274 CD work_kkta46aprvda3kxuww62zfddua 771 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 771 3 1999 1999 CD work_kkta46aprvda3kxuww62zfddua 771 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 771 5 25281–25284 25281–25284 CD work_kkta46aprvda3kxuww62zfddua 771 6 . . . work_kkta46aprvda3kxuww62zfddua 772 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 772 2 90 90 CD work_kkta46aprvda3kxuww62zfddua 772 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 772 4 A.I. A.I. NNP work_kkta46aprvda3kxuww62zfddua 773 1 Slesarev Slesarev NNP work_kkta46aprvda3kxuww62zfddua 773 2 , , , work_kkta46aprvda3kxuww62zfddua 773 3 K.V. K.V. NNP work_kkta46aprvda3kxuww62zfddua 774 1 Mezhevaya Mezhevaya NNP work_kkta46aprvda3kxuww62zfddua 774 2 , , , work_kkta46aprvda3kxuww62zfddua 774 3 K.S. K.S. NNP work_kkta46aprvda3kxuww62zfddua 775 1 Makarova Makarova NNP work_kkta46aprvda3kxuww62zfddua 775 2 , , , work_kkta46aprvda3kxuww62zfddua 775 3 N.N. N.N. NNP work_kkta46aprvda3kxuww62zfddua 776 1 Polushin Polushin NNP work_kkta46aprvda3kxuww62zfddua 776 2 , , , work_kkta46aprvda3kxuww62zfddua 776 3 O.V. O.V. NNP work_kkta46aprvda3kxuww62zfddua 777 1 Shcherbinina Shcherbinina NNP work_kkta46aprvda3kxuww62zfddua 777 2 , , , work_kkta46aprvda3kxuww62zfddua 777 3 V.V. V.V. NNP work_kkta46aprvda3kxuww62zfddua 778 1 Shakhova Shakhova NNP work_kkta46aprvda3kxuww62zfddua 778 2 , , , work_kkta46aprvda3kxuww62zfddua 778 3 G.I. G.I. NNP work_kkta46aprvda3kxuww62zfddua 779 1 Belova Belova NNP work_kkta46aprvda3kxuww62zfddua 779 2 , , , work_kkta46aprvda3kxuww62zfddua 779 3 L. L. NNP work_kkta46aprvda3kxuww62zfddua 779 4 Aravind Aravind NNP work_kkta46aprvda3kxuww62zfddua 779 5 , , , work_kkta46aprvda3kxuww62zfddua 779 6 D.A. D.A. NNP work_kkta46aprvda3kxuww62zfddua 780 1 Natale Natale NNP work_kkta46aprvda3kxuww62zfddua 780 2 , , , work_kkta46aprvda3kxuww62zfddua 780 3 I.B. I.B. NNP work_kkta46aprvda3kxuww62zfddua 781 1 Rogozin Rogozin NNP work_kkta46aprvda3kxuww62zfddua 781 2 , , , work_kkta46aprvda3kxuww62zfddua 781 3 R.L. R.L. NNP work_kkta46aprvda3kxuww62zfddua 782 1 Tatusov Tatusov NNP work_kkta46aprvda3kxuww62zfddua 782 2 , , , work_kkta46aprvda3kxuww62zfddua 782 3 Y.I. Y.I. NNP work_kkta46aprvda3kxuww62zfddua 783 1 Wolf Wolf NNP work_kkta46aprvda3kxuww62zfddua 783 2 , , , work_kkta46aprvda3kxuww62zfddua 783 3 K.O. K.O. NNP work_kkta46aprvda3kxuww62zfddua 784 1 Stetter Stetter NNP work_kkta46aprvda3kxuww62zfddua 784 2 , , , work_kkta46aprvda3kxuww62zfddua 784 3 A.G. A.G. NNP work_kkta46aprvda3kxuww62zfddua 784 4 Malykh Malykh NNP work_kkta46aprvda3kxuww62zfddua 784 5 , , , work_kkta46aprvda3kxuww62zfddua 784 6 E.V. E.V. NNP work_kkta46aprvda3kxuww62zfddua 785 1 Koonin Koonin NNP work_kkta46aprvda3kxuww62zfddua 785 2 , , , work_kkta46aprvda3kxuww62zfddua 785 3 S.A. S.A. NNP work_kkta46aprvda3kxuww62zfddua 785 4 Kozyavkin Kozyavkin NNP work_kkta46aprvda3kxuww62zfddua 785 5 , , , work_kkta46aprvda3kxuww62zfddua 785 6 The the DT work_kkta46aprvda3kxuww62zfddua 785 7 complete complete JJ work_kkta46aprvda3kxuww62zfddua 785 8 ge- ge- XX work_kkta46aprvda3kxuww62zfddua 785 9 nome nome NN work_kkta46aprvda3kxuww62zfddua 785 10 of of IN work_kkta46aprvda3kxuww62zfddua 785 11 hyperthermophile hyperthermophile JJ work_kkta46aprvda3kxuww62zfddua 785 12 Methanopyrus Methanopyrus NNP work_kkta46aprvda3kxuww62zfddua 785 13 kandleri kandleri NN work_kkta46aprvda3kxuww62zfddua 785 14 AV19 AV19 NNP work_kkta46aprvda3kxuww62zfddua 785 15 and and CC work_kkta46aprvda3kxuww62zfddua 785 16 monophyly monophyly NN work_kkta46aprvda3kxuww62zfddua 785 17 of of IN work_kkta46aprvda3kxuww62zfddua 785 18 ar- ar- CD work_kkta46aprvda3kxuww62zfddua 785 19 chaeal chaeal NN work_kkta46aprvda3kxuww62zfddua 785 20 methanogens methanogen NNS work_kkta46aprvda3kxuww62zfddua 785 21 , , , work_kkta46aprvda3kxuww62zfddua 785 22 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 785 23 . . . work_kkta46aprvda3kxuww62zfddua 786 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 786 2 . . . work_kkta46aprvda3kxuww62zfddua 787 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 787 2 . . . work_kkta46aprvda3kxuww62zfddua 788 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 788 2 . . . work_kkta46aprvda3kxuww62zfddua 789 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 789 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 789 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 790 1 99 99 CD work_kkta46aprvda3kxuww62zfddua 790 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 790 3 2002 2002 CD work_kkta46aprvda3kxuww62zfddua 790 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 790 5 4644–4649 4644–4649 CD work_kkta46aprvda3kxuww62zfddua 790 6 . . . work_kkta46aprvda3kxuww62zfddua 791 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 791 2 91 91 CD work_kkta46aprvda3kxuww62zfddua 791 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 791 4 D. D. NNP work_kkta46aprvda3kxuww62zfddua 791 5 Pogoryelov Pogoryelov NNP work_kkta46aprvda3kxuww62zfddua 791 6 , , , work_kkta46aprvda3kxuww62zfddua 791 7 A.L. A.L. NNP work_kkta46aprvda3kxuww62zfddua 792 1 Klyszejko Klyszejko NNP work_kkta46aprvda3kxuww62zfddua 792 2 , , , work_kkta46aprvda3kxuww62zfddua 792 3 G.O. G.O. NNP work_kkta46aprvda3kxuww62zfddua 793 1 Krasnoselska Krasnoselska NNP work_kkta46aprvda3kxuww62zfddua 793 2 , , , work_kkta46aprvda3kxuww62zfddua 793 3 E.M. E.M. NNP work_kkta46aprvda3kxuww62zfddua 793 4 Heller Heller NNP work_kkta46aprvda3kxuww62zfddua 793 5 , , , work_kkta46aprvda3kxuww62zfddua 793 6 V. V. NNP work_kkta46aprvda3kxuww62zfddua 793 7 Leone Leone NNP work_kkta46aprvda3kxuww62zfddua 793 8 , , , work_kkta46aprvda3kxuww62zfddua 793 9 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 794 1 Langer Langer NNP work_kkta46aprvda3kxuww62zfddua 794 2 , , , work_kkta46aprvda3kxuww62zfddua 794 3 J. J. NNP work_kkta46aprvda3kxuww62zfddua 794 4 Vonck Vonck NNP work_kkta46aprvda3kxuww62zfddua 794 5 , , , work_kkta46aprvda3kxuww62zfddua 794 6 D.J. D.J. NNP work_kkta46aprvda3kxuww62zfddua 795 1 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 795 2 , , , work_kkta46aprvda3kxuww62zfddua 795 3 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 796 1 Faraldo faraldo NN work_kkta46aprvda3kxuww62zfddua 796 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 796 3 Gómez Gómez NNP work_kkta46aprvda3kxuww62zfddua 796 4 , , , work_kkta46aprvda3kxuww62zfddua 796 5 T. T. NNP work_kkta46aprvda3kxuww62zfddua 796 6 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 796 7 , , , work_kkta46aprvda3kxuww62zfddua 796 8 Engineering Engineering NNP work_kkta46aprvda3kxuww62zfddua 796 9 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 796 10 ring ring NN work_kkta46aprvda3kxuww62zfddua 796 11 stoichiometries stoichiometry NNS work_kkta46aprvda3kxuww62zfddua 796 12 in in IN work_kkta46aprvda3kxuww62zfddua 796 13 the the DT work_kkta46aprvda3kxuww62zfddua 796 14 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 796 15 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 796 16 , , , work_kkta46aprvda3kxuww62zfddua 796 17 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 796 18 . . . work_kkta46aprvda3kxuww62zfddua 797 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 797 2 . . . work_kkta46aprvda3kxuww62zfddua 798 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 798 2 . . . work_kkta46aprvda3kxuww62zfddua 799 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 799 2 . . . work_kkta46aprvda3kxuww62zfddua 800 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 800 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 800 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 801 1 109 109 CD work_kkta46aprvda3kxuww62zfddua 801 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 801 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 801 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 801 5 E1599–E1608 e1599–e1608 ADD work_kkta46aprvda3kxuww62zfddua 801 6 . . . work_kkta46aprvda3kxuww62zfddua 802 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 802 2 92 92 CD work_kkta46aprvda3kxuww62zfddua 802 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 802 4 F.T. F.T. NNP work_kkta46aprvda3kxuww62zfddua 803 1 Robb Robb NNP work_kkta46aprvda3kxuww62zfddua 803 2 , , , work_kkta46aprvda3kxuww62zfddua 803 3 D.L. D.L. NNP work_kkta46aprvda3kxuww62zfddua 804 1 Maeder Maeder NNP work_kkta46aprvda3kxuww62zfddua 804 2 , , , work_kkta46aprvda3kxuww62zfddua 804 3 J.R. J.R. NNP work_kkta46aprvda3kxuww62zfddua 804 4 Brown Brown NNP work_kkta46aprvda3kxuww62zfddua 804 5 , , , work_kkta46aprvda3kxuww62zfddua 804 6 J. J. NNP work_kkta46aprvda3kxuww62zfddua 804 7 DiRuggiero DiRuggiero NNP work_kkta46aprvda3kxuww62zfddua 804 8 , , , work_kkta46aprvda3kxuww62zfddua 804 9 M.D. M.D. NNP work_kkta46aprvda3kxuww62zfddua 805 1 Stump Stump NNP work_kkta46aprvda3kxuww62zfddua 805 2 , , , work_kkta46aprvda3kxuww62zfddua 805 3 R.K. R.K. NNP work_kkta46aprvda3kxuww62zfddua 805 4 Yeh Yeh NNP work_kkta46aprvda3kxuww62zfddua 805 5 , , , work_kkta46aprvda3kxuww62zfddua 805 6 R.B. R.B. NNP work_kkta46aprvda3kxuww62zfddua 806 1 Weiss Weiss NNP work_kkta46aprvda3kxuww62zfddua 806 2 , , , work_kkta46aprvda3kxuww62zfddua 806 3 D.M. D.M. NNP work_kkta46aprvda3kxuww62zfddua 807 1 Dunn Dunn NNP work_kkta46aprvda3kxuww62zfddua 807 2 , , , work_kkta46aprvda3kxuww62zfddua 807 3 Genomic genomic JJ work_kkta46aprvda3kxuww62zfddua 807 4 sequence sequence NN work_kkta46aprvda3kxuww62zfddua 807 5 of of IN work_kkta46aprvda3kxuww62zfddua 807 6 hyperthermophile hyperthermophile JJ work_kkta46aprvda3kxuww62zfddua 807 7 Pyrococcus Pyrococcus NNP work_kkta46aprvda3kxuww62zfddua 807 8 furiosus furiosus NN work_kkta46aprvda3kxuww62zfddua 807 9 : : : work_kkta46aprvda3kxuww62zfddua 807 10 implica- implica- NNP work_kkta46aprvda3kxuww62zfddua 807 11 tions tion NNS work_kkta46aprvda3kxuww62zfddua 807 12 for for IN work_kkta46aprvda3kxuww62zfddua 807 13 physiology physiology NN work_kkta46aprvda3kxuww62zfddua 807 14 and and CC work_kkta46aprvda3kxuww62zfddua 807 15 enzymology enzymology NN work_kkta46aprvda3kxuww62zfddua 807 16 , , , work_kkta46aprvda3kxuww62zfddua 807 17 Methods Methods NNP work_kkta46aprvda3kxuww62zfddua 807 18 Enzymol Enzymol NNP work_kkta46aprvda3kxuww62zfddua 807 19 . . . work_kkta46aprvda3kxuww62zfddua 808 1 330 330 CD work_kkta46aprvda3kxuww62zfddua 808 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 808 3 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 808 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 808 5 134–157 134–157 CD work_kkta46aprvda3kxuww62zfddua 808 6 . . . work_kkta46aprvda3kxuww62zfddua 809 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 809 2 93 93 CD work_kkta46aprvda3kxuww62zfddua 809 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 809 4 D. D. NNP work_kkta46aprvda3kxuww62zfddua 809 5 Pogoryelov Pogoryelov NNP work_kkta46aprvda3kxuww62zfddua 809 6 , , , work_kkta46aprvda3kxuww62zfddua 809 7 O. O. NNP work_kkta46aprvda3kxuww62zfddua 809 8 Yildiz Yildiz NNP work_kkta46aprvda3kxuww62zfddua 809 9 , , , work_kkta46aprvda3kxuww62zfddua 809 10 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 810 1 Faraldo faraldo NN work_kkta46aprvda3kxuww62zfddua 810 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 810 3 Gómez Gómez NNP work_kkta46aprvda3kxuww62zfddua 810 4 , , , work_kkta46aprvda3kxuww62zfddua 810 5 T. T. NNP work_kkta46aprvda3kxuww62zfddua 810 6 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 810 7 , , , work_kkta46aprvda3kxuww62zfddua 810 8 High high JJ work_kkta46aprvda3kxuww62zfddua 810 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 810 10 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 810 11 structure structure NN work_kkta46aprvda3kxuww62zfddua 810 12 of of IN work_kkta46aprvda3kxuww62zfddua 810 13 the the DT work_kkta46aprvda3kxuww62zfddua 810 14 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 810 15 ring ring NN work_kkta46aprvda3kxuww62zfddua 810 16 of of IN work_kkta46aprvda3kxuww62zfddua 810 17 a a DT work_kkta46aprvda3kxuww62zfddua 810 18 proton proton NN work_kkta46aprvda3kxuww62zfddua 810 19 - - HYPH work_kkta46aprvda3kxuww62zfddua 810 20 dependent dependent JJ work_kkta46aprvda3kxuww62zfddua 810 21 ATP atp NN work_kkta46aprvda3kxuww62zfddua 810 22 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 810 23 , , , work_kkta46aprvda3kxuww62zfddua 810 24 Nat Nat NNP work_kkta46aprvda3kxuww62zfddua 810 25 . . . work_kkta46aprvda3kxuww62zfddua 811 1 Struct struct NN work_kkta46aprvda3kxuww62zfddua 811 2 . . . work_kkta46aprvda3kxuww62zfddua 812 1 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 812 2 . . . work_kkta46aprvda3kxuww62zfddua 813 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 813 2 . . . work_kkta46aprvda3kxuww62zfddua 814 1 16 16 CD work_kkta46aprvda3kxuww62zfddua 814 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 814 3 2009 2009 CD work_kkta46aprvda3kxuww62zfddua 814 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 814 5 1068–1073 1068–1073 CD work_kkta46aprvda3kxuww62zfddua 814 6 . . . work_kkta46aprvda3kxuww62zfddua 815 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 815 2 94 94 CD work_kkta46aprvda3kxuww62zfddua 815 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 815 4 P. P. NNP work_kkta46aprvda3kxuww62zfddua 815 5 Dimroth Dimroth NNP work_kkta46aprvda3kxuww62zfddua 815 6 , , , work_kkta46aprvda3kxuww62zfddua 815 7 Structure structure NN work_kkta46aprvda3kxuww62zfddua 815 8 and and CC work_kkta46aprvda3kxuww62zfddua 815 9 function function NN work_kkta46aprvda3kxuww62zfddua 815 10 of of IN work_kkta46aprvda3kxuww62zfddua 815 11 the the DT work_kkta46aprvda3kxuww62zfddua 815 12 Na+-translocating na+-translocate VBG work_kkta46aprvda3kxuww62zfddua 815 13 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 815 14 of of IN work_kkta46aprvda3kxuww62zfddua 815 15 Propionigenium Propionigenium NNP work_kkta46aprvda3kxuww62zfddua 815 16 modestum modestum NN work_kkta46aprvda3kxuww62zfddua 815 17 , , , work_kkta46aprvda3kxuww62zfddua 815 18 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 815 19 Physiol Physiol NNP work_kkta46aprvda3kxuww62zfddua 815 20 . . . work_kkta46aprvda3kxuww62zfddua 816 1 Scand scand NN work_kkta46aprvda3kxuww62zfddua 816 2 . . . work_kkta46aprvda3kxuww62zfddua 817 1 146 146 CD work_kkta46aprvda3kxuww62zfddua 817 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 817 3 1992 1992 CD work_kkta46aprvda3kxuww62zfddua 817 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 817 5 97–102 97–102 CD work_kkta46aprvda3kxuww62zfddua 817 6 . . . work_kkta46aprvda3kxuww62zfddua 818 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 818 2 95 95 CD work_kkta46aprvda3kxuww62zfddua 818 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 818 4 V. V. NNP work_kkta46aprvda3kxuww62zfddua 818 5 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 818 6 , , , work_kkta46aprvda3kxuww62zfddua 818 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 818 8 Aufurth Aufurth NNP work_kkta46aprvda3kxuww62zfddua 818 9 , , , work_kkta46aprvda3kxuww62zfddua 818 10 S. S. NNP work_kkta46aprvda3kxuww62zfddua 818 11 Rahlfs Rahlfs NNP work_kkta46aprvda3kxuww62zfddua 818 12 , , , work_kkta46aprvda3kxuww62zfddua 818 13 The the DT work_kkta46aprvda3kxuww62zfddua 818 14 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 818 15 cycle cycle NN work_kkta46aprvda3kxuww62zfddua 818 16 in in IN work_kkta46aprvda3kxuww62zfddua 818 17 Acetobacterium Acetobacterium NNP work_kkta46aprvda3kxuww62zfddua 818 18 woodii woodii NN work_kkta46aprvda3kxuww62zfddua 818 19 : : : work_kkta46aprvda3kxuww62zfddua 818 20 identification identification NN work_kkta46aprvda3kxuww62zfddua 818 21 and and CC work_kkta46aprvda3kxuww62zfddua 818 22 characterization characterization NN work_kkta46aprvda3kxuww62zfddua 818 23 of of IN work_kkta46aprvda3kxuww62zfddua 818 24 a a DT work_kkta46aprvda3kxuww62zfddua 818 25 Na+-translocating na+-translocate VBG work_kkta46aprvda3kxuww62zfddua 818 26 F1FO F1FO NNP work_kkta46aprvda3kxuww62zfddua 818 27 - - HYPH work_kkta46aprvda3kxuww62zfddua 818 28 ATPase ATPase NNP work_kkta46aprvda3kxuww62zfddua 818 29 with with IN work_kkta46aprvda3kxuww62zfddua 818 30 a a DT work_kkta46aprvda3kxuww62zfddua 818 31 mixed mixed JJ work_kkta46aprvda3kxuww62zfddua 818 32 oligomer oligomer NN work_kkta46aprvda3kxuww62zfddua 818 33 of of IN work_kkta46aprvda3kxuww62zfddua 818 34 8 8 CD work_kkta46aprvda3kxuww62zfddua 818 35 and and CC work_kkta46aprvda3kxuww62zfddua 818 36 16 16 CD work_kkta46aprvda3kxuww62zfddua 818 37 kDa kDa NNS work_kkta46aprvda3kxuww62zfddua 818 38 proteolipids proteolipid NNS work_kkta46aprvda3kxuww62zfddua 818 39 , , , work_kkta46aprvda3kxuww62zfddua 818 40 Biochim Biochim NNP work_kkta46aprvda3kxuww62zfddua 818 41 . . . work_kkta46aprvda3kxuww62zfddua 819 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 819 2 . . . work_kkta46aprvda3kxuww62zfddua 820 1 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 820 2 1505 1505 CD work_kkta46aprvda3kxuww62zfddua 820 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 820 4 2001 2001 CD work_kkta46aprvda3kxuww62zfddua 820 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 820 6 108–120 108–120 CD work_kkta46aprvda3kxuww62zfddua 820 7 . . . work_kkta46aprvda3kxuww62zfddua 821 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 821 2 96 96 CD work_kkta46aprvda3kxuww62zfddua 821 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 821 4 T. T. NNP work_kkta46aprvda3kxuww62zfddua 821 5 Murata Murata NNP work_kkta46aprvda3kxuww62zfddua 821 6 , , , work_kkta46aprvda3kxuww62zfddua 821 7 I. I. NNP work_kkta46aprvda3kxuww62zfddua 821 8 Yamato Yamato NNP work_kkta46aprvda3kxuww62zfddua 821 9 , , , work_kkta46aprvda3kxuww62zfddua 821 10 Y. Y. NNP work_kkta46aprvda3kxuww62zfddua 821 11 Kakinuma Kakinuma NNP work_kkta46aprvda3kxuww62zfddua 821 12 , , , work_kkta46aprvda3kxuww62zfddua 821 13 A.G. A.G. NNP work_kkta46aprvda3kxuww62zfddua 821 14 Leslie Leslie NNP work_kkta46aprvda3kxuww62zfddua 821 15 , , , work_kkta46aprvda3kxuww62zfddua 821 16 J.E. J.E. NNP work_kkta46aprvda3kxuww62zfddua 822 1 Walker Walker NNP work_kkta46aprvda3kxuww62zfddua 822 2 , , , work_kkta46aprvda3kxuww62zfddua 822 3 Structure structure NN work_kkta46aprvda3kxuww62zfddua 822 4 of of IN work_kkta46aprvda3kxuww62zfddua 822 5 the the DT work_kkta46aprvda3kxuww62zfddua 822 6 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 822 7 of of IN work_kkta46aprvda3kxuww62zfddua 822 8 the the DT work_kkta46aprvda3kxuww62zfddua 822 9 V V NNP work_kkta46aprvda3kxuww62zfddua 822 10 - - HYPH work_kkta46aprvda3kxuww62zfddua 822 11 Type Type NNP work_kkta46aprvda3kxuww62zfddua 822 12 Na+-ATPase na+-atpase NN work_kkta46aprvda3kxuww62zfddua 822 13 from from IN work_kkta46aprvda3kxuww62zfddua 822 14 Enterococcus Enterococcus NNP work_kkta46aprvda3kxuww62zfddua 822 15 hirae hirae NN work_kkta46aprvda3kxuww62zfddua 822 16 , , , work_kkta46aprvda3kxuww62zfddua 822 17 Science Science NNP work_kkta46aprvda3kxuww62zfddua 822 18 308 308 CD work_kkta46aprvda3kxuww62zfddua 822 19 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 822 20 2005 2005 CD work_kkta46aprvda3kxuww62zfddua 822 21 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 822 22 654–659 654–659 CD work_kkta46aprvda3kxuww62zfddua 822 23 . . . work_kkta46aprvda3kxuww62zfddua 823 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 823 2 97 97 CD work_kkta46aprvda3kxuww62zfddua 823 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 823 4 T. T. NNP work_kkta46aprvda3kxuww62zfddua 823 5 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 823 6 , , , work_kkta46aprvda3kxuww62zfddua 823 7 A. A. NNP work_kkta46aprvda3kxuww62zfddua 823 8 Krah Krah NNP work_kkta46aprvda3kxuww62zfddua 823 9 , , , work_kkta46aprvda3kxuww62zfddua 823 10 P.J. P.J. NNP work_kkta46aprvda3kxuww62zfddua 824 1 Bond Bond NNP work_kkta46aprvda3kxuww62zfddua 824 2 , , , work_kkta46aprvda3kxuww62zfddua 824 3 D. D. NNP work_kkta46aprvda3kxuww62zfddua 824 4 Pogoryelov Pogoryelov NNP work_kkta46aprvda3kxuww62zfddua 824 5 , , , work_kkta46aprvda3kxuww62zfddua 824 6 K. K. NNP work_kkta46aprvda3kxuww62zfddua 824 7 Diederichs Diederichs NNP work_kkta46aprvda3kxuww62zfddua 824 8 , , , work_kkta46aprvda3kxuww62zfddua 824 9 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 825 1 Faraldo faraldo NN work_kkta46aprvda3kxuww62zfddua 825 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 825 3 Gómez Gómez NNP work_kkta46aprvda3kxuww62zfddua 825 4 , , , work_kkta46aprvda3kxuww62zfddua 825 5 Complete complete JJ work_kkta46aprvda3kxuww62zfddua 825 6 ion ion NN work_kkta46aprvda3kxuww62zfddua 825 7 - - HYPH work_kkta46aprvda3kxuww62zfddua 825 8 coordination coordination NN work_kkta46aprvda3kxuww62zfddua 825 9 structure structure NN work_kkta46aprvda3kxuww62zfddua 825 10 in in IN work_kkta46aprvda3kxuww62zfddua 825 11 the the DT work_kkta46aprvda3kxuww62zfddua 825 12 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 825 13 ring ring NN work_kkta46aprvda3kxuww62zfddua 825 14 of of IN work_kkta46aprvda3kxuww62zfddua 825 15 Na+-dependent Na+-dependent NNP work_kkta46aprvda3kxuww62zfddua 825 16 F F NNP work_kkta46aprvda3kxuww62zfddua 825 17 - - HYPH work_kkta46aprvda3kxuww62zfddua 825 18 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 825 19 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 825 20 , , , work_kkta46aprvda3kxuww62zfddua 825 21 J. J. NNP work_kkta46aprvda3kxuww62zfddua 825 22 Mol Mol NNP work_kkta46aprvda3kxuww62zfddua 825 23 . . . work_kkta46aprvda3kxuww62zfddua 826 1 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 826 2 . . . work_kkta46aprvda3kxuww62zfddua 827 1 391 391 CD work_kkta46aprvda3kxuww62zfddua 827 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 827 3 2009 2009 CD work_kkta46aprvda3kxuww62zfddua 827 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 827 5 498–507 498–507 CD work_kkta46aprvda3kxuww62zfddua 827 6 . . . work_kkta46aprvda3kxuww62zfddua 828 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 828 2 98 98 CD work_kkta46aprvda3kxuww62zfddua 828 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 828 4 T. T. NNP work_kkta46aprvda3kxuww62zfddua 828 5 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 828 6 , , , work_kkta46aprvda3kxuww62zfddua 828 7 P. P. NNP work_kkta46aprvda3kxuww62zfddua 828 8 Polzer Polzer NNP work_kkta46aprvda3kxuww62zfddua 828 9 , , , work_kkta46aprvda3kxuww62zfddua 828 10 K. K. NNP work_kkta46aprvda3kxuww62zfddua 828 11 Diederichs Diederichs NNP work_kkta46aprvda3kxuww62zfddua 828 12 , , , work_kkta46aprvda3kxuww62zfddua 828 13 W. W. NNP work_kkta46aprvda3kxuww62zfddua 828 14 Welte Welte NNP work_kkta46aprvda3kxuww62zfddua 828 15 , , , work_kkta46aprvda3kxuww62zfddua 828 16 P. P. NNP work_kkta46aprvda3kxuww62zfddua 828 17 Dimroth Dimroth NNP work_kkta46aprvda3kxuww62zfddua 828 18 , , , work_kkta46aprvda3kxuww62zfddua 828 19 Structure Structure NNP work_kkta46aprvda3kxuww62zfddua 828 20 of of IN work_kkta46aprvda3kxuww62zfddua 828 21 the the DT work_kkta46aprvda3kxuww62zfddua 828 22 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 828 23 ring ring NN work_kkta46aprvda3kxuww62zfddua 828 24 of of IN work_kkta46aprvda3kxuww62zfddua 828 25 F F NNP work_kkta46aprvda3kxuww62zfddua 828 26 - - HYPH work_kkta46aprvda3kxuww62zfddua 828 27 Type Type NNP work_kkta46aprvda3kxuww62zfddua 828 28 Na+-ATPase na+-atpase NN work_kkta46aprvda3kxuww62zfddua 828 29 from from IN work_kkta46aprvda3kxuww62zfddua 828 30 Ilyobacter Ilyobacter NNP work_kkta46aprvda3kxuww62zfddua 828 31 tartaricus tartaricus NN work_kkta46aprvda3kxuww62zfddua 828 32 , , , work_kkta46aprvda3kxuww62zfddua 828 33 Science Science NNP work_kkta46aprvda3kxuww62zfddua 828 34 308 308 CD work_kkta46aprvda3kxuww62zfddua 828 35 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 828 36 2005 2005 CD work_kkta46aprvda3kxuww62zfddua 828 37 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 828 38 659–662 659–662 CD work_kkta46aprvda3kxuww62zfddua 828 39 . . . work_kkta46aprvda3kxuww62zfddua 829 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 829 2 99 99 CD work_kkta46aprvda3kxuww62zfddua 829 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 829 4 D.G. D.G. NNP work_kkta46aprvda3kxuww62zfddua 830 1 McMillan McMillan NNP work_kkta46aprvda3kxuww62zfddua 830 2 , , , work_kkta46aprvda3kxuww62zfddua 830 3 S.A. S.A. NNP work_kkta46aprvda3kxuww62zfddua 830 4 Ferguson Ferguson NNP work_kkta46aprvda3kxuww62zfddua 830 5 , , , work_kkta46aprvda3kxuww62zfddua 830 6 D. D. NNP work_kkta46aprvda3kxuww62zfddua 830 7 Dey Dey NNP work_kkta46aprvda3kxuww62zfddua 830 8 , , , work_kkta46aprvda3kxuww62zfddua 830 9 K. K. NNP work_kkta46aprvda3kxuww62zfddua 830 10 Schroder Schroder NNP work_kkta46aprvda3kxuww62zfddua 830 11 , , , work_kkta46aprvda3kxuww62zfddua 830 12 H.L. H.L. NNP work_kkta46aprvda3kxuww62zfddua 831 1 Aung Aung NNP work_kkta46aprvda3kxuww62zfddua 831 2 , , , work_kkta46aprvda3kxuww62zfddua 831 3 V. V. NNP work_kkta46aprvda3kxuww62zfddua 831 4 Carbone Carbone NNP work_kkta46aprvda3kxuww62zfddua 831 5 , , , work_kkta46aprvda3kxuww62zfddua 831 6 G.T. G.T. NNP work_kkta46aprvda3kxuww62zfddua 832 1 Attwood Attwood NNP work_kkta46aprvda3kxuww62zfddua 832 2 , , , work_kkta46aprvda3kxuww62zfddua 832 3 R.S. R.S. NNP work_kkta46aprvda3kxuww62zfddua 833 1 Ronimus Ronimus NNP work_kkta46aprvda3kxuww62zfddua 833 2 , , , work_kkta46aprvda3kxuww62zfddua 833 3 T. T. NNP work_kkta46aprvda3kxuww62zfddua 833 4 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 833 5 , , , work_kkta46aprvda3kxuww62zfddua 833 6 P.H. P.H. NNP work_kkta46aprvda3kxuww62zfddua 834 1 Janssen Janssen NNP work_kkta46aprvda3kxuww62zfddua 834 2 , , , work_kkta46aprvda3kxuww62zfddua 834 3 G.M. G.M. NNP work_kkta46aprvda3kxuww62zfddua 835 1 Cook Cook NNP work_kkta46aprvda3kxuww62zfddua 835 2 , , , work_kkta46aprvda3kxuww62zfddua 835 3 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 835 4 - - HYPH work_kkta46aprvda3kxuww62zfddua 835 5 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 835 6 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 835 7 of of IN work_kkta46aprvda3kxuww62zfddua 835 8 Methanobrevibacter Methanobrevibacter NNP work_kkta46aprvda3kxuww62zfddua 835 9 ruminantium ruminantium NN work_kkta46aprvda3kxuww62zfddua 835 10 couples couple NNS work_kkta46aprvda3kxuww62zfddua 835 11 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 835 12 ions ion NNS work_kkta46aprvda3kxuww62zfddua 835 13 for for IN work_kkta46aprvda3kxuww62zfddua 835 14 ATP atp NN work_kkta46aprvda3kxuww62zfddua 835 15 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 835 16 under under IN work_kkta46aprvda3kxuww62zfddua 835 17 physiological physiological JJ work_kkta46aprvda3kxuww62zfddua 835 18 conditions condition NNS work_kkta46aprvda3kxuww62zfddua 835 19 , , , work_kkta46aprvda3kxuww62zfddua 835 20 J. J. NNP work_kkta46aprvda3kxuww62zfddua 835 21 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 835 22 . . . work_kkta46aprvda3kxuww62zfddua 836 1 Chem Chem NNP work_kkta46aprvda3kxuww62zfddua 836 2 . . . work_kkta46aprvda3kxuww62zfddua 837 1 286 286 CD work_kkta46aprvda3kxuww62zfddua 837 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 837 3 2011 2011 CD work_kkta46aprvda3kxuww62zfddua 837 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 837 5 39882–39892 39882–39892 CD work_kkta46aprvda3kxuww62zfddua 837 6 . . . work_kkta46aprvda3kxuww62zfddua 838 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 838 2 100 100 CD work_kkta46aprvda3kxuww62zfddua 838 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 838 4 K. K. NNP work_kkta46aprvda3kxuww62zfddua 838 5 Schlegel Schlegel NNP work_kkta46aprvda3kxuww62zfddua 838 6 , , , work_kkta46aprvda3kxuww62zfddua 838 7 V. V. NNP work_kkta46aprvda3kxuww62zfddua 838 8 Leone Leone NNP work_kkta46aprvda3kxuww62zfddua 838 9 , , , work_kkta46aprvda3kxuww62zfddua 838 10 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 839 1 Faraldo Faraldo NNP work_kkta46aprvda3kxuww62zfddua 839 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 839 3 Gomez Gomez NNP work_kkta46aprvda3kxuww62zfddua 839 4 , , , work_kkta46aprvda3kxuww62zfddua 839 5 V. V. NNP work_kkta46aprvda3kxuww62zfddua 839 6 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 839 7 , , , work_kkta46aprvda3kxuww62zfddua 839 8 Promiscuous promiscuous JJ work_kkta46aprvda3kxuww62zfddua 839 9 archaeal archaeal NN work_kkta46aprvda3kxuww62zfddua 839 10 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 839 11 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 839 12 concurrently concurrently RB work_kkta46aprvda3kxuww62zfddua 839 13 coupled couple VBD work_kkta46aprvda3kxuww62zfddua 839 14 to to IN work_kkta46aprvda3kxuww62zfddua 839 15 Na+ na+ NN work_kkta46aprvda3kxuww62zfddua 839 16 and and CC work_kkta46aprvda3kxuww62zfddua 839 17 H+ h+ JJ work_kkta46aprvda3kxuww62zfddua 839 18 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 839 19 , , , work_kkta46aprvda3kxuww62zfddua 839 20 Proc Proc NNP work_kkta46aprvda3kxuww62zfddua 839 21 . . . work_kkta46aprvda3kxuww62zfddua 840 1 Natl Natl NNP work_kkta46aprvda3kxuww62zfddua 840 2 . . . work_kkta46aprvda3kxuww62zfddua 841 1 Acad Acad NNS work_kkta46aprvda3kxuww62zfddua 841 2 . . . work_kkta46aprvda3kxuww62zfddua 842 1 Sci Sci NNP work_kkta46aprvda3kxuww62zfddua 842 2 . . . work_kkta46aprvda3kxuww62zfddua 843 1 U. U. NNP work_kkta46aprvda3kxuww62zfddua 843 2 S. S. NNP work_kkta46aprvda3kxuww62zfddua 843 3 A. a. NN work_kkta46aprvda3kxuww62zfddua 844 1 109 109 CD work_kkta46aprvda3kxuww62zfddua 844 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 844 3 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 844 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 844 5 947–952 947–952 CD work_kkta46aprvda3kxuww62zfddua 844 6 . . . work_kkta46aprvda3kxuww62zfddua 845 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 845 2 101 101 CD work_kkta46aprvda3kxuww62zfddua 845 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 845 4 S. S. NNP work_kkta46aprvda3kxuww62zfddua 845 5 Schulz Schulz NNP work_kkta46aprvda3kxuww62zfddua 845 6 , , , work_kkta46aprvda3kxuww62zfddua 845 7 M. M. NNP work_kkta46aprvda3kxuww62zfddua 845 8 Iglesias Iglesias NNP work_kkta46aprvda3kxuww62zfddua 845 9 - - HYPH work_kkta46aprvda3kxuww62zfddua 845 10 Cans Cans NNPS work_kkta46aprvda3kxuww62zfddua 845 11 , , , work_kkta46aprvda3kxuww62zfddua 845 12 A. A. NNP work_kkta46aprvda3kxuww62zfddua 845 13 Krah Krah NNP work_kkta46aprvda3kxuww62zfddua 845 14 , , , work_kkta46aprvda3kxuww62zfddua 845 15 O. O. NNP work_kkta46aprvda3kxuww62zfddua 845 16 Yildiz Yildiz NNP work_kkta46aprvda3kxuww62zfddua 845 17 , , , work_kkta46aprvda3kxuww62zfddua 845 18 V. V. NNP work_kkta46aprvda3kxuww62zfddua 845 19 Leone Leone NNP work_kkta46aprvda3kxuww62zfddua 845 20 , , , work_kkta46aprvda3kxuww62zfddua 845 21 D. D. NNP work_kkta46aprvda3kxuww62zfddua 845 22 Matthies Matthies NNP work_kkta46aprvda3kxuww62zfddua 845 23 , , , work_kkta46aprvda3kxuww62zfddua 845 24 G.M. G.M. NNP work_kkta46aprvda3kxuww62zfddua 846 1 Cook Cook NNP work_kkta46aprvda3kxuww62zfddua 846 2 , , , work_kkta46aprvda3kxuww62zfddua 846 3 J.D. J.D. NNP work_kkta46aprvda3kxuww62zfddua 847 1 Faraldo Faraldo NNP work_kkta46aprvda3kxuww62zfddua 847 2 - - HYPH work_kkta46aprvda3kxuww62zfddua 847 3 Gomez Gomez NNP work_kkta46aprvda3kxuww62zfddua 847 4 , , , work_kkta46aprvda3kxuww62zfddua 847 5 T. T. NNP work_kkta46aprvda3kxuww62zfddua 847 6 Meier Meier NNP work_kkta46aprvda3kxuww62zfddua 847 7 , , , work_kkta46aprvda3kxuww62zfddua 847 8 A a DT work_kkta46aprvda3kxuww62zfddua 847 9 new new JJ work_kkta46aprvda3kxuww62zfddua 847 10 type type NN work_kkta46aprvda3kxuww62zfddua 847 11 of of IN work_kkta46aprvda3kxuww62zfddua 847 12 Na+-driven Na+-driven NNP work_kkta46aprvda3kxuww62zfddua 847 13 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 847 14 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 847 15 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 847 16 rotor rotor NN work_kkta46aprvda3kxuww62zfddua 847 17 with with IN work_kkta46aprvda3kxuww62zfddua 847 18 a a DT work_kkta46aprvda3kxuww62zfddua 847 19 two two CD work_kkta46aprvda3kxuww62zfddua 847 20 - - HYPH work_kkta46aprvda3kxuww62zfddua 847 21 carboxylate carboxylate NN work_kkta46aprvda3kxuww62zfddua 847 22 ion ion NN work_kkta46aprvda3kxuww62zfddua 847 23 - - HYPH work_kkta46aprvda3kxuww62zfddua 847 24 coupling couple VBG work_kkta46aprvda3kxuww62zfddua 847 25 motif motif NN work_kkta46aprvda3kxuww62zfddua 847 26 , , , work_kkta46aprvda3kxuww62zfddua 847 27 PLoS PLoS NNP work_kkta46aprvda3kxuww62zfddua 847 28 Biol Biol NNP work_kkta46aprvda3kxuww62zfddua 847 29 . . . work_kkta46aprvda3kxuww62zfddua 848 1 11 11 CD work_kkta46aprvda3kxuww62zfddua 848 2 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 848 3 2013 2013 CD work_kkta46aprvda3kxuww62zfddua 848 4 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 848 5 e1001596 e1001596 RB work_kkta46aprvda3kxuww62zfddua 848 6 . . . work_kkta46aprvda3kxuww62zfddua 849 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 849 2 102 102 CD work_kkta46aprvda3kxuww62zfddua 849 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 849 4 N. N. NNP work_kkta46aprvda3kxuww62zfddua 849 5 Lane Lane NNP work_kkta46aprvda3kxuww62zfddua 849 6 , , , work_kkta46aprvda3kxuww62zfddua 849 7 W.F. W.F. NNP work_kkta46aprvda3kxuww62zfddua 850 1 Martin Martin NNP work_kkta46aprvda3kxuww62zfddua 850 2 , , , work_kkta46aprvda3kxuww62zfddua 850 3 The the DT work_kkta46aprvda3kxuww62zfddua 850 4 origin origin NN work_kkta46aprvda3kxuww62zfddua 850 5 of of IN work_kkta46aprvda3kxuww62zfddua 850 6 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 850 7 bioenergetics bioenergetic NNS work_kkta46aprvda3kxuww62zfddua 850 8 , , , work_kkta46aprvda3kxuww62zfddua 850 9 Cell Cell NNP work_kkta46aprvda3kxuww62zfddua 850 10 151 151 CD work_kkta46aprvda3kxuww62zfddua 850 11 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 850 12 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 850 13 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 850 14 1406–1416 1406–1416 CD work_kkta46aprvda3kxuww62zfddua 850 15 . . . work_kkta46aprvda3kxuww62zfddua 851 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 851 2 103 103 CD work_kkta46aprvda3kxuww62zfddua 851 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 851 4 A.Y. A.Y. NNP work_kkta46aprvda3kxuww62zfddua 852 1 Mulkidjanian Mulkidjanian NNP work_kkta46aprvda3kxuww62zfddua 852 2 , , , work_kkta46aprvda3kxuww62zfddua 852 3 P. P. NNP work_kkta46aprvda3kxuww62zfddua 852 4 Dibrov Dibrov NNP work_kkta46aprvda3kxuww62zfddua 852 5 , , , work_kkta46aprvda3kxuww62zfddua 852 6 M.Y. M.Y. NNP work_kkta46aprvda3kxuww62zfddua 853 1 Galperin Galperin NNP work_kkta46aprvda3kxuww62zfddua 853 2 , , , work_kkta46aprvda3kxuww62zfddua 853 3 The the DT work_kkta46aprvda3kxuww62zfddua 853 4 past past NN work_kkta46aprvda3kxuww62zfddua 853 5 and and CC work_kkta46aprvda3kxuww62zfddua 853 6 present present NN work_kkta46aprvda3kxuww62zfddua 853 7 of of IN work_kkta46aprvda3kxuww62zfddua 853 8 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 853 9 energetics energetic NNS work_kkta46aprvda3kxuww62zfddua 853 10 : : : work_kkta46aprvda3kxuww62zfddua 853 11 may may MD work_kkta46aprvda3kxuww62zfddua 853 12 the the DT work_kkta46aprvda3kxuww62zfddua 853 13 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 853 14 - - HYPH work_kkta46aprvda3kxuww62zfddua 853 15 motive motive NN work_kkta46aprvda3kxuww62zfddua 853 16 force force NN work_kkta46aprvda3kxuww62zfddua 853 17 be be VBP work_kkta46aprvda3kxuww62zfddua 853 18 with with IN work_kkta46aprvda3kxuww62zfddua 853 19 you -PRON- PRP work_kkta46aprvda3kxuww62zfddua 853 20 , , , work_kkta46aprvda3kxuww62zfddua 853 21 Biochim Biochim NNP work_kkta46aprvda3kxuww62zfddua 853 22 . . . work_kkta46aprvda3kxuww62zfddua 854 1 Biophys Biophys NNP work_kkta46aprvda3kxuww62zfddua 854 2 . . . work_kkta46aprvda3kxuww62zfddua 855 1 Acta Acta NNP work_kkta46aprvda3kxuww62zfddua 855 2 1777 1777 CD work_kkta46aprvda3kxuww62zfddua 855 3 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 855 4 2008 2008 CD work_kkta46aprvda3kxuww62zfddua 855 5 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 855 6 985–992 985–992 CD work_kkta46aprvda3kxuww62zfddua 855 7 . . . work_kkta46aprvda3kxuww62zfddua 856 1 [ [ -LRB- work_kkta46aprvda3kxuww62zfddua 856 2 104 104 CD work_kkta46aprvda3kxuww62zfddua 856 3 ] ] -RRB- work_kkta46aprvda3kxuww62zfddua 856 4 A. A. NNP work_kkta46aprvda3kxuww62zfddua 856 5 Poehlein Poehlein NNP work_kkta46aprvda3kxuww62zfddua 856 6 , , , work_kkta46aprvda3kxuww62zfddua 856 7 S. S. NNP work_kkta46aprvda3kxuww62zfddua 856 8 Schmidt Schmidt NNP work_kkta46aprvda3kxuww62zfddua 856 9 , , , work_kkta46aprvda3kxuww62zfddua 856 10 A.-K. a.-k. DT work_kkta46aprvda3kxuww62zfddua 856 11 Kaster Kaster NNP work_kkta46aprvda3kxuww62zfddua 856 12 , , , work_kkta46aprvda3kxuww62zfddua 856 13 M. M. NNP work_kkta46aprvda3kxuww62zfddua 856 14 Goenrich Goenrich NNP work_kkta46aprvda3kxuww62zfddua 856 15 , , , work_kkta46aprvda3kxuww62zfddua 856 16 J. J. NNP work_kkta46aprvda3kxuww62zfddua 856 17 Vollmers Vollmers NNP work_kkta46aprvda3kxuww62zfddua 856 18 , , , work_kkta46aprvda3kxuww62zfddua 856 19 A. A. NNP work_kkta46aprvda3kxuww62zfddua 856 20 Thürmer Thürmer NNP work_kkta46aprvda3kxuww62zfddua 856 21 , , , work_kkta46aprvda3kxuww62zfddua 856 22 J. J. NNP work_kkta46aprvda3kxuww62zfddua 856 23 Bertsch Bertsch NNP work_kkta46aprvda3kxuww62zfddua 856 24 , , , work_kkta46aprvda3kxuww62zfddua 856 25 K. K. NNP work_kkta46aprvda3kxuww62zfddua 856 26 Schuchmann Schuchmann NNP work_kkta46aprvda3kxuww62zfddua 856 27 , , , work_kkta46aprvda3kxuww62zfddua 856 28 B. B. NNP work_kkta46aprvda3kxuww62zfddua 856 29 Voigt Voigt NNP work_kkta46aprvda3kxuww62zfddua 856 30 , , , work_kkta46aprvda3kxuww62zfddua 856 31 M. M. NNP work_kkta46aprvda3kxuww62zfddua 856 32 Hecker Hecker NNP work_kkta46aprvda3kxuww62zfddua 856 33 , , , work_kkta46aprvda3kxuww62zfddua 856 34 R. R. NNP work_kkta46aprvda3kxuww62zfddua 856 35 Daniel Daniel NNP work_kkta46aprvda3kxuww62zfddua 856 36 , , , work_kkta46aprvda3kxuww62zfddua 856 37 R.K. R.K. NNP work_kkta46aprvda3kxuww62zfddua 856 38 Thauer Thauer NNP work_kkta46aprvda3kxuww62zfddua 856 39 , , , work_kkta46aprvda3kxuww62zfddua 856 40 G. G. NNP work_kkta46aprvda3kxuww62zfddua 856 41 Gottschalk Gottschalk NNP work_kkta46aprvda3kxuww62zfddua 856 42 , , , work_kkta46aprvda3kxuww62zfddua 856 43 V. V. NNP work_kkta46aprvda3kxuww62zfddua 856 44 Müller Müller NNP work_kkta46aprvda3kxuww62zfddua 856 45 , , , work_kkta46aprvda3kxuww62zfddua 856 46 An an DT work_kkta46aprvda3kxuww62zfddua 856 47 ancient ancient JJ work_kkta46aprvda3kxuww62zfddua 856 48 pathway pathway NN work_kkta46aprvda3kxuww62zfddua 856 49 combining combine VBG work_kkta46aprvda3kxuww62zfddua 856 50 carbon carbon NN work_kkta46aprvda3kxuww62zfddua 856 51 dioxide dioxide NN work_kkta46aprvda3kxuww62zfddua 856 52 fixation fixation NN work_kkta46aprvda3kxuww62zfddua 856 53 with with IN work_kkta46aprvda3kxuww62zfddua 856 54 the the DT work_kkta46aprvda3kxuww62zfddua 856 55 generation generation NN work_kkta46aprvda3kxuww62zfddua 856 56 and and CC work_kkta46aprvda3kxuww62zfddua 856 57 utilization utilization NN work_kkta46aprvda3kxuww62zfddua 856 58 of of IN work_kkta46aprvda3kxuww62zfddua 856 59 a a DT work_kkta46aprvda3kxuww62zfddua 856 60 sodium sodium NN work_kkta46aprvda3kxuww62zfddua 856 61 ion ion NN work_kkta46aprvda3kxuww62zfddua 856 62 gradient gradient NN work_kkta46aprvda3kxuww62zfddua 856 63 for for IN work_kkta46aprvda3kxuww62zfddua 856 64 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 856 65 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 856 66 , , , work_kkta46aprvda3kxuww62zfddua 856 67 PLoS PLoS NNP work_kkta46aprvda3kxuww62zfddua 856 68 One one CD work_kkta46aprvda3kxuww62zfddua 856 69 7 7 CD work_kkta46aprvda3kxuww62zfddua 856 70 ( ( -LRB- work_kkta46aprvda3kxuww62zfddua 856 71 2012 2012 CD work_kkta46aprvda3kxuww62zfddua 856 72 ) ) -RRB- work_kkta46aprvda3kxuww62zfddua 856 73 e33439 e33439 RB work_kkta46aprvda3kxuww62zfddua 856 74 . . . work_kkta46aprvda3kxuww62zfddua 857 1 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 NNP work_kkta46aprvda3kxuww62zfddua 857 2 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265 NNP work_kkta46aprvda3kxuww62zfddua 857 3 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 NNP work_kkta46aprvda3kxuww62zfddua 857 4 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 NNP work_kkta46aprvda3kxuww62zfddua 857 5 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 NNP work_kkta46aprvda3kxuww62zfddua 857 6 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 NNP work_kkta46aprvda3kxuww62zfddua 857 7 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270 NNP work_kkta46aprvda3kxuww62zfddua 857 8 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 NNP work_kkta46aprvda3kxuww62zfddua 857 9 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 NNP work_kkta46aprvda3kxuww62zfddua 857 10 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 NNP work_kkta46aprvda3kxuww62zfddua 857 11 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 NNP work_kkta46aprvda3kxuww62zfddua 857 12 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275 NNP work_kkta46aprvda3kxuww62zfddua 857 13 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 NNP work_kkta46aprvda3kxuww62zfddua 857 14 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 NNP work_kkta46aprvda3kxuww62zfddua 857 15 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 NNP work_kkta46aprvda3kxuww62zfddua 857 16 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280 NNP work_kkta46aprvda3kxuww62zfddua 857 17 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 NNP work_kkta46aprvda3kxuww62zfddua 857 18 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 NNP work_kkta46aprvda3kxuww62zfddua 857 19 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 NNP work_kkta46aprvda3kxuww62zfddua 857 20 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285 NNP work_kkta46aprvda3kxuww62zfddua 857 21 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 NNP work_kkta46aprvda3kxuww62zfddua 857 22 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 NNP work_kkta46aprvda3kxuww62zfddua 857 23 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 NNP work_kkta46aprvda3kxuww62zfddua 857 24 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290 NNP work_kkta46aprvda3kxuww62zfddua 857 25 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 NNP work_kkta46aprvda3kxuww62zfddua 857 26 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 NNP work_kkta46aprvda3kxuww62zfddua 857 27 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 NNP work_kkta46aprvda3kxuww62zfddua 857 28 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 NNP work_kkta46aprvda3kxuww62zfddua 857 29 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 NNP work_kkta46aprvda3kxuww62zfddua 857 30 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295 NNP work_kkta46aprvda3kxuww62zfddua 857 31 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300 NNP work_kkta46aprvda3kxuww62zfddua 857 32 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300 NNP work_kkta46aprvda3kxuww62zfddua 857 33 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300 NNP work_kkta46aprvda3kxuww62zfddua 857 34 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305 NNP work_kkta46aprvda3kxuww62zfddua 857 35 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305 NNP work_kkta46aprvda3kxuww62zfddua 857 36 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 NNP work_kkta46aprvda3kxuww62zfddua 857 37 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 NNP work_kkta46aprvda3kxuww62zfddua 857 38 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 NNP work_kkta46aprvda3kxuww62zfddua 857 39 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0310 NN work_kkta46aprvda3kxuww62zfddua 857 40 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0315 NN work_kkta46aprvda3kxuww62zfddua 857 41 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 NNP work_kkta46aprvda3kxuww62zfddua 857 42 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 NNP work_kkta46aprvda3kxuww62zfddua 857 43 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315 NNP work_kkta46aprvda3kxuww62zfddua 857 44 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 VBZ work_kkta46aprvda3kxuww62zfddua 857 45 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 NNP work_kkta46aprvda3kxuww62zfddua 857 46 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 NNP work_kkta46aprvda3kxuww62zfddua 857 47 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320 NNP work_kkta46aprvda3kxuww62zfddua 857 48 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 NNP work_kkta46aprvda3kxuww62zfddua 857 49 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 NNP work_kkta46aprvda3kxuww62zfddua 857 50 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 NNP work_kkta46aprvda3kxuww62zfddua 857 51 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 NNP work_kkta46aprvda3kxuww62zfddua 857 52 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325 NNP work_kkta46aprvda3kxuww62zfddua 857 53 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 NNP work_kkta46aprvda3kxuww62zfddua 857 54 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 NNP work_kkta46aprvda3kxuww62zfddua 857 55 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 NNP work_kkta46aprvda3kxuww62zfddua 857 56 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 NNP work_kkta46aprvda3kxuww62zfddua 857 57 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330 NNP work_kkta46aprvda3kxuww62zfddua 857 58 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335 NNP work_kkta46aprvda3kxuww62zfddua 857 59 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335 NNP work_kkta46aprvda3kxuww62zfddua 857 60 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335 NNP work_kkta46aprvda3kxuww62zfddua 857 61 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 NNP work_kkta46aprvda3kxuww62zfddua 857 62 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 NNP work_kkta46aprvda3kxuww62zfddua 857 63 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 NNP work_kkta46aprvda3kxuww62zfddua 857 64 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 NNP work_kkta46aprvda3kxuww62zfddua 857 65 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 NNP work_kkta46aprvda3kxuww62zfddua 857 66 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340 NNP work_kkta46aprvda3kxuww62zfddua 857 67 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345 NNP work_kkta46aprvda3kxuww62zfddua 857 68 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345 NNP work_kkta46aprvda3kxuww62zfddua 857 69 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345 NNP work_kkta46aprvda3kxuww62zfddua 857 70 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 NNP work_kkta46aprvda3kxuww62zfddua 857 71 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 NNP work_kkta46aprvda3kxuww62zfddua 857 72 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 NNP work_kkta46aprvda3kxuww62zfddua 857 73 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 NNP work_kkta46aprvda3kxuww62zfddua 857 74 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350 NNP work_kkta46aprvda3kxuww62zfddua 857 75 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 NNP work_kkta46aprvda3kxuww62zfddua 857 76 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 NNP work_kkta46aprvda3kxuww62zfddua 857 77 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 NNP work_kkta46aprvda3kxuww62zfddua 857 78 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 NNP work_kkta46aprvda3kxuww62zfddua 857 79 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355 NNP work_kkta46aprvda3kxuww62zfddua 857 80 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 NNP work_kkta46aprvda3kxuww62zfddua 857 81 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 NNP work_kkta46aprvda3kxuww62zfddua 857 82 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 NNP work_kkta46aprvda3kxuww62zfddua 857 83 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360 NNP work_kkta46aprvda3kxuww62zfddua 857 84 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365 NNP work_kkta46aprvda3kxuww62zfddua 857 85 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365 NNP work_kkta46aprvda3kxuww62zfddua 857 86 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365 NNP work_kkta46aprvda3kxuww62zfddua 857 87 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 NNP work_kkta46aprvda3kxuww62zfddua 857 88 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 NNP work_kkta46aprvda3kxuww62zfddua 857 89 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 NNP work_kkta46aprvda3kxuww62zfddua 857 90 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 NNP work_kkta46aprvda3kxuww62zfddua 857 91 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370 NNP work_kkta46aprvda3kxuww62zfddua 857 92 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 93 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 94 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 95 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 96 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 97 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 98 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375 NNP work_kkta46aprvda3kxuww62zfddua 857 99 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380 NNP work_kkta46aprvda3kxuww62zfddua 857 100 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380 NNP work_kkta46aprvda3kxuww62zfddua 857 101 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 NNP work_kkta46aprvda3kxuww62zfddua 857 102 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 NNP work_kkta46aprvda3kxuww62zfddua 857 103 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 NNP work_kkta46aprvda3kxuww62zfddua 857 104 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385 NNP work_kkta46aprvda3kxuww62zfddua 857 105 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 106 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 107 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 108 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 109 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 110 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 111 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390 NNP work_kkta46aprvda3kxuww62zfddua 857 112 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395 NNP work_kkta46aprvda3kxuww62zfddua 857 113 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395 NNP work_kkta46aprvda3kxuww62zfddua 857 114 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395 NNP work_kkta46aprvda3kxuww62zfddua 857 115 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400 NNP work_kkta46aprvda3kxuww62zfddua 857 116 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400 NNP work_kkta46aprvda3kxuww62zfddua 857 117 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405 NNP work_kkta46aprvda3kxuww62zfddua 857 118 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405 NNP work_kkta46aprvda3kxuww62zfddua 857 119 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405 NNP work_kkta46aprvda3kxuww62zfddua 857 120 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 NNP work_kkta46aprvda3kxuww62zfddua 857 121 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 NNP work_kkta46aprvda3kxuww62zfddua 857 122 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 NNP work_kkta46aprvda3kxuww62zfddua 857 123 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 NNP work_kkta46aprvda3kxuww62zfddua 857 124 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410 NNP work_kkta46aprvda3kxuww62zfddua 857 125 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 NNP work_kkta46aprvda3kxuww62zfddua 857 126 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 NNP work_kkta46aprvda3kxuww62zfddua 857 127 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 NNP work_kkta46aprvda3kxuww62zfddua 857 128 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415 NNP work_kkta46aprvda3kxuww62zfddua 857 129 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420 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work_kkta46aprvda3kxuww62zfddua 857 136 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 NNP work_kkta46aprvda3kxuww62zfddua 857 137 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 NNP work_kkta46aprvda3kxuww62zfddua 857 138 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 NNP work_kkta46aprvda3kxuww62zfddua 857 139 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430 NNP work_kkta46aprvda3kxuww62zfddua 857 140 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 141 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 142 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 143 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 144 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 145 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 146 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 147 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 148 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435 NNP work_kkta46aprvda3kxuww62zfddua 857 149 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 NNP work_kkta46aprvda3kxuww62zfddua 857 150 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 NNP work_kkta46aprvda3kxuww62zfddua 857 151 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 NNP work_kkta46aprvda3kxuww62zfddua 857 152 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440 NNP work_kkta46aprvda3kxuww62zfddua 857 153 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 NNP work_kkta46aprvda3kxuww62zfddua 857 154 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 NNP work_kkta46aprvda3kxuww62zfddua 857 155 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 NNP work_kkta46aprvda3kxuww62zfddua 857 156 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 NNP work_kkta46aprvda3kxuww62zfddua 857 157 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 NNP work_kkta46aprvda3kxuww62zfddua 857 158 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445 NNP work_kkta46aprvda3kxuww62zfddua 857 159 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 NNP work_kkta46aprvda3kxuww62zfddua 857 160 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 NNP work_kkta46aprvda3kxuww62zfddua 857 161 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 NNP work_kkta46aprvda3kxuww62zfddua 857 162 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 NNP work_kkta46aprvda3kxuww62zfddua 857 163 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450 NNP work_kkta46aprvda3kxuww62zfddua 857 164 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 NNP work_kkta46aprvda3kxuww62zfddua 857 165 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 NNP work_kkta46aprvda3kxuww62zfddua 857 166 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 NNP work_kkta46aprvda3kxuww62zfddua 857 167 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455 NNP work_kkta46aprvda3kxuww62zfddua 857 168 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460 NNP work_kkta46aprvda3kxuww62zfddua 857 169 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460 NNP work_kkta46aprvda3kxuww62zfddua 857 170 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460 NNP work_kkta46aprvda3kxuww62zfddua 857 171 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465 NNP work_kkta46aprvda3kxuww62zfddua 857 172 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465 NNP work_kkta46aprvda3kxuww62zfddua 857 173 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465 NNP work_kkta46aprvda3kxuww62zfddua 857 174 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470 NNP work_kkta46aprvda3kxuww62zfddua 857 175 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470 NNP work_kkta46aprvda3kxuww62zfddua 857 176 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470 NNP work_kkta46aprvda3kxuww62zfddua 857 177 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 178 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 179 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 180 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 181 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 182 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 183 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475 NNP work_kkta46aprvda3kxuww62zfddua 857 184 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480 NNP work_kkta46aprvda3kxuww62zfddua 857 185 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480 NNP work_kkta46aprvda3kxuww62zfddua 857 186 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480 NNP work_kkta46aprvda3kxuww62zfddua 857 187 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 NNP work_kkta46aprvda3kxuww62zfddua 857 188 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 NNP work_kkta46aprvda3kxuww62zfddua 857 189 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 NNP work_kkta46aprvda3kxuww62zfddua 857 190 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485 NNP work_kkta46aprvda3kxuww62zfddua 857 191 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490 NNP work_kkta46aprvda3kxuww62zfddua 857 192 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490 NNP work_kkta46aprvda3kxuww62zfddua 857 193 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490 NNP work_kkta46aprvda3kxuww62zfddua 857 194 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 NNP work_kkta46aprvda3kxuww62zfddua 857 195 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 NNP work_kkta46aprvda3kxuww62zfddua 857 196 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 NNP work_kkta46aprvda3kxuww62zfddua 857 197 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 NNP work_kkta46aprvda3kxuww62zfddua 857 198 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 NNP work_kkta46aprvda3kxuww62zfddua 857 199 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495 NNP work_kkta46aprvda3kxuww62zfddua 857 200 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 NNP work_kkta46aprvda3kxuww62zfddua 857 201 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 NNP work_kkta46aprvda3kxuww62zfddua 857 202 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 NNP work_kkta46aprvda3kxuww62zfddua 857 203 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 NNP work_kkta46aprvda3kxuww62zfddua 857 204 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500 NNP work_kkta46aprvda3kxuww62zfddua 857 205 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 NNP work_kkta46aprvda3kxuww62zfddua 857 206 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 NNP work_kkta46aprvda3kxuww62zfddua 857 207 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 NNP work_kkta46aprvda3kxuww62zfddua 857 208 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505 NNP work_kkta46aprvda3kxuww62zfddua 857 209 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510 NNP work_kkta46aprvda3kxuww62zfddua 857 210 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510 NNP work_kkta46aprvda3kxuww62zfddua 857 211 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515 NNP work_kkta46aprvda3kxuww62zfddua 857 212 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515 NNP work_kkta46aprvda3kxuww62zfddua 857 213 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515 NNP work_kkta46aprvda3kxuww62zfddua 857 214 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 NNPS work_kkta46aprvda3kxuww62zfddua 857 215 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 NNPS work_kkta46aprvda3kxuww62zfddua 857 216 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 NNPS work_kkta46aprvda3kxuww62zfddua 857 217 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 NNPS work_kkta46aprvda3kxuww62zfddua 857 218 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520 NNPS work_kkta46aprvda3kxuww62zfddua 857 219 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 857 220 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 857 221 from from IN work_kkta46aprvda3kxuww62zfddua 857 222 archaea archaea NN work_kkta46aprvda3kxuww62zfddua 857 223 : : : work_kkta46aprvda3kxuww62zfddua 857 224 The the DT work_kkta46aprvda3kxuww62zfddua 857 225 beauty beauty NN work_kkta46aprvda3kxuww62zfddua 857 226 of of IN work_kkta46aprvda3kxuww62zfddua 857 227 a a DT work_kkta46aprvda3kxuww62zfddua 857 228 molecular molecular JJ work_kkta46aprvda3kxuww62zfddua 857 229 motor motor NN work_kkta46aprvda3kxuww62zfddua 857 230 1 1 CD work_kkta46aprvda3kxuww62zfddua 857 231 . . . work_kkta46aprvda3kxuww62zfddua 858 1 Introduction introduction NN work_kkta46aprvda3kxuww62zfddua 858 2 2 2 CD work_kkta46aprvda3kxuww62zfddua 858 3 . . . work_kkta46aprvda3kxuww62zfddua 859 1 Energy energy NN work_kkta46aprvda3kxuww62zfddua 859 2 conservation conservation NN work_kkta46aprvda3kxuww62zfddua 859 3 in in IN work_kkta46aprvda3kxuww62zfddua 859 4 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 859 5 3 3 CD work_kkta46aprvda3kxuww62zfddua 859 6 . . . work_kkta46aprvda3kxuww62zfddua 860 1 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 860 2 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 860 3 from from IN work_kkta46aprvda3kxuww62zfddua 860 4 archaea archaea NNP work_kkta46aprvda3kxuww62zfddua 860 5 4 4 CD work_kkta46aprvda3kxuww62zfddua 860 6 . . . work_kkta46aprvda3kxuww62zfddua 861 1 Structure structure NN work_kkta46aprvda3kxuww62zfddua 861 2 and and CC work_kkta46aprvda3kxuww62zfddua 861 3 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 861 4 mechanism mechanism NN work_kkta46aprvda3kxuww62zfddua 861 5 of of IN work_kkta46aprvda3kxuww62zfddua 861 6 the the DT work_kkta46aprvda3kxuww62zfddua 861 7 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 861 8 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 861 9 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 861 10 4.1 4.1 CD work_kkta46aprvda3kxuww62zfddua 861 11 . . . work_kkta46aprvda3kxuww62zfddua 862 1 The the DT work_kkta46aprvda3kxuww62zfddua 862 2 overall overall JJ work_kkta46aprvda3kxuww62zfddua 862 3 arrangement arrangement NN work_kkta46aprvda3kxuww62zfddua 862 4 of of IN work_kkta46aprvda3kxuww62zfddua 862 5 the the DT work_kkta46aprvda3kxuww62zfddua 862 6 A1AO A1AO NNP work_kkta46aprvda3kxuww62zfddua 862 7 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 862 8 synthase synthase NN work_kkta46aprvda3kxuww62zfddua 862 9 4.2 4.2 CD work_kkta46aprvda3kxuww62zfddua 862 10 . . . work_kkta46aprvda3kxuww62zfddua 863 1 High high JJ work_kkta46aprvda3kxuww62zfddua 863 2 resolution resolution NN work_kkta46aprvda3kxuww62zfddua 863 3 structures structure NNS work_kkta46aprvda3kxuww62zfddua 863 4 of of IN work_kkta46aprvda3kxuww62zfddua 863 5 the the DT work_kkta46aprvda3kxuww62zfddua 863 6 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 863 7 binding bind VBG work_kkta46aprvda3kxuww62zfddua 863 8 subunits subunit NNS work_kkta46aprvda3kxuww62zfddua 863 9 A a NN work_kkta46aprvda3kxuww62zfddua 863 10 and and CC work_kkta46aprvda3kxuww62zfddua 863 11 B B NNP work_kkta46aprvda3kxuww62zfddua 863 12 4.3 4.3 CD work_kkta46aprvda3kxuww62zfddua 863 13 . . . work_kkta46aprvda3kxuww62zfddua 864 1 Critical critical JJ work_kkta46aprvda3kxuww62zfddua 864 2 residues residue NNS work_kkta46aprvda3kxuww62zfddua 864 3 in in IN work_kkta46aprvda3kxuww62zfddua 864 4 the the DT work_kkta46aprvda3kxuww62zfddua 864 5 P P NNP work_kkta46aprvda3kxuww62zfddua 864 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 864 7 loop loop NN work_kkta46aprvda3kxuww62zfddua 864 8 of of IN work_kkta46aprvda3kxuww62zfddua 864 9 the the DT work_kkta46aprvda3kxuww62zfddua 864 10 catalytic catalytic JJ work_kkta46aprvda3kxuww62zfddua 864 11 A a DT work_kkta46aprvda3kxuww62zfddua 864 12 subunit subunit NN work_kkta46aprvda3kxuww62zfddua 864 13 4.4 4.4 CD work_kkta46aprvda3kxuww62zfddua 864 14 . . . work_kkta46aprvda3kxuww62zfddua 865 1 How how WRB work_kkta46aprvda3kxuww62zfddua 865 2 the the DT work_kkta46aprvda3kxuww62zfddua 865 3 nucleotide nucleotide JJ work_kkta46aprvda3kxuww62zfddua 865 4 enters enter VBZ work_kkta46aprvda3kxuww62zfddua 865 5 into into IN work_kkta46aprvda3kxuww62zfddua 865 6 the the DT work_kkta46aprvda3kxuww62zfddua 865 7 binding bind VBG work_kkta46aprvda3kxuww62zfddua 865 8 pocket pocket NN work_kkta46aprvda3kxuww62zfddua 865 9 4.5 4.5 CD work_kkta46aprvda3kxuww62zfddua 865 10 . . . work_kkta46aprvda3kxuww62zfddua 866 1 The the DT work_kkta46aprvda3kxuww62zfddua 866 2 central central JJ work_kkta46aprvda3kxuww62zfddua 866 3 stalk stalk NN work_kkta46aprvda3kxuww62zfddua 866 4 couples couple NNS work_kkta46aprvda3kxuww62zfddua 866 5 ion ion NN work_kkta46aprvda3kxuww62zfddua 866 6 - - HYPH work_kkta46aprvda3kxuww62zfddua 866 7 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 866 8 and and CC work_kkta46aprvda3kxuww62zfddua 866 9 ATP atp NN work_kkta46aprvda3kxuww62zfddua 866 10 synthesis synthesis NN work_kkta46aprvda3kxuww62zfddua 866 11 4.6 4.6 CD work_kkta46aprvda3kxuww62zfddua 866 12 . . . work_kkta46aprvda3kxuww62zfddua 867 1 The the DT work_kkta46aprvda3kxuww62zfddua 867 2 peripheral peripheral JJ work_kkta46aprvda3kxuww62zfddua 867 3 stalks stalk NNS work_kkta46aprvda3kxuww62zfddua 867 4 and and CC work_kkta46aprvda3kxuww62zfddua 867 5 its -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 867 6 elastic elastic JJ work_kkta46aprvda3kxuww62zfddua 867 7 features feature NNS work_kkta46aprvda3kxuww62zfddua 867 8 4.7 4.7 CD work_kkta46aprvda3kxuww62zfddua 867 9 . . . work_kkta46aprvda3kxuww62zfddua 868 1 Architecture architecture NN work_kkta46aprvda3kxuww62zfddua 868 2 of of IN work_kkta46aprvda3kxuww62zfddua 868 3 the the DT work_kkta46aprvda3kxuww62zfddua 868 4 membrane membrane NN work_kkta46aprvda3kxuww62zfddua 868 5 - - HYPH work_kkta46aprvda3kxuww62zfddua 868 6 embedded embed VBN work_kkta46aprvda3kxuww62zfddua 868 7 AO AO NNP work_kkta46aprvda3kxuww62zfddua 868 8 domain domain NN work_kkta46aprvda3kxuww62zfddua 868 9 5 5 CD work_kkta46aprvda3kxuww62zfddua 868 10 . . . work_kkta46aprvda3kxuww62zfddua 869 1 Ion ion VB work_kkta46aprvda3kxuww62zfddua 869 2 translocation translocation NN work_kkta46aprvda3kxuww62zfddua 869 3 and and CC work_kkta46aprvda3kxuww62zfddua 869 4 -specificity -specificity NN work_kkta46aprvda3kxuww62zfddua 869 5 of of IN work_kkta46aprvda3kxuww62zfddua 869 6 the the DT work_kkta46aprvda3kxuww62zfddua 869 7 c c NNP work_kkta46aprvda3kxuww62zfddua 869 8 ring ring NN work_kkta46aprvda3kxuww62zfddua 869 9 of of IN work_kkta46aprvda3kxuww62zfddua 869 10 A1AO a1ao JJ work_kkta46aprvda3kxuww62zfddua 869 11 ATP ATP NNP work_kkta46aprvda3kxuww62zfddua 869 12 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 869 13 6 6 CD work_kkta46aprvda3kxuww62zfddua 869 14 . . . work_kkta46aprvda3kxuww62zfddua 870 1 Adaptations adaptation NNS work_kkta46aprvda3kxuww62zfddua 870 2 of of IN work_kkta46aprvda3kxuww62zfddua 870 3 archaeal archaeal JJ work_kkta46aprvda3kxuww62zfddua 870 4 ATP atp NN work_kkta46aprvda3kxuww62zfddua 870 5 synthases synthase NNS work_kkta46aprvda3kxuww62zfddua 870 6 to to IN work_kkta46aprvda3kxuww62zfddua 870 7 the the DT work_kkta46aprvda3kxuww62zfddua 870 8 inhospitable inhospitable JJ work_kkta46aprvda3kxuww62zfddua 870 9 environments environment NNS work_kkta46aprvda3kxuww62zfddua 870 10 their -PRON- PRP$ work_kkta46aprvda3kxuww62zfddua 870 11 hosts host NNS work_kkta46aprvda3kxuww62zfddua 870 12 thrive thrive VBP work_kkta46aprvda3kxuww62zfddua 870 13 in in IN work_kkta46aprvda3kxuww62zfddua 870 14 7 7 CD work_kkta46aprvda3kxuww62zfddua 870 15 . . . work_kkta46aprvda3kxuww62zfddua 871 1 Conclusion Conclusion NNP work_kkta46aprvda3kxuww62zfddua 871 2 Acknowledgments Acknowledgments NNP work_kkta46aprvda3kxuww62zfddua 871 3 References References NNPS