id sid tid token lemma pos work_gfjn7ngtojauhn7kaf6bbbsq74 1 1 4532 4532 CD work_gfjn7ngtojauhn7kaf6bbbsq74 1 2 | | NNP work_gfjn7ngtojauhn7kaf6bbbsq74 1 3 E. E. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 1 4 Richardson Richardson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 1 5 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 1 6 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 1 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 2 1 Molecular Molecular NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 2 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 2 5 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 6 Evolutionary Evolutionary NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 7 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 8 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 9 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 2 10 functional functional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 11 insight insight NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 12 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 13 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 2 14 endless endless JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 15 forms form NNS work_gfjn7ngtojauhn7kaf6bbbsq74 2 16 most most RBS work_gfjn7ngtojauhn7kaf6bbbsq74 2 17 beautiful beautiful JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 18 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 2 19 Elisabeth Elisabeth NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 20 Richardsona Richardsona NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 22 Kelly Kelly NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 23 Zerra Zerra NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 25 Anastasios Anastasios NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 26 Tsaousisb Tsaousisb NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 28 Richard Richard NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 29 G. G. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 30 Dorrellc Dorrellc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 2 33 Joel Joel NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 34 B. B. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 35 Dacksa Dacksa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 36 aDepartment aDepartment NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 37 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 38 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 39 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 40 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 41 University University NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 42 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 43 Alberta Alberta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 44 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 45 Edmonton Edmonton NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 46 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 47 AB AB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 48 T6 T6 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 49 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 50 2H7 2h7 CD work_gfjn7ngtojauhn7kaf6bbbsq74 2 51 Canada Canada NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 52 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 2 53 bLaboratory bLaboratory NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 54 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 55 Molecular Molecular NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 56 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 2 57 Evolutionary Evolutionary NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 58 Parasitology Parasitology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 59 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 60 School School NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 61 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 62 Biosciences Biosciences NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 63 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 64 University University NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 65 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 66 Kent Kent NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 67 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 68 Canterbury Canterbury NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 69 CT2 CT2 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 70 7NJ 7NJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 71 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 72 UK UK NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 73 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 2 74 cSchool cSchool NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 75 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 76 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 77 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 78 École École NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 79 Normale Normale NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 80 Supérieure Supérieure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 81 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 82 Paris Paris NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 83 75005 75005 CD work_gfjn7ngtojauhn7kaf6bbbsq74 2 84 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 85 France France NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 86 ABSTRACT ABSTRACT NNP work_gfjn7ngtojauhn7kaf6bbbsq74 2 87 In in IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 88 animal animal NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 89 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 2 90 fungal fungal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 91 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 92 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 2 93 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 2 94 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 2 95 complexities complexity NNS work_gfjn7ngtojauhn7kaf6bbbsq74 2 96 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 97 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 98 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 99 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 2 100 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 2 101 analyzed analyze VBN work_gfjn7ngtojauhn7kaf6bbbsq74 2 102 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 103 exquisite exquisite JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 104 detail detail NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 105 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 2 106 much much JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 107 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 2 108 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 2 109 about about IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 110 how how WRB work_gfjn7ngtojauhn7kaf6bbbsq74 2 111 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 2 112 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 2 113 function function VBP work_gfjn7ngtojauhn7kaf6bbbsq74 2 114 at at IN work_gfjn7ngtojauhn7kaf6bbbsq74 2 115 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 2 116 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 2 117 level level NN work_gfjn7ngtojauhn7kaf6bbbsq74 2 118 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 3 1 However however RB work_gfjn7ngtojauhn7kaf6bbbsq74 3 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 3 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 3 4 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 3 5 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 3 6 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 3 7 biologists biologist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 3 8 generally generally RB work_gfjn7ngtojauhn7kaf6bbbsq74 3 9 use use VBP work_gfjn7ngtojauhn7kaf6bbbsq74 3 10 include include VBP work_gfjn7ngtojauhn7kaf6bbbsq74 3 11 only only RB work_gfjn7ngtojauhn7kaf6bbbsq74 3 12 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 3 13 tiny tiny JJ work_gfjn7ngtojauhn7kaf6bbbsq74 3 14 fraction fraction NN work_gfjn7ngtojauhn7kaf6bbbsq74 3 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 3 16 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 3 17 true true JJ work_gfjn7ngtojauhn7kaf6bbbsq74 3 18 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 3 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 3 20 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 3 21 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 3 22 forms form NNS work_gfjn7ngtojauhn7kaf6bbbsq74 3 23 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 4 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 4 2 divergent divergent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 4 3 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 4 4 processes process NNS work_gfjn7ngtojauhn7kaf6bbbsq74 4 5 observed observe VBN work_gfjn7ngtojauhn7kaf6bbbsq74 4 6 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 4 7 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 4 8 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 4 9 distant distant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 4 10 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 4 11 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 4 12 still still RB work_gfjn7ngtojauhn7kaf6bbbsq74 4 13 largely largely RB work_gfjn7ngtojauhn7kaf6bbbsq74 4 14 unknown unknown JJ work_gfjn7ngtojauhn7kaf6bbbsq74 4 15 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 4 16 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 4 17 general general JJ work_gfjn7ngtojauhn7kaf6bbbsq74 4 18 scientific scientific JJ work_gfjn7ngtojauhn7kaf6bbbsq74 4 19 com- com- NN work_gfjn7ngtojauhn7kaf6bbbsq74 4 20 munity munity NN work_gfjn7ngtojauhn7kaf6bbbsq74 4 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 5 1 Despite despite IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 5 3 relative relative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 5 4 obscurity obscurity NN work_gfjn7ngtojauhn7kaf6bbbsq74 5 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 6 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 5 7 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 5 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 5 9 comparative comparative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 5 10 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 5 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 12 them -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 5 13 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 14 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 5 15 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 5 16 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 5 17 had have VBN work_gfjn7ngtojauhn7kaf6bbbsq74 5 18 profound profound JJ work_gfjn7ngtojauhn7kaf6bbbsq74 5 19 implications implication NNS work_gfjn7ngtojauhn7kaf6bbbsq74 5 20 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 21 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 5 22 understanding understanding NN work_gfjn7ngtojauhn7kaf6bbbsq74 5 23 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 24 fundamental fundamental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 5 25 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 5 26 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 5 27 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 28 all all DT work_gfjn7ngtojauhn7kaf6bbbsq74 5 29 species specie NNS work_gfjn7ngtojauhn7kaf6bbbsq74 5 30 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 5 31 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 5 32 revealed reveal VBN work_gfjn7ngtojauhn7kaf6bbbsq74 5 33 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 5 34 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 5 35 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 5 36 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 5 37 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 5 38 previously previously RB work_gfjn7ngtojauhn7kaf6bbbsq74 5 39 observed observe VBN work_gfjn7ngtojauhn7kaf6bbbsq74 5 40 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 5 41 processes process NNS work_gfjn7ngtojauhn7kaf6bbbsq74 5 42 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 6 1 In in IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 2 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 6 3 Perspective perspective NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 6 5 we -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 6 6 will will MD work_gfjn7ngtojauhn7kaf6bbbsq74 6 7 discuss discuss VB work_gfjn7ngtojauhn7kaf6bbbsq74 6 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 6 9 complexity complexity NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 11 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 12 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 13 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 6 14 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 6 16 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 6 17 tree tree NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 6 19 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 6 20 three three CD work_gfjn7ngtojauhn7kaf6bbbsq74 6 21 specific specific JJ work_gfjn7ngtojauhn7kaf6bbbsq74 6 22 examples example NNS work_gfjn7ngtojauhn7kaf6bbbsq74 6 23 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 24 where where WRB work_gfjn7ngtojauhn7kaf6bbbsq74 6 25 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 6 26 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 27 divergent divergent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 6 28 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 29 biol- biol- NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 30 ogy ogy NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 31 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 6 32 altered alter VBN work_gfjn7ngtojauhn7kaf6bbbsq74 6 33 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 6 34 understanding understanding NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 35 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 36 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 6 37 functional functional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 6 38 aspects aspect NNS work_gfjn7ngtojauhn7kaf6bbbsq74 6 39 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 6 40 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 6 41 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 6 42 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 6 43 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 6 44 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 6 45 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 46 trafficking trafficking NN work_gfjn7ngtojauhn7kaf6bbbsq74 6 47 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 7 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 7 2 field field NN work_gfjn7ngtojauhn7kaf6bbbsq74 7 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 7 4 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 7 5 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 7 6 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 7 7 made make VBN work_gfjn7ngtojauhn7kaf6bbbsq74 7 8 tremendous tremendous JJ work_gfjn7ngtojauhn7kaf6bbbsq74 7 9 strides stride NNS work_gfjn7ngtojauhn7kaf6bbbsq74 7 10 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 7 11 understand- understand- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 7 12 ing ing JJ work_gfjn7ngtojauhn7kaf6bbbsq74 7 13 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 7 14 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 7 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 7 16 especially especially RB work_gfjn7ngtojauhn7kaf6bbbsq74 7 17 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 7 18 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 7 19 yeast yeast NN work_gfjn7ngtojauhn7kaf6bbbsq74 7 20 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 8 1 Concurrently concurrently RB work_gfjn7ngtojauhn7kaf6bbbsq74 8 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 8 3 evo- evo- DT work_gfjn7ngtojauhn7kaf6bbbsq74 8 4 lutionary lutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 8 5 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 8 6 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 8 7 opened open VBN work_gfjn7ngtojauhn7kaf6bbbsq74 8 8 up up RP work_gfjn7ngtojauhn7kaf6bbbsq74 8 9 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 8 10 window window NN work_gfjn7ngtojauhn7kaf6bbbsq74 8 11 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 8 12 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 8 13 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 8 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 8 15 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 8 16 spe- spe- NN work_gfjn7ngtojauhn7kaf6bbbsq74 8 17 cies cie NNS work_gfjn7ngtojauhn7kaf6bbbsq74 8 18 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 8 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 8 20 genes gene NNS work_gfjn7ngtojauhn7kaf6bbbsq74 8 21 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 8 22 define define VBP work_gfjn7ngtojauhn7kaf6bbbsq74 8 23 us -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 8 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 9 1 Though though IN work_gfjn7ngtojauhn7kaf6bbbsq74 9 2 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 9 3 fields field NNS work_gfjn7ngtojauhn7kaf6bbbsq74 9 4 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 9 5 intersected intersect VBN work_gfjn7ngtojauhn7kaf6bbbsq74 9 6 conceptually conceptually RB work_gfjn7ngtojauhn7kaf6bbbsq74 9 7 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 9 8 decades decade NNS work_gfjn7ngtojauhn7kaf6bbbsq74 9 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 9 10 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 9 11 recent recent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 9 12 movement movement NN work_gfjn7ngtojauhn7kaf6bbbsq74 9 13 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 9 14 explicitly explicitly RB work_gfjn7ngtojauhn7kaf6bbbsq74 9 15 uniting unite VBG work_gfjn7ngtojauhn7kaf6bbbsq74 9 16 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 9 17 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 9 18 fields field NNS work_gfjn7ngtojauhn7kaf6bbbsq74 9 19 into into IN work_gfjn7ngtojauhn7kaf6bbbsq74 9 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 9 21 discipline discipline NN work_gfjn7ngtojauhn7kaf6bbbsq74 9 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 9 23 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 9 24 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 9 25 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 9 26 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 9 27 great great JJ work_gfjn7ngtojauhn7kaf6bbbsq74 9 28 success success NN work_gfjn7ngtojauhn7kaf6bbbsq74 9 29 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 9 30 Brodsky Brodsky NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 31 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 9 32 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 33 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 9 35 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 9 36 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 9 37 Lynch Lynch NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 38 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 39 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 40 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 9 41 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 9 42 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 9 43 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 9 44 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 9 45 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 9 46 we -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 9 47 argue argue VBP work_gfjn7ngtojauhn7kaf6bbbsq74 9 48 here here RB work_gfjn7ngtojauhn7kaf6bbbsq74 9 49 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 9 50 potentially potentially RB work_gfjn7ngtojauhn7kaf6bbbsq74 9 51 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 9 52 even even RB work_gfjn7ngtojauhn7kaf6bbbsq74 9 53 greater great JJR work_gfjn7ngtojauhn7kaf6bbbsq74 9 54 future future NN work_gfjn7ngtojauhn7kaf6bbbsq74 9 55 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 10 1 One one CD work_gfjn7ngtojauhn7kaf6bbbsq74 10 2 drive drive NN work_gfjn7ngtojauhn7kaf6bbbsq74 10 3 behind behind IN work_gfjn7ngtojauhn7kaf6bbbsq74 10 4 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 10 5 movement movement NN work_gfjn7ngtojauhn7kaf6bbbsq74 10 6 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 10 7 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 10 8 harness harness VB work_gfjn7ngtojauhn7kaf6bbbsq74 10 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 10 10 comparative comparative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 10 11 approach approach NN work_gfjn7ngtojauhn7kaf6bbbsq74 10 12 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 10 13 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 10 14 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 10 15 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 10 16 apply apply VB work_gfjn7ngtojauhn7kaf6bbbsq74 10 17 it -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 10 18 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 10 19 questions question NNS work_gfjn7ngtojauhn7kaf6bbbsq74 10 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 10 21 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 10 22 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 10 23 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 10 24 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 10 25 func- func- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 10 26 tion tion NN work_gfjn7ngtojauhn7kaf6bbbsq74 10 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 11 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 11 2 approach approach NN work_gfjn7ngtojauhn7kaf6bbbsq74 11 3 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 11 4 yielded yield VBN work_gfjn7ngtojauhn7kaf6bbbsq74 11 5 beautiful beautiful JJ work_gfjn7ngtojauhn7kaf6bbbsq74 11 6 insight insight NN work_gfjn7ngtojauhn7kaf6bbbsq74 11 7 into into IN work_gfjn7ngtojauhn7kaf6bbbsq74 11 8 animal animal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 11 9 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 11 10 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 11 11 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 11 12 mitotic mitotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 11 13 spindle spindle JJ work_gfjn7ngtojauhn7kaf6bbbsq74 11 14 dynamics dynamic NNS work_gfjn7ngtojauhn7kaf6bbbsq74 11 15 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 11 16 Helmke Helmke NNP work_gfjn7ngtojauhn7kaf6bbbsq74 11 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 11 18 Heald Heald NNP work_gfjn7ngtojauhn7kaf6bbbsq74 11 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 11 20 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 11 21 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 11 22 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 11 23 glycosylation glycosylation NN work_gfjn7ngtojauhn7kaf6bbbsq74 11 24 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 11 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 11 26 Varki Varki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 11 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 11 28 2006 2006 CD work_gfjn7ngtojauhn7kaf6bbbsq74 11 29 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 11 30 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 12 1 However however RB work_gfjn7ngtojauhn7kaf6bbbsq74 12 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 12 3 expanding expand VBG work_gfjn7ngtojauhn7kaf6bbbsq74 12 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 12 5 scope scope NN work_gfjn7ngtojauhn7kaf6bbbsq74 12 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 12 7 investigation investigation NN work_gfjn7ngtojauhn7kaf6bbbsq74 12 8 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 12 9 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 12 10 beyond beyond IN work_gfjn7ngtojauhn7kaf6bbbsq74 12 11 fungi fungus NNS work_gfjn7ngtojauhn7kaf6bbbsq74 12 12 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 12 13 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 12 14 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 12 15 span span VB work_gfjn7ngtojauhn7kaf6bbbsq74 12 16 eu- eu- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 12 17 karyotic karyotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 12 18 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 12 19 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 12 20 allowed allow VBN work_gfjn7ngtojauhn7kaf6bbbsq74 12 21 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 12 22 discoveries discovery NNS work_gfjn7ngtojauhn7kaf6bbbsq74 12 23 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 12 24 force force VBP work_gfjn7ngtojauhn7kaf6bbbsq74 12 25 us -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 12 26 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 12 27 adjust adjust VB work_gfjn7ngtojauhn7kaf6bbbsq74 12 28 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 12 29 fundamental fundamental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 12 30 ideas idea NNS work_gfjn7ngtojauhn7kaf6bbbsq74 12 31 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 12 32 how how WRB work_gfjn7ngtojauhn7kaf6bbbsq74 12 33 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 12 34 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 12 35 work work VBP work_gfjn7ngtojauhn7kaf6bbbsq74 12 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 12 37 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 12 38 why why WRB work_gfjn7ngtojauhn7kaf6bbbsq74 12 39 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 13 1 Monitoring Monitoring NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 2 Editor Editor NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 3 David David NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 4 G. G. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 5 Drubin Drubin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 6 University University NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 7 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 13 8 California California NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 13 10 Berkeley Berkeley NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 11 Received receive VBD work_gfjn7ngtojauhn7kaf6bbbsq74 13 12 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 13 13 May May NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 14 18 18 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 13 16 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 17 Revised revise VBN work_gfjn7ngtojauhn7kaf6bbbsq74 13 18 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 13 19 Aug Aug NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 20 21 21 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 13 22 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 23 Accepted accept VBN work_gfjn7ngtojauhn7kaf6bbbsq74 13 24 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 13 25 Aug Aug NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 26 22 22 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 13 28 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 29 DOI:10.1091 DOI:10.1091 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 30 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 13 31 mbc mbc NN work_gfjn7ngtojauhn7kaf6bbbsq74 13 32 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 13 33 E14 E14 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 34 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 13 35 10 10 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 36 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 13 37 1433 1433 CD work_gfjn7ngtojauhn7kaf6bbbsq74 13 38 Address address NN work_gfjn7ngtojauhn7kaf6bbbsq74 13 39 correspondence correspondence NN work_gfjn7ngtojauhn7kaf6bbbsq74 13 40 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 13 41 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 13 42 Joel Joel NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 43 B. B. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 44 Dacks Dacks NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 45 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 13 46 dacks@ualberta.ca dacks@ualberta.ca NNP work_gfjn7ngtojauhn7kaf6bbbsq74 13 47 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 13 48 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 14 1 © © LS work_gfjn7ngtojauhn7kaf6bbbsq74 14 2 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 14 3 Richardson Richardson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 14 4 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 14 5 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 14 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 15 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 15 2 article article NN work_gfjn7ngtojauhn7kaf6bbbsq74 15 3 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 15 4 distributed distribute VBN work_gfjn7ngtojauhn7kaf6bbbsq74 15 5 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 15 6 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 15 7 American American NNP work_gfjn7ngtojauhn7kaf6bbbsq74 15 8 Society Society NNP work_gfjn7ngtojauhn7kaf6bbbsq74 15 9 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 15 10 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 15 11 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 15 12 under under IN work_gfjn7ngtojauhn7kaf6bbbsq74 15 13 license license NN work_gfjn7ngtojauhn7kaf6bbbsq74 15 14 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 15 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 15 16 author(s author(s NN work_gfjn7ngtojauhn7kaf6bbbsq74 15 17 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 15 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 16 1 Two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 16 2 months month NNS work_gfjn7ngtojauhn7kaf6bbbsq74 16 3 after after IN work_gfjn7ngtojauhn7kaf6bbbsq74 16 4 publication publication NN work_gfjn7ngtojauhn7kaf6bbbsq74 16 5 it -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 16 6 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 16 7 avail- avail- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 16 8 able able JJ work_gfjn7ngtojauhn7kaf6bbbsq74 16 9 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 16 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 16 11 public public NN work_gfjn7ngtojauhn7kaf6bbbsq74 16 12 under under IN work_gfjn7ngtojauhn7kaf6bbbsq74 16 13 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 16 14 Attribution Attribution NNP work_gfjn7ngtojauhn7kaf6bbbsq74 16 15 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 16 16 Noncommercial Noncommercial NNP work_gfjn7ngtojauhn7kaf6bbbsq74 16 17 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 16 18 Share share VB work_gfjn7ngtojauhn7kaf6bbbsq74 16 19 Alike alike RB work_gfjn7ngtojauhn7kaf6bbbsq74 16 20 3.0 3.0 CD work_gfjn7ngtojauhn7kaf6bbbsq74 16 21 Unported Unported NNP work_gfjn7ngtojauhn7kaf6bbbsq74 16 22 Creative Creative NNP work_gfjn7ngtojauhn7kaf6bbbsq74 16 23 Commons Commons NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 16 24 License License NNP work_gfjn7ngtojauhn7kaf6bbbsq74 16 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 16 26 http://creativecommons.org/licenses/by-nc-sa/3.0 http://creativecommons.org/licenses/by-nc-sa/3.0 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 16 27 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 16 28 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 17 1 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 17 2 ASCB ASCB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 3 ® ® NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 17 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 17 5 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 17 6 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 17 7 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 17 8 American American NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 9 Society Society NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 10 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 17 11 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 12 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 13 ® ® NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 17 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 17 15 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 17 16 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 17 17 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 17 18 Molecular Molecular NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 19 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 17 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 17 22 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 23 ® ® NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 17 24 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 17 25 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 17 26 registered register VBN work_gfjn7ngtojauhn7kaf6bbbsq74 17 27 trademarks trademark NNS work_gfjn7ngtojauhn7kaf6bbbsq74 17 28 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 17 29 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 17 30 American American NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 31 Society Society NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 32 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 17 33 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 34 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 17 35 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 18 1 Abbreviations abbreviation NNS work_gfjn7ngtojauhn7kaf6bbbsq74 18 2 used use VBD work_gfjn7ngtojauhn7kaf6bbbsq74 18 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 18 4 AP AP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 18 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 18 6 adaptor adaptor NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 7 protein protein NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 8 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 18 9 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 18 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 18 11 cytosolic cytosolic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 18 12 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 13 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 18 14 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 15 assembly assembly NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 16 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 18 17 LECA LECA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 18 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 18 19 last last JJ work_gfjn7ngtojauhn7kaf6bbbsq74 18 20 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 18 21 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 18 22 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 18 23 ancestor ancestor NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 24 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 18 25 MROs MROs NNP work_gfjn7ngtojauhn7kaf6bbbsq74 18 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 18 27 mitochondria mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 28 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 18 29 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 18 30 organ- organ- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 18 31 elles elle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 18 32 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 18 33 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 18 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 18 35 nitrogen nitrogen NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 36 fixation fixation NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 37 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 18 38 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 18 39 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 18 40 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 41 utilization utilization NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 42 factor factor NN work_gfjn7ngtojauhn7kaf6bbbsq74 18 43 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 19 1 MBoC MBoC NNS work_gfjn7ngtojauhn7kaf6bbbsq74 19 2 | | JJ work_gfjn7ngtojauhn7kaf6bbbsq74 19 3 PERSPECTIVE perspective NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 4 EUKARYOTIC eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 19 5 DIVERSITY DIVERSITY NNS work_gfjn7ngtojauhn7kaf6bbbsq74 19 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 19 7 FROM from IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 8 ANIMACULES animacules NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 9 TO to IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 10 AMITOCHONDRIATES amitochondriate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 19 11 From from IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 12 van van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 19 13 Leeuwenhoek Leeuwenhoek NNP work_gfjn7ngtojauhn7kaf6bbbsq74 19 14 ’s ’s POS work_gfjn7ngtojauhn7kaf6bbbsq74 19 15 description description NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 16 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 17 his -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 19 18 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 19 19 animacules animacule NNS work_gfjn7ngtojauhn7kaf6bbbsq74 19 20 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 19 21 soon soon RB work_gfjn7ngtojauhn7kaf6bbbsq74 19 22 after after IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 19 24 development development NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 25 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 26 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 19 27 microscope microscope NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 28 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 19 29 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 30 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 19 31 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 19 32 always always RB work_gfjn7ngtojauhn7kaf6bbbsq74 19 33 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 19 34 linked link VBN work_gfjn7ngtojauhn7kaf6bbbsq74 19 35 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 19 36 single single RB work_gfjn7ngtojauhn7kaf6bbbsq74 19 37 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 19 38 celled celle VBN work_gfjn7ngtojauhn7kaf6bbbsq74 19 39 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 19 40 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 20 1 Nonetheless nonetheless RB work_gfjn7ngtojauhn7kaf6bbbsq74 20 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 3 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 20 5 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 20 6 bi- bi- XX work_gfjn7ngtojauhn7kaf6bbbsq74 20 7 ology ology NN work_gfjn7ngtojauhn7kaf6bbbsq74 20 8 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 20 9 physiology physiology NN work_gfjn7ngtojauhn7kaf6bbbsq74 20 10 remain remain VBP work_gfjn7ngtojauhn7kaf6bbbsq74 20 11 restricted restricted JJ work_gfjn7ngtojauhn7kaf6bbbsq74 20 12 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 20 13 relatively relatively RB work_gfjn7ngtojauhn7kaf6bbbsq74 20 14 few few JJ work_gfjn7ngtojauhn7kaf6bbbsq74 20 15 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 20 16 or- or- CC work_gfjn7ngtojauhn7kaf6bbbsq74 20 17 ganisms ganism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 19 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 20 20 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 20 21 flies fly NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 23 worms worm NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 25 yeasts yeast NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 27 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 20 28 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 20 29 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 31 often often RB work_gfjn7ngtojauhn7kaf6bbbsq74 20 32 closely closely RB work_gfjn7ngtojauhn7kaf6bbbsq74 20 33 related related JJ work_gfjn7ngtojauhn7kaf6bbbsq74 20 34 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 20 35 humans human NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 36 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 20 37 manipulated manipulate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 20 38 under under IN work_gfjn7ngtojauhn7kaf6bbbsq74 20 39 restrictive restrictive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 20 40 circumstances circumstance NNS work_gfjn7ngtojauhn7kaf6bbbsq74 20 41 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 20 42 Del Del NNP work_gfjn7ngtojauhn7kaf6bbbsq74 20 43 Campo Campo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 20 44 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 20 45 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 20 46 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 20 47 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 20 48 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 20 49 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 20 50 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 21 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 21 2 means mean VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 21 3 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 21 4 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 21 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 21 6 mechanisms mechanism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 21 7 assumed assume VBN work_gfjn7ngtojauhn7kaf6bbbsq74 21 8 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 21 9 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 21 10 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 11 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 21 12 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 21 13 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 21 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 21 15 conventional conventional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 16 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 21 17 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 21 18 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 21 19 actually actually RB work_gfjn7ngtojauhn7kaf6bbbsq74 21 20 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 21 21 divergent divergent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 22 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 21 23 lineage lineage NN work_gfjn7ngtojauhn7kaf6bbbsq74 21 24 specific specific JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 21 26 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 21 27 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 21 28 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 21 29 lead lead VB work_gfjn7ngtojauhn7kaf6bbbsq74 21 30 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 21 31 unjustified unjustified JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 32 extrapolation extrapolation NN work_gfjn7ngtojauhn7kaf6bbbsq74 21 33 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 21 34 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 21 35 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 36 principles principle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 21 37 be- be- VBP work_gfjn7ngtojauhn7kaf6bbbsq74 21 38 yond yond RB work_gfjn7ngtojauhn7kaf6bbbsq74 21 39 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 21 40 actual actual JJ work_gfjn7ngtojauhn7kaf6bbbsq74 21 41 range range NN work_gfjn7ngtojauhn7kaf6bbbsq74 21 42 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 22 1 Conversely conversely RB work_gfjn7ngtojauhn7kaf6bbbsq74 22 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 22 3 because because IN work_gfjn7ngtojauhn7kaf6bbbsq74 22 4 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 22 5 knowledge knowledge NN work_gfjn7ngtojauhn7kaf6bbbsq74 22 6 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 22 7 so so RB work_gfjn7ngtojauhn7kaf6bbbsq74 22 8 heavily heavily RB work_gfjn7ngtojauhn7kaf6bbbsq74 22 9 based base VBN work_gfjn7ngtojauhn7kaf6bbbsq74 22 10 on on IN work_gfjn7ngtojauhn7kaf6bbbsq74 22 11 taxonomically taxonomically RB work_gfjn7ngtojauhn7kaf6bbbsq74 22 12 restricted restrict VBN work_gfjn7ngtojauhn7kaf6bbbsq74 22 13 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 22 14 systems system NNS work_gfjn7ngtojauhn7kaf6bbbsq74 22 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 22 16 we -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 22 17 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 22 18 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 22 19 missing miss VBG work_gfjn7ngtojauhn7kaf6bbbsq74 22 20 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 22 21 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 22 22 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 22 23 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 22 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 22 25 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 22 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 22 27 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 22 28 phenom- phenom- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 22 29 ena ena NNP work_gfjn7ngtojauhn7kaf6bbbsq74 22 30 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 22 31 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 22 32 beyond beyond IN work_gfjn7ngtojauhn7kaf6bbbsq74 22 33 humans human NNS work_gfjn7ngtojauhn7kaf6bbbsq74 22 34 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 22 35 yeast yeast NN work_gfjn7ngtojauhn7kaf6bbbsq74 22 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 22 37 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 22 38 overlooking overlook VBG work_gfjn7ngtojauhn7kaf6bbbsq74 22 39 potentially potentially RB work_gfjn7ngtojauhn7kaf6bbbsq74 22 40 important important JJ work_gfjn7ngtojauhn7kaf6bbbsq74 22 41 aspects aspect NNS work_gfjn7ngtojauhn7kaf6bbbsq74 22 42 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 22 43 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 22 44 own own JJ work_gfjn7ngtojauhn7kaf6bbbsq74 22 45 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 22 46 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 22 47 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 23 1 Reaping reap VBG work_gfjn7ngtojauhn7kaf6bbbsq74 23 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 23 3 benefit benefit NN work_gfjn7ngtojauhn7kaf6bbbsq74 23 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 23 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 23 6 vast vast JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 7 amounts amount NNS work_gfjn7ngtojauhn7kaf6bbbsq74 23 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 23 9 genomic genomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 10 data datum NNS work_gfjn7ngtojauhn7kaf6bbbsq74 23 11 now now RB work_gfjn7ngtojauhn7kaf6bbbsq74 23 12 available available JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 13 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 23 14 diverse diverse JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 15 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 23 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 23 17 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 18 biologists biologist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 23 19 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 23 20 per- per- RB work_gfjn7ngtojauhn7kaf6bbbsq74 23 21 formed form VBN work_gfjn7ngtojauhn7kaf6bbbsq74 23 22 large large JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 23 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 23 24 scale scale NN work_gfjn7ngtojauhn7kaf6bbbsq74 23 25 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 26 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 23 27 analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 23 28 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 24 1 Together together RB work_gfjn7ngtojauhn7kaf6bbbsq74 24 2 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 24 3 morphological morphological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 4 information information NN work_gfjn7ngtojauhn7kaf6bbbsq74 24 5 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 24 6 light light JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 24 8 electron electron NN work_gfjn7ngtojauhn7kaf6bbbsq74 24 9 microscopy microscopy JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 24 11 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 24 12 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 13 information information NN work_gfjn7ngtojauhn7kaf6bbbsq74 24 14 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 24 15 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 24 16 used use VBN work_gfjn7ngtojauhn7kaf6bbbsq74 24 17 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 24 18 establish establish VB work_gfjn7ngtojauhn7kaf6bbbsq74 24 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 24 20 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 21 tree tree NN work_gfjn7ngtojauhn7kaf6bbbsq74 24 22 outlined outline VBN work_gfjn7ngtojauhn7kaf6bbbsq74 24 23 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 24 24 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 24 25 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 24 26 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 24 27 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 24 28 formalize formalize VB work_gfjn7ngtojauhn7kaf6bbbsq74 24 29 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 24 30 coherent coherent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 31 framework framework NN work_gfjn7ngtojauhn7kaf6bbbsq74 24 32 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 24 33 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 24 34 relationships relationship NNS work_gfjn7ngtojauhn7kaf6bbbsq74 24 35 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 24 36 Adl Adl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 24 37 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 24 38 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 24 39 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 24 40 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 24 41 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 24 42 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 24 43 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 25 1 Most Most JJS work_gfjn7ngtojauhn7kaf6bbbsq74 25 2 model model JJ work_gfjn7ngtojauhn7kaf6bbbsq74 25 3 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 25 4 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 25 5 systems system NNS work_gfjn7ngtojauhn7kaf6bbbsq74 25 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 25 7 flies fly NNS work_gfjn7ngtojauhn7kaf6bbbsq74 25 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 25 9 worms worm NNS work_gfjn7ngtojauhn7kaf6bbbsq74 25 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 25 11 yeast yeast NN work_gfjn7ngtojauhn7kaf6bbbsq74 25 12 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 25 13 hu- hu- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 25 14 man man NN work_gfjn7ngtojauhn7kaf6bbbsq74 25 15 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 25 16 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 25 17 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 25 18 grouped group VBN work_gfjn7ngtojauhn7kaf6bbbsq74 25 19 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 25 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 25 21 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 25 22 Opisthokonta Opisthokonta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 25 23 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 25 24 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 25 25 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 25 26 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 25 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 26 1 However however RB work_gfjn7ngtojauhn7kaf6bbbsq74 26 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 26 3 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 26 4 only only RB work_gfjn7ngtojauhn7kaf6bbbsq74 26 5 scratches scratch VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 26 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 26 7 surface surface NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 26 9 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 26 10 Volume volume NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 11 26 26 CD work_gfjn7ngtojauhn7kaf6bbbsq74 26 12 December December NNP work_gfjn7ngtojauhn7kaf6bbbsq74 26 13 15 15 CD work_gfjn7ngtojauhn7kaf6bbbsq74 26 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 26 15 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 26 16 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 26 17 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 18 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 19 | | CD work_gfjn7ngtojauhn7kaf6bbbsq74 26 20 4533 4533 CD work_gfjn7ngtojauhn7kaf6bbbsq74 26 21 cultivated cultivate VBD work_gfjn7ngtojauhn7kaf6bbbsq74 26 22 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 26 23 edible edible JJ work_gfjn7ngtojauhn7kaf6bbbsq74 26 24 seaweed seaweed NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 25 species specie NNS work_gfjn7ngtojauhn7kaf6bbbsq74 26 26 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 26 27 e.g. e.g. RB work_gfjn7ngtojauhn7kaf6bbbsq74 26 28 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 26 29 nori nori JJ work_gfjn7ngtojauhn7kaf6bbbsq74 26 30 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 26 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 26 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 26 33 glauco- glauco- VBN work_gfjn7ngtojauhn7kaf6bbbsq74 26 34 phyte phyte NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 35 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 26 36 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 27 1 Stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 27 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 27 3 alveolates alveolate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 27 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 27 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 27 6 rhizarians rhizarian NNS work_gfjn7ngtojauhn7kaf6bbbsq74 27 7 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 27 8 grouped group VBN work_gfjn7ngtojauhn7kaf6bbbsq74 27 9 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 27 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 27 11 SAR SAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 27 12 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 27 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 27 14 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 27 15 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 27 16 archaeplastids archaeplastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 27 17 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 27 18 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 27 19 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 27 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 27 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 28 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 28 2 SAR SAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 28 3 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 28 4 contains contain VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 28 5 many many JJ work_gfjn7ngtojauhn7kaf6bbbsq74 28 6 parasitic parasitic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 28 7 species specie NNS work_gfjn7ngtojauhn7kaf6bbbsq74 28 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 28 9 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 28 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 28 11 malaria malaria NN work_gfjn7ngtojauhn7kaf6bbbsq74 28 12 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 28 13 causing cause VBG work_gfjn7ngtojauhn7kaf6bbbsq74 28 14 Plasmodium Plasmodium NNP work_gfjn7ngtojauhn7kaf6bbbsq74 28 15 falciparum falciparum NN work_gfjn7ngtojauhn7kaf6bbbsq74 28 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 28 17 as as RB work_gfjn7ngtojauhn7kaf6bbbsq74 28 18 well well RB work_gfjn7ngtojauhn7kaf6bbbsq74 28 19 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 28 20 diatoms diatom NNS work_gfjn7ngtojauhn7kaf6bbbsq74 28 21 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 28 22 dinoflagellates dinoflagellate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 28 23 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 28 24 play play VBP work_gfjn7ngtojauhn7kaf6bbbsq74 28 25 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 28 26 absolutely absolutely RB work_gfjn7ngtojauhn7kaf6bbbsq74 28 27 vital vital JJ work_gfjn7ngtojauhn7kaf6bbbsq74 28 28 role role NN work_gfjn7ngtojauhn7kaf6bbbsq74 28 29 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 28 30 nutrient nutrient NN work_gfjn7ngtojauhn7kaf6bbbsq74 28 31 cy- cy- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 28 32 cling cle VBG work_gfjn7ngtojauhn7kaf6bbbsq74 28 33 in in RP work_gfjn7ngtojauhn7kaf6bbbsq74 28 34 aquatic aquatic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 28 35 ecosystems ecosystem NNS work_gfjn7ngtojauhn7kaf6bbbsq74 28 36 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 29 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 29 2 final final JJ work_gfjn7ngtojauhn7kaf6bbbsq74 29 3 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 29 4 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 29 5 supergroups supergroup NNS work_gfjn7ngtojauhn7kaf6bbbsq74 29 6 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 29 7 less less RBR work_gfjn7ngtojauhn7kaf6bbbsq74 29 8 securely securely RB work_gfjn7ngtojauhn7kaf6bbbsq74 29 9 placed place VBN work_gfjn7ngtojauhn7kaf6bbbsq74 29 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 30 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 30 2 controversial controversial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 30 3 CCTH CCTH NNP work_gfjn7ngtojauhn7kaf6bbbsq74 30 4 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 30 5 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 30 6 thought think VBN work_gfjn7ngtojauhn7kaf6bbbsq74 30 7 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 30 8 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 30 9 most most RBS work_gfjn7ngtojauhn7kaf6bbbsq74 30 10 closely closely RB work_gfjn7ngtojauhn7kaf6bbbsq74 30 11 related related JJ work_gfjn7ngtojauhn7kaf6bbbsq74 30 12 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 30 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 30 14 SAR SAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 30 15 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 30 16 archaeplastid archaeplastid JJ work_gfjn7ngtojauhn7kaf6bbbsq74 30 17 supergroups supergroup NNS work_gfjn7ngtojauhn7kaf6bbbsq74 30 18 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 30 19 tentatively tentatively RB work_gfjn7ngtojauhn7kaf6bbbsq74 30 20 contains contain VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 30 21 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 30 22 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 30 23 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 30 24 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 30 25 crypto- crypto- NN work_gfjn7ngtojauhn7kaf6bbbsq74 30 26 phytes phyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 30 27 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 30 28 haptophytes haptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 30 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 31 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 31 2 latter latter JJ work_gfjn7ngtojauhn7kaf6bbbsq74 31 3 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 31 4 grow grow VB work_gfjn7ngtojauhn7kaf6bbbsq74 31 5 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 31 6 blooms bloom NNS work_gfjn7ngtojauhn7kaf6bbbsq74 31 7 large large JJ work_gfjn7ngtojauhn7kaf6bbbsq74 31 8 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 31 9 dense dense JJ work_gfjn7ngtojauhn7kaf6bbbsq74 31 10 enough enough RB work_gfjn7ngtojauhn7kaf6bbbsq74 31 11 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 31 12 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 31 13 visible visible JJ work_gfjn7ngtojauhn7kaf6bbbsq74 31 14 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 31 15 space space NN work_gfjn7ngtojauhn7kaf6bbbsq74 31 16 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 32 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 32 2 CCTH CCTH NNP work_gfjn7ngtojauhn7kaf6bbbsq74 32 3 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 32 4 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 32 5 contain contain VB work_gfjn7ngtojauhn7kaf6bbbsq74 32 6 lesser less JJR work_gfjn7ngtojauhn7kaf6bbbsq74 32 7 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 32 8 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 32 9 marine marine JJ work_gfjn7ngtojauhn7kaf6bbbsq74 32 10 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 32 11 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 32 12 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 32 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 32 14 centrohe- centrohe- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 32 15 lids lid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 32 16 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 32 17 telomerids telomerid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 32 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 32 19 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 32 20 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 32 21 understanding understanding NN work_gfjn7ngtojauhn7kaf6bbbsq74 32 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 32 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 32 24 relationships relationship NNS work_gfjn7ngtojauhn7kaf6bbbsq74 32 25 between between IN work_gfjn7ngtojauhn7kaf6bbbsq74 32 26 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 32 27 four four CD work_gfjn7ngtojauhn7kaf6bbbsq74 32 28 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 32 29 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 32 30 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 32 31 relative relative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 32 32 flux flux NN work_gfjn7ngtojauhn7kaf6bbbsq74 32 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 33 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 33 2 last last JJ work_gfjn7ngtojauhn7kaf6bbbsq74 33 3 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 33 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 33 5 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 33 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 34 1 While while IN work_gfjn7ngtojauhn7kaf6bbbsq74 34 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 34 3 taxonomy taxonomy NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 4 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 34 5 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 34 6 daunting daunt VBG work_gfjn7ngtojauhn7kaf6bbbsq74 34 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 34 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 34 9 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 34 10 classified classify VBN work_gfjn7ngtojauhn7kaf6bbbsq74 34 11 outside outside IN work_gfjn7ngtojauhn7kaf6bbbsq74 34 12 Opisthokonta Opisthokonta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 34 13 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 34 14 tremendous tremendous JJ work_gfjn7ngtojauhn7kaf6bbbsq74 34 15 medical medical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 34 16 impor- impor- NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 17 tance tance NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 34 19 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 34 20 parasites parasite NNS work_gfjn7ngtojauhn7kaf6bbbsq74 34 21 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 34 22 global global JJ work_gfjn7ngtojauhn7kaf6bbbsq74 34 23 health health NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 24 relevance relevance NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 25 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 34 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 34 27 agricultural agricultural JJ work_gfjn7ngtojauhn7kaf6bbbsq74 34 28 relevance relevance NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 29 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 34 30 both both DT work_gfjn7ngtojauhn7kaf6bbbsq74 34 31 plants plant NNS work_gfjn7ngtojauhn7kaf6bbbsq74 34 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 34 33 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 34 34 pathogens pathogen NNS work_gfjn7ngtojauhn7kaf6bbbsq74 34 35 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 34 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 34 37 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 34 38 ecological ecological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 34 39 impli- impli- NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 40 cations cation NNS work_gfjn7ngtojauhn7kaf6bbbsq74 34 41 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 34 42 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 34 43 players player NNS work_gfjn7ngtojauhn7kaf6bbbsq74 34 44 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 34 45 all all DT work_gfjn7ngtojauhn7kaf6bbbsq74 34 46 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 34 47 food food NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 48 webs webs NN work_gfjn7ngtojauhn7kaf6bbbsq74 34 49 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 34 50 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 35 1 Understanding understand VBG work_gfjn7ngtojauhn7kaf6bbbsq74 35 2 eu- eu- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 35 3 karyotic karyotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 35 4 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 35 5 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 35 6 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 35 7 understand understand VB work_gfjn7ngtojauhn7kaf6bbbsq74 35 8 critical critical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 35 9 aspects aspect NNS work_gfjn7ngtojauhn7kaf6bbbsq74 35 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 35 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 35 12 world world NN work_gfjn7ngtojauhn7kaf6bbbsq74 35 13 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 35 14 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 35 15 we -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 35 16 live live VBP work_gfjn7ngtojauhn7kaf6bbbsq74 35 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 36 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 36 2 opisthokonts opisthokont NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 3 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 36 4 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 36 5 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 36 6 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 36 7 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 36 9 single single RB work_gfjn7ngtojauhn7kaf6bbbsq74 36 10 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 36 11 celled celle VBN work_gfjn7ngtojauhn7kaf6bbbsq74 36 12 flagellates flagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 14 apusozoa apusozoa NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 15 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 36 16 breviates breviate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 17 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 36 18 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 19 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 20 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 21 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 23 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 36 24 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 36 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 26 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 36 27 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 36 28 amoebozoans amoebozoans NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 36 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 30 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 36 31 group group NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 32 containing contain VBG work_gfjn7ngtojauhn7kaf6bbbsq74 36 33 ecologically ecologically RB work_gfjn7ngtojauhn7kaf6bbbsq74 36 34 rel- rel- VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 36 35 evant evant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 36 soil soil NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 37 microbes microbe NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 38 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 36 39 pathogenic pathogenic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 40 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 41 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 36 42 e.g. e.g. RB work_gfjn7ngtojauhn7kaf6bbbsq74 36 43 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 44 Entamoeba Entamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 45 histolytica histolytica NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 46 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 47 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 36 48 causative causative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 49 agent agent NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 50 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 36 51 amebic amebic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 52 dysentery dysentery NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 53 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 54 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 36 55 Dictyo- Dictyo- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 36 56 stelium stelium NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 57 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 36 58 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 36 59 emerging emerge VBG work_gfjn7ngtojauhn7kaf6bbbsq74 36 60 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 61 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 62 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 63 organism organism NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 64 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 36 65 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 36 66 im- im- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 67 portant portant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 36 68 constituent constituent NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 69 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 36 70 forest forest NN work_gfjn7ngtojauhn7kaf6bbbsq74 36 71 ecosystems ecosystem NNS work_gfjn7ngtojauhn7kaf6bbbsq74 36 72 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 36 73 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 37 1 Archaeplastids Archaeplastids NNP work_gfjn7ngtojauhn7kaf6bbbsq74 37 2 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 37 3 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 4 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 37 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 37 6 encompass encompass NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 7 multicellular multicellular NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 8 plants plant NNS work_gfjn7ngtojauhn7kaf6bbbsq74 37 9 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 37 10 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 37 11 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 12 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 37 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 37 14 Viridi- Viridi- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 37 15 plantae plantae NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 37 17 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 37 18 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 37 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 37 20 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 37 21 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 22 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 37 23 rhodophytes rhodophytes NNP work_gfjn7ngtojauhn7kaf6bbbsq74 37 24 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 37 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 37 26 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 37 27 include include VBP work_gfjn7ngtojauhn7kaf6bbbsq74 37 28 many many JJ work_gfjn7ngtojauhn7kaf6bbbsq74 37 29 FIGURE FIGURE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 37 30 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 37 31 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 37 32 Diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 33 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 37 34 aspects aspect NNS work_gfjn7ngtojauhn7kaf6bbbsq74 37 35 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 37 36 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 37 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 37 38 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 37 39 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 37 40 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 38 1 Phylogenetic phylogenetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 38 2 relationships relationship NNS work_gfjn7ngtojauhn7kaf6bbbsq74 38 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 38 4 major major JJ work_gfjn7ngtojauhn7kaf6bbbsq74 38 5 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 38 6 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 38 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 38 8 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 38 9 emphasis emphasis NN work_gfjn7ngtojauhn7kaf6bbbsq74 38 10 on on IN work_gfjn7ngtojauhn7kaf6bbbsq74 38 11 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 38 12 highlighted highlight VBN work_gfjn7ngtojauhn7kaf6bbbsq74 38 13 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 38 14 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 38 15 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 38 16 examples example NNS work_gfjn7ngtojauhn7kaf6bbbsq74 38 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 39 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 39 2 rooting rooting NN work_gfjn7ngtojauhn7kaf6bbbsq74 39 3 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 39 4 shown show VBN work_gfjn7ngtojauhn7kaf6bbbsq74 39 5 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 39 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 39 7 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 39 8 Excavata Excavata NNP work_gfjn7ngtojauhn7kaf6bbbsq74 39 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 39 10 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 39 11 Discobans Discobans NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 39 12 on on IN work_gfjn7ngtojauhn7kaf6bbbsq74 39 13 one one CD work_gfjn7ngtojauhn7kaf6bbbsq74 39 14 side side NN work_gfjn7ngtojauhn7kaf6bbbsq74 39 15 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 39 16 Malawimonads Malawimonads NNP work_gfjn7ngtojauhn7kaf6bbbsq74 39 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 39 18 Collodictyon Collodictyon NNP work_gfjn7ngtojauhn7kaf6bbbsq74 39 19 on on IN work_gfjn7ngtojauhn7kaf6bbbsq74 39 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 39 21 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 39 22 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 40 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 40 2 relationships relationship NNS work_gfjn7ngtojauhn7kaf6bbbsq74 40 3 shown show VBN work_gfjn7ngtojauhn7kaf6bbbsq74 40 4 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 40 5 based base VBN work_gfjn7ngtojauhn7kaf6bbbsq74 40 6 on on IN work_gfjn7ngtojauhn7kaf6bbbsq74 40 7 information information NN work_gfjn7ngtojauhn7kaf6bbbsq74 40 8 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 40 9 Adl Adl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 40 10 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 40 11 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 40 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 41 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 41 2 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 41 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 41 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 41 5 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 41 6 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 41 7 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 41 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 42 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 42 2 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 42 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 42 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 42 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 42 6 Derelle Derelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 42 7 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 42 8 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 42 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 43 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 43 2 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 43 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 43 4 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 44 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 44 2 table table NN work_gfjn7ngtojauhn7kaf6bbbsq74 44 3 illustrates illustrate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 44 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 44 5 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 44 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 44 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 44 8 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 44 9 processes process NNS work_gfjn7ngtojauhn7kaf6bbbsq74 44 10 discussed discuss VBN work_gfjn7ngtojauhn7kaf6bbbsq74 44 11 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 44 12 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 44 13 review review NN work_gfjn7ngtojauhn7kaf6bbbsq74 44 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 45 1 Column column NN work_gfjn7ngtojauhn7kaf6bbbsq74 45 2 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 45 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 45 4 Mitochondria Mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 45 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 45 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 45 7 type type NN work_gfjn7ngtojauhn7kaf6bbbsq74 45 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 45 9 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 45 10 present present JJ work_gfjn7ngtojauhn7kaf6bbbsq74 45 11 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 45 12 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 45 13 lineage lineage NN work_gfjn7ngtojauhn7kaf6bbbsq74 45 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 46 1 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 46 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 46 3 conventional conventional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 46 4 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 46 5 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 46 6 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 46 7 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 46 8 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 46 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 46 10 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 46 11 mitochondria mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 46 12 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 46 13 hydrogenosome hydrogenosome NN work_gfjn7ngtojauhn7kaf6bbbsq74 46 14 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 46 15 like like JJ work_gfjn7ngtojauhn7kaf6bbbsq74 46 16 organelle organelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 46 17 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 46 18 H h NN work_gfjn7ngtojauhn7kaf6bbbsq74 46 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 46 20 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 46 21 hydrogenosome hydrogenosome NN work_gfjn7ngtojauhn7kaf6bbbsq74 46 22 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 46 23 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 46 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 46 25 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 46 26 mitosome mitosome NN work_gfjn7ngtojauhn7kaf6bbbsq74 46 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 47 1 Column column NN work_gfjn7ngtojauhn7kaf6bbbsq74 47 2 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 47 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 47 4 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 47 5 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 47 6 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 47 7 System System NNP work_gfjn7ngtojauhn7kaf6bbbsq74 47 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 47 9 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 47 10 Fe fe LS work_gfjn7ngtojauhn7kaf6bbbsq74 47 11 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 47 12 S s NN work_gfjn7ngtojauhn7kaf6bbbsq74 47 13 production production NN work_gfjn7ngtojauhn7kaf6bbbsq74 47 14 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 47 15 present present JJ work_gfjn7ngtojauhn7kaf6bbbsq74 47 16 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 47 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 47 18 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 47 19 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 47 20 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 47 21 localization localization NN work_gfjn7ngtojauhn7kaf6bbbsq74 47 22 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 48 1 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 3 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 4 conventional conventional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 48 5 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 6 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 48 7 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 8 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 9 pathway pathway NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 10 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 48 11 cpSUF cpSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 13 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 14 SUF suf NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 15 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 16 localized localize VBN work_gfjn7ngtojauhn7kaf6bbbsq74 48 17 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 48 18 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 19 chloroplast chloroplast NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 20 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 48 21 cSUF cSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 23 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 24 SUF suf NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 25 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 26 localized localize VBN work_gfjn7ngtojauhn7kaf6bbbsq74 48 27 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 48 28 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 29 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 30 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 48 31 c c NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 33 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 34 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 35 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 36 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 37 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 38 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 39 localized localize VBD work_gfjn7ngtojauhn7kaf6bbbsq74 48 40 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 48 41 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 42 chloroplast chloroplast NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 43 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 48 44 mitosome mitosome NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 45 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 48 46 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 48 47 c c NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 48 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 49 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 50 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 51 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 48 52 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 53 SUF suf NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 54 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 55 localized localize VBD work_gfjn7ngtojauhn7kaf6bbbsq74 48 56 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 48 57 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 48 58 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 48 59 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 48 60 mitosome mitosome NNP work_gfjn7ngtojauhn7kaf6bbbsq74 48 61 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 49 1 Column column NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 2 3 3 CD work_gfjn7ngtojauhn7kaf6bbbsq74 49 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 49 4 History history NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 49 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 49 7 number number NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 9 endosymbiotic endosymbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 49 10 events event NNS work_gfjn7ngtojauhn7kaf6bbbsq74 49 11 involved involve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 49 12 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 13 establishment establishment NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 15 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 49 16 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 49 18 lineage lineage NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 19 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 49 20 chromalveolate chromalveolate NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 21 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 49 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 49 23 where where WRB work_gfjn7ngtojauhn7kaf6bbbsq74 49 24 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 49 25 exact exact JJ work_gfjn7ngtojauhn7kaf6bbbsq74 49 26 phylogenetic phylogenetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 49 27 derivation derivation NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 28 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 49 29 currently currently RB work_gfjn7ngtojauhn7kaf6bbbsq74 49 30 unknown unknown JJ work_gfjn7ngtojauhn7kaf6bbbsq74 49 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 49 32 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 49 33 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 49 34 indicated indicate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 49 35 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 36 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 49 37 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 49 38 C. C. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 49 39 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 49 40 Column column NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 41 4 4 CD work_gfjn7ngtojauhn7kaf6bbbsq74 49 42 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 49 43 Pigment pigment NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 44 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 49 45 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 49 46 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 47 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 49 48 absence absence NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 49 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 50 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 49 51 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 52 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 49 53 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 49 54 if if IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 55 present present JJ work_gfjn7ngtojauhn7kaf6bbbsq74 49 56 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 49 57 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 49 58 affinity affinity NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 59 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 49 60 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 49 61 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 49 62 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 50 1 Red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 2 denotes denote VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 50 3 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 50 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 50 5 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 6 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 7 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 50 8 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 50 9 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 10 denotes denote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 50 11 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 50 12 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 50 13 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 14 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 15 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 50 16 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 50 17 teal teal NN work_gfjn7ngtojauhn7kaf6bbbsq74 50 18 indicates indicate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 50 19 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 50 20 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 50 21 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 50 22 ancestral ancestral JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 23 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 50 24 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 50 25 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 26 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 50 27 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 28 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 50 29 ; ; , work_gfjn7ngtojauhn7kaf6bbbsq74 50 30 purple purple NNP work_gfjn7ngtojauhn7kaf6bbbsq74 50 31 indicates indicate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 50 32 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 50 33 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 50 34 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 50 35 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 50 36 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 50 37 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 50 38 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 39 algal algal NNP work_gfjn7ngtojauhn7kaf6bbbsq74 50 40 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 50 41 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 50 42 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 50 43 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 50 44 no no DT work_gfjn7ngtojauhn7kaf6bbbsq74 50 45 longer long RBR work_gfjn7ngtojauhn7kaf6bbbsq74 50 46 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 50 47 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 51 1 Multiple multiple JJ work_gfjn7ngtojauhn7kaf6bbbsq74 51 2 colors color NNS work_gfjn7ngtojauhn7kaf6bbbsq74 51 3 indicate indicate VBP work_gfjn7ngtojauhn7kaf6bbbsq74 51 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 51 5 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 51 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 51 7 multiple multiple JJ work_gfjn7ngtojauhn7kaf6bbbsq74 51 8 plastid plastid JJ work_gfjn7ngtojauhn7kaf6bbbsq74 51 9 types type NNS work_gfjn7ngtojauhn7kaf6bbbsq74 51 10 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 51 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 51 12 taxonomic taxonomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 51 13 group group NN work_gfjn7ngtojauhn7kaf6bbbsq74 51 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 52 1 Column column NN work_gfjn7ngtojauhn7kaf6bbbsq74 52 2 5 5 CD work_gfjn7ngtojauhn7kaf6bbbsq74 52 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 52 4 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 52 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 52 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 52 7 complete complete JJ work_gfjn7ngtojauhn7kaf6bbbsq74 52 8 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 52 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 52 10 partial partial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 52 11 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 52 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 52 13 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 52 14 absence absence NN work_gfjn7ngtojauhn7kaf6bbbsq74 52 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 52 16 AP-5 ap-5 NN work_gfjn7ngtojauhn7kaf6bbbsq74 52 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 52 18 respectively respectively RB work_gfjn7ngtojauhn7kaf6bbbsq74 52 19 represented represent VBN work_gfjn7ngtojauhn7kaf6bbbsq74 52 20 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 52 21 fully fully RB work_gfjn7ngtojauhn7kaf6bbbsq74 52 22 colored color VBN work_gfjn7ngtojauhn7kaf6bbbsq74 52 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 52 24 half half RB work_gfjn7ngtojauhn7kaf6bbbsq74 52 25 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 52 26 colored colored JJ work_gfjn7ngtojauhn7kaf6bbbsq74 52 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 52 28 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 52 29 white white JJ work_gfjn7ngtojauhn7kaf6bbbsq74 52 30 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 53 1 Gray Gray NNP work_gfjn7ngtojauhn7kaf6bbbsq74 53 2 indicates indicate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 53 3 taxa taxa NN work_gfjn7ngtojauhn7kaf6bbbsq74 53 4 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 53 5 searched search VBN work_gfjn7ngtojauhn7kaf6bbbsq74 53 6 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 53 7 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 53 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 54 1 Column column NN work_gfjn7ngtojauhn7kaf6bbbsq74 54 2 6 6 CD work_gfjn7ngtojauhn7kaf6bbbsq74 54 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 54 4 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 54 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 54 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 54 7 complete complete JJ work_gfjn7ngtojauhn7kaf6bbbsq74 54 8 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 54 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 54 10 partial partial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 54 11 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 54 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 54 13 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 54 14 absence absence NN work_gfjn7ngtojauhn7kaf6bbbsq74 54 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 54 16 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 54 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 54 18 respectively respectively RB work_gfjn7ngtojauhn7kaf6bbbsq74 54 19 represented represent VBN work_gfjn7ngtojauhn7kaf6bbbsq74 54 20 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 54 21 fully fully RB work_gfjn7ngtojauhn7kaf6bbbsq74 54 22 colored color VBN work_gfjn7ngtojauhn7kaf6bbbsq74 54 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 54 24 half half RB work_gfjn7ngtojauhn7kaf6bbbsq74 54 25 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 54 26 colored colored JJ work_gfjn7ngtojauhn7kaf6bbbsq74 54 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 54 28 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 54 29 white white JJ work_gfjn7ngtojauhn7kaf6bbbsq74 54 30 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 55 1 Gray Gray NNP work_gfjn7ngtojauhn7kaf6bbbsq74 55 2 indicates indicate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 55 3 taxa taxa NN work_gfjn7ngtojauhn7kaf6bbbsq74 55 4 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 55 5 searched search VBN work_gfjn7ngtojauhn7kaf6bbbsq74 55 6 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 55 7 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 55 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 56 1 photosynthetic photosynthetic NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 2 stramenopiles stramenopiles NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 3 blastocystis blastocystis VBP work_gfjn7ngtojauhn7kaf6bbbsq74 56 4 discoba discoba JJ work_gfjn7ngtojauhn7kaf6bbbsq74 56 5 metamonads metamonad NNS work_gfjn7ngtojauhn7kaf6bbbsq74 56 6 collodictyon collodictyon VBP work_gfjn7ngtojauhn7kaf6bbbsq74 56 7 malawimonads malawimonad NNS work_gfjn7ngtojauhn7kaf6bbbsq74 56 8 archamoebae archamoebae NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 9 amoebozoa amoebozoa NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 56 10 apusozoa apusozoa JJ work_gfjn7ngtojauhn7kaf6bbbsq74 56 11 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 56 12 basidomycetes basidomycete VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 56 13 ascomycetes ascomycetes NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 14 breviates breviate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 56 15 apicomplexans apicomplexans NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 56 16 rhizarians rhizarians NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 56 17 ciliates ciliate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 56 18 microsporidia microsporidia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 19 glaucophytes glaucophyte VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 56 20 rhodophytes rhodophyte VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 56 21 Viridiplantae Viridiplantae NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 22 haptophytes haptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 56 23 cryptophytes cryptophyte VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 56 24 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 25 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 26 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 27 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 28 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 30 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 32 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 33 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 34 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 35 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 36 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 37 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 38 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 39 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 40 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 41 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 42 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 43 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 44 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 45 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 46 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 47 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 48 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 49 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 50 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 51 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 52 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 53 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 54 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 55 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 56 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 57 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 58 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 59 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 60 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 61 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 62 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 63 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 64 cpSUF cpsuf NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 65 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 66 c c NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 67 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 68 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 69 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 70 c c NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 71 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 72 m m NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 73 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 74 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 75 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 76 cpSUF cpSUF . work_gfjn7ngtojauhn7kaf6bbbsq74 56 77 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 78 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 79 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 80 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 81 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 82 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 83 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 84 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 85 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 86 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 87 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 88 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 89 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 90 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 91 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 92 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 93 cpSUF cpSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 94 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 95 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 96 cpSUF cpSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 97 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 98 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 99 cpSUF cpSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 100 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 101 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 102 cpSUF cpSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 103 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 104 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 105 cpSUF cpSUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 106 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 107 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 108 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 109 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 56 110 3 3 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 111 C c NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 112 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 113 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 114 C c NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 115 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 116 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 117 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 118 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 119 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 120 Archaeplastida Archaeplastida NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 121 CCTH CCTH NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 122 SAR SAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 123 Excavata Excavata NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 124 Amoebozoa Amoebozoa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 125 Apusozoa Apusozoa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 126 Opisthokonta Opisthokonta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 127 Organelle Organelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 128 Fe Fe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 129 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 56 130 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 131 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 132 AP-5 ap-5 NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 133 TSET tset WRB work_gfjn7ngtojauhn7kaf6bbbsq74 56 134 Mitochondria Mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 135 History history NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 136 Pigment Pigment NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 137 Plastid Plastid NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 138 Membrane Membrane NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 139 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 56 140 tra tra NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 141 � � NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 142 cking cking NN work_gfjn7ngtojauhn7kaf6bbbsq74 56 143 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 144 Mito Mito NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 145 4534 4534 CD work_gfjn7ngtojauhn7kaf6bbbsq74 56 146 | | NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 147 E. E. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 148 Richardson Richardson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 149 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 56 150 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 56 151 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 57 1 Molecular Molecular NNP work_gfjn7ngtojauhn7kaf6bbbsq74 57 2 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 57 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 57 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 57 5 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 57 6 investigated investigate VBD work_gfjn7ngtojauhn7kaf6bbbsq74 57 7 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 57 8 appear appear VBP work_gfjn7ngtojauhn7kaf6bbbsq74 57 9 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 57 10 contain contain VB work_gfjn7ngtojauhn7kaf6bbbsq74 57 11 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 57 12 raises raise VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 57 13 questions question NNS work_gfjn7ngtojauhn7kaf6bbbsq74 57 14 about about IN work_gfjn7ngtojauhn7kaf6bbbsq74 57 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 57 16 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 57 17 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 57 18 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 57 19 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 57 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 57 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 57 22 organelle organelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 57 23 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 57 24 if if IN work_gfjn7ngtojauhn7kaf6bbbsq74 57 25 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 57 26 energy energy NN work_gfjn7ngtojauhn7kaf6bbbsq74 57 27 gen- gen- NN work_gfjn7ngtojauhn7kaf6bbbsq74 57 28 eration eration NN work_gfjn7ngtojauhn7kaf6bbbsq74 57 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 57 30 then then RB work_gfjn7ngtojauhn7kaf6bbbsq74 57 31 what what WP work_gfjn7ngtojauhn7kaf6bbbsq74 57 32 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 58 1 Proteomic proteomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 2 analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 58 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 58 4 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 58 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 58 6 MROs MROs NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 58 7 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 58 8 Sickmann Sickmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 9 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 10 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 11 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 13 2003 2003 CD work_gfjn7ngtojauhn7kaf6bbbsq74 58 14 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 58 15 Heazlewood Heazlewood NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 16 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 17 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 18 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 20 2004 2004 CD work_gfjn7ngtojauhn7kaf6bbbsq74 58 21 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 58 22 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 23 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 24 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 25 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 27 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 58 28 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 58 29 Jedelský Jedelský NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 30 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 31 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 32 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 33 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 34 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 58 35 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 58 36 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 58 37 demonstrated demonstrate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 58 38 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 58 39 formation formation NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 40 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 58 41 export export NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 42 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 58 43 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 44 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 58 45 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 46 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 58 47 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 58 48 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 58 49 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 50 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 58 51 clusters cluster NNS work_gfjn7ngtojauhn7kaf6bbbsq74 58 52 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 53 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 54 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 58 55 several several JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 56 enzymatic enzymatic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 57 catalyses catalysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 58 58 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 58 59 regula- regula- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 60 tion tion NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 61 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 58 62 gene gene NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 63 expression expression NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 64 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 65 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 58 66 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 58 67 only only JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 68 universally universally RB work_gfjn7ngtojauhn7kaf6bbbsq74 58 69 conserved conserve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 58 70 biosyn- biosyn- NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 71 thetic thetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 58 72 pathway pathway NN work_gfjn7ngtojauhn7kaf6bbbsq74 58 73 localized localize VBN work_gfjn7ngtojauhn7kaf6bbbsq74 58 74 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 58 75 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 58 76 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 58 77 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 58 78 Hjort Hjort NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 79 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 80 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 81 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 58 82 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 58 83 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 58 84 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 58 85 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 59 1 Although although IN work_gfjn7ngtojauhn7kaf6bbbsq74 59 2 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 59 3 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 59 4 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 59 5 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 59 6 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 59 7 assembled assemble VBN work_gfjn7ngtojauhn7kaf6bbbsq74 59 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 59 9 nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 59 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 59 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 59 12 individual individual JJ work_gfjn7ngtojauhn7kaf6bbbsq74 59 13 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 59 14 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 59 15 toxic toxic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 59 16 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 59 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 59 18 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 59 19 itself -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 59 20 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 60 1 In in IN work_gfjn7ngtojauhn7kaf6bbbsq74 60 2 typical typical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 60 3 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 60 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 60 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 60 6 mitochondrial mitochondrial NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 7 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 8 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 60 9 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 10 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 11 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 60 12 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 13 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 60 14 biosynthetic biosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 60 15 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 16 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 60 17 responsible responsible JJ work_gfjn7ngtojauhn7kaf6bbbsq74 60 18 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 60 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 60 20 assembly assembly NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 21 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 60 22 Fe Fe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 23 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 60 24 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 25 clusters cluster NNS work_gfjn7ngtojauhn7kaf6bbbsq74 60 26 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 60 27 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 60 28 mitochondria mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 29 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 60 30 supports support VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 60 31 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 60 32 cytosolic cytosolic NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 33 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 34 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 60 35 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 36 assembly assembly NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 37 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 60 38 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 39 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 60 40 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 41 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 60 42 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 43 2Ai 2ai CD work_gfjn7ngtojauhn7kaf6bbbsq74 60 44 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 60 45 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 60 46 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 60 47 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 60 48 assembly assembly NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 49 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 60 50 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 60 51 cytosolic cytosolic NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 52 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 60 53 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 60 54 Fe Fe NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 60 55 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 60 56 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 60 57 clus- clus- NN work_gfjn7ngtojauhn7kaf6bbbsq74 60 58 ters ter NNS work_gfjn7ngtojauhn7kaf6bbbsq74 60 59 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 61 1 It -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 61 2 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 61 3 now now RB work_gfjn7ngtojauhn7kaf6bbbsq74 61 4 widely widely RB work_gfjn7ngtojauhn7kaf6bbbsq74 61 5 accepted accept VBN work_gfjn7ngtojauhn7kaf6bbbsq74 61 6 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 61 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 61 8 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 9 could could MD work_gfjn7ngtojauhn7kaf6bbbsq74 61 10 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 61 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 61 12 raison raison NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 13 d’etre d’etre NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 61 15 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 61 16 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 61 17 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 61 18 Lill Lill NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 19 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 20 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 21 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 61 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 61 23 2005 2005 CD work_gfjn7ngtojauhn7kaf6bbbsq74 61 24 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 61 25 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 62 1 In in IN work_gfjn7ngtojauhn7kaf6bbbsq74 62 2 microbial microbial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 62 3 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 62 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 62 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 62 6 story story NN work_gfjn7ngtojauhn7kaf6bbbsq74 62 7 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 62 8 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 62 9 complicated complicated JJ work_gfjn7ngtojauhn7kaf6bbbsq74 62 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 63 1 Despite despite IN work_gfjn7ngtojauhn7kaf6bbbsq74 63 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 63 3 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 63 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 63 5 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 6 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 63 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 63 8 export export NN work_gfjn7ngtojauhn7kaf6bbbsq74 63 9 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 63 10 all all DT work_gfjn7ngtojauhn7kaf6bbbsq74 63 11 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 63 12 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 63 13 most most JJS work_gfjn7ngtojauhn7kaf6bbbsq74 63 14 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 63 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 63 16 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 63 17 remnant remnant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 63 18 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 63 19 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 63 20 Goldberg Goldberg NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 21 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 63 22 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 23 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 63 25 2008 2008 CD work_gfjn7ngtojauhn7kaf6bbbsq74 63 26 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 63 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 63 28 new new NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 29 Fe Fe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 30 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 63 31 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 63 32 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 63 33 biosynthetic biosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 63 34 machineries machinery NNS work_gfjn7ngtojauhn7kaf6bbbsq74 63 35 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 63 36 recently recently RB work_gfjn7ngtojauhn7kaf6bbbsq74 63 37 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 63 38 de- de- RB work_gfjn7ngtojauhn7kaf6bbbsq74 63 39 scribed scribe VBN work_gfjn7ngtojauhn7kaf6bbbsq74 63 40 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 63 41 microbial microbial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 63 42 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 63 43 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 64 1 Blastocystis blastocystis NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 64 3 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 64 4 anaerobic anaerobic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 64 5 member member NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 64 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 64 8 SAR SAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 64 9 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 10 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 64 11 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 12 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 64 13 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 64 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 64 15 encodes encode VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 64 16 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 64 17 fused fuse VBN work_gfjn7ngtojauhn7kaf6bbbsq74 64 18 version version NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 64 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 64 21 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 64 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 64 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 64 24 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 25 utilization utilization NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 26 factor factor NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 27 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 64 28 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 64 29 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 64 30 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 31 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 64 32 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 64 33 2Aii 2aii CD work_gfjn7ngtojauhn7kaf6bbbsq74 64 34 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 64 35 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 64 36 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 64 37 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 64 38 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 64 39 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 64 40 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 64 41 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 64 42 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 65 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 65 2 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 65 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 65 4 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 65 5 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 65 6 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 65 7 involved involve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 65 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 65 9 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 65 10 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 65 11 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 65 12 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 65 13 formation formation NN work_gfjn7ngtojauhn7kaf6bbbsq74 65 14 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 65 15 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 65 16 evolutionarily evolutionarily RB work_gfjn7ngtojauhn7kaf6bbbsq74 65 17 unrelated unrelated JJ work_gfjn7ngtojauhn7kaf6bbbsq74 65 18 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 65 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 65 20 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 65 21 machin- machin- NN work_gfjn7ngtojauhn7kaf6bbbsq74 65 22 ery ery NN work_gfjn7ngtojauhn7kaf6bbbsq74 65 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 65 24 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 65 25 typically typically RB work_gfjn7ngtojauhn7kaf6bbbsq74 65 26 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 65 27 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 65 28 bacteria bacteria NNS work_gfjn7ngtojauhn7kaf6bbbsq74 65 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 65 30 methanoarchaea methanoarchaea NNS work_gfjn7ngtojauhn7kaf6bbbsq74 65 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 65 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 65 33 plastid plastid NNP work_gfjn7ngtojauhn7kaf6bbbsq74 65 34 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 65 35 bear- bear- VBG work_gfjn7ngtojauhn7kaf6bbbsq74 65 36 ing ing NNP work_gfjn7ngtojauhn7kaf6bbbsq74 65 37 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 65 38 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 66 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 66 2 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 3 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 4 localizes localize NNS work_gfjn7ngtojauhn7kaf6bbbsq74 66 5 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 66 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 66 7 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 66 9 Blasto- Blasto- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 10 cystis cystis RB work_gfjn7ngtojauhn7kaf6bbbsq74 66 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 66 12 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 66 13 induced induce VBN work_gfjn7ngtojauhn7kaf6bbbsq74 66 14 under under IN work_gfjn7ngtojauhn7kaf6bbbsq74 66 15 oxygen oxygen NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 16 stress stress NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 17 conditions condition NNS work_gfjn7ngtojauhn7kaf6bbbsq74 66 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 66 19 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 20 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 66 21 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 22 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 66 24 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 66 25 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 66 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 66 27 potentially potentially RB work_gfjn7ngtojauhn7kaf6bbbsq74 66 28 affecting affect VBG work_gfjn7ngtojauhn7kaf6bbbsq74 66 29 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 66 30 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 31 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 32 protein protein NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 33 composition composition NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 34 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 66 35 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 66 36 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 66 37 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 38 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 66 39 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 40 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 66 41 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 66 42 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 66 43 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 66 44 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 67 1 A a DT work_gfjn7ngtojauhn7kaf6bbbsq74 67 2 similar similar JJ work_gfjn7ngtojauhn7kaf6bbbsq74 67 3 acquired acquire VBN work_gfjn7ngtojauhn7kaf6bbbsq74 67 4 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 67 5 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 67 6 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 67 7 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 67 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 67 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 67 10 free free RB work_gfjn7ngtojauhn7kaf6bbbsq74 67 11 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 67 12 living live VBG work_gfjn7ngtojauhn7kaf6bbbsq74 67 13 breviate breviate NN work_gfjn7ngtojauhn7kaf6bbbsq74 67 14 Pygsuia pygsuia JJ work_gfjn7ngtojauhn7kaf6bbbsq74 67 15 biforma biforma NN work_gfjn7ngtojauhn7kaf6bbbsq74 67 16 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 67 17 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 67 18 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 67 19 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 67 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 67 21 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 67 22 here here RB work_gfjn7ngtojauhn7kaf6bbbsq74 67 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 67 24 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 25 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 67 26 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 67 27 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 67 28 mitochondrially mitochondrially RB work_gfjn7ngtojauhn7kaf6bbbsq74 67 29 localized localize VBN work_gfjn7ngtojauhn7kaf6bbbsq74 67 30 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 67 31 Stairs Stairs NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 67 32 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 33 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 34 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 35 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 67 36 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 67 37 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 67 38 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 39 2Aiii 2Aiii NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 40 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 67 41 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 67 42 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 67 43 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 67 44 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 67 45 appears appear VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 67 46 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 67 47 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 67 48 absent absent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 67 49 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 68 1 Finally finally RB work_gfjn7ngtojauhn7kaf6bbbsq74 68 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 68 3 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 68 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 68 5 amoebozoans amoebozoan NNS work_gfjn7ngtojauhn7kaf6bbbsq74 68 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 68 7 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 8 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 68 9 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 68 10 Entamoeba Entamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 68 12 Mastig- Mastig- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 13 amoeba amoeba NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 68 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 68 16 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 17 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 18 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 68 19 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 68 20 nonexistent nonexistent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 68 21 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 68 22 instead instead RB work_gfjn7ngtojauhn7kaf6bbbsq74 68 23 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 68 24 nitrogen nitrogen NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 25 fixa- fixa- NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 26 tion tion NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 27 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 68 28 NIF)-related NIF)-related NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 29 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 30 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 68 31 epsilon epsilon NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 32 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 68 33 proteobacteria proteobacteria NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 34 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 68 35 localized localize VBN work_gfjn7ngtojauhn7kaf6bbbsq74 68 36 both both DT work_gfjn7ngtojauhn7kaf6bbbsq74 68 37 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 68 38 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 68 39 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 68 40 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 68 41 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 68 42 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 43 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 68 44 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 45 2A 2a NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 46 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 68 47 iv iv NN work_gfjn7ngtojauhn7kaf6bbbsq74 68 48 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 68 49 v v NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 50 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 68 51 Maralikova Maralikova NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 52 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 53 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 54 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 55 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 68 56 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 68 57 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 68 58 Nývltová Nývltová NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 59 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 60 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 61 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 68 62 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 68 63 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 68 64 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 68 65 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 69 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 69 2 calls call VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 69 3 into into IN work_gfjn7ngtojauhn7kaf6bbbsq74 69 4 question question NN work_gfjn7ngtojauhn7kaf6bbbsq74 69 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 69 6 pur- pur- NN work_gfjn7ngtojauhn7kaf6bbbsq74 69 7 pose pose NN work_gfjn7ngtojauhn7kaf6bbbsq74 69 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 69 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 69 10 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 69 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 69 12 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 69 13 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 69 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 69 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 69 16 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 69 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 69 18 existence existence NN work_gfjn7ngtojauhn7kaf6bbbsq74 69 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 69 20 ancestral ancestral JJ work_gfjn7ngtojauhn7kaf6bbbsq74 69 21 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 69 22 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 70 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 70 2 reasons reason NNS work_gfjn7ngtojauhn7kaf6bbbsq74 70 3 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 70 4 modifications modification NNS work_gfjn7ngtojauhn7kaf6bbbsq74 70 5 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 70 6 undeter- undeter- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 70 7 mined mined JJ work_gfjn7ngtojauhn7kaf6bbbsq74 70 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 70 9 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 70 10 alternations alternation NNS work_gfjn7ngtojauhn7kaf6bbbsq74 70 11 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 70 12 environmental environmental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 70 13 oxygen oxygen NN work_gfjn7ngtojauhn7kaf6bbbsq74 70 14 levels level NNS work_gfjn7ngtojauhn7kaf6bbbsq74 70 15 could could MD work_gfjn7ngtojauhn7kaf6bbbsq74 70 16 have have VB work_gfjn7ngtojauhn7kaf6bbbsq74 70 17 played play VBN work_gfjn7ngtojauhn7kaf6bbbsq74 70 18 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 70 19 fundamental fundamental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 70 20 role role NN work_gfjn7ngtojauhn7kaf6bbbsq74 70 21 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 70 22 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 70 23 acquisition acquisition NN work_gfjn7ngtojauhn7kaf6bbbsq74 70 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 70 25 selection selection NN work_gfjn7ngtojauhn7kaf6bbbsq74 70 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 70 27 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 70 28 retention retention NN work_gfjn7ngtojauhn7kaf6bbbsq74 70 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 71 1 Although although IN work_gfjn7ngtojauhn7kaf6bbbsq74 71 2 energy energy NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 3 production production NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 4 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 71 5 presently presently RB work_gfjn7ngtojauhn7kaf6bbbsq74 71 6 accepted accept VBN work_gfjn7ngtojauhn7kaf6bbbsq74 71 7 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 71 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 71 9 driver driver NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 10 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 71 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 71 12 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 13 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 71 14 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 15 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 71 16 Lane Lane NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 71 18 Martin Martin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 20 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 71 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 22 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 71 23 see see VB work_gfjn7ngtojauhn7kaf6bbbsq74 71 24 Gray Gray NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 26 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 71 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 28 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 71 29 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 71 30 intriguing intriguing JJ work_gfjn7ngtojauhn7kaf6bbbsq74 71 31 alternative alternative NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 32 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 71 33 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 34 it -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 71 35 appears appear VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 71 36 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 71 37 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 71 38 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 71 39 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 71 40 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 41 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 42 as- as- RB work_gfjn7ngtojauhn7kaf6bbbsq74 71 43 sembly sembly RB work_gfjn7ngtojauhn7kaf6bbbsq74 71 44 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 71 45 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 71 46 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 71 47 organelle organelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 48 ’s ’s POS work_gfjn7ngtojauhn7kaf6bbbsq74 71 49 conserved conserve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 71 50 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 71 51 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 71 52 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 71 53 Lill Lill NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 54 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 55 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 56 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 57 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 58 2005 2005 CD work_gfjn7ngtojauhn7kaf6bbbsq74 71 59 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 71 60 Embley Embley NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 61 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 71 62 Martin Martin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 71 63 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 71 64 2006 2006 CD work_gfjn7ngtojauhn7kaf6bbbsq74 71 65 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 71 66 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 72 1 Still still RB work_gfjn7ngtojauhn7kaf6bbbsq74 72 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 3 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 4 25–40 25–40 CD work_gfjn7ngtojauhn7kaf6bbbsq74 72 5 % % NN work_gfjn7ngtojauhn7kaf6bbbsq74 72 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 7 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 8 be- be- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 9 ing ing NN work_gfjn7ngtojauhn7kaf6bbbsq74 72 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 11 unknown unknown JJ work_gfjn7ngtojauhn7kaf6bbbsq74 72 12 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 72 13 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 14 all all DT work_gfjn7ngtojauhn7kaf6bbbsq74 72 15 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 16 studied study VBN work_gfjn7ngtojauhn7kaf6bbbsq74 72 17 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 18 date date NN work_gfjn7ngtojauhn7kaf6bbbsq74 72 19 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 72 20 Sickmann Sickmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 21 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 22 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 23 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 25 2003 2003 CD work_gfjn7ngtojauhn7kaf6bbbsq74 72 26 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 72 27 Heazlewood Heazlewood NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 28 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 29 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 30 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 32 2004 2004 CD work_gfjn7ngtojauhn7kaf6bbbsq74 72 33 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 72 34 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 35 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 36 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 37 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 38 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 39 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 72 40 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 72 41 Jedelský Jedelský NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 42 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 43 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 44 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 45 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 46 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 72 47 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 72 48 Schneider Schneider NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 49 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 50 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 51 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 52 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 53 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 72 54 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 72 55 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 72 56 investigating investigate VBG work_gfjn7ngtojauhn7kaf6bbbsq74 72 57 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 72 58 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 72 59 unknown unknown JJ work_gfjn7ngtojauhn7kaf6bbbsq74 72 60 functions function NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 61 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 72 62 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 63 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 64 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 72 65 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 66 could could MD work_gfjn7ngtojauhn7kaf6bbbsq74 72 67 yet yet RB work_gfjn7ngtojauhn7kaf6bbbsq74 72 68 provide provide VB work_gfjn7ngtojauhn7kaf6bbbsq74 72 69 us -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 72 70 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 71 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 72 72 unexpected unexpected JJ work_gfjn7ngtojauhn7kaf6bbbsq74 72 73 answers answer NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 74 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 75 understanding understand VBG work_gfjn7ngtojauhn7kaf6bbbsq74 72 76 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 72 77 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 72 78 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 72 79 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 72 80 role role NN work_gfjn7ngtojauhn7kaf6bbbsq74 72 81 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 72 82 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 72 83 organelle organelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 72 84 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 73 1 PLASTID PLASTID NNP work_gfjn7ngtojauhn7kaf6bbbsq74 73 2 ACQUISITION ACQUISITION NNP work_gfjn7ngtojauhn7kaf6bbbsq74 73 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 73 4 COMPLEX COMPLEX NNP work_gfjn7ngtojauhn7kaf6bbbsq74 73 5 ENDOSYMBIOTIC ENDOSYMBIOTIC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 73 6 HISTORY history NN work_gfjn7ngtojauhn7kaf6bbbsq74 73 7 SHAPES shapes NN work_gfjn7ngtojauhn7kaf6bbbsq74 73 8 PHYSIOLOGY PHYSIOLOGY MD work_gfjn7ngtojauhn7kaf6bbbsq74 73 9 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 73 10 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 73 11 well well RB work_gfjn7ngtojauhn7kaf6bbbsq74 73 12 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 73 13 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 73 14 endosymbiotic endosymbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 73 15 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 73 16 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 73 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 73 18 chloro- chloro- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 73 19 plasts plast NNS work_gfjn7ngtojauhn7kaf6bbbsq74 73 20 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 73 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 73 22 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 73 23 generically generically RB work_gfjn7ngtojauhn7kaf6bbbsq74 73 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 73 25 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 73 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 74 1 Best well RBS work_gfjn7ngtojauhn7kaf6bbbsq74 74 2 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 74 3 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 4 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 74 5 role role NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 6 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 74 8 site site NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 10 photosynthesis photosynthesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 11 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 12 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 74 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 74 14 they -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 74 15 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 74 16 carry carry VB work_gfjn7ngtojauhn7kaf6bbbsq74 74 17 out out RP work_gfjn7ngtojauhn7kaf6bbbsq74 74 18 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 74 19 number number NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 21 Excavata Excavata NNP work_gfjn7ngtojauhn7kaf6bbbsq74 74 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 74 23 includes include VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 74 24 important important JJ work_gfjn7ngtojauhn7kaf6bbbsq74 74 25 parasites parasite NNS work_gfjn7ngtojauhn7kaf6bbbsq74 74 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 74 27 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 74 28 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 29 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 74 30 diarrheal diarrheal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 74 31 agent agent NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 32 Giardia Giardia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 74 33 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 74 34 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 74 35 agent agent NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 36 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 74 37 African african JJ work_gfjn7ngtojauhn7kaf6bbbsq74 74 38 sleeping sleep VBG work_gfjn7ngtojauhn7kaf6bbbsq74 74 39 sickness sickness NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 40 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 74 41 Trypanosoma Trypanosoma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 74 42 brucei brucei NN work_gfjn7ngtojauhn7kaf6bbbsq74 74 43 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 75 1 FUNCTION function NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 2 AND and CC work_gfjn7ngtojauhn7kaf6bbbsq74 75 3 DIVERSITY diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 4 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 75 5 HOW how WRB work_gfjn7ngtojauhn7kaf6bbbsq74 75 6 ONE one CD work_gfjn7ngtojauhn7kaf6bbbsq74 75 7 INFORMS inform VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 75 8 THE the DT work_gfjn7ngtojauhn7kaf6bbbsq74 75 9 OTHER OTHER NNP work_gfjn7ngtojauhn7kaf6bbbsq74 75 10 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 75 11 question question NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 12 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 75 13 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 75 14 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 75 15 lineage lineage NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 16 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 75 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 75 18 most most RBS work_gfjn7ngtojauhn7kaf6bbbsq74 75 19 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 75 20 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 75 21 i.e. i.e. FW work_gfjn7ngtojauhn7kaf6bbbsq74 75 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 75 23 where where WRB work_gfjn7ngtojauhn7kaf6bbbsq74 75 24 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 75 25 root root NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 26 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 75 27 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 75 28 tree tree NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 29 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 75 30 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 75 31 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 75 32 placed place VBN work_gfjn7ngtojauhn7kaf6bbbsq74 75 33 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 75 34 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 75 35 important important JJ work_gfjn7ngtojauhn7kaf6bbbsq74 75 36 implications implication NNS work_gfjn7ngtojauhn7kaf6bbbsq74 75 37 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 75 38 how how WRB work_gfjn7ngtojauhn7kaf6bbbsq74 75 39 one one CD work_gfjn7ngtojauhn7kaf6bbbsq74 75 40 interprets interpret VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 75 41 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 42 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 75 43 data datum NNS work_gfjn7ngtojauhn7kaf6bbbsq74 75 44 between between IN work_gfjn7ngtojauhn7kaf6bbbsq74 75 45 or- or- NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 46 ganisms ganism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 75 47 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 75 48 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 75 49 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 75 50 time time NN work_gfjn7ngtojauhn7kaf6bbbsq74 75 51 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 76 1 Cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 76 2 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 76 3 traits trait NNS work_gfjn7ngtojauhn7kaf6bbbsq74 76 4 ob- ob- XX work_gfjn7ngtojauhn7kaf6bbbsq74 76 5 served serve VBD work_gfjn7ngtojauhn7kaf6bbbsq74 76 6 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 76 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 76 8 various various JJ work_gfjn7ngtojauhn7kaf6bbbsq74 76 9 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 76 10 supergroups supergroup NNS work_gfjn7ngtojauhn7kaf6bbbsq74 76 11 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 76 12 most most RBS work_gfjn7ngtojauhn7kaf6bbbsq74 76 13 logically logically RB work_gfjn7ngtojauhn7kaf6bbbsq74 76 14 in- in- RB work_gfjn7ngtojauhn7kaf6bbbsq74 76 15 terpreted terprete VBN work_gfjn7ngtojauhn7kaf6bbbsq74 76 16 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 76 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 76 18 starting start VBG work_gfjn7ngtojauhn7kaf6bbbsq74 76 19 state state NN work_gfjn7ngtojauhn7kaf6bbbsq74 76 20 being be VBG work_gfjn7ngtojauhn7kaf6bbbsq74 76 21 at at IN work_gfjn7ngtojauhn7kaf6bbbsq74 76 22 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 76 23 root root NN work_gfjn7ngtojauhn7kaf6bbbsq74 76 24 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 76 25 change change NN work_gfjn7ngtojauhn7kaf6bbbsq74 76 26 inferred infer VBN work_gfjn7ngtojauhn7kaf6bbbsq74 76 27 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 76 28 there there RB work_gfjn7ngtojauhn7kaf6bbbsq74 76 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 77 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 77 2 latest late JJS work_gfjn7ngtojauhn7kaf6bbbsq74 77 3 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 77 4 most most RBS work_gfjn7ngtojauhn7kaf6bbbsq74 77 5 robust robust JJ work_gfjn7ngtojauhn7kaf6bbbsq74 77 6 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 77 7 evolution- evolution- NN work_gfjn7ngtojauhn7kaf6bbbsq74 77 8 ary ary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 77 9 analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 77 10 place place NN work_gfjn7ngtojauhn7kaf6bbbsq74 77 11 Excavata Excavata NNP work_gfjn7ngtojauhn7kaf6bbbsq74 77 12 straddling straddle VBG work_gfjn7ngtojauhn7kaf6bbbsq74 77 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 77 14 root root NN work_gfjn7ngtojauhn7kaf6bbbsq74 77 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 77 16 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 77 17 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 77 18 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 77 19 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 77 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 77 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 77 22 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 77 23 would would MD work_gfjn7ngtojauhn7kaf6bbbsq74 77 24 place place VB work_gfjn7ngtojauhn7kaf6bbbsq74 77 25 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 77 26 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 77 27 divide divide NN work_gfjn7ngtojauhn7kaf6bbbsq74 77 28 between between IN work_gfjn7ngtojauhn7kaf6bbbsq74 77 29 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 77 30 mem- mem- NN work_gfjn7ngtojauhn7kaf6bbbsq74 77 31 bers ber NNS work_gfjn7ngtojauhn7kaf6bbbsq74 77 32 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 77 33 Derelle Derelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 77 34 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 77 35 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 77 36 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 77 37 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 77 38 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 77 39 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 77 40 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 78 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 78 2 rooting rooting NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 3 implies imply VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 78 4 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 78 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 78 6 last last JJ work_gfjn7ngtojauhn7kaf6bbbsq74 78 7 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 78 8 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 78 9 ancestor ancestor NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 10 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 78 11 LECA LECA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 78 12 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 78 13 had have VBD work_gfjn7ngtojauhn7kaf6bbbsq74 78 14 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 78 15 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 78 16 set set NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 17 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 78 18 cytoskeletal cytoskeletal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 78 19 ar- ar- NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 20 rangements rangement NNS work_gfjn7ngtojauhn7kaf6bbbsq74 78 21 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 78 22 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 78 23 likely likely RB work_gfjn7ngtojauhn7kaf6bbbsq74 78 24 biflagellated biflagellate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 78 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 78 26 Yubuki Yubuki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 78 27 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 78 28 Leander Leander NNP work_gfjn7ngtojauhn7kaf6bbbsq74 78 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 78 30 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 78 31 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 78 32 Derelle Derelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 78 33 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 78 34 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 78 35 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 78 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 78 37 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 78 38 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 78 39 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 78 40 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 78 41 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 78 42 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 78 43 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 78 44 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 45 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 46 we -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 78 47 observe observe VBP work_gfjn7ngtojauhn7kaf6bbbsq74 78 48 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 78 49 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 78 50 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 78 51 even even RB work_gfjn7ngtojauhn7kaf6bbbsq74 78 52 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 78 53 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 78 54 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 78 55 diverged diverge VBD work_gfjn7ngtojauhn7kaf6bbbsq74 78 56 extremely extremely RB work_gfjn7ngtojauhn7kaf6bbbsq74 78 57 early early RB work_gfjn7ngtojauhn7kaf6bbbsq74 78 58 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 78 59 evolu- evolu- NNS work_gfjn7ngtojauhn7kaf6bbbsq74 78 60 tionary tionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 78 61 history history NN work_gfjn7ngtojauhn7kaf6bbbsq74 78 62 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 79 1 Comparative comparative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 79 2 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 79 3 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 79 4 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 79 5 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 79 6 re- re- RB work_gfjn7ngtojauhn7kaf6bbbsq74 79 7 construct construct VBP work_gfjn7ngtojauhn7kaf6bbbsq74 79 8 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 79 9 LECA leca NN work_gfjn7ngtojauhn7kaf6bbbsq74 79 10 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 79 11 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 79 12 anything anything NN work_gfjn7ngtojauhn7kaf6bbbsq74 79 13 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 79 14 simple simple JJ work_gfjn7ngtojauhn7kaf6bbbsq74 79 15 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 79 16 primitive primitive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 79 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 80 1 Analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 80 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 80 3 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 80 4 associated associate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 80 5 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 80 6 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 80 7 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 80 9 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 10 trafficking trafficking NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 80 12 metabolism metabolism NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 80 14 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 80 15 more more JJR work_gfjn7ngtojauhn7kaf6bbbsq74 80 16 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 80 17 reconstructed reconstruct VBN work_gfjn7ngtojauhn7kaf6bbbsq74 80 18 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 80 19 sophisticated sophisticated JJ work_gfjn7ngtojauhn7kaf6bbbsq74 80 20 comple- comple- NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 21 ment ment JJ work_gfjn7ngtojauhn7kaf6bbbsq74 80 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 80 23 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 24 present present JJ work_gfjn7ngtojauhn7kaf6bbbsq74 80 25 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 80 26 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 80 27 LECA LECA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 28 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 80 29 Koumandou Koumandou NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 30 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 80 31 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 32 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 33 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 80 34 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 80 35 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 80 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 80 37 estimated estimate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 80 38 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 80 39 have have VB work_gfjn7ngtojauhn7kaf6bbbsq74 80 40 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 80 41 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 80 42 existence existence NN work_gfjn7ngtojauhn7kaf6bbbsq74 80 43 ∼1.5 ∼1.5 RB work_gfjn7ngtojauhn7kaf6bbbsq74 80 44 billion billion CD work_gfjn7ngtojauhn7kaf6bbbsq74 80 45 years year NNS work_gfjn7ngtojauhn7kaf6bbbsq74 80 46 ago ago RB work_gfjn7ngtojauhn7kaf6bbbsq74 80 47 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 80 48 Eme Eme NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 49 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 50 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 51 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 80 52 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 80 53 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 80 54 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 80 55 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 81 1 Delving delve VBG work_gfjn7ngtojauhn7kaf6bbbsq74 81 2 into into IN work_gfjn7ngtojauhn7kaf6bbbsq74 81 3 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 81 4 complexity complexity NN work_gfjn7ngtojauhn7kaf6bbbsq74 81 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 81 6 particularly particularly RB work_gfjn7ngtojauhn7kaf6bbbsq74 81 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 81 8 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 81 9 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 81 10 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 81 11 genomic genomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 81 12 information information NN work_gfjn7ngtojauhn7kaf6bbbsq74 81 13 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 81 14 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 81 15 combined combine VBN work_gfjn7ngtojauhn7kaf6bbbsq74 81 16 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 81 17 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 81 18 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 81 19 biologi- biologi- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 81 20 cal cal NNP work_gfjn7ngtojauhn7kaf6bbbsq74 81 21 analyses analyses NNP work_gfjn7ngtojauhn7kaf6bbbsq74 81 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 81 23 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 81 24 provided provide VBN work_gfjn7ngtojauhn7kaf6bbbsq74 81 25 surprising surprising JJ work_gfjn7ngtojauhn7kaf6bbbsq74 81 26 findings finding NNS work_gfjn7ngtojauhn7kaf6bbbsq74 81 27 about about IN work_gfjn7ngtojauhn7kaf6bbbsq74 81 28 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 81 29 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 81 30 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 81 31 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 81 32 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 81 33 modern modern JJ work_gfjn7ngtojauhn7kaf6bbbsq74 81 34 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 81 35 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 82 1 We -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 82 2 highlight highlight VBP work_gfjn7ngtojauhn7kaf6bbbsq74 82 3 three three CD work_gfjn7ngtojauhn7kaf6bbbsq74 82 4 examples example NNS work_gfjn7ngtojauhn7kaf6bbbsq74 82 5 below below RB work_gfjn7ngtojauhn7kaf6bbbsq74 82 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 82 7 show- show- VBG work_gfjn7ngtojauhn7kaf6bbbsq74 82 8 ing e VBG work_gfjn7ngtojauhn7kaf6bbbsq74 82 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 82 10 different different JJ work_gfjn7ngtojauhn7kaf6bbbsq74 82 11 ways way NNS work_gfjn7ngtojauhn7kaf6bbbsq74 82 12 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 82 13 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 82 14 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 82 15 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 82 16 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 82 17 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 82 18 ap- ap- NN work_gfjn7ngtojauhn7kaf6bbbsq74 82 19 proach proach NN work_gfjn7ngtojauhn7kaf6bbbsq74 82 20 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 82 21 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 82 22 fruitful fruitful JJ work_gfjn7ngtojauhn7kaf6bbbsq74 82 23 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 83 1 In in IN work_gfjn7ngtojauhn7kaf6bbbsq74 83 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 83 3 first first JJ work_gfjn7ngtojauhn7kaf6bbbsq74 83 4 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 83 5 examples example NNS work_gfjn7ngtojauhn7kaf6bbbsq74 83 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 83 7 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 83 8 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 83 9 di- di- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 83 10 vergent vergent NNP work_gfjn7ngtojauhn7kaf6bbbsq74 83 11 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 83 12 were be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 83 13 studied study VBN work_gfjn7ngtojauhn7kaf6bbbsq74 83 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 83 15 order order NN work_gfjn7ngtojauhn7kaf6bbbsq74 83 16 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 83 17 better well RBR work_gfjn7ngtojauhn7kaf6bbbsq74 83 18 understand understand VB work_gfjn7ngtojauhn7kaf6bbbsq74 83 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 83 20 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 83 21 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 83 22 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 83 23 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 83 24 organellar organellar JJ work_gfjn7ngtojauhn7kaf6bbbsq74 83 25 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 83 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 84 1 In in IN work_gfjn7ngtojauhn7kaf6bbbsq74 84 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 84 3 last last JJ work_gfjn7ngtojauhn7kaf6bbbsq74 84 4 case case NN work_gfjn7ngtojauhn7kaf6bbbsq74 84 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 84 6 purely purely RB work_gfjn7ngtojauhn7kaf6bbbsq74 84 7 exploratory exploratory JJ work_gfjn7ngtojauhn7kaf6bbbsq74 84 8 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 84 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 84 10 genomic genomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 84 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 84 12 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 84 13 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 84 14 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 84 15 revealed reveal VBD work_gfjn7ngtojauhn7kaf6bbbsq74 84 16 unforeseen unforeseen JJ work_gfjn7ngtojauhn7kaf6bbbsq74 84 17 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 84 18 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 84 19 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 84 20 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 84 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 85 1 MITOCHONDRIA mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 85 2 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 85 3 HIGHLY HIGHLY NNS work_gfjn7ngtojauhn7kaf6bbbsq74 85 4 RETAINED RETAINED NNS work_gfjn7ngtojauhn7kaf6bbbsq74 85 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 85 6 BUT but CC work_gfjn7ngtojauhn7kaf6bbbsq74 85 7 WHY why WRB work_gfjn7ngtojauhn7kaf6bbbsq74 85 8 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 86 1 Best well RBS work_gfjn7ngtojauhn7kaf6bbbsq74 86 2 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 86 3 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 86 5 powerhouse powerhouse NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 86 8 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 86 10 due due IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 11 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 12 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 86 13 involvement involvement NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 15 aerobic aerobic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 86 16 respiration respiration NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 86 18 energy energy NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 19 generation generation NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 86 21 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 86 22 were be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 86 23 among among IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 24 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 86 25 first first JJ work_gfjn7ngtojauhn7kaf6bbbsq74 86 26 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 86 27 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 86 28 capture capture VB work_gfjn7ngtojauhn7kaf6bbbsq74 86 29 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 86 30 attention attention NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 31 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 86 32 inspiration inspiration NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 33 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 86 34 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 86 35 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 86 36 biologists biologist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 86 37 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 87 1 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 2 analysis analysis NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 3 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 87 4 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 5 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 87 7 startling startling JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 8 discovery discovery NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 9 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 87 11 1980s 1980 NNS work_gfjn7ngtojauhn7kaf6bbbsq74 87 12 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 87 13 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 87 14 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 87 15 derived derive VBN work_gfjn7ngtojauhn7kaf6bbbsq74 87 16 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 17 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 87 18 endosymbiotic endosymbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 19 alpha alpha NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 20 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 87 21 proteobacterium proteobacterium NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 22 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 87 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 87 24 further further JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 25 revela- revela- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 26 tion tion NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 27 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 87 28 Muller Muller NNP work_gfjn7ngtojauhn7kaf6bbbsq74 87 29 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 87 30 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 87 31 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 87 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 87 33 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 87 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 87 35 among among IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 36 others other NNS work_gfjn7ngtojauhn7kaf6bbbsq74 87 37 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 87 38 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 39 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 87 40 diverse diverse JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 41 double double JJ work_gfjn7ngtojauhn7kaf6bbbsq74 87 42 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 43 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 87 44 bound bind VBN work_gfjn7ngtojauhn7kaf6bbbsq74 87 45 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 87 46 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 47 disparately disparately RB work_gfjn7ngtojauhn7kaf6bbbsq74 87 48 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 87 49 anaerobic anaerobic NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 50 eu- eu- IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 51 karyotes karyote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 87 52 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 87 53 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 87 54 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 87 55 fact fact NN work_gfjn7ngtojauhn7kaf6bbbsq74 87 56 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 87 57 derived derive VBD work_gfjn7ngtojauhn7kaf6bbbsq74 87 58 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 87 59 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 88 1 Hydrogen hydrogen NN work_gfjn7ngtojauhn7kaf6bbbsq74 88 2 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 88 3 producing produce VBG work_gfjn7ngtojauhn7kaf6bbbsq74 88 4 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 88 5 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 88 6 i.e. i.e. FW work_gfjn7ngtojauhn7kaf6bbbsq74 88 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 88 8 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 88 9 hydrogenosomes hydrogenosomes FW work_gfjn7ngtojauhn7kaf6bbbsq74 88 10 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 88 11 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 88 12 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 88 13 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 88 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 88 15 ciliates ciliate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 88 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 88 17 members member NNS work_gfjn7ngtojauhn7kaf6bbbsq74 88 18 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 88 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 88 20 SAR SAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 88 21 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 88 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 88 23 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 88 24 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 88 25 several several JJ work_gfjn7ngtojauhn7kaf6bbbsq74 88 26 members member NNS work_gfjn7ngtojauhn7kaf6bbbsq74 88 27 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 88 28 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 88 29 Excavata Excavata NNP work_gfjn7ngtojauhn7kaf6bbbsq74 88 30 group group NN work_gfjn7ngtojauhn7kaf6bbbsq74 88 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 88 32 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 88 33 Trichomonas Trichomonas NNP work_gfjn7ngtojauhn7kaf6bbbsq74 88 34 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 88 35 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 88 36 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 88 37 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 88 38 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 89 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 89 2 even even RB work_gfjn7ngtojauhn7kaf6bbbsq74 89 3 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 89 4 reduced reduced JJ work_gfjn7ngtojauhn7kaf6bbbsq74 89 5 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 89 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 89 7 so so RB work_gfjn7ngtojauhn7kaf6bbbsq74 89 8 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 89 9 called call VBN work_gfjn7ngtojauhn7kaf6bbbsq74 89 10 mitosomes mitosome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 89 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 89 12 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 89 13 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 89 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 89 15 diverse diverse JJ work_gfjn7ngtojauhn7kaf6bbbsq74 89 16 groups group NNS work_gfjn7ngtojauhn7kaf6bbbsq74 89 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 89 18 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 89 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 89 20 metamonad metamonad NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 21 Giardia Giardia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 89 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 89 24 amoebozoan amoebozoan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 25 Entamoeba Entamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 89 27 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 89 28 apicomplexan apicomplexan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 29 Cryptosporidium Cryptosporidium NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 89 31 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 89 32 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 89 33 opisthokont opisthokont NN work_gfjn7ngtojauhn7kaf6bbbsq74 89 34 micro- micro- NN work_gfjn7ngtojauhn7kaf6bbbsq74 89 35 sporidia sporidia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 36 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 89 37 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 89 38 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 89 39 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 89 40 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 90 1 These these DT work_gfjn7ngtojauhn7kaf6bbbsq74 90 2 mitochondria mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 90 3 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 90 4 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 90 5 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 90 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 90 7 here- here- VBN work_gfjn7ngtojauhn7kaf6bbbsq74 90 8 after after IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 9 collectively collectively RB work_gfjn7ngtojauhn7kaf6bbbsq74 90 10 called call VBN work_gfjn7ngtojauhn7kaf6bbbsq74 90 11 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 90 12 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 90 13 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 90 14 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 90 15 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 90 16 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 17 at at RB work_gfjn7ngtojauhn7kaf6bbbsq74 90 18 least least RBS work_gfjn7ngtojauhn7kaf6bbbsq74 90 19 one one CD work_gfjn7ngtojauhn7kaf6bbbsq74 90 20 taxon taxon NN work_gfjn7ngtojauhn7kaf6bbbsq74 90 21 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 22 almost almost RB work_gfjn7ngtojauhn7kaf6bbbsq74 90 23 all all DT work_gfjn7ngtojauhn7kaf6bbbsq74 90 24 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 90 25 supergroups supergroup NNS work_gfjn7ngtojauhn7kaf6bbbsq74 90 26 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 90 27 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 90 28 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 90 29 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 90 30 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 90 31 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 90 32 harbor harbor VB work_gfjn7ngtojauhn7kaf6bbbsq74 90 33 no no DT work_gfjn7ngtojauhn7kaf6bbbsq74 90 34 more more JJR work_gfjn7ngtojauhn7kaf6bbbsq74 90 35 than than IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 36 130 130 CD work_gfjn7ngtojauhn7kaf6bbbsq74 90 37 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 90 38 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 90 39 Jedelský Jedelský NNP work_gfjn7ngtojauhn7kaf6bbbsq74 90 40 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 90 41 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 90 42 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 90 43 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 90 44 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 90 45 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 90 46 out out IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 47 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 48 1200 1200 CD work_gfjn7ngtojauhn7kaf6bbbsq74 90 49 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 90 50 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 90 51 usually usually RB work_gfjn7ngtojauhn7kaf6bbbsq74 90 52 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 90 53 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 90 54 canonical canonical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 90 55 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 90 56 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 91 1 Contrary contrary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 91 2 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 91 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 91 4 well- well- NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 5 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 91 6 role role NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 7 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 91 8 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 91 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 91 10 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 91 11 MROs mro NNS work_gfjn7ngtojauhn7kaf6bbbsq74 91 12 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 91 13 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 91 14 involved involve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 91 15 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 91 16 energy energy NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 17 generation generation NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 18 at at RB work_gfjn7ngtojauhn7kaf6bbbsq74 91 19 all all RB work_gfjn7ngtojauhn7kaf6bbbsq74 91 20 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 91 21 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 91 22 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 91 23 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 91 24 steal steal VB work_gfjn7ngtojauhn7kaf6bbbsq74 91 25 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 91 26 ATP atp NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 27 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 91 28 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 91 29 organism organism NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 30 ’s ’s POS work_gfjn7ngtojauhn7kaf6bbbsq74 91 31 cyto- cyto- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 91 32 sol sol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 91 33 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 91 34 order order NN work_gfjn7ngtojauhn7kaf6bbbsq74 91 35 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 91 36 function function VB work_gfjn7ngtojauhn7kaf6bbbsq74 91 37 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 91 38 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 91 39 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 91 40 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 91 41 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 91 42 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 91 43 2008 2008 CD work_gfjn7ngtojauhn7kaf6bbbsq74 91 44 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 91 45 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 92 1 That that IN work_gfjn7ngtojauhn7kaf6bbbsq74 92 2 all all DT work_gfjn7ngtojauhn7kaf6bbbsq74 92 3 currently currently RB work_gfjn7ngtojauhn7kaf6bbbsq74 92 4 Volume volume NN work_gfjn7ngtojauhn7kaf6bbbsq74 92 5 26 26 CD work_gfjn7ngtojauhn7kaf6bbbsq74 92 6 December December NNP work_gfjn7ngtojauhn7kaf6bbbsq74 92 7 15 15 CD work_gfjn7ngtojauhn7kaf6bbbsq74 92 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 92 9 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 92 10 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 92 11 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 92 12 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 92 13 | | CD work_gfjn7ngtojauhn7kaf6bbbsq74 92 14 4535 4535 CD work_gfjn7ngtojauhn7kaf6bbbsq74 92 15 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 92 16 functions function NNS work_gfjn7ngtojauhn7kaf6bbbsq74 92 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 92 18 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 92 19 synthesis synthesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 92 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 92 21 cofactors cofactor NNS work_gfjn7ngtojauhn7kaf6bbbsq74 92 22 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 92 23 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 92 24 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 92 25 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 92 26 clusters cluster NNS work_gfjn7ngtojauhn7kaf6bbbsq74 92 27 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 92 28 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 92 29 fatty fatty NN work_gfjn7ngtojauhn7kaf6bbbsq74 92 30 acids acid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 92 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 92 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 92 33 heme heme NNP work_gfjn7ngtojauhn7kaf6bbbsq74 92 34 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 92 35 Dorrell Dorrell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 92 36 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 92 37 Howe Howe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 92 38 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 92 39 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 92 40 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 92 41 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 93 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 93 2 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 93 3 history history NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 93 5 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 93 6 given give VBN work_gfjn7ngtojauhn7kaf6bbbsq74 93 7 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 8 provides provide VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 93 9 context context NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 10 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 93 11 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 93 12 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 13 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 93 15 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 93 16 thus thus RB work_gfjn7ngtojauhn7kaf6bbbsq74 93 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 93 18 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 93 20 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 93 21 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 93 22 organelle organelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 93 23 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 93 24 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 93 25 dazzling dazzling JJ work_gfjn7ngtojauhn7kaf6bbbsq74 93 26 array array NN work_gfjn7ngtojauhn7kaf6bbbsq74 93 27 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 93 28 ecologically ecologically RB work_gfjn7ngtojauhn7kaf6bbbsq74 93 29 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 93 30 agriculturally agriculturally RB work_gfjn7ngtojauhn7kaf6bbbsq74 93 31 important important JJ work_gfjn7ngtojauhn7kaf6bbbsq74 93 32 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 93 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 94 1 Plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 94 2 initially initially RB work_gfjn7ngtojauhn7kaf6bbbsq74 94 3 arose arise VBD work_gfjn7ngtojauhn7kaf6bbbsq74 94 4 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 94 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 94 6 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 7 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 94 8 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 9 2Bi 2bi CD work_gfjn7ngtojauhn7kaf6bbbsq74 94 10 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 94 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 94 12 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 94 13 cyanobacterium cyanobacterium NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 14 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 94 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 94 16 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 94 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 94 18 heterotrophic heterotrophic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 94 19 ancestor ancestor NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 94 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 94 22 archaeplastids archaeplastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 94 23 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 94 24 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 94 25 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 94 27 red red NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 28 al- al- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 29 gae gae NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 94 31 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 94 32 plants plant NNS work_gfjn7ngtojauhn7kaf6bbbsq74 94 33 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 94 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 94 35 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 94 36 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 94 37 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 38 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 94 39 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 94 40 limited limit VBN work_gfjn7ngtojauhn7kaf6bbbsq74 94 41 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 94 42 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 94 43 supergroup supergroup NN work_gfjn7ngtojauhn7kaf6bbbsq74 94 44 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 94 45 Walker Walker NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 46 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 47 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 48 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 94 49 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 94 50 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 94 51 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 94 52 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 95 1 Members member NNS work_gfjn7ngtojauhn7kaf6bbbsq74 95 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 95 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 95 4 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 95 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 95 6 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 95 7 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 95 8 were be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 95 9 subsequently subsequently RB work_gfjn7ngtojauhn7kaf6bbbsq74 95 10 taken take VBN work_gfjn7ngtojauhn7kaf6bbbsq74 95 11 up up RP work_gfjn7ngtojauhn7kaf6bbbsq74 95 12 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 95 13 converted convert VBN work_gfjn7ngtojauhn7kaf6bbbsq74 95 14 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 95 15 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 95 16 through through IN work_gfjn7ngtojauhn7kaf6bbbsq74 95 17 higher- higher- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 95 18 order order NN work_gfjn7ngtojauhn7kaf6bbbsq74 95 19 endosymbioses endosymbiose NNS work_gfjn7ngtojauhn7kaf6bbbsq74 95 20 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 95 21 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 95 22 2Bii 2bii CD work_gfjn7ngtojauhn7kaf6bbbsq74 95 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 95 24 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 95 25 at at RB work_gfjn7ngtojauhn7kaf6bbbsq74 95 26 least least JJS work_gfjn7ngtojauhn7kaf6bbbsq74 95 27 seven seven CD work_gfjn7ngtojauhn7kaf6bbbsq74 95 28 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 95 29 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 95 30 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 95 31 distributed distribute VBN work_gfjn7ngtojauhn7kaf6bbbsq74 95 32 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 95 33 multiple multiple JJ work_gfjn7ngtojauhn7kaf6bbbsq74 95 34 supergroups supergroup NNS work_gfjn7ngtojauhn7kaf6bbbsq74 95 35 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 95 36 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 95 37 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 95 38 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 95 39 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 96 1 Endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 96 2 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 96 3 initially initially RB work_gfjn7ngtojauhn7kaf6bbbsq74 96 4 considered consider VBN work_gfjn7ngtojauhn7kaf6bbbsq74 96 5 rare rare JJ work_gfjn7ngtojauhn7kaf6bbbsq74 96 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 96 7 due due JJ work_gfjn7ngtojauhn7kaf6bbbsq74 96 8 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 96 9 it -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 96 10 being be VBG work_gfjn7ngtojauhn7kaf6bbbsq74 96 11 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 96 12 mu- mu- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 96 13 tationally tationally RB work_gfjn7ngtojauhn7kaf6bbbsq74 96 14 onerous onerous JJ work_gfjn7ngtojauhn7kaf6bbbsq74 96 15 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 96 16 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 96 17 Cavalier Cavalier NNP work_gfjn7ngtojauhn7kaf6bbbsq74 96 18 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 96 19 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 96 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 96 21 1999 1999 CD work_gfjn7ngtojauhn7kaf6bbbsq74 96 22 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 96 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 96 24 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 96 25 early early JJ work_gfjn7ngtojauhn7kaf6bbbsq74 96 26 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 96 27 models model NNS work_gfjn7ngtojauhn7kaf6bbbsq74 96 28 accordingly accordingly RB work_gfjn7ngtojauhn7kaf6bbbsq74 96 29 minimized minimize VBD work_gfjn7ngtojauhn7kaf6bbbsq74 96 30 plastid plastid JJ work_gfjn7ngtojauhn7kaf6bbbsq74 96 31 acquisition acquisition NN work_gfjn7ngtojauhn7kaf6bbbsq74 96 32 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 97 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 97 2 chromalveo- chromalveo- NN work_gfjn7ngtojauhn7kaf6bbbsq74 97 3 late late JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 4 hypothesis hypothesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 97 5 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 97 6 Cavalier Cavalier NNP work_gfjn7ngtojauhn7kaf6bbbsq74 97 7 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 97 8 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 97 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 97 10 1999 1999 CD work_gfjn7ngtojauhn7kaf6bbbsq74 97 11 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 97 12 explained explain VBD work_gfjn7ngtojauhn7kaf6bbbsq74 97 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 97 14 distribution distribution NN work_gfjn7ngtojauhn7kaf6bbbsq74 97 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 97 16 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 17 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 97 18 parsimoniously parsimoniously RB work_gfjn7ngtojauhn7kaf6bbbsq74 97 19 suggesting suggest VBG work_gfjn7ngtojauhn7kaf6bbbsq74 97 20 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 97 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 97 22 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 23 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 97 24 several several JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 25 ecologically ecologically RB work_gfjn7ngtojauhn7kaf6bbbsq74 97 26 important important JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 27 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 28 groups group NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 29 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 97 30 cryptophytes cryptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 97 32 haptophytes haptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 33 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 97 34 stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 35 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 97 36 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 97 37 dinoflagellates dinoflagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 38 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 97 39 originated originate VBD work_gfjn7ngtojauhn7kaf6bbbsq74 97 40 through through IN work_gfjn7ngtojauhn7kaf6bbbsq74 97 41 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 97 42 single single JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 43 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 97 44 sec- sec- RB work_gfjn7ngtojauhn7kaf6bbbsq74 97 45 ondary ondary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 46 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 97 47 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 97 48 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 97 49 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 97 50 alga alga NNS work_gfjn7ngtojauhn7kaf6bbbsq74 97 51 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 98 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 98 2 use use NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 98 4 chlorophyll chlorophyll NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 5 c c NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 6 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 98 7 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 98 8 light light NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 9 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 98 10 harvesting harvesting NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 11 pigment pigment NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 12 suggests suggest VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 98 13 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 98 14 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 98 15 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 98 17 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 98 18 do do VBP work_gfjn7ngtojauhn7kaf6bbbsq74 98 19 plas- plas- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 20 tid tid NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 21 gene gene NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 22 phylogenies phylogeny NNS work_gfjn7ngtojauhn7kaf6bbbsq74 98 23 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 98 24 consistently consistently RB work_gfjn7ngtojauhn7kaf6bbbsq74 98 25 recover recover VBP work_gfjn7ngtojauhn7kaf6bbbsq74 98 26 monophyletic monophyletic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 98 27 rela- rela- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 98 28 tionships tionship NNS work_gfjn7ngtojauhn7kaf6bbbsq74 98 29 between between IN work_gfjn7ngtojauhn7kaf6bbbsq74 98 30 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 98 31 chloroplast chloroplast NN work_gfjn7ngtojauhn7kaf6bbbsq74 98 32 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 98 33 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 98 34 Bachvaroff Bachvaroff NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 35 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 36 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 37 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 98 38 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 98 39 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 98 40 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 98 41 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 99 1 However however RB work_gfjn7ngtojauhn7kaf6bbbsq74 99 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 99 3 evidence evidence NN work_gfjn7ngtojauhn7kaf6bbbsq74 99 4 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 99 5 come come VBN work_gfjn7ngtojauhn7kaf6bbbsq74 99 6 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 99 7 light light NN work_gfjn7ngtojauhn7kaf6bbbsq74 99 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 99 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 99 10 last last JJ work_gfjn7ngtojauhn7kaf6bbbsq74 99 11 decade decade NN work_gfjn7ngtojauhn7kaf6bbbsq74 99 12 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 99 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 99 14 story story NN work_gfjn7ngtojauhn7kaf6bbbsq74 99 15 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 99 16 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 99 17 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 99 18 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 99 19 than than IN work_gfjn7ngtojauhn7kaf6bbbsq74 99 20 it -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 99 21 first first RB work_gfjn7ngtojauhn7kaf6bbbsq74 99 22 appeared appear VBD work_gfjn7ngtojauhn7kaf6bbbsq74 99 23 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 100 1 Multigene multigene JJ work_gfjn7ngtojauhn7kaf6bbbsq74 100 2 phylogenies phylogeny NNS work_gfjn7ngtojauhn7kaf6bbbsq74 100 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 100 4 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 100 5 genes gene NNS work_gfjn7ngtojauhn7kaf6bbbsq74 100 6 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 100 7 conclusively conclusively RB work_gfjn7ngtojauhn7kaf6bbbsq74 100 8 shown show VBN work_gfjn7ngtojauhn7kaf6bbbsq74 100 9 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 100 10 each each DT work_gfjn7ngtojauhn7kaf6bbbsq74 100 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 100 12 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 100 13 putative putative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 100 14 chromalveolate chromalveolate NN work_gfjn7ngtojauhn7kaf6bbbsq74 100 15 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 100 16 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 100 17 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 100 18 closely closely RB work_gfjn7ngtojauhn7kaf6bbbsq74 100 19 related related JJ work_gfjn7ngtojauhn7kaf6bbbsq74 100 20 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 100 21 nonphotosynthetic nonphotosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 100 22 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 100 23 than than IN work_gfjn7ngtojauhn7kaf6bbbsq74 100 24 they -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 100 25 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 100 26 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 100 27 each each DT work_gfjn7ngtojauhn7kaf6bbbsq74 100 28 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 100 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 101 1 For for IN work_gfjn7ngtojauhn7kaf6bbbsq74 101 2 example example NN work_gfjn7ngtojauhn7kaf6bbbsq74 101 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 101 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 101 5 stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 101 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 101 7 dinoflagellates dinoflagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 101 8 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 101 9 very very RB work_gfjn7ngtojauhn7kaf6bbbsq74 101 10 closely closely RB work_gfjn7ngtojauhn7kaf6bbbsq74 101 11 related related JJ work_gfjn7ngtojauhn7kaf6bbbsq74 101 12 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 101 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 101 14 rhizarians rhizarians NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 101 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 101 16 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 101 17 group group NN work_gfjn7ngtojauhn7kaf6bbbsq74 101 18 composed compose VBN work_gfjn7ngtojauhn7kaf6bbbsq74 101 19 almost almost RB work_gfjn7ngtojauhn7kaf6bbbsq74 101 20 en- en- RB work_gfjn7ngtojauhn7kaf6bbbsq74 101 21 tirely tirely RB work_gfjn7ngtojauhn7kaf6bbbsq74 101 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 101 23 nonphotosynthetic nonphotosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 101 24 protists protist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 101 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 101 26 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 101 27 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 101 28 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 101 29 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 101 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 101 31 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 101 32 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 101 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 102 1 Multiple multiple JJ work_gfjn7ngtojauhn7kaf6bbbsq74 102 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 102 3 independently independently RB work_gfjn7ngtojauhn7kaf6bbbsq74 102 4 conducted conduct VBD work_gfjn7ngtojauhn7kaf6bbbsq74 102 5 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 102 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 102 7 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 102 8 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 102 9 mitochondrial mitochondrial NN work_gfjn7ngtojauhn7kaf6bbbsq74 102 10 ge- ge- NN work_gfjn7ngtojauhn7kaf6bbbsq74 102 11 nomes nome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 102 12 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 102 13 now now RB work_gfjn7ngtojauhn7kaf6bbbsq74 102 14 rejected reject VBN work_gfjn7ngtojauhn7kaf6bbbsq74 102 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 102 16 monophyly monophyly NN work_gfjn7ngtojauhn7kaf6bbbsq74 102 17 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 102 18 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 102 19 putative putative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 102 20 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 102 21 chromalveolate chromalveolate NN work_gfjn7ngtojauhn7kaf6bbbsq74 102 22 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 102 23 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 102 24 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 102 25 Baurain Baurain NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 26 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 27 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 28 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 102 30 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 102 31 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 102 32 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 33 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 102 34 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 35 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 102 37 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 102 38 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 102 39 Stiller Stiller NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 40 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 41 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 42 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 102 43 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 102 44 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 102 45 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 102 46 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 103 1 Some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 103 2 authors author NNS work_gfjn7ngtojauhn7kaf6bbbsq74 103 3 argue argue VBP work_gfjn7ngtojauhn7kaf6bbbsq74 103 4 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 103 5 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 103 6 single single JJ work_gfjn7ngtojauhn7kaf6bbbsq74 103 7 ancestral ancestral JJ work_gfjn7ngtojauhn7kaf6bbbsq74 103 8 acqui- acqui- NN work_gfjn7ngtojauhn7kaf6bbbsq74 103 9 sition sition NN work_gfjn7ngtojauhn7kaf6bbbsq74 103 10 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 103 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 103 12 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 103 13 ancestor ancestor NN work_gfjn7ngtojauhn7kaf6bbbsq74 103 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 103 15 chromalveolate chromalveolate NN work_gfjn7ngtojauhn7kaf6bbbsq74 103 16 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 103 17 related related JJ work_gfjn7ngtojauhn7kaf6bbbsq74 103 18 lin- lin- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 103 19 eages eage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 103 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 103 21 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 103 22 extensive extensive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 103 23 loss loss NN work_gfjn7ngtojauhn7kaf6bbbsq74 103 24 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 103 25 Cavalier Cavalier NNP work_gfjn7ngtojauhn7kaf6bbbsq74 103 26 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 103 27 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 103 28 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 103 29 1999 1999 CD work_gfjn7ngtojauhn7kaf6bbbsq74 103 30 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 103 31 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 104 1 Nonetheless nonetheless RB work_gfjn7ngtojauhn7kaf6bbbsq74 104 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 104 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 104 4 monophyletic monophyletic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 104 5 nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 104 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 104 7 chromalveolate chromalveolate NN work_gfjn7ngtojauhn7kaf6bbbsq74 104 8 plas- plas- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 104 9 tids tid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 104 10 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 104 11 disparate disparate JJ work_gfjn7ngtojauhn7kaf6bbbsq74 104 12 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 104 13 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 104 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 104 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 104 16 corresponding correspond VBG work_gfjn7ngtojauhn7kaf6bbbsq74 104 17 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 104 18 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 104 19 suggest suggest VBP work_gfjn7ngtojauhn7kaf6bbbsq74 104 20 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 104 21 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 104 22 progression progression NN work_gfjn7ngtojauhn7kaf6bbbsq74 104 23 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 104 24 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 104 25 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 105 1 Recent recent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 105 2 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 105 3 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 105 4 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 105 5 evidence evidence NN work_gfjn7ngtojauhn7kaf6bbbsq74 105 6 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 105 7 multiple multiple JJ work_gfjn7ngtojauhn7kaf6bbbsq74 105 8 endosymbiotic endosymbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 105 9 transfers transfer NNS work_gfjn7ngtojauhn7kaf6bbbsq74 105 10 FIGURE FIGURE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 105 11 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 105 12 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 105 13 Illustrations illustration NNS work_gfjn7ngtojauhn7kaf6bbbsq74 105 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 105 15 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 105 16 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 105 17 complexity complexity NN work_gfjn7ngtojauhn7kaf6bbbsq74 105 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 106 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 106 2 A a DT work_gfjn7ngtojauhn7kaf6bbbsq74 106 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 106 4 Diagram diagram NN work_gfjn7ngtojauhn7kaf6bbbsq74 106 5 demonstrating demonstrate VBG work_gfjn7ngtojauhn7kaf6bbbsq74 106 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 106 7 alternative alternative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 106 8 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 106 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 106 10 biosynthesis biosynthesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 106 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 106 12 Fe Fe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 106 13 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 106 14 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 106 15 clusters cluster NNS work_gfjn7ngtojauhn7kaf6bbbsq74 106 16 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 106 17 microbial microbial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 106 18 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 106 19 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 107 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 107 2 i i NN work_gfjn7ngtojauhn7kaf6bbbsq74 107 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 107 4 A a DT work_gfjn7ngtojauhn7kaf6bbbsq74 107 5 typical typical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 107 6 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 107 7 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 107 8 requires require VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 107 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 107 10 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 107 11 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 107 12 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 107 13 support support VB work_gfjn7ngtojauhn7kaf6bbbsq74 107 14 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 107 15 mitochondrial mitochondrial NN work_gfjn7ngtojauhn7kaf6bbbsq74 107 16 apo-(Fe apo-(fe NN work_gfjn7ngtojauhn7kaf6bbbsq74 107 17 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 107 18 S)-proteins S)-proteins NNP work_gfjn7ngtojauhn7kaf6bbbsq74 107 19 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 107 20 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 107 21 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 107 22 require require VBP work_gfjn7ngtojauhn7kaf6bbbsq74 107 23 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 107 24 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 107 25 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 107 26 clusters cluster NNS work_gfjn7ngtojauhn7kaf6bbbsq74 107 27 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 107 28 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 107 29 functionally functionally RB work_gfjn7ngtojauhn7kaf6bbbsq74 107 30 active active JJ work_gfjn7ngtojauhn7kaf6bbbsq74 107 31 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 107 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 107 33 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 107 34 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 107 35 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 107 36 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 107 37 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 107 38 cytosolic cytosolic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 107 39 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 107 40 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 107 41 apoproteins apoprotein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 107 42 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 108 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 108 2 ii ii LS work_gfjn7ngtojauhn7kaf6bbbsq74 108 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 108 4 Blastocystis blastocystis NN work_gfjn7ngtojauhn7kaf6bbbsq74 108 5 requires require VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 108 6 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 108 7 modified modify VBN work_gfjn7ngtojauhn7kaf6bbbsq74 108 8 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 108 9 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 108 10 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 108 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 108 12 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 108 13 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 108 14 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 108 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 108 16 maturation maturation NN work_gfjn7ngtojauhn7kaf6bbbsq74 108 17 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 108 18 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 108 19 cytosolic cytosolic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 108 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 108 21 nuclear nuclear JJ work_gfjn7ngtojauhn7kaf6bbbsq74 108 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 108 23 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 108 24 oxygen- oxygen- NN work_gfjn7ngtojauhn7kaf6bbbsq74 108 25 sensitive sensitive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 108 26 apoproteins apoprotein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 108 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 109 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 109 2 iii iii NNP work_gfjn7ngtojauhn7kaf6bbbsq74 109 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 109 4 Pygsuia Pygsuia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 109 5 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 109 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 109 7 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 109 8 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 109 9 localized localize VBN work_gfjn7ngtojauhn7kaf6bbbsq74 109 10 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 109 11 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 109 12 mitochondria mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 109 13 instead instead RB work_gfjn7ngtojauhn7kaf6bbbsq74 109 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 109 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 109 16 typical typical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 109 17 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 109 18 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 109 19 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 109 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 109 21 support support NN work_gfjn7ngtojauhn7kaf6bbbsq74 109 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 109 23 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 109 24 organellar organellar JJ work_gfjn7ngtojauhn7kaf6bbbsq74 109 25 apoproteins apoprotein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 109 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 110 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 110 2 iv iv LS work_gfjn7ngtojauhn7kaf6bbbsq74 110 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 110 4 Entamoeba Entamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 110 5 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 110 6 lost lose VBN work_gfjn7ngtojauhn7kaf6bbbsq74 110 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 110 8 traditional traditional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 110 9 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 110 10 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 110 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 110 12 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 110 13 acquired acquire VBN work_gfjn7ngtojauhn7kaf6bbbsq74 110 14 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 110 15 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 110 16 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 110 17 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 110 18 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 110 19 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 110 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 110 21 support support NN work_gfjn7ngtojauhn7kaf6bbbsq74 110 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 110 23 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 110 24 apoproteins apoprotein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 110 25 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 111 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 111 2 v v LS work_gfjn7ngtojauhn7kaf6bbbsq74 111 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 111 4 Mastigamoeba Mastigamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 111 5 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 111 6 lost lose VBN work_gfjn7ngtojauhn7kaf6bbbsq74 111 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 111 8 traditional traditional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 111 9 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 111 10 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 111 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 111 12 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 111 13 acquired acquire VBN work_gfjn7ngtojauhn7kaf6bbbsq74 111 14 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 111 15 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 111 16 machineries machinery NNS work_gfjn7ngtojauhn7kaf6bbbsq74 111 17 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 111 18 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 111 19 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 111 20 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 111 21 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 111 22 hydrogenosome hydrogenosome NN work_gfjn7ngtojauhn7kaf6bbbsq74 111 23 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 111 24 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 111 25 support support NN work_gfjn7ngtojauhn7kaf6bbbsq74 111 26 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 111 27 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 111 28 apoproteins apoprotein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 111 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 112 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 112 2 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 112 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 112 4 Diagram Diagram NNP work_gfjn7ngtojauhn7kaf6bbbsq74 112 5 demonstrating demonstrate VBG work_gfjn7ngtojauhn7kaf6bbbsq74 112 6 various various JJ work_gfjn7ngtojauhn7kaf6bbbsq74 112 7 methods method NNS work_gfjn7ngtojauhn7kaf6bbbsq74 112 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 112 9 plastid plastid JJ work_gfjn7ngtojauhn7kaf6bbbsq74 112 10 acquisition acquisition NN work_gfjn7ngtojauhn7kaf6bbbsq74 112 11 found find VBD work_gfjn7ngtojauhn7kaf6bbbsq74 112 12 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 112 13 various various JJ work_gfjn7ngtojauhn7kaf6bbbsq74 112 14 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 112 15 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 113 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 113 2 i i NN work_gfjn7ngtojauhn7kaf6bbbsq74 113 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 113 4 Primary primary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 113 5 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 113 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 113 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 113 8 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 113 9 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 113 10 cyanobacteria cyanobacteria NN work_gfjn7ngtojauhn7kaf6bbbsq74 113 11 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 113 12 engulfed engulf VBN work_gfjn7ngtojauhn7kaf6bbbsq74 113 13 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 113 14 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 113 15 heterotrophic heterotrophic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 113 16 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 113 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 113 18 resulting result VBG work_gfjn7ngtojauhn7kaf6bbbsq74 113 19 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 113 20 establishment establishment NN work_gfjn7ngtojauhn7kaf6bbbsq74 113 21 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 113 22 chloroplasts chloroplast NNS work_gfjn7ngtojauhn7kaf6bbbsq74 113 23 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 114 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 114 2 ii ii NNP work_gfjn7ngtojauhn7kaf6bbbsq74 114 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 114 4 Secondary secondary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 114 5 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 114 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 114 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 114 8 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 114 9 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 114 10 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 114 11 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 114 12 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 114 13 engulfed engulf VBN work_gfjn7ngtojauhn7kaf6bbbsq74 114 14 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 114 15 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 114 16 heterotrophic heterotrophic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 114 17 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 114 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 114 19 resulting result VBG work_gfjn7ngtojauhn7kaf6bbbsq74 114 20 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 114 21 establishment establishment NN work_gfjn7ngtojauhn7kaf6bbbsq74 114 22 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 114 23 chloroplasts chloroplast NNS work_gfjn7ngtojauhn7kaf6bbbsq74 114 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 115 1 Other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 115 2 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 115 3 structures structure NNS work_gfjn7ngtojauhn7kaf6bbbsq74 115 4 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 115 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 115 6 original original JJ work_gfjn7ngtojauhn7kaf6bbbsq74 115 7 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 115 8 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 115 9 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 115 10 remain remain VB work_gfjn7ngtojauhn7kaf6bbbsq74 115 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 116 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 2 iii iii NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 4 Tertiary tertiary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 116 5 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 116 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 116 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 116 8 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 9 ISC ISC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 10 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 11 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 12 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 13 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 14 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 15 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 16 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 17 Typical typical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 116 18 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 116 19 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 116 20 Blastocystis blastocystis NN work_gfjn7ngtojauhn7kaf6bbbsq74 116 21 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 22 stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 116 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 24 Pygsuia Pygsuia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 26 breviates breviate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 116 27 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 28 Entamoeba Entamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 29 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 30 Amoebozoa Amoebozoa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 31 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 32 Mastigamoeba Mastigamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 33 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 34 Amoebozoa Amoebozoa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 35 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 116 36 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 116 37 Fe fe LS work_gfjn7ngtojauhn7kaf6bbbsq74 116 38 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 116 39 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 40 clusters cluster NNS work_gfjn7ngtojauhn7kaf6bbbsq74 116 41 Nu Nu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 42 Nu Nu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 43 Nu Nu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 44 Nu Nu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 116 45 * * NFP work_gfjn7ngtojauhn7kaf6bbbsq74 116 46 * * NFP work_gfjn7ngtojauhn7kaf6bbbsq74 116 47 * * NFP work_gfjn7ngtojauhn7kaf6bbbsq74 116 48 A a NN work_gfjn7ngtojauhn7kaf6bbbsq74 116 49 ii ii NN work_gfjn7ngtojauhn7kaf6bbbsq74 116 50 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 117 1 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 118 1 v. v. CC work_gfjn7ngtojauhn7kaf6bbbsq74 118 2 v. v. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 118 3 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 118 4 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 119 1 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 120 1 CIA CIA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 120 2 NIFNu NIFNu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 120 3 * * NFP work_gfjn7ngtojauhn7kaf6bbbsq74 120 4 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 120 5 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 120 6 i. i. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 1 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 2 T T NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 3 AP-5 ap-5 NN work_gfjn7ngtojauhn7kaf6bbbsq74 121 4 Nucleus Nucleus NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 5 Golgi Golgi NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 6 Lysosomes Lysosomes NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 7 Late Late NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 8 endosome endosome VBP work_gfjn7ngtojauhn7kaf6bbbsq74 121 9 Early early JJ work_gfjn7ngtojauhn7kaf6bbbsq74 121 10 endosome endosome NN work_gfjn7ngtojauhn7kaf6bbbsq74 121 11 Recycling recycling NN work_gfjn7ngtojauhn7kaf6bbbsq74 121 12 endosome endosome RB work_gfjn7ngtojauhn7kaf6bbbsq74 121 13 TSET tset IN work_gfjn7ngtojauhn7kaf6bbbsq74 121 14 Plasma Plasma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 121 15 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 121 16 ii.i ii.i JJ work_gfjn7ngtojauhn7kaf6bbbsq74 121 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 122 1 iv iv XX work_gfjn7ngtojauhn7kaf6bbbsq74 122 2 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 123 1 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 123 2 primary primary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 123 3 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 123 4 secondary secondary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 123 5 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 123 6 serial serial NNP work_gfjn7ngtojauhn7kaf6bbbsq74 123 7 endosymbiosis endosymbiosis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 123 8 iii iii NNP work_gfjn7ngtojauhn7kaf6bbbsq74 123 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 124 1 tertiary tertiary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 124 2 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 124 3 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 124 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 124 5 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 124 6 organism organism NN work_gfjn7ngtojauhn7kaf6bbbsq74 124 7 containing contain VBG work_gfjn7ngtojauhn7kaf6bbbsq74 124 8 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 124 9 secondary secondary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 124 10 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 124 11 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 124 12 itself -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 124 13 engulfed engulf VBN work_gfjn7ngtojauhn7kaf6bbbsq74 124 14 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 124 15 another another DT work_gfjn7ngtojauhn7kaf6bbbsq74 124 16 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 124 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 124 18 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 124 19 produce produce VB work_gfjn7ngtojauhn7kaf6bbbsq74 124 20 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 124 21 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 124 22 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 125 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 125 2 iv iv LS work_gfjn7ngtojauhn7kaf6bbbsq74 125 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 125 4 Serial serial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 125 5 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 125 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 125 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 125 8 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 125 9 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 125 10 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 125 11 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 125 12 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 125 13 engulfed engulf VBN work_gfjn7ngtojauhn7kaf6bbbsq74 125 14 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 125 15 another another DT work_gfjn7ngtojauhn7kaf6bbbsq74 125 16 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 125 17 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 125 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 126 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 126 2 results result VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 126 3 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 126 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 126 5 establishment establishment NN work_gfjn7ngtojauhn7kaf6bbbsq74 126 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 126 7 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 126 8 replacement replacement NN work_gfjn7ngtojauhn7kaf6bbbsq74 126 9 chloroplast chloroplast NN work_gfjn7ngtojauhn7kaf6bbbsq74 126 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 126 11 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 126 12 different different JJ work_gfjn7ngtojauhn7kaf6bbbsq74 126 13 phylogenetic phylogenetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 126 14 derivation derivation NN work_gfjn7ngtojauhn7kaf6bbbsq74 126 15 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 127 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 127 2 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 127 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 127 4 Diagram Diagram NNP work_gfjn7ngtojauhn7kaf6bbbsq74 127 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 127 6 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 127 7 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 127 8 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 127 9 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 127 10 trafficking traffic VBG work_gfjn7ngtojauhn7kaf6bbbsq74 127 11 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 127 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 128 1 Major major JJ work_gfjn7ngtojauhn7kaf6bbbsq74 128 2 endomembrane endomembrane JJ work_gfjn7ngtojauhn7kaf6bbbsq74 128 3 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 128 4 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 128 5 labeled label VBN work_gfjn7ngtojauhn7kaf6bbbsq74 128 6 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 128 7 trafficking traffic VBG work_gfjn7ngtojauhn7kaf6bbbsq74 128 8 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 128 9 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 128 10 denoted denote VBN work_gfjn7ngtojauhn7kaf6bbbsq74 128 11 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 128 12 curved curved JJ work_gfjn7ngtojauhn7kaf6bbbsq74 128 13 arrows arrow NNS work_gfjn7ngtojauhn7kaf6bbbsq74 128 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 129 1 Localization localization NN work_gfjn7ngtojauhn7kaf6bbbsq74 129 2 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 129 3 structure structure NN work_gfjn7ngtojauhn7kaf6bbbsq74 129 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 129 5 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 129 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 129 7 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 129 8 indicated indicate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 129 9 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 129 10 blue blue NNP work_gfjn7ngtojauhn7kaf6bbbsq74 129 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 129 12 magenta magenta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 129 13 structures structure NNS work_gfjn7ngtojauhn7kaf6bbbsq74 129 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 129 15 respectively respectively RB work_gfjn7ngtojauhn7kaf6bbbsq74 129 16 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 130 1 All all DT work_gfjn7ngtojauhn7kaf6bbbsq74 130 2 adaptin adaptin NN work_gfjn7ngtojauhn7kaf6bbbsq74 130 3 complexes complex NNS work_gfjn7ngtojauhn7kaf6bbbsq74 130 4 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 130 5 TSET TSET NNS work_gfjn7ngtojauhn7kaf6bbbsq74 130 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 130 7 COPII COPII NNP work_gfjn7ngtojauhn7kaf6bbbsq74 130 8 share share VBP work_gfjn7ngtojauhn7kaf6bbbsq74 130 9 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 130 10 heterotetrameric heterotetrameric JJ work_gfjn7ngtojauhn7kaf6bbbsq74 130 11 quaternary quaternary NN work_gfjn7ngtojauhn7kaf6bbbsq74 130 12 structure structure NN work_gfjn7ngtojauhn7kaf6bbbsq74 130 13 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 130 14 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 130 15 large large JJ work_gfjn7ngtojauhn7kaf6bbbsq74 130 16 subunits subunit NNS work_gfjn7ngtojauhn7kaf6bbbsq74 130 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 130 18 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 130 19 medium medium NN work_gfjn7ngtojauhn7kaf6bbbsq74 130 20 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 130 21 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 130 22 small small JJ work_gfjn7ngtojauhn7kaf6bbbsq74 130 23 subunit subunit NN work_gfjn7ngtojauhn7kaf6bbbsq74 130 24 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 130 25 illustrated illustrate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 130 26 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 130 27 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 130 28 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 130 29 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 130 30 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 131 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 131 2 FCHO fcho NN work_gfjn7ngtojauhn7kaf6bbbsq74 131 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 131 4 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 131 5 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 131 6 derived derive VBN work_gfjn7ngtojauhn7kaf6bbbsq74 131 7 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 131 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 131 9 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 131 10 medium medium NN work_gfjn7ngtojauhn7kaf6bbbsq74 131 11 subunit subunit NN work_gfjn7ngtojauhn7kaf6bbbsq74 131 12 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 131 13 drawn draw VBN work_gfjn7ngtojauhn7kaf6bbbsq74 131 14 here here RB work_gfjn7ngtojauhn7kaf6bbbsq74 131 15 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 131 16 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 131 17 blue blue JJ work_gfjn7ngtojauhn7kaf6bbbsq74 131 18 exclamation exclamation NN work_gfjn7ngtojauhn7kaf6bbbsq74 131 19 point point NN work_gfjn7ngtojauhn7kaf6bbbsq74 131 20 – – : work_gfjn7ngtojauhn7kaf6bbbsq74 131 21 shaped shaped JJ work_gfjn7ngtojauhn7kaf6bbbsq74 131 22 component component NN work_gfjn7ngtojauhn7kaf6bbbsq74 131 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 131 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 132 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 132 2 shared shared JJ work_gfjn7ngtojauhn7kaf6bbbsq74 132 3 quaternary quaternary NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 4 structure structure NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 132 6 sequence sequence NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 7 conservation conservation NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 8 between between IN work_gfjn7ngtojauhn7kaf6bbbsq74 132 9 subunits subunit NNS work_gfjn7ngtojauhn7kaf6bbbsq74 132 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 132 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 132 12 complex complex NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 13 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 132 14 evidence evidence NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 132 16 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 132 17 being be VBG work_gfjn7ngtojauhn7kaf6bbbsq74 132 18 derived derive VBN work_gfjn7ngtojauhn7kaf6bbbsq74 132 19 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 132 20 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 132 21 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 132 22 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 132 23 ancestor ancestor NN work_gfjn7ngtojauhn7kaf6bbbsq74 132 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 133 1 Recent recent JJ work_gfjn7ngtojauhn7kaf6bbbsq74 133 2 analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 133 3 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 133 4 begun begin VBN work_gfjn7ngtojauhn7kaf6bbbsq74 133 5 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 133 6 resolve resolve VB work_gfjn7ngtojauhn7kaf6bbbsq74 133 7 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 133 8 interrelationships interrelationship NNS work_gfjn7ngtojauhn7kaf6bbbsq74 133 9 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 133 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 133 11 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 133 12 inference inference NN work_gfjn7ngtojauhn7kaf6bbbsq74 133 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 133 14 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 133 15 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 133 16 order order NN work_gfjn7ngtojauhn7kaf6bbbsq74 133 17 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 133 18 emergence emergence NN work_gfjn7ngtojauhn7kaf6bbbsq74 133 19 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 133 20 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 133 21 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 133 22 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 133 23 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 133 24 they -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 133 25 act act VBP work_gfjn7ngtojauhn7kaf6bbbsq74 133 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 134 1 For for IN work_gfjn7ngtojauhn7kaf6bbbsq74 134 2 more more JJR work_gfjn7ngtojauhn7kaf6bbbsq74 134 3 details detail NNS work_gfjn7ngtojauhn7kaf6bbbsq74 134 4 see see VBP work_gfjn7ngtojauhn7kaf6bbbsq74 134 5 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 134 6 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 134 7 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 134 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 135 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 135 2 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 135 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 135 4 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 136 1 4536 4536 CD work_gfjn7ngtojauhn7kaf6bbbsq74 136 2 | | NNP work_gfjn7ngtojauhn7kaf6bbbsq74 136 3 E. E. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 136 4 Richardson Richardson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 136 5 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 136 6 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 136 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 137 1 Molecular Molecular NNP work_gfjn7ngtojauhn7kaf6bbbsq74 137 2 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 137 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 137 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 137 5 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 137 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 137 7 Boehm Boehm NNP work_gfjn7ngtojauhn7kaf6bbbsq74 137 8 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 137 9 Bonifacino Bonifacino NNP work_gfjn7ngtojauhn7kaf6bbbsq74 137 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 137 11 2001 2001 CD work_gfjn7ngtojauhn7kaf6bbbsq74 137 12 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 137 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 138 1 However however RB work_gfjn7ngtojauhn7kaf6bbbsq74 138 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 138 3 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 138 4 fifth fifth JJ work_gfjn7ngtojauhn7kaf6bbbsq74 138 5 AP AP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 138 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 138 7 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 138 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 138 9 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 138 10 recently recently RB work_gfjn7ngtojauhn7kaf6bbbsq74 138 11 discovered discover VBN work_gfjn7ngtojauhn7kaf6bbbsq74 138 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 139 1 Together together RB work_gfjn7ngtojauhn7kaf6bbbsq74 139 2 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 139 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 139 4 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 139 5 nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 139 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 139 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 139 8 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 139 9 four four CD work_gfjn7ngtojauhn7kaf6bbbsq74 139 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 139 11 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 139 12 indicates indicate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 139 13 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 139 14 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 139 15 LECA LECA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 139 16 contained contain VBD work_gfjn7ngtojauhn7kaf6bbbsq74 139 17 at at IN work_gfjn7ngtojauhn7kaf6bbbsq74 139 18 least least JJS work_gfjn7ngtojauhn7kaf6bbbsq74 139 19 five five CD work_gfjn7ngtojauhn7kaf6bbbsq74 139 20 AP AP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 139 21 com- com- NN work_gfjn7ngtojauhn7kaf6bbbsq74 139 22 plexes plexe NNS work_gfjn7ngtojauhn7kaf6bbbsq74 139 23 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 139 24 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 139 25 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 139 26 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 139 27 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 139 28 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 139 29 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 139 30 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 139 31 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 140 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 140 2 twist twist NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 3 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 140 4 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 140 6 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 140 7 genes gene NNS work_gfjn7ngtojauhn7kaf6bbbsq74 140 8 encoding encode VBG work_gfjn7ngtojauhn7kaf6bbbsq74 140 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 140 10 subunits subunit NNS work_gfjn7ngtojauhn7kaf6bbbsq74 140 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 12 AP-5 ap-5 NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 13 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 140 14 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 15 2C 2c NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 16 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 140 17 were be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 140 18 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 140 19 earlier early RBR work_gfjn7ngtojauhn7kaf6bbbsq74 140 20 but but CC work_gfjn7ngtojauhn7kaf6bbbsq74 140 21 went go VBD work_gfjn7ngtojauhn7kaf6bbbsq74 140 22 unstudied unstudied JJ work_gfjn7ngtojauhn7kaf6bbbsq74 140 23 until until IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 24 AP-5 ap-5 JJ work_gfjn7ngtojauhn7kaf6bbbsq74 140 25 homologues homologue NNS work_gfjn7ngtojauhn7kaf6bbbsq74 140 26 were be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 140 27 detected detect VBN work_gfjn7ngtojauhn7kaf6bbbsq74 140 28 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 29 Naegleria Naegleria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 140 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 140 31 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 140 32 discoban discoban NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 33 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 140 34 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 35 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 140 36 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 140 37 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 38 distant distant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 140 39 relation relation NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 40 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 41 humans human NNS work_gfjn7ngtojauhn7kaf6bbbsq74 140 42 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 140 43 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 140 44 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 45 interest interest NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 46 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 140 47 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 140 48 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 140 49 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 140 50 sampling sampling NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 51 point point NN work_gfjn7ngtojauhn7kaf6bbbsq74 140 52 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 141 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 141 2 hinted hint VBD work_gfjn7ngtojauhn7kaf6bbbsq74 141 3 at at IN work_gfjn7ngtojauhn7kaf6bbbsq74 141 4 widespread widespread JJ work_gfjn7ngtojauhn7kaf6bbbsq74 141 5 occurrence occurrence NN work_gfjn7ngtojauhn7kaf6bbbsq74 141 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 141 7 presumptive presumptive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 141 8 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 141 9 importance importance NN work_gfjn7ngtojauhn7kaf6bbbsq74 141 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 141 11 prompting prompt VBG work_gfjn7ngtojauhn7kaf6bbbsq74 141 12 functional functional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 141 13 investigation investigation NN work_gfjn7ngtojauhn7kaf6bbbsq74 141 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 142 1 Characterization characterization NN work_gfjn7ngtojauhn7kaf6bbbsq74 142 2 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 142 3 HeLa HeLa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 142 4 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 142 5 showed show VBD work_gfjn7ngtojauhn7kaf6bbbsq74 142 6 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 142 7 localized localize VBD work_gfjn7ngtojauhn7kaf6bbbsq74 142 8 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 142 9 late late JJ work_gfjn7ngtojauhn7kaf6bbbsq74 142 10 endosomes endosome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 142 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 142 12 lysosomes lysosome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 142 13 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 142 14 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 142 15 2C 2c NN work_gfjn7ngtojauhn7kaf6bbbsq74 142 16 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 142 17 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 142 18 knockdown knockdown VBN work_gfjn7ngtojauhn7kaf6bbbsq74 142 19 causing cause VBG work_gfjn7ngtojauhn7kaf6bbbsq74 142 20 defects defect NNS work_gfjn7ngtojauhn7kaf6bbbsq74 142 21 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 142 22 endosomal endosomal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 142 23 traf- traf- NN work_gfjn7ngtojauhn7kaf6bbbsq74 142 24 ficking ficke VBG work_gfjn7ngtojauhn7kaf6bbbsq74 142 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 142 26 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 142 27 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 142 28 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 142 29 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 142 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 142 31 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 142 32 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 142 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 143 1 Abnormalities abnormality NNS work_gfjn7ngtojauhn7kaf6bbbsq74 143 2 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 143 3 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 4 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 143 5 consequently consequently RB work_gfjn7ngtojauhn7kaf6bbbsq74 143 6 associated associate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 143 7 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 143 8 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 143 9 disease disease NN work_gfjn7ngtojauhn7kaf6bbbsq74 143 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 143 11 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 143 12 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 143 13 hereditary hereditary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 143 14 spastic spastic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 143 15 para- para- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 16 plegia plegia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 17 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 143 18 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 19 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 20 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 21 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 143 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 143 23 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 143 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 143 25 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 143 26 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 143 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 144 1 Further further JJ work_gfjn7ngtojauhn7kaf6bbbsq74 144 2 taxonomic taxonomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 144 3 investigation investigation NN work_gfjn7ngtojauhn7kaf6bbbsq74 144 4 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 144 5 detected detect VBD work_gfjn7ngtojauhn7kaf6bbbsq74 144 6 AP-5 ap-5 NN work_gfjn7ngtojauhn7kaf6bbbsq74 144 7 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 144 8 beyond beyond IN work_gfjn7ngtojauhn7kaf6bbbsq74 144 9 humans human NNS work_gfjn7ngtojauhn7kaf6bbbsq74 144 10 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 144 11 Naegleria Naegleria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 144 13 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 144 14 diverse diverse JJ work_gfjn7ngtojauhn7kaf6bbbsq74 144 15 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 144 16 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 17 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 144 18 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 144 19 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 20 including include VBG work_gfjn7ngtojauhn7kaf6bbbsq74 144 21 Arabidopsis Arabidopsis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 22 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 23 Viridiplan- Viridiplan- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 24 tae tae NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 25 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 144 27 Entamoeba Entamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 28 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 29 amoebozoan amoebozoan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 30 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 144 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 144 33 Toxoplasma Toxoplasma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 34 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 35 apicomplexan apicomplexan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 36 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 144 37 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 144 38 suggesting suggest VBG work_gfjn7ngtojauhn7kaf6bbbsq74 144 39 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 144 40 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 144 41 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 144 42 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 144 43 central central JJ work_gfjn7ngtojauhn7kaf6bbbsq74 144 44 component component NN work_gfjn7ngtojauhn7kaf6bbbsq74 144 45 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 144 46 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 144 47 traf- traf- NN work_gfjn7ngtojauhn7kaf6bbbsq74 144 48 ficking ficke VBG work_gfjn7ngtojauhn7kaf6bbbsq74 144 49 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 144 50 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 144 51 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 144 52 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 145 1 Following follow VBG work_gfjn7ngtojauhn7kaf6bbbsq74 145 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 145 3 discovery discovery NN work_gfjn7ngtojauhn7kaf6bbbsq74 145 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 145 5 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 145 6 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 145 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 145 8 report report NN work_gfjn7ngtojauhn7kaf6bbbsq74 145 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 145 10 yet yet RB work_gfjn7ngtojauhn7kaf6bbbsq74 145 11 another another DT work_gfjn7ngtojauhn7kaf6bbbsq74 145 12 relative relative NN work_gfjn7ngtojauhn7kaf6bbbsq74 145 13 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 145 14 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 145 15 APs ap NNS work_gfjn7ngtojauhn7kaf6bbbsq74 145 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 145 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 145 18 heterohexameric heterohexameric JJ work_gfjn7ngtojauhn7kaf6bbbsq74 145 19 TSET tset NN work_gfjn7ngtojauhn7kaf6bbbsq74 145 20 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 145 21 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 145 22 2C 2c NN work_gfjn7ngtojauhn7kaf6bbbsq74 145 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 145 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 146 1 Analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 146 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 146 3 TSET TSET NNS work_gfjn7ngtojauhn7kaf6bbbsq74 146 4 function function VBP work_gfjn7ngtojauhn7kaf6bbbsq74 146 5 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 146 6 Arabidopsis Arabidopsis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 146 8 Dictyostelium Dictyostelium NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 9 showed show VBD work_gfjn7ngtojauhn7kaf6bbbsq74 146 10 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 11 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 146 12 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 146 13 located locate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 146 14 at at IN work_gfjn7ngtojauhn7kaf6bbbsq74 146 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 146 16 plasma plasma NN work_gfjn7ngtojauhn7kaf6bbbsq74 146 17 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 146 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 146 19 facilitating facilitate VBG work_gfjn7ngtojauhn7kaf6bbbsq74 146 20 cargo cargo NN work_gfjn7ngtojauhn7kaf6bbbsq74 146 21 transport transport NN work_gfjn7ngtojauhn7kaf6bbbsq74 146 22 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 146 23 Gadeyne Gadeyne NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 24 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 25 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 26 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 146 28 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 146 29 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 146 30 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 31 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 32 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 33 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 146 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 146 35 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 146 36 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 146 37 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 147 1 Similar similar JJ work_gfjn7ngtojauhn7kaf6bbbsq74 147 2 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 147 3 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 147 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 147 5 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 147 6 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 147 7 detected detect VBN work_gfjn7ngtojauhn7kaf6bbbsq74 147 8 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 147 9 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 147 10 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 147 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 147 12 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 147 13 thus thus RB work_gfjn7ngtojauhn7kaf6bbbsq74 147 14 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 147 15 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 147 16 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 147 17 contrast contrast NN work_gfjn7ngtojauhn7kaf6bbbsq74 147 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 147 19 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 147 20 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 147 21 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 147 22 as as RB work_gfjn7ngtojauhn7kaf6bbbsq74 147 23 well well RB work_gfjn7ngtojauhn7kaf6bbbsq74 147 24 retained retain VBN work_gfjn7ngtojauhn7kaf6bbbsq74 147 25 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 147 26 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 147 27 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 147 28 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 147 29 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 147 30 fungi fungi NN work_gfjn7ngtojauhn7kaf6bbbsq74 147 31 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 147 32 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 147 33 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 147 34 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 147 35 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 148 1 Nevertheless nevertheless RB work_gfjn7ngtojauhn7kaf6bbbsq74 148 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 148 3 study study NN work_gfjn7ngtojauhn7kaf6bbbsq74 148 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 148 5 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 6 revealed reveal VBD work_gfjn7ngtojauhn7kaf6bbbsq74 148 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 148 8 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 148 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 148 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 148 11 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 148 12 FCHO FCHO NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 13 protein protein NN work_gfjn7ngtojauhn7kaf6bbbsq74 148 14 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 148 15 Gadeyne Gadeyne NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 16 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 17 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 18 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 148 20 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 148 21 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 148 22 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 23 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 24 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 25 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 148 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 148 27 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 148 28 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 148 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 148 30 which which WDT work_gfjn7ngtojauhn7kaf6bbbsq74 148 31 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 148 32 important important JJ work_gfjn7ngtojauhn7kaf6bbbsq74 148 33 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 148 34 endocytosis endocytosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 148 35 regulation regulation NN work_gfjn7ngtojauhn7kaf6bbbsq74 148 36 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 149 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 2 monomeric monomeric JJ work_gfjn7ngtojauhn7kaf6bbbsq74 149 3 FCHO FCHO NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 4 ap- ap- NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 5 pears pear NNS work_gfjn7ngtojauhn7kaf6bbbsq74 149 6 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 149 7 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 149 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 9 remnant remnant NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 12 once once RB work_gfjn7ngtojauhn7kaf6bbbsq74 149 13 full full JJ work_gfjn7ngtojauhn7kaf6bbbsq74 149 14 TSET TSET NNS work_gfjn7ngtojauhn7kaf6bbbsq74 149 15 complex complex NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 16 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 149 17 essentially essentially RB work_gfjn7ngtojauhn7kaf6bbbsq74 149 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 149 19 FCHO FCHO NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 20 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 149 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 22 vestigial vestigial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 149 23 C c NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 24 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 149 25 terminus terminus NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 26 domain domain NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 27 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 28 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 29 TCUP TCUP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 30 subunit subunit NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 149 32 fused fuse VBN work_gfjn7ngtojauhn7kaf6bbbsq74 149 33 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 34 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 35 associated associate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 149 36 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 37 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 149 38 BAR BAR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 39 domain domain NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 40 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 41 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 149 42 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 43 animal animal NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 44 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 149 45 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 149 46 had have VBD work_gfjn7ngtojauhn7kaf6bbbsq74 149 47 earlier early RBR work_gfjn7ngtojauhn7kaf6bbbsq74 149 48 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 149 49 discovered discover VBN work_gfjn7ngtojauhn7kaf6bbbsq74 149 50 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 149 51 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 149 52 involved involve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 149 53 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 54 clathrin clathrin NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 55 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 149 56 mediated mediate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 149 57 endocytosis endocytosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 58 at at IN work_gfjn7ngtojauhn7kaf6bbbsq74 149 59 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 149 60 plasma plasma NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 61 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 149 62 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 149 63 McMahon McMahon NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 64 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 149 65 Boucrot Boucrot NNP work_gfjn7ngtojauhn7kaf6bbbsq74 149 66 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 149 67 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 149 68 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 149 69 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 150 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 150 2 search search NN work_gfjn7ngtojauhn7kaf6bbbsq74 150 3 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 150 4 distant distant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 150 5 homologues homologue NNS work_gfjn7ngtojauhn7kaf6bbbsq74 150 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 150 7 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 150 8 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 150 9 - - : work_gfjn7ngtojauhn7kaf6bbbsq74 150 10 traffick- traffick- NN work_gfjn7ngtojauhn7kaf6bbbsq74 150 11 ing ing NNP work_gfjn7ngtojauhn7kaf6bbbsq74 150 12 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 150 13 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 150 14 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 150 15 found find VBN work_gfjn7ngtojauhn7kaf6bbbsq74 150 16 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 150 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 150 18 span span NN work_gfjn7ngtojauhn7kaf6bbbsq74 150 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 150 20 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 150 21 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 150 22 did do VBD work_gfjn7ngtojauhn7kaf6bbbsq74 150 23 more more JJR work_gfjn7ngtojauhn7kaf6bbbsq74 150 24 than than IN work_gfjn7ngtojauhn7kaf6bbbsq74 150 25 identify identify VB work_gfjn7ngtojauhn7kaf6bbbsq74 150 26 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 150 27 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 150 28 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 150 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 151 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 151 2 broad broad JJ work_gfjn7ngtojauhn7kaf6bbbsq74 151 3 evo- evo- NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 4 lutionary lutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 151 5 distribution distribution NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 151 7 AP-5 ap-5 NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 8 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 151 9 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 151 10 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 151 11 implied imply VBD work_gfjn7ngtojauhn7kaf6bbbsq74 151 12 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 151 13 conserved conserve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 151 14 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 151 15 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 16 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 151 17 brought bring VBD work_gfjn7ngtojauhn7kaf6bbbsq74 151 18 candidate candidate NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 19 genes gene NNS work_gfjn7ngtojauhn7kaf6bbbsq74 151 20 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 151 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 151 22 fore fore NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 151 24 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 151 25 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 151 26 existence existence NN work_gfjn7ngtojauhn7kaf6bbbsq74 151 27 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 151 28 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 151 29 having have VBG work_gfjn7ngtojauhn7kaf6bbbsq74 151 30 since since IN work_gfjn7ngtojauhn7kaf6bbbsq74 151 31 proven prove VBN work_gfjn7ngtojauhn7kaf6bbbsq74 151 32 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 151 33 have have VB work_gfjn7ngtojauhn7kaf6bbbsq74 151 34 powerful powerful JJ work_gfjn7ngtojauhn7kaf6bbbsq74 151 35 implications implication NNS work_gfjn7ngtojauhn7kaf6bbbsq74 151 36 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 152 1 Other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 152 2 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 152 3 genes gene NNS work_gfjn7ngtojauhn7kaf6bbbsq74 152 4 exist exist VBP work_gfjn7ngtojauhn7kaf6bbbsq74 152 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 152 6 await await VBP work_gfjn7ngtojauhn7kaf6bbbsq74 152 7 functional functional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 152 8 characterization characterization NN work_gfjn7ngtojauhn7kaf6bbbsq74 152 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 152 10 hopefully hopefully RB work_gfjn7ngtojauhn7kaf6bbbsq74 152 11 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 152 12 benefits benefit NNS work_gfjn7ngtojauhn7kaf6bbbsq74 152 13 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 152 14 agriculture agriculture NN work_gfjn7ngtojauhn7kaf6bbbsq74 152 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 152 16 ecology ecology NN work_gfjn7ngtojauhn7kaf6bbbsq74 152 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 152 18 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 152 19 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 152 20 health health NN work_gfjn7ngtojauhn7kaf6bbbsq74 152 21 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 152 22 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 152 23 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 152 24 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 152 25 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 152 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 152 27 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 152 28 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 152 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 153 1 CONCLUSIONS CONCLUSIONS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 153 2 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 153 3 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 4 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 5 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 153 6 provided provide VBN work_gfjn7ngtojauhn7kaf6bbbsq74 153 7 unique unique JJ work_gfjn7ngtojauhn7kaf6bbbsq74 153 8 insights insight NNS work_gfjn7ngtojauhn7kaf6bbbsq74 153 9 into into IN work_gfjn7ngtojauhn7kaf6bbbsq74 153 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 153 11 core core JJ work_gfjn7ngtojauhn7kaf6bbbsq74 153 12 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 13 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 153 14 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 153 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 153 16 how how WRB work_gfjn7ngtojauhn7kaf6bbbsq74 153 17 history history NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 18 explains explain VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 153 19 physiology physiology NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 153 21 plas- plas- NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 22 tids tid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 153 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 153 24 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 153 25 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 153 26 identity identity NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 27 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 153 28 novel novel JJ work_gfjn7ngtojauhn7kaf6bbbsq74 153 29 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 30 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 153 31 trafficking traffic VBG work_gfjn7ngtojauhn7kaf6bbbsq74 153 32 complexes complex NNS work_gfjn7ngtojauhn7kaf6bbbsq74 153 33 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 153 34 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 153 35 relevant relevant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 153 36 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 153 37 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 153 38 health health NN work_gfjn7ngtojauhn7kaf6bbbsq74 153 39 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 154 1 Key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 2 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 154 3 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 154 4 findings finding NNS work_gfjn7ngtojauhn7kaf6bbbsq74 154 5 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 154 6 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 154 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 154 8 complementary complementary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 9 use use NN work_gfjn7ngtojauhn7kaf6bbbsq74 154 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 154 11 genomic genomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 12 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 154 13 informatic informatic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 14 analyses analysis NNS work_gfjn7ngtojauhn7kaf6bbbsq74 154 15 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 154 16 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 17 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 154 18 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 19 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 154 20 microscopic microscopic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 154 21 data datum NNS work_gfjn7ngtojauhn7kaf6bbbsq74 154 22 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 155 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 155 2 emergence emergence NN work_gfjn7ngtojauhn7kaf6bbbsq74 155 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 155 4 model model JJ work_gfjn7ngtojauhn7kaf6bbbsq74 155 5 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 155 6 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 155 7 outside outside IN work_gfjn7ngtojauhn7kaf6bbbsq74 155 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 155 9 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 155 10 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 155 11 fungi fungi NN work_gfjn7ngtojauhn7kaf6bbbsq74 155 12 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 155 13 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 155 14 in- in- RB work_gfjn7ngtojauhn7kaf6bbbsq74 155 15 valuable valuable JJ work_gfjn7ngtojauhn7kaf6bbbsq74 155 16 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 155 17 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 155 18 regard regard NN work_gfjn7ngtojauhn7kaf6bbbsq74 155 19 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 156 1 Dictyostelium Dictyostelium NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 2 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 3 http://dictybase.org http://dictybase.org NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 4 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 156 6 Arabidopsis Arabidopsis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 7 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 8 www.arabidopsis.org www.arabidopsis.org NN work_gfjn7ngtojauhn7kaf6bbbsq74 156 9 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 10 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 156 11 particularly particularly RB work_gfjn7ngtojauhn7kaf6bbbsq74 156 12 well well RB work_gfjn7ngtojauhn7kaf6bbbsq74 156 13 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 156 14 developed develop VBN work_gfjn7ngtojauhn7kaf6bbbsq74 156 15 systems system NNS work_gfjn7ngtojauhn7kaf6bbbsq74 156 16 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 156 17 although although IN work_gfjn7ngtojauhn7kaf6bbbsq74 156 18 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 156 19 mentioned mention VBN work_gfjn7ngtojauhn7kaf6bbbsq74 156 20 explicitly explicitly RB work_gfjn7ngtojauhn7kaf6bbbsq74 156 21 here here RB work_gfjn7ngtojauhn7kaf6bbbsq74 156 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 156 23 work work NN work_gfjn7ngtojauhn7kaf6bbbsq74 156 24 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 156 25 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 156 26 api- api- NNS work_gfjn7ngtojauhn7kaf6bbbsq74 156 27 complexan complexan VBD work_gfjn7ngtojauhn7kaf6bbbsq74 156 28 Toxoplasma Toxoplasma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 29 gondii gondii VB work_gfjn7ngtojauhn7kaf6bbbsq74 156 30 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 31 Kim Kim NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 156 33 Weiss Weiss NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 156 35 2004 2004 CD work_gfjn7ngtojauhn7kaf6bbbsq74 156 36 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 37 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 156 38 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 156 39 exca- exca- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 40 vate vate NN work_gfjn7ngtojauhn7kaf6bbbsq74 156 41 Trypanosoma Trypanosoma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 42 brucei brucei NN work_gfjn7ngtojauhn7kaf6bbbsq74 156 43 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 44 Barry Barry NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 45 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 46 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 47 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 156 48 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 156 49 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 156 50 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 156 51 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 156 52 greatly greatly RB work_gfjn7ngtojauhn7kaf6bbbsq74 156 53 contributed contribute VBN work_gfjn7ngtojauhn7kaf6bbbsq74 156 54 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 156 55 comparative comparative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 156 56 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 156 57 biological biological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 156 58 understanding understanding NN work_gfjn7ngtojauhn7kaf6bbbsq74 156 59 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 157 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 157 2 development development NN work_gfjn7ngtojauhn7kaf6bbbsq74 157 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 157 4 further further JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 5 genetic genetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 6 databases database NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 157 8 tools tool NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 9 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 157 10 manipulating manipulate VBG work_gfjn7ngtojauhn7kaf6bbbsq74 157 11 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 157 12 organ- organ- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 13 isms ism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 14 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 157 15 others other NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 16 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 157 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 157 18 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 157 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 157 20 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 21 will will MD work_gfjn7ngtojauhn7kaf6bbbsq74 157 22 provide provide VB work_gfjn7ngtojauhn7kaf6bbbsq74 157 23 ex- ex- DT work_gfjn7ngtojauhn7kaf6bbbsq74 157 24 perimental perimental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 25 data datum NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 26 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 157 27 contextualize contextualize VB work_gfjn7ngtojauhn7kaf6bbbsq74 157 28 fundamental fundamental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 29 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 30 traits trait NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 31 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 157 32 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 157 33 between between IN work_gfjn7ngtojauhn7kaf6bbbsq74 157 34 different different JJ work_gfjn7ngtojauhn7kaf6bbbsq74 157 35 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 157 36 chromalveolate chromalveolate NN work_gfjn7ngtojauhn7kaf6bbbsq74 157 37 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 157 38 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 157 39 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 158 1 These these DT work_gfjn7ngtojauhn7kaf6bbbsq74 158 2 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 3 sug- sug- RB work_gfjn7ngtojauhn7kaf6bbbsq74 158 4 gest gest VBP work_gfjn7ngtojauhn7kaf6bbbsq74 158 5 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 6 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 158 7 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 158 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 9 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 158 10 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 158 11 alga alga NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 12 initially initially RB work_gfjn7ngtojauhn7kaf6bbbsq74 158 13 occurred occur VBD work_gfjn7ngtojauhn7kaf6bbbsq74 158 14 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 158 16 cryptophyte cryptophyte NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 17 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 158 18 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 158 19 that that IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 20 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 158 21 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 158 22 was be VBD work_gfjn7ngtojauhn7kaf6bbbsq74 158 23 then then RB work_gfjn7ngtojauhn7kaf6bbbsq74 158 24 acquired acquire VBN work_gfjn7ngtojauhn7kaf6bbbsq74 158 25 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 26 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 158 27 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 28 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 158 29 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 158 30 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 31 dinoflagellates dinoflagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 158 33 haptophytes haptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 34 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 158 35 stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 36 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 158 37 through through IN work_gfjn7ngtojauhn7kaf6bbbsq74 158 38 higher high JJR work_gfjn7ngtojauhn7kaf6bbbsq74 158 39 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 158 40 order order NN work_gfjn7ngtojauhn7kaf6bbbsq74 158 41 endosymbioses endosymbiose NNS work_gfjn7ngtojauhn7kaf6bbbsq74 158 42 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 158 43 tertiary tertiary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 158 44 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 158 45 quaternary quaternary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 158 46 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 158 47 see see VB work_gfjn7ngtojauhn7kaf6bbbsq74 158 48 Figure Figure NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 49 2Biii 2Biii NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 50 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 158 51 Stiller Stiller NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 52 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 53 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 54 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 158 55 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 158 56 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 158 57 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 158 58 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 159 1 There there EX work_gfjn7ngtojauhn7kaf6bbbsq74 159 2 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 159 3 even even RB work_gfjn7ngtojauhn7kaf6bbbsq74 159 4 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 159 5 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 159 6 endo- endo- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 159 7 symbiotic symbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 159 8 events event NNS work_gfjn7ngtojauhn7kaf6bbbsq74 159 9 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 159 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 160 1 Some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 160 2 dinoflagellates dinoflagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 160 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 160 4 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 160 5 example example NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 160 7 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 160 8 lost lose VBN work_gfjn7ngtojauhn7kaf6bbbsq74 160 9 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 160 10 original original JJ work_gfjn7ngtojauhn7kaf6bbbsq74 160 11 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 160 12 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 160 13 presumably presumably RB work_gfjn7ngtojauhn7kaf6bbbsq74 160 14 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 160 15 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 160 16 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 17 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 160 18 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 160 19 replaced replace VBD work_gfjn7ngtojauhn7kaf6bbbsq74 160 20 them -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 160 21 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 160 22 ones one NNS work_gfjn7ngtojauhn7kaf6bbbsq74 160 23 derived derive VBN work_gfjn7ngtojauhn7kaf6bbbsq74 160 24 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 160 25 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 160 26 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 160 27 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 28 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 160 29 hapto- hapto- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 160 30 phytes phyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 160 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 160 32 stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 160 33 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 160 34 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 160 35 green green JJ work_gfjn7ngtojauhn7kaf6bbbsq74 160 36 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 37 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 160 38 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 160 39 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 160 40 process process NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 41 termed term VBN work_gfjn7ngtojauhn7kaf6bbbsq74 160 42 “ " `` work_gfjn7ngtojauhn7kaf6bbbsq74 160 43 serial serial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 160 44 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 45 ” " '' work_gfjn7ngtojauhn7kaf6bbbsq74 160 46 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 160 47 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 160 48 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 160 49 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 160 50 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 160 51 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 160 52 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 160 53 ; ; : work_gfjn7ngtojauhn7kaf6bbbsq74 160 54 Figure figure NN work_gfjn7ngtojauhn7kaf6bbbsq74 160 55 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 160 56 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 160 57 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 161 1 Regardless regardless RB work_gfjn7ngtojauhn7kaf6bbbsq74 161 2 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 161 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 161 4 emerg- emerg- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 161 5 ing ing NN work_gfjn7ngtojauhn7kaf6bbbsq74 161 6 story story NN work_gfjn7ngtojauhn7kaf6bbbsq74 161 7 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 161 8 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 161 9 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 161 10 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 161 11 studies study NNS work_gfjn7ngtojauhn7kaf6bbbsq74 161 12 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 161 13 that that DT work_gfjn7ngtojauhn7kaf6bbbsq74 161 14 plastid plastid JJ work_gfjn7ngtojauhn7kaf6bbbsq74 161 15 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 161 16 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 161 17 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 161 18 much much RB work_gfjn7ngtojauhn7kaf6bbbsq74 161 19 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 161 20 widespread widespread JJ work_gfjn7ngtojauhn7kaf6bbbsq74 161 21 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 161 22 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 161 23 process process NN work_gfjn7ngtojauhn7kaf6bbbsq74 161 24 than than IN work_gfjn7ngtojauhn7kaf6bbbsq74 161 25 previously previously RB work_gfjn7ngtojauhn7kaf6bbbsq74 161 26 thought think VBN work_gfjn7ngtojauhn7kaf6bbbsq74 161 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 162 1 Resolving resolve VBG work_gfjn7ngtojauhn7kaf6bbbsq74 162 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 162 3 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 162 4 histories history NNS work_gfjn7ngtojauhn7kaf6bbbsq74 162 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 162 6 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 162 7 informs inform VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 162 8 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 162 9 mechanistic mechanistic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 162 10 understanding understanding NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 162 12 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 162 13 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 14 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 162 16 since since IN work_gfjn7ngtojauhn7kaf6bbbsq74 162 17 each each DT work_gfjn7ngtojauhn7kaf6bbbsq74 162 18 time time NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 19 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 162 20 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 21 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 162 22 acquired acquire VBN work_gfjn7ngtojauhn7kaf6bbbsq74 162 23 through through IN work_gfjn7ngtojauhn7kaf6bbbsq74 162 24 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 162 26 both both CC work_gfjn7ngtojauhn7kaf6bbbsq74 162 27 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 162 28 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 29 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 162 30 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 162 31 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 32 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 162 33 host host NN work_gfjn7ngtojauhn7kaf6bbbsq74 162 34 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 162 35 change change VB work_gfjn7ngtojauhn7kaf6bbbsq74 162 36 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 162 37 accommodate accommodate VB work_gfjn7ngtojauhn7kaf6bbbsq74 162 38 one one PRP work_gfjn7ngtojauhn7kaf6bbbsq74 162 39 another another DT work_gfjn7ngtojauhn7kaf6bbbsq74 162 40 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 163 1 Pro- pro- NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 2 teins tein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 163 3 derived derive VBN work_gfjn7ngtojauhn7kaf6bbbsq74 163 4 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 163 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 163 6 host host NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 7 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 163 8 likely likely JJ work_gfjn7ngtojauhn7kaf6bbbsq74 163 9 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 163 10 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 163 11 retargeted retargete VBN work_gfjn7ngtojauhn7kaf6bbbsq74 163 12 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 163 13 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 163 14 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 163 16 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 163 17 genes gene NNS work_gfjn7ngtojauhn7kaf6bbbsq74 163 18 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 163 19 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 163 20 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 21 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 163 22 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 163 23 turn turn NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 24 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 163 25 adapted adapt VBN work_gfjn7ngtojauhn7kaf6bbbsq74 163 26 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 163 27 support support VB work_gfjn7ngtojauhn7kaf6bbbsq74 163 28 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 163 29 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 30 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 163 31 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 163 32 host host NN work_gfjn7ngtojauhn7kaf6bbbsq74 163 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 164 1 Lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 164 2 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 164 3 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 164 4 undergone undergo VBN work_gfjn7ngtojauhn7kaf6bbbsq74 164 5 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 164 7 serial serial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 8 endosymbiotic endosymbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 9 events event NNS work_gfjn7ngtojauhn7kaf6bbbsq74 164 10 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 164 11 therefore therefore RB work_gfjn7ngtojauhn7kaf6bbbsq74 164 12 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 164 13 supported support VBN work_gfjn7ngtojauhn7kaf6bbbsq74 164 14 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 164 15 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 164 16 mo- mo- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 17 saic saic NN work_gfjn7ngtojauhn7kaf6bbbsq74 164 18 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 164 19 different different JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 20 biochemical biochemical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 21 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 164 22 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 164 23 different different JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 24 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 164 25 sources source NNS work_gfjn7ngtojauhn7kaf6bbbsq74 164 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 165 1 For for IN work_gfjn7ngtojauhn7kaf6bbbsq74 165 2 example example NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 165 4 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 165 5 dinoflagellates dinoflagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 165 6 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 165 7 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 165 8 undergone undergo VBN work_gfjn7ngtojauhn7kaf6bbbsq74 165 9 serial serial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 165 10 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 11 retain retain VB work_gfjn7ngtojauhn7kaf6bbbsq74 165 12 unusual unusual JJ work_gfjn7ngtojauhn7kaf6bbbsq74 165 13 gene gene NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 14 expression expression NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 15 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 165 16 as- as- CC work_gfjn7ngtojauhn7kaf6bbbsq74 165 17 sociated sociate VBD work_gfjn7ngtojauhn7kaf6bbbsq74 165 18 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 165 19 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 165 20 original original JJ work_gfjn7ngtojauhn7kaf6bbbsq74 165 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 165 22 red red JJ work_gfjn7ngtojauhn7kaf6bbbsq74 165 23 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 165 24 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 165 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 165 26 RNA RNA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 165 27 editing editing NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 28 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 165 29 3′ 3′ CD work_gfjn7ngtojauhn7kaf6bbbsq74 165 30 tail tail NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 31 addition addition NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 32 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 165 33 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 165 34 now now RB work_gfjn7ngtojauhn7kaf6bbbsq74 165 35 use use VBP work_gfjn7ngtojauhn7kaf6bbbsq74 165 36 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 165 37 pathways pathway NNS work_gfjn7ngtojauhn7kaf6bbbsq74 165 38 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 165 39 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 165 40 replacement replacement NN work_gfjn7ngtojauhn7kaf6bbbsq74 165 41 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 165 42 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 165 43 Dorrell Dorrell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 165 44 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 165 45 Howe Howe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 165 46 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 165 47 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 165 48 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 165 49 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 166 1 While while IN work_gfjn7ngtojauhn7kaf6bbbsq74 166 2 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 166 3 diverse diverse JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 4 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 5 lineages lineage NNS work_gfjn7ngtojauhn7kaf6bbbsq74 166 6 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 166 7 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 166 8 unfamiliar unfamiliar JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 9 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 166 10 many many JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 11 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 166 12 biologists biologist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 166 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 166 14 they -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 166 15 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 166 16 well well RB work_gfjn7ngtojauhn7kaf6bbbsq74 166 17 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 166 18 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 166 19 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 166 20 oceanog- oceanog- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 21 raphers rapher NNS work_gfjn7ngtojauhn7kaf6bbbsq74 166 22 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 166 23 public public JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 24 health health NN work_gfjn7ngtojauhn7kaf6bbbsq74 166 25 officials official NNS work_gfjn7ngtojauhn7kaf6bbbsq74 166 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 166 27 accounting account VBG work_gfjn7ngtojauhn7kaf6bbbsq74 166 28 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 166 29 half half NN work_gfjn7ngtojauhn7kaf6bbbsq74 166 30 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 166 31 primary primary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 32 carbon carbon NN work_gfjn7ngtojauhn7kaf6bbbsq74 166 33 fixation fixation NN work_gfjn7ngtojauhn7kaf6bbbsq74 166 34 worldwide worldwide RB work_gfjn7ngtojauhn7kaf6bbbsq74 166 35 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 166 36 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 166 37 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 166 38 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 166 39 cases case NNS work_gfjn7ngtojauhn7kaf6bbbsq74 166 40 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 166 41 producing produce VBG work_gfjn7ngtojauhn7kaf6bbbsq74 166 42 harmful harmful JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 43 algal algal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 166 44 blooms bloom NNS work_gfjn7ngtojauhn7kaf6bbbsq74 166 45 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 166 46 Place Place NNP work_gfjn7ngtojauhn7kaf6bbbsq74 166 47 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 166 48 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 166 49 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 166 50 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 166 51 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 166 52 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 166 53 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 167 1 As as IN work_gfjn7ngtojauhn7kaf6bbbsq74 167 2 climate climate NN work_gfjn7ngtojauhn7kaf6bbbsq74 167 3 change change NN work_gfjn7ngtojauhn7kaf6bbbsq74 167 4 modifies modify VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 167 5 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 167 6 oceans ocean NNS work_gfjn7ngtojauhn7kaf6bbbsq74 167 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 167 8 skies sky NNS work_gfjn7ngtojauhn7kaf6bbbsq74 167 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 167 10 understanding understand VBG work_gfjn7ngtojauhn7kaf6bbbsq74 167 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 167 12 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 167 13 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 167 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 167 15 these these DT work_gfjn7ngtojauhn7kaf6bbbsq74 167 16 chimeric chimeric JJ work_gfjn7ngtojauhn7kaf6bbbsq74 167 17 organisms organism NNS work_gfjn7ngtojauhn7kaf6bbbsq74 167 18 forged forge VBN work_gfjn7ngtojauhn7kaf6bbbsq74 167 19 through through IN work_gfjn7ngtojauhn7kaf6bbbsq74 167 20 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 167 21 will will MD work_gfjn7ngtojauhn7kaf6bbbsq74 167 22 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 167 23 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 167 24 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 167 25 main- main- RB work_gfjn7ngtojauhn7kaf6bbbsq74 167 26 taining taine VBG work_gfjn7ngtojauhn7kaf6bbbsq74 167 27 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 167 28 healthy healthy JJ work_gfjn7ngtojauhn7kaf6bbbsq74 167 29 global global JJ work_gfjn7ngtojauhn7kaf6bbbsq74 167 30 environment environment NN work_gfjn7ngtojauhn7kaf6bbbsq74 167 31 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 168 1 UNEXPECTED unexpected JJ work_gfjn7ngtojauhn7kaf6bbbsq74 168 2 MEMBRANE membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 3 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 168 4 TRAFFICKING trafficking NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 5 MACHINERY machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 168 7 SOMETHING something NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 8 OLD old JJ work_gfjn7ngtojauhn7kaf6bbbsq74 168 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 168 10 SOMETHING something NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 11 NEW new JJ work_gfjn7ngtojauhn7kaf6bbbsq74 168 12 Although although IN work_gfjn7ngtojauhn7kaf6bbbsq74 168 13 understanding understanding NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 14 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 15 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 168 16 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 168 17 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 168 18 key key JJ work_gfjn7ngtojauhn7kaf6bbbsq74 168 19 success success NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 20 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 168 21 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 168 22 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 23 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 24 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 168 25 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 168 26 past past JJ work_gfjn7ngtojauhn7kaf6bbbsq74 168 27 40 40 CD work_gfjn7ngtojauhn7kaf6bbbsq74 168 28 + + CD work_gfjn7ngtojauhn7kaf6bbbsq74 168 29 years year NNS work_gfjn7ngtojauhn7kaf6bbbsq74 168 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 168 31 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 168 32 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 168 33 must must MD work_gfjn7ngtojauhn7kaf6bbbsq74 168 34 have have VB work_gfjn7ngtojauhn7kaf6bbbsq74 168 35 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 168 36 derived derive VBN work_gfjn7ngtojauhn7kaf6bbbsq74 168 37 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 168 38 building build VBG work_gfjn7ngtojauhn7kaf6bbbsq74 168 39 blocks block NNS work_gfjn7ngtojauhn7kaf6bbbsq74 168 40 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 168 41 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 168 42 proto proto RB work_gfjn7ngtojauhn7kaf6bbbsq74 168 43 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 168 44 eukary- eukary- NN work_gfjn7ngtojauhn7kaf6bbbsq74 168 45 otes ote VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 168 46 themselves -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 168 47 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 168 48 Dacks Dacks NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 168 49 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 168 50 Field Field NNP work_gfjn7ngtojauhn7kaf6bbbsq74 168 51 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 168 52 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 168 53 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 168 54 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 169 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 169 2 best good JJS work_gfjn7ngtojauhn7kaf6bbbsq74 169 3 candidates candidate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 169 4 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 169 5 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 169 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 169 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 169 8 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 169 9 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 169 10 trafficking traffic VBG work_gfjn7ngtojauhn7kaf6bbbsq74 169 11 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 169 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 170 1 Consisting consist VBG work_gfjn7ngtojauhn7kaf6bbbsq74 170 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 170 3 mem- mem- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 170 4 brane brane NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 5 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 170 6 bound bind VBN work_gfjn7ngtojauhn7kaf6bbbsq74 170 7 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 170 8 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 170 9 include include VBP work_gfjn7ngtojauhn7kaf6bbbsq74 170 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 170 11 endoplasmic endoplasmic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 170 12 reticulum reticulum NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 14 Golgi Golgi NNP work_gfjn7ngtojauhn7kaf6bbbsq74 170 15 complex complex NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 17 lysosomes lysosome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 170 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 19 endosomes endosome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 170 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 21 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 170 22 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 170 23 plasma plasma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 170 24 mem- mem- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 170 25 brane brane NNP work_gfjn7ngtojauhn7kaf6bbbsq74 170 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 27 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 170 28 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 29 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 170 30 trafficking traffic VBG work_gfjn7ngtojauhn7kaf6bbbsq74 170 31 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 32 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 170 33 responsible responsible JJ work_gfjn7ngtojauhn7kaf6bbbsq74 170 34 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 170 35 sub- sub- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 170 36 stance stance NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 37 intake intake NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 38 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 39 transport transport NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 40 within within IN work_gfjn7ngtojauhn7kaf6bbbsq74 170 41 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 170 42 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 170 43 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 170 44 secretion secretion NN work_gfjn7ngtojauhn7kaf6bbbsq74 170 45 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 170 46 them -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 170 47 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 171 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 171 2 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 171 3 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 171 4 critical critical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 171 5 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 171 6 normal normal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 171 7 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 171 8 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 171 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 171 10 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 171 11 its -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 171 12 malfunction malfunction NN work_gfjn7ngtojauhn7kaf6bbbsq74 171 13 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 171 14 humans human NNS work_gfjn7ngtojauhn7kaf6bbbsq74 171 15 can can MD work_gfjn7ngtojauhn7kaf6bbbsq74 171 16 manifest manifest VB work_gfjn7ngtojauhn7kaf6bbbsq74 171 17 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 171 18 diseases disease NNS work_gfjn7ngtojauhn7kaf6bbbsq74 171 19 such such JJ work_gfjn7ngtojauhn7kaf6bbbsq74 171 20 as as IN work_gfjn7ngtojauhn7kaf6bbbsq74 171 21 cancer cancer NN work_gfjn7ngtojauhn7kaf6bbbsq74 171 22 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 171 23 cardiac cardiac NN work_gfjn7ngtojauhn7kaf6bbbsq74 171 24 dis- dis- IN work_gfjn7ngtojauhn7kaf6bbbsq74 171 25 ease ease NN work_gfjn7ngtojauhn7kaf6bbbsq74 171 26 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 171 27 Aridor Aridor NNP work_gfjn7ngtojauhn7kaf6bbbsq74 171 28 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 171 29 Hannan Hannan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 171 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 171 31 2000 2000 CD work_gfjn7ngtojauhn7kaf6bbbsq74 171 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 171 33 2002 2002 CD work_gfjn7ngtojauhn7kaf6bbbsq74 171 34 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 171 35 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 172 1 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 172 2 analysis analysis NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 172 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 172 5 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 6 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 172 7 trafficking traffic VBG work_gfjn7ngtojauhn7kaf6bbbsq74 172 8 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 9 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 172 10 revealed reveal VBN work_gfjn7ngtojauhn7kaf6bbbsq74 172 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 172 12 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 172 13 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 172 14 mem- mem- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 172 15 brane brane NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 16 trafficking trafficking NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 17 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 172 18 e.g. e.g. RB work_gfjn7ngtojauhn7kaf6bbbsq74 172 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 172 20 SNAREs SNAREs NNP work_gfjn7ngtojauhn7kaf6bbbsq74 172 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 172 22 Rabs Rabs NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 172 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 172 24 coatomers coatomer NNS work_gfjn7ngtojauhn7kaf6bbbsq74 172 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 172 26 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 172 27 adaptor adaptor NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 28 pro- pro- NN work_gfjn7ngtojauhn7kaf6bbbsq74 172 29 teins tein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 172 30 [ [ -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 172 31 APs ap NNS work_gfjn7ngtojauhn7kaf6bbbsq74 172 32 ] ] -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 172 33 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 172 34 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 172 35 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 172 36 conserved conserve VBN work_gfjn7ngtojauhn7kaf6bbbsq74 172 37 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 172 38 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 172 39 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 172 40 Koumandou Koumandou NNP work_gfjn7ngtojauhn7kaf6bbbsq74 172 41 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 172 42 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 172 43 . . NNP work_gfjn7ngtojauhn7kaf6bbbsq74 172 44 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 172 45 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 172 46 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 172 47 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 173 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 173 2 suggested suggest VBD work_gfjn7ngtojauhn7kaf6bbbsq74 173 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 173 4 presence presence NN work_gfjn7ngtojauhn7kaf6bbbsq74 173 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 173 6 sophisticated sophisticated JJ work_gfjn7ngtojauhn7kaf6bbbsq74 173 7 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 173 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 173 9 LECA LECA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 173 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 173 11 prompting prompt VBG work_gfjn7ngtojauhn7kaf6bbbsq74 173 12 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 173 13 proposed propose VBN work_gfjn7ngtojauhn7kaf6bbbsq74 173 14 mechanism mechanism NN work_gfjn7ngtojauhn7kaf6bbbsq74 173 15 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 173 16 how how WRB work_gfjn7ngtojauhn7kaf6bbbsq74 173 17 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 173 18 might may MD work_gfjn7ngtojauhn7kaf6bbbsq74 173 19 evolve evolve VB work_gfjn7ngtojauhn7kaf6bbbsq74 173 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 173 21 if if IN work_gfjn7ngtojauhn7kaf6bbbsq74 173 22 not not RB work_gfjn7ngtojauhn7kaf6bbbsq74 173 23 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 173 24 endosymbiosis endosymbiosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 173 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 173 26 Dacks Dacks NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 173 27 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 173 28 Field Field NNP work_gfjn7ngtojauhn7kaf6bbbsq74 173 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 173 30 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 173 31 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 173 32 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 174 1 This this DT work_gfjn7ngtojauhn7kaf6bbbsq74 174 2 ap- ap- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 174 3 proach proach NN work_gfjn7ngtojauhn7kaf6bbbsq74 174 4 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 174 5 exploring explore VBG work_gfjn7ngtojauhn7kaf6bbbsq74 174 6 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 174 7 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 174 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 174 9 sake sake NN work_gfjn7ngtojauhn7kaf6bbbsq74 174 10 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 174 11 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 174 12 under- under- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 174 13 standing standing NN work_gfjn7ngtojauhn7kaf6bbbsq74 174 14 has have VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 174 15 also also RB work_gfjn7ngtojauhn7kaf6bbbsq74 174 16 yielded yield VBN work_gfjn7ngtojauhn7kaf6bbbsq74 174 17 some some DT work_gfjn7ngtojauhn7kaf6bbbsq74 174 18 surprises surprise NNS work_gfjn7ngtojauhn7kaf6bbbsq74 174 19 about about IN work_gfjn7ngtojauhn7kaf6bbbsq74 174 20 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 174 21 traffick- traffick- VBD work_gfjn7ngtojauhn7kaf6bbbsq74 174 22 ing e VBG work_gfjn7ngtojauhn7kaf6bbbsq74 174 23 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 174 24 modern modern JJ work_gfjn7ngtojauhn7kaf6bbbsq74 174 25 cells cell NNS work_gfjn7ngtojauhn7kaf6bbbsq74 174 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 175 1 Four four CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 2 heterotetrameric heterotetrameric JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 3 AP AP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 175 4 complexes complex NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 5 have have VBP work_gfjn7ngtojauhn7kaf6bbbsq74 175 6 been be VBN work_gfjn7ngtojauhn7kaf6bbbsq74 175 7 known know VBN work_gfjn7ngtojauhn7kaf6bbbsq74 175 8 since since IN work_gfjn7ngtojauhn7kaf6bbbsq74 175 9 2001 2001 CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 10 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 175 11 recruit recruit VB work_gfjn7ngtojauhn7kaf6bbbsq74 175 12 specific specific JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 13 cargoes cargo NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 14 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 175 15 their -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 175 16 corresponding corresponding NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 175 18 newly newly RB work_gfjn7ngtojauhn7kaf6bbbsq74 175 19 form- form- JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 20 ing ing NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 175 22 vesicles vesicle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 23 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 175 24 transport transport NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 25 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 175 26 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 175 27 post post JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 28 - - JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 29 Golgi golgi JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 30 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 175 31 endocytic endocytic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 32 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 33 Volume volume NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 34 26 26 CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 35 December December NNP work_gfjn7ngtojauhn7kaf6bbbsq74 175 36 15 15 CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 37 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 175 38 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 39 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 40 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 41 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 42 | | CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 43 4537 4537 CD work_gfjn7ngtojauhn7kaf6bbbsq74 175 44 find find VB work_gfjn7ngtojauhn7kaf6bbbsq74 175 45 new new JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 46 features feature NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 47 lost lose VBN work_gfjn7ngtojauhn7kaf6bbbsq74 175 48 or or CC work_gfjn7ngtojauhn7kaf6bbbsq74 175 49 ignored ignore VBN work_gfjn7ngtojauhn7kaf6bbbsq74 175 50 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 175 51 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 175 52 more more RBR work_gfjn7ngtojauhn7kaf6bbbsq74 175 53 traditional traditional JJ work_gfjn7ngtojauhn7kaf6bbbsq74 175 54 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 55 sys- sys- NN work_gfjn7ngtojauhn7kaf6bbbsq74 175 56 tems tem NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 57 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 175 58 animals animal NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 59 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 175 60 fungi fungus NNS work_gfjn7ngtojauhn7kaf6bbbsq74 175 61 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 176 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 176 2 discoveries discovery NNS work_gfjn7ngtojauhn7kaf6bbbsq74 176 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 176 4 new new JJ work_gfjn7ngtojauhn7kaf6bbbsq74 176 5 organellar organellar JJ work_gfjn7ngtojauhn7kaf6bbbsq74 176 6 evolu- evolu- NNS work_gfjn7ngtojauhn7kaf6bbbsq74 176 7 tion tion NN work_gfjn7ngtojauhn7kaf6bbbsq74 176 8 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 176 9 function function NN work_gfjn7ngtojauhn7kaf6bbbsq74 176 10 gives give VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 176 11 us -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 176 12 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 176 13 taste taste NN work_gfjn7ngtojauhn7kaf6bbbsq74 176 14 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 176 15 what what WP work_gfjn7ngtojauhn7kaf6bbbsq74 176 16 may may MD work_gfjn7ngtojauhn7kaf6bbbsq74 176 17 be be VB work_gfjn7ngtojauhn7kaf6bbbsq74 176 18 left leave VBN work_gfjn7ngtojauhn7kaf6bbbsq74 176 19 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 176 20 uncover uncover VB work_gfjn7ngtojauhn7kaf6bbbsq74 176 21 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 176 22 embracing embrace VBG work_gfjn7ngtojauhn7kaf6bbbsq74 176 23 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 176 24 exploring explore VBG work_gfjn7ngtojauhn7kaf6bbbsq74 176 25 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 176 26 genomic genomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 176 27 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 176 28 cellular cellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 176 29 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 176 30 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 177 1 ACKNOWLEDGMENTS acknowledgment NNS work_gfjn7ngtojauhn7kaf6bbbsq74 177 2 We -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 177 3 thank thank VBP work_gfjn7ngtojauhn7kaf6bbbsq74 177 4 H. H. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 177 5 Goodson Goodson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 177 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 177 7 T. T. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 177 8 Simmen Simmen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 177 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 177 10 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 177 11 J. J. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 177 12 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 177 13 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 177 14 critical critical JJ work_gfjn7ngtojauhn7kaf6bbbsq74 177 15 reading reading NN work_gfjn7ngtojauhn7kaf6bbbsq74 177 16 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 177 17 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 177 18 manuscript manuscript NN work_gfjn7ngtojauhn7kaf6bbbsq74 177 19 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 178 1 A.T. A.T. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 2 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 178 3 supported support VBN work_gfjn7ngtojauhn7kaf6bbbsq74 178 4 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 178 5 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 178 6 Biotechonology Biotechonology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 178 8 Biologi- Biologi- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 9 cal cal NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 10 Sciences Sciences NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 11 Reserach Reserach NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 12 Council Council NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 13 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 178 14 BBSRC BBSRC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 15 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 178 16 Research Research NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 17 grant grant NN work_gfjn7ngtojauhn7kaf6bbbsq74 178 18 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 178 19 BB/ BB/ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 178 20 M009971/1 m009971/1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 178 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 179 1 R.G.D. R.G.D. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 180 1 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 180 2 supported support VBN work_gfjn7ngtojauhn7kaf6bbbsq74 180 3 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 180 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 180 5 postdoctoral postdoctoral JJ work_gfjn7ngtojauhn7kaf6bbbsq74 180 6 research research NN work_gfjn7ngtojauhn7kaf6bbbsq74 180 7 fellow- fellow- NN work_gfjn7ngtojauhn7kaf6bbbsq74 180 8 ship ship NN work_gfjn7ngtojauhn7kaf6bbbsq74 180 9 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 180 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 180 11 Mairie Mairie NNP work_gfjn7ngtojauhn7kaf6bbbsq74 180 12 de de IN work_gfjn7ngtojauhn7kaf6bbbsq74 180 13 Paris Paris NNP work_gfjn7ngtojauhn7kaf6bbbsq74 180 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 181 1 E.R. E.R. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 1 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 182 2 supported support VBN work_gfjn7ngtojauhn7kaf6bbbsq74 182 3 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 182 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 182 5 Graduate Graduate NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 6 Re- Re- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 7 cruitment cruitment NN work_gfjn7ngtojauhn7kaf6bbbsq74 182 8 Scholarship scholarship NN work_gfjn7ngtojauhn7kaf6bbbsq74 182 9 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 182 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 182 11 University University NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 12 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 182 13 Alberta Alberta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 14 Faculty Faculty NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 182 16 Med- Med- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 17 icine icine NN work_gfjn7ngtojauhn7kaf6bbbsq74 182 18 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 182 19 Dentistry Dentistry NNP work_gfjn7ngtojauhn7kaf6bbbsq74 182 20 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 182 21 funds fund NNS work_gfjn7ngtojauhn7kaf6bbbsq74 182 22 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 182 23 J.B.D. J.B.D. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 183 1 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 183 2 Alberta Alberta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 183 3 Innovates Innovates NNP work_gfjn7ngtojauhn7kaf6bbbsq74 183 4 Technology Technology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 183 5 Futures Futures NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 183 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 184 1 K.Z. K.Z. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 185 1 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 185 2 supported support VBN work_gfjn7ngtojauhn7kaf6bbbsq74 185 3 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 185 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 185 5 summer summer NN work_gfjn7ngtojauhn7kaf6bbbsq74 185 6 studentship studentship NN work_gfjn7ngtojauhn7kaf6bbbsq74 185 7 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 185 8 Alberta Alberta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 185 9 Innovates Innovates NNP work_gfjn7ngtojauhn7kaf6bbbsq74 185 10 Health Health NNP work_gfjn7ngtojauhn7kaf6bbbsq74 185 11 Solutions Solutions NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 185 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 185 13 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 185 14 J.B.D. J.B.D. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 1 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 186 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 186 3 Canada Canada NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 4 Re- Re- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 5 search search NN work_gfjn7ngtojauhn7kaf6bbbsq74 186 6 Chair Chair NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 186 8 Evolutionary Evolutionary NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 9 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 10 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 186 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 187 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 187 2 quotation quotation NN work_gfjn7ngtojauhn7kaf6bbbsq74 187 3 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 187 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 187 5 title title NN work_gfjn7ngtojauhn7kaf6bbbsq74 187 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 187 7 this this DT work_gfjn7ngtojauhn7kaf6bbbsq74 187 8 Perspective Perspective NNP work_gfjn7ngtojauhn7kaf6bbbsq74 187 9 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 187 10 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 187 11 Charles Charles NNP work_gfjn7ngtojauhn7kaf6bbbsq74 187 12 Darwin Darwin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 187 13 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 187 14 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 187 15 Origin Origin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 187 16 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 187 17 Species Species NNP work_gfjn7ngtojauhn7kaf6bbbsq74 187 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 187 19 1859 1859 CD work_gfjn7ngtojauhn7kaf6bbbsq74 187 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 187 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 188 1 REFERENCES REFERENCES NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 2 Adl Adl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 3 SM SM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 5 Simpson Simpson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 6 AGB AGB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 8 Lane Lane NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 9 CE CE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 11 Lukeš Lukeš NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 12 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 14 Bass Bass NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 15 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 17 Bowser Bowser NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 18 SS SS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 20 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 21 MW MW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 23 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 24 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 26 Dunthorn Dunthorn NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 27 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 28 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 29 Hampl Hampl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 30 V V NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 31 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 188 32 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 33 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 188 34 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 189 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 189 2 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 189 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 189 4 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 190 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 190 2 revised revised JJ work_gfjn7ngtojauhn7kaf6bbbsq74 190 3 classification classification NN work_gfjn7ngtojauhn7kaf6bbbsq74 190 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 190 5 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 190 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 191 1 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 191 2 Eukaryot Eukaryot NNP work_gfjn7ngtojauhn7kaf6bbbsq74 191 3 Microbiol Microbiol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 191 4 59 59 CD work_gfjn7ngtojauhn7kaf6bbbsq74 191 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 191 6 429–493 429–493 CD work_gfjn7ngtojauhn7kaf6bbbsq74 191 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 192 1 Aridor Aridor NNP work_gfjn7ngtojauhn7kaf6bbbsq74 192 2 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 192 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 192 4 Hannan Hannan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 192 5 LA LA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 192 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 192 7 2000 2000 CD work_gfjn7ngtojauhn7kaf6bbbsq74 192 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 192 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 193 1 Traffic traffic NN work_gfjn7ngtojauhn7kaf6bbbsq74 193 2 jam jam NN work_gfjn7ngtojauhn7kaf6bbbsq74 193 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 193 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 193 5 compendium compendium NN work_gfjn7ngtojauhn7kaf6bbbsq74 193 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 193 7 human human JJ work_gfjn7ngtojauhn7kaf6bbbsq74 193 8 diseases disease NNS work_gfjn7ngtojauhn7kaf6bbbsq74 193 9 that that WDT work_gfjn7ngtojauhn7kaf6bbbsq74 193 10 affect affect VBP work_gfjn7ngtojauhn7kaf6bbbsq74 193 11 intracellular intracellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 193 12 transport transport NN work_gfjn7ngtojauhn7kaf6bbbsq74 193 13 processes process NNS work_gfjn7ngtojauhn7kaf6bbbsq74 193 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 194 1 Traffic traffic NN work_gfjn7ngtojauhn7kaf6bbbsq74 194 2 1 1 CD work_gfjn7ngtojauhn7kaf6bbbsq74 194 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 194 4 836–851 836–851 CD work_gfjn7ngtojauhn7kaf6bbbsq74 194 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 195 1 Aridor Aridor NNP work_gfjn7ngtojauhn7kaf6bbbsq74 195 2 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 195 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 195 4 Hannan Hannan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 195 5 LA LA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 195 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 195 7 2002 2002 CD work_gfjn7ngtojauhn7kaf6bbbsq74 195 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 195 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 196 1 Traffic traffic NN work_gfjn7ngtojauhn7kaf6bbbsq74 196 2 jams jam NNS work_gfjn7ngtojauhn7kaf6bbbsq74 196 3 II II NNP work_gfjn7ngtojauhn7kaf6bbbsq74 196 4 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 196 5 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 196 6 update update NN work_gfjn7ngtojauhn7kaf6bbbsq74 196 7 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 196 8 diseases disease NNS work_gfjn7ngtojauhn7kaf6bbbsq74 196 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 196 10 intracellular intracellular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 196 11 transport transport NN work_gfjn7ngtojauhn7kaf6bbbsq74 196 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 197 1 Traffic traffic NN work_gfjn7ngtojauhn7kaf6bbbsq74 197 2 3 3 CD work_gfjn7ngtojauhn7kaf6bbbsq74 197 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 197 4 781–790 781–790 CD work_gfjn7ngtojauhn7kaf6bbbsq74 197 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 198 1 Bachvaroff Bachvaroff NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 2 TR TR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 198 4 Gornik Gornik NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 5 SG SG NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 198 7 Concepcion Concepcion NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 8 GT GT NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 198 10 Waller Waller NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 11 RF RF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 198 13 Mendez Mendez NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 14 GS GS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 198 16 Lippmeier Lippmeier NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 17 JC JC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 198 19 Delwiche Delwiche NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 20 CF CF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 198 21 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 198 22 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 198 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 198 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 199 1 Dinoflagellate Dinoflagellate NNP work_gfjn7ngtojauhn7kaf6bbbsq74 199 2 phylogeny phylogeny NN work_gfjn7ngtojauhn7kaf6bbbsq74 199 3 revisited revisit VBD work_gfjn7ngtojauhn7kaf6bbbsq74 199 4 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 199 5 using use VBG work_gfjn7ngtojauhn7kaf6bbbsq74 199 6 ribosomal ribosomal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 199 7 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 199 8 to to TO work_gfjn7ngtojauhn7kaf6bbbsq74 199 9 resolve resolve VB work_gfjn7ngtojauhn7kaf6bbbsq74 199 10 deep deep JJ work_gfjn7ngtojauhn7kaf6bbbsq74 199 11 branching branching NN work_gfjn7ngtojauhn7kaf6bbbsq74 199 12 dinoflagellate dinoflagellate NN work_gfjn7ngtojauhn7kaf6bbbsq74 199 13 clades clade NNS work_gfjn7ngtojauhn7kaf6bbbsq74 199 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 200 1 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 200 2 Phylogenet Phylogenet NNP work_gfjn7ngtojauhn7kaf6bbbsq74 200 3 Evol Evol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 200 4 70 70 CD work_gfjn7ngtojauhn7kaf6bbbsq74 200 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 200 6 314–322 314–322 CD work_gfjn7ngtojauhn7kaf6bbbsq74 200 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 201 1 Barry Barry NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 2 JD JD NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 201 4 McCulloch McCulloch NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 5 LJ LJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 201 7 Mottram Mottram NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 8 JC JC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 201 10 Acosta Acosta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 11 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 201 12 Serrano Serrano NNP work_gfjn7ngtojauhn7kaf6bbbsq74 201 13 A a NN work_gfjn7ngtojauhn7kaf6bbbsq74 201 14 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 201 15 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 201 16 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 201 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 202 1 Trypano- Trypano- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 202 2 somes some VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 202 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 202 4 After after IN work_gfjn7ngtojauhn7kaf6bbbsq74 202 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 202 6 Genome Genome NNP work_gfjn7ngtojauhn7kaf6bbbsq74 202 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 202 8 Wymondham Wymondham NNP work_gfjn7ngtojauhn7kaf6bbbsq74 202 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 202 10 UK UK NNP work_gfjn7ngtojauhn7kaf6bbbsq74 202 11 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 202 12 Horizon Horizon NNP work_gfjn7ngtojauhn7kaf6bbbsq74 202 13 Bioscience Bioscience NNP work_gfjn7ngtojauhn7kaf6bbbsq74 202 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 203 1 Baurain Baurain NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 2 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 4 Brinkmann Brinkmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 5 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 7 Petersen Petersen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 8 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 10 Rodríguez Rodríguez NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 11 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 203 12 Ezpeleta Ezpeleta NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 13 N N NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 15 Stechmann Stechmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 16 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 18 Demoulin Demoulin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 19 V V NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 21 Roger Roger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 22 AJ AJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 24 Burger Burger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 25 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 27 Lang Lang NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 28 BF BF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 203 30 Philippe Philippe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 31 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 203 32 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 203 33 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 203 34 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 203 35 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 204 1 Phylogenomic phylogenomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 204 2 evidence evidence NN work_gfjn7ngtojauhn7kaf6bbbsq74 204 3 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 204 4 separate separate JJ work_gfjn7ngtojauhn7kaf6bbbsq74 204 5 acquisition acquisition NN work_gfjn7ngtojauhn7kaf6bbbsq74 204 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 204 7 plastids plastid NNS work_gfjn7ngtojauhn7kaf6bbbsq74 204 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 204 9 cryptophytes cryptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 204 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 204 11 haptophytes haptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 204 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 204 13 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 204 14 stramenopiles stramenopile NNS work_gfjn7ngtojauhn7kaf6bbbsq74 204 15 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 205 1 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 205 2 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 205 3 Evol Evol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 205 4 27 27 CD work_gfjn7ngtojauhn7kaf6bbbsq74 205 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 205 6 1698–1709 1698–1709 CD work_gfjn7ngtojauhn7kaf6bbbsq74 205 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 206 1 Boehm Boehm NNP work_gfjn7ngtojauhn7kaf6bbbsq74 206 2 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 206 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 206 4 Bonifacino Bonifacino NNP work_gfjn7ngtojauhn7kaf6bbbsq74 206 5 JS JS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 206 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 206 7 2001 2001 CD work_gfjn7ngtojauhn7kaf6bbbsq74 206 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 206 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 207 1 Adaptins adaptin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 207 2 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 207 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 207 4 final final JJ work_gfjn7ngtojauhn7kaf6bbbsq74 207 5 recount recount NN work_gfjn7ngtojauhn7kaf6bbbsq74 207 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 208 1 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 208 2 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 208 3 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 208 4 12 12 CD work_gfjn7ngtojauhn7kaf6bbbsq74 208 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 208 6 2907–2920 2907–2920 CD work_gfjn7ngtojauhn7kaf6bbbsq74 208 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 209 1 Brodsky Brodsky NNP work_gfjn7ngtojauhn7kaf6bbbsq74 209 2 FM FM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 209 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 209 4 Thattai Thattai NNP work_gfjn7ngtojauhn7kaf6bbbsq74 209 5 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 209 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 209 7 Mayor Mayor NNP work_gfjn7ngtojauhn7kaf6bbbsq74 209 8 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 209 9 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 209 10 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 209 11 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 209 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 210 1 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 210 2 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 210 3 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 210 4 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 210 5 lessons lesson NNS work_gfjn7ngtojauhn7kaf6bbbsq74 210 6 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 210 7 diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 210 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 211 1 Nat Nat NNP work_gfjn7ngtojauhn7kaf6bbbsq74 211 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 211 3 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 211 4 14 14 CD work_gfjn7ngtojauhn7kaf6bbbsq74 211 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 211 6 651–651 651–651 CD work_gfjn7ngtojauhn7kaf6bbbsq74 211 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 212 1 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 2 MW MW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 212 4 Sharpe Sharpe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 5 SC SC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 212 7 Silberman Silberman NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 8 JD JD NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 212 10 Heiss Heiss NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 11 AA AA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 212 13 Lang Lang NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 14 BF BF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 212 16 Simpson Simpson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 17 AGB AGB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 212 19 Roger Roger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 20 AJ AJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 212 21 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 212 22 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 212 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 212 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 213 1 Phylogenomics phylogenomic NNS work_gfjn7ngtojauhn7kaf6bbbsq74 213 2 demonstrates demonstrate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 213 3 that that DT work_gfjn7ngtojauhn7kaf6bbbsq74 213 4 breviate breviate NN work_gfjn7ngtojauhn7kaf6bbbsq74 213 5 flagel- flagel- NN work_gfjn7ngtojauhn7kaf6bbbsq74 213 6 lates lates NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 213 7 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 213 8 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 213 9 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 213 10 opisthokonts opisthokont NNS work_gfjn7ngtojauhn7kaf6bbbsq74 213 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 213 12 apusomonads apusomonad NNS work_gfjn7ngtojauhn7kaf6bbbsq74 213 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 214 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 214 2 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 214 3 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 214 4 280 280 CD work_gfjn7ngtojauhn7kaf6bbbsq74 214 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 214 6 20131755 20131755 CD work_gfjn7ngtojauhn7kaf6bbbsq74 214 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 215 1 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 2 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 215 4 Imanian Imanian NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 5 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 215 7 Hehenberger Hehenberger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 8 E E NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 215 10 Hirakawa Hirakawa NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 11 Y Y NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 215 13 Maruyama Maruyama NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 14 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 215 16 Keeling Keeling NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 17 PJ PJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 215 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 215 19 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 215 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 215 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 216 1 Endosymbiotic endosymbiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 216 2 gene gene NN work_gfjn7ngtojauhn7kaf6bbbsq74 216 3 transfer transfer NN work_gfjn7ngtojauhn7kaf6bbbsq74 216 4 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 216 5 tertiary tertiary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 216 6 plastid plastid NN work_gfjn7ngtojauhn7kaf6bbbsq74 216 7 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 216 8 containing contain VBG work_gfjn7ngtojauhn7kaf6bbbsq74 216 9 dinoflagellates dinoflagellate NNS work_gfjn7ngtojauhn7kaf6bbbsq74 216 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 217 1 Eukaryotic Eukaryotic NNP work_gfjn7ngtojauhn7kaf6bbbsq74 217 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 217 3 13 13 CD work_gfjn7ngtojauhn7kaf6bbbsq74 217 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 217 5 246–255 246–255 CD work_gfjn7ngtojauhn7kaf6bbbsq74 217 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 218 1 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 2 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 218 4 Okamoto Okamoto NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 5 N N NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 218 7 Pombert Pombert NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 8 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 9 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 218 10 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 218 12 Keeling Keeling NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 13 PJ PJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 218 14 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 218 15 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 218 16 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 218 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 219 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 219 2 evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 219 3 history history NN work_gfjn7ngtojauhn7kaf6bbbsq74 219 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 219 5 haptophytes haptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 219 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 219 7 cryptophytes cryptophyte NNS work_gfjn7ngtojauhn7kaf6bbbsq74 219 8 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 219 9 phylogenomic phylogenomic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 219 10 evidence evidence NN work_gfjn7ngtojauhn7kaf6bbbsq74 219 11 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 219 12 separate separate JJ work_gfjn7ngtojauhn7kaf6bbbsq74 219 13 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 219 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 220 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 220 2 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 220 3 Soc Soc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 220 4 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 220 5 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 220 6 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 220 7 279 279 CD work_gfjn7ngtojauhn7kaf6bbbsq74 220 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 220 9 2246–2254 2246–2254 CD work_gfjn7ngtojauhn7kaf6bbbsq74 220 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 221 1 Burki Burki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 2 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 221 4 Shalchian Shalchian NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 5 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 221 6 Tabrizi Tabrizi NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 7 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 221 9 Minge Minge NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 10 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 221 12 Skjæveland Skjæveland NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 13 Å Å NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 221 15 Nikolaev Nikolaev NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 16 SI SI NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 221 18 Jakobsen Jakobsen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 19 KS KS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 221 21 Pawlowski Pawlowski NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 22 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 221 23 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 221 24 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 221 25 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 221 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 222 1 Phylogenomics phylogenomic NNS work_gfjn7ngtojauhn7kaf6bbbsq74 222 2 reshuffles reshuffle VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 222 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 222 4 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 222 5 super- super- NN work_gfjn7ngtojauhn7kaf6bbbsq74 222 6 groups group NNS work_gfjn7ngtojauhn7kaf6bbbsq74 222 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 223 1 PLoS plos ADD work_gfjn7ngtojauhn7kaf6bbbsq74 223 2 One one CD work_gfjn7ngtojauhn7kaf6bbbsq74 223 3 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 223 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 223 5 e790 e790 ADD work_gfjn7ngtojauhn7kaf6bbbsq74 223 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 224 1 Cavalier Cavalier NNP work_gfjn7ngtojauhn7kaf6bbbsq74 224 2 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 224 3 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 224 4 T T NNP work_gfjn7ngtojauhn7kaf6bbbsq74 224 5 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 224 6 1999 1999 CD work_gfjn7ngtojauhn7kaf6bbbsq74 224 7 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 224 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 225 1 Principles principle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 225 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 225 3 protein protein NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 4 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 225 5 lipid lipid NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 6 targeting targeting NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 7 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 225 8 second- second- FW work_gfjn7ngtojauhn7kaf6bbbsq74 225 9 ary ary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 225 10 symbiogenesis symbiogenesis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 225 11 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 225 12 euglenoid euglenoid NNP work_gfjn7ngtojauhn7kaf6bbbsq74 225 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 225 14 dinoflagellate dinoflagellate NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 225 16 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 225 17 sporozoan sporozoan VB work_gfjn7ngtojauhn7kaf6bbbsq74 225 18 plastid plastid JJ work_gfjn7ngtojauhn7kaf6bbbsq74 225 19 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 225 20 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 225 21 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 225 22 eukaryote eukaryote NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 23 family family NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 24 tree tree NN work_gfjn7ngtojauhn7kaf6bbbsq74 225 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 225 26 2 2 CD work_gfjn7ngtojauhn7kaf6bbbsq74 225 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 226 1 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 226 2 Eukaryot Eukaryot NNP work_gfjn7ngtojauhn7kaf6bbbsq74 226 3 Microbiol Microbiol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 226 4 46 46 CD work_gfjn7ngtojauhn7kaf6bbbsq74 226 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 226 6 347–366 347–366 CD work_gfjn7ngtojauhn7kaf6bbbsq74 226 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 227 1 Dacks Dacks NNP work_gfjn7ngtojauhn7kaf6bbbsq74 227 2 JB JB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 227 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 227 4 Field Field NNP work_gfjn7ngtojauhn7kaf6bbbsq74 227 5 MC MC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 227 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 227 7 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 227 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 227 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 228 1 Evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 228 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 228 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 228 4 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 228 5 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 228 6 - - : work_gfjn7ngtojauhn7kaf6bbbsq74 228 7 traffick- traffick- NN work_gfjn7ngtojauhn7kaf6bbbsq74 228 8 ing ing NN work_gfjn7ngtojauhn7kaf6bbbsq74 228 9 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 228 10 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 228 11 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 228 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 228 13 tempo tempo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 228 14 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 228 15 mode mode NNP work_gfjn7ngtojauhn7kaf6bbbsq74 228 16 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 229 1 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 229 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 229 3 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 229 4 120 120 CD work_gfjn7ngtojauhn7kaf6bbbsq74 229 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 229 6 2977–2985 2977–2985 CD work_gfjn7ngtojauhn7kaf6bbbsq74 229 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 230 1 Del Del NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 2 Campo Campo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 3 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 230 5 Sieracki Sieracki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 6 ME ME NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 230 8 Molestina Molestina NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 9 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 230 11 Keeling Keeling NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 12 P P NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 230 14 Massana Massana NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 15 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 230 17 Ruiz Ruiz NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 18 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 230 19 Trillo Trillo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 230 20 I -PRON- PRP work_gfjn7ngtojauhn7kaf6bbbsq74 230 21 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 230 22 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 230 23 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 230 24 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 231 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 231 2 others other NNS work_gfjn7ngtojauhn7kaf6bbbsq74 231 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 231 4 our -PRON- PRP$ work_gfjn7ngtojauhn7kaf6bbbsq74 231 5 biased biased JJ work_gfjn7ngtojauhn7kaf6bbbsq74 231 6 perspective perspective NN work_gfjn7ngtojauhn7kaf6bbbsq74 231 7 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 231 8 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 231 9 genomes genome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 231 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 232 1 Trends Trends NNP work_gfjn7ngtojauhn7kaf6bbbsq74 232 2 Ecol Ecol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 232 3 Evol Evol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 232 4 29 29 CD work_gfjn7ngtojauhn7kaf6bbbsq74 232 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 232 6 252–259 252–259 CD work_gfjn7ngtojauhn7kaf6bbbsq74 232 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 233 1 Derelle Derelle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 2 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 4 Torruella Torruella NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 5 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 7 Klimeš Klimeš NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 8 V V NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 10 Brinkmann Brinkmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 11 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 13 Kim Kim NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 14 E E NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 16 Vlček Vlček NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 17 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 19 Lang Lang NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 20 BF BF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 233 22 Eliáš Eliáš NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 23 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 233 24 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 233 25 2015 2015 CD work_gfjn7ngtojauhn7kaf6bbbsq74 233 26 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 233 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 234 1 Bacterial bacterial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 234 2 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 234 3 pinpoint pinpoint VBP work_gfjn7ngtojauhn7kaf6bbbsq74 234 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 234 5 single single JJ work_gfjn7ngtojauhn7kaf6bbbsq74 234 6 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 234 7 root root NN work_gfjn7ngtojauhn7kaf6bbbsq74 234 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 235 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 235 2 Natl Natl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 235 3 Acad Acad NNP work_gfjn7ngtojauhn7kaf6bbbsq74 235 4 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 235 5 USA USA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 235 6 112 112 CD work_gfjn7ngtojauhn7kaf6bbbsq74 235 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 235 8 E693–E699 E693–E699 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 235 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 236 1 Dorrell Dorrell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 236 2 RG RG NNP work_gfjn7ngtojauhn7kaf6bbbsq74 236 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 236 4 Howe Howe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 236 5 CJ CJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 236 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 236 7 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 236 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 236 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 237 1 What what WP work_gfjn7ngtojauhn7kaf6bbbsq74 237 2 makes make VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 237 3 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 237 4 chloroplast chloroplast NN work_gfjn7ngtojauhn7kaf6bbbsq74 237 5 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 238 1 Reconstructing reconstruct VBG work_gfjn7ngtojauhn7kaf6bbbsq74 238 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 238 3 establishment establishment NN work_gfjn7ngtojauhn7kaf6bbbsq74 238 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 238 5 photosynthetic photosynthetic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 238 6 symbioses symbiose NNS work_gfjn7ngtojauhn7kaf6bbbsq74 238 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 239 1 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 239 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 239 3 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 239 4 125 125 CD work_gfjn7ngtojauhn7kaf6bbbsq74 239 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 239 6 1865–1875 1865–1875 CD work_gfjn7ngtojauhn7kaf6bbbsq74 239 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 240 1 Embley Embley NNP work_gfjn7ngtojauhn7kaf6bbbsq74 240 2 TM TM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 240 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 240 4 Martin Martin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 240 5 W W NNP work_gfjn7ngtojauhn7kaf6bbbsq74 240 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 240 7 2006 2006 CD work_gfjn7ngtojauhn7kaf6bbbsq74 240 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 240 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 241 1 Eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 241 2 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 241 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 241 4 changes change NNS work_gfjn7ngtojauhn7kaf6bbbsq74 241 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 241 6 challenges challenge NNS work_gfjn7ngtojauhn7kaf6bbbsq74 241 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 242 1 Nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 242 2 440 440 CD work_gfjn7ngtojauhn7kaf6bbbsq74 242 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 242 4 623–630 623–630 CD work_gfjn7ngtojauhn7kaf6bbbsq74 242 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 243 1 Eme Eme NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 2 L L NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 243 4 Sharpe Sharpe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 5 SC SC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 243 7 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 8 MW MW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 243 10 Roger Roger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 11 AJ AJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 243 12 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 243 13 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 243 14 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 243 15 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 244 1 On on IN work_gfjn7ngtojauhn7kaf6bbbsq74 244 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 244 3 age age NN work_gfjn7ngtojauhn7kaf6bbbsq74 244 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 244 5 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 244 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 244 7 evaluating evaluate VBG work_gfjn7ngtojauhn7kaf6bbbsq74 244 8 evidence evidence NN work_gfjn7ngtojauhn7kaf6bbbsq74 244 9 from from IN work_gfjn7ngtojauhn7kaf6bbbsq74 244 10 fossils fossil NNS work_gfjn7ngtojauhn7kaf6bbbsq74 244 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 244 12 molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 244 13 clocks clock NNS work_gfjn7ngtojauhn7kaf6bbbsq74 244 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 245 1 Cold Cold NNP work_gfjn7ngtojauhn7kaf6bbbsq74 245 2 Spring Spring NNP work_gfjn7ngtojauhn7kaf6bbbsq74 245 3 Harb Harb NNP work_gfjn7ngtojauhn7kaf6bbbsq74 245 4 Perspect Perspect NNP work_gfjn7ngtojauhn7kaf6bbbsq74 245 5 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 245 6 6 6 CD work_gfjn7ngtojauhn7kaf6bbbsq74 245 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 245 8 a016139 a016139 NN work_gfjn7ngtojauhn7kaf6bbbsq74 245 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 246 1 Gadeyne Gadeyne NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 2 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 4 Sanchez Sanchez NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 5 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 246 6 Rodriguez Rodriguez NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 7 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 9 Vanneste Vanneste NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 10 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 12 Di Di NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 13 Rubbo Rubbo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 14 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 16 Zauber Zauber NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 17 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 19 Vanneste Vanneste NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 20 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 22 Van Van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 23 Leene Leene NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 24 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 25 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 26 De De NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 27 Winne Winne NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 28 N N NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 30 Eeckhout Eeckhout NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 31 D d NN work_gfjn7ngtojauhn7kaf6bbbsq74 246 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 33 Persiau Persiau NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 34 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 35 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 246 36 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 37 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 246 38 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 247 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 247 2 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 247 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 247 4 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 248 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 248 2 TPLATE TPLATE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 248 3 adaptor adaptor NN work_gfjn7ngtojauhn7kaf6bbbsq74 248 4 complex complex NN work_gfjn7ngtojauhn7kaf6bbbsq74 248 5 drives drive VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 248 6 clathrin clathrin NN work_gfjn7ngtojauhn7kaf6bbbsq74 248 7 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 248 8 mediated mediate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 248 9 endocy- endocy- NNP work_gfjn7ngtojauhn7kaf6bbbsq74 248 10 tosis tosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 248 11 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 248 12 plants plant NNS work_gfjn7ngtojauhn7kaf6bbbsq74 248 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 249 1 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 249 2 156 156 CD work_gfjn7ngtojauhn7kaf6bbbsq74 249 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 249 4 691–704 691–704 CD work_gfjn7ngtojauhn7kaf6bbbsq74 249 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 250 1 Goldberg Goldberg NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 2 AV AV NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 4 Molik Molik NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 5 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 7 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 8 AD AD NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 10 Neumann Neumann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 11 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 13 Kuhnke Kuhnke NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 14 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 16 Delbac Delbac NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 17 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 19 Vivares Vivares NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 20 CP CP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 22 Hirt Hirt NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 23 RP RP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 25 Lill Lill NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 26 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 250 28 Embley Embley NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 29 TM TM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 250 30 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 250 31 2008 2008 CD work_gfjn7ngtojauhn7kaf6bbbsq74 250 32 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 250 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 251 1 Localization localization NN work_gfjn7ngtojauhn7kaf6bbbsq74 251 2 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 251 3 function- function- NN work_gfjn7ngtojauhn7kaf6bbbsq74 251 4 ality ality NN work_gfjn7ngtojauhn7kaf6bbbsq74 251 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 251 6 microsporidian microsporidian NNP work_gfjn7ngtojauhn7kaf6bbbsq74 251 7 iron iron NNP work_gfjn7ngtojauhn7kaf6bbbsq74 251 8 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 251 9 sulphur sulphur NNP work_gfjn7ngtojauhn7kaf6bbbsq74 251 10 cluster cluster NNP work_gfjn7ngtojauhn7kaf6bbbsq74 251 11 assembly assembly NNP work_gfjn7ngtojauhn7kaf6bbbsq74 251 12 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 251 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 252 1 Nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 252 2 452 452 CD work_gfjn7ngtojauhn7kaf6bbbsq74 252 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 252 4 624–628 624–628 CD work_gfjn7ngtojauhn7kaf6bbbsq74 252 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 253 1 Gray Gray NNP work_gfjn7ngtojauhn7kaf6bbbsq74 253 2 MW MW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 253 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 253 4 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 253 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 253 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 254 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 254 2 pre pre JJ work_gfjn7ngtojauhn7kaf6bbbsq74 254 3 - - JJ work_gfjn7ngtojauhn7kaf6bbbsq74 254 4 endosymbiont endosymbiont JJ work_gfjn7ngtojauhn7kaf6bbbsq74 254 5 hypothesis hypothesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 254 6 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 254 7 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 254 8 new new JJ work_gfjn7ngtojauhn7kaf6bbbsq74 254 9 perspective perspective NN work_gfjn7ngtojauhn7kaf6bbbsq74 254 10 on on IN work_gfjn7ngtojauhn7kaf6bbbsq74 254 11 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 254 12 origin origin NN work_gfjn7ngtojauhn7kaf6bbbsq74 254 13 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 254 14 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 254 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 254 16 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 254 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 255 1 Cold Cold NNP work_gfjn7ngtojauhn7kaf6bbbsq74 255 2 Spring Spring NNP work_gfjn7ngtojauhn7kaf6bbbsq74 255 3 Harb Harb NNP work_gfjn7ngtojauhn7kaf6bbbsq74 255 4 Perspect Perspect NNP work_gfjn7ngtojauhn7kaf6bbbsq74 255 5 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 255 6 6 6 CD work_gfjn7ngtojauhn7kaf6bbbsq74 255 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 255 8 a016097 a016097 NN work_gfjn7ngtojauhn7kaf6bbbsq74 255 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 256 1 Heazlewood Heazlewood NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 2 JL JL NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 256 4 Tonti Tonti NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 5 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 256 6 Filippini Filippini NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 7 JS JS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 256 9 Gout Gout NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 10 AM AM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 256 12 Day Day NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 13 DA DA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 256 15 Whelan Whelan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 16 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 256 18 Millar Millar NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 19 AH AH NNP work_gfjn7ngtojauhn7kaf6bbbsq74 256 20 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 256 21 2004 2004 CD work_gfjn7ngtojauhn7kaf6bbbsq74 256 22 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 256 23 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 257 1 Experimental experimental JJ work_gfjn7ngtojauhn7kaf6bbbsq74 257 2 analysis analysis NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 257 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 257 5 Arabidopsis Arabidopsis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 257 6 mitochondrial mitochondrial NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 7 proteome proteome NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 8 highlights highlight NNS work_gfjn7ngtojauhn7kaf6bbbsq74 257 9 signaling signal VBG work_gfjn7ngtojauhn7kaf6bbbsq74 257 10 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 257 11 regulatory regulatory JJ work_gfjn7ngtojauhn7kaf6bbbsq74 257 12 components component NNS work_gfjn7ngtojauhn7kaf6bbbsq74 257 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 257 14 provides provide VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 257 15 as- as- DT work_gfjn7ngtojauhn7kaf6bbbsq74 257 16 sessment sessment NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 17 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 257 18 targeting target VBG work_gfjn7ngtojauhn7kaf6bbbsq74 257 19 prediction prediction NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 20 programs program NNS work_gfjn7ngtojauhn7kaf6bbbsq74 257 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 257 22 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 257 23 indicates indicate VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 257 24 plant plant NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 25 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 257 26 specific specific JJ work_gfjn7ngtojauhn7kaf6bbbsq74 257 27 mitochondrial mitochondrial NN work_gfjn7ngtojauhn7kaf6bbbsq74 257 28 proteins protein NNS work_gfjn7ngtojauhn7kaf6bbbsq74 257 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 258 1 Plant Plant NNP work_gfjn7ngtojauhn7kaf6bbbsq74 258 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 258 3 16 16 CD work_gfjn7ngtojauhn7kaf6bbbsq74 258 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 258 5 241–256 241–256 CD work_gfjn7ngtojauhn7kaf6bbbsq74 258 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 259 1 Helmke Helmke NNP work_gfjn7ngtojauhn7kaf6bbbsq74 259 2 KJ KJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 259 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 259 4 Heald Heald NNP work_gfjn7ngtojauhn7kaf6bbbsq74 259 5 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 259 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 259 7 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 259 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 259 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 260 1 TPX2 tpx2 DT work_gfjn7ngtojauhn7kaf6bbbsq74 260 2 levels level NNS work_gfjn7ngtojauhn7kaf6bbbsq74 260 3 modulate modulate VBP work_gfjn7ngtojauhn7kaf6bbbsq74 260 4 meiotic meiotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 260 5 spindle spindle NN work_gfjn7ngtojauhn7kaf6bbbsq74 260 6 size size NN work_gfjn7ngtojauhn7kaf6bbbsq74 260 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 260 8 architecture architecture NN work_gfjn7ngtojauhn7kaf6bbbsq74 260 9 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 260 10 Xenopus Xenopus NNP work_gfjn7ngtojauhn7kaf6bbbsq74 260 11 egg egg NN work_gfjn7ngtojauhn7kaf6bbbsq74 260 12 extracts extract NNS work_gfjn7ngtojauhn7kaf6bbbsq74 260 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 261 1 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 261 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 261 3 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 261 4 206 206 CD work_gfjn7ngtojauhn7kaf6bbbsq74 261 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 261 6 385–393 385–393 CD work_gfjn7ngtojauhn7kaf6bbbsq74 261 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 262 1 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 2 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 4 Barlow Barlow NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 5 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 7 Francisco Francisco NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 8 L L NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 10 Sahlender Sahlender NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 11 GC GC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 13 Seaman Seaman NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 14 DA DA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 16 Dacks Dacks NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 17 MNJ MNJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 19 JB JB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 262 21 Robinson Robinson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 22 MS MS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 262 23 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 262 24 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 262 25 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 262 26 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 263 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 263 2 fifth fifth JJ work_gfjn7ngtojauhn7kaf6bbbsq74 263 3 adaptor adaptor NN work_gfjn7ngtojauhn7kaf6bbbsq74 263 4 protein protein NN work_gfjn7ngtojauhn7kaf6bbbsq74 263 5 complex complex NN work_gfjn7ngtojauhn7kaf6bbbsq74 263 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 264 1 PLoS PLoS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 264 2 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 264 3 9 9 CD work_gfjn7ngtojauhn7kaf6bbbsq74 264 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 264 5 e1001170 e1001170 NN work_gfjn7ngtojauhn7kaf6bbbsq74 264 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 265 1 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 265 2 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 265 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 265 4 Irving Irving NNP work_gfjn7ngtojauhn7kaf6bbbsq74 265 5 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 265 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 265 7 Borner Borner NNP work_gfjn7ngtojauhn7kaf6bbbsq74 265 8 GHH GHH NNP work_gfjn7ngtojauhn7kaf6bbbsq74 265 9 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 265 10 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 265 11 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 265 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 266 1 Adaptor adaptor NN work_gfjn7ngtojauhn7kaf6bbbsq74 266 2 protein protein NN work_gfjn7ngtojauhn7kaf6bbbsq74 266 3 complexes complex NNS work_gfjn7ngtojauhn7kaf6bbbsq74 266 4 AP-4 AP-4 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 266 5 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 266 6 AP-5 AP-5 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 266 7 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 266 8 new new JJ work_gfjn7ngtojauhn7kaf6bbbsq74 266 9 players player NNS work_gfjn7ngtojauhn7kaf6bbbsq74 266 10 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 266 11 endosomal endosomal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 266 12 trafficking trafficking NN work_gfjn7ngtojauhn7kaf6bbbsq74 266 13 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 266 14 progressive progressive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 266 15 spastic spastic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 266 16 paraplegia paraplegia NN work_gfjn7ngtojauhn7kaf6bbbsq74 266 17 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 267 1 Traffic traffic NN work_gfjn7ngtojauhn7kaf6bbbsq74 267 2 14 14 CD work_gfjn7ngtojauhn7kaf6bbbsq74 267 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 267 4 153–164 153–164 CD work_gfjn7ngtojauhn7kaf6bbbsq74 267 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 268 1 Hirst Hirst NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 2 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 4 Schlacht Schlacht NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 5 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 7 Norcott Norcott NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 8 JP JP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 10 Traynor Traynor NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 11 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 13 Bloomfield Bloomfield NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 14 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 16 Antrobus Antrobus NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 17 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 19 Kay Kay NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 20 RR RR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 22 Dacks Dacks NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 23 JB JB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 268 25 Robinson Robinson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 26 MS MS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 268 27 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 268 28 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 268 29 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 268 30 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 269 1 Characterization characterization NN work_gfjn7ngtojauhn7kaf6bbbsq74 269 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 269 3 TSET TSET NNP work_gfjn7ngtojauhn7kaf6bbbsq74 269 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 269 5 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 269 6 ancient ancient JJ work_gfjn7ngtojauhn7kaf6bbbsq74 269 7 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 269 8 widespread widespread JJ work_gfjn7ngtojauhn7kaf6bbbsq74 269 9 membrane membrane NN work_gfjn7ngtojauhn7kaf6bbbsq74 269 10 trafficking trafficking NN work_gfjn7ngtojauhn7kaf6bbbsq74 269 11 complex complex NN work_gfjn7ngtojauhn7kaf6bbbsq74 269 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 270 1 Elife elife NN work_gfjn7ngtojauhn7kaf6bbbsq74 270 2 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 270 3 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 271 1 Hjort Hjort NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 2 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 271 4 Goldberg Goldberg NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 5 AV AV NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 271 7 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 8 AD AD NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 271 10 Hirt Hirt NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 11 RP RP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 271 13 Embley Embley NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 14 TM TM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 271 15 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 271 16 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 271 17 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 271 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 272 1 Diversity diversity NN work_gfjn7ngtojauhn7kaf6bbbsq74 272 2 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 272 3 reductive reductive JJ work_gfjn7ngtojauhn7kaf6bbbsq74 272 4 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 272 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 272 6 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 272 7 among among IN work_gfjn7ngtojauhn7kaf6bbbsq74 272 8 microbial microbial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 272 9 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 272 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 273 1 Philos Philos NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 2 Trans Trans NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 3 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 4 Soc Soc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 5 Lond Lond NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 6 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 7 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 8 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 273 9 365 365 CD work_gfjn7ngtojauhn7kaf6bbbsq74 273 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 273 11 713–727 713–727 CD work_gfjn7ngtojauhn7kaf6bbbsq74 273 12 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 274 1 Jedelský Jedelský NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 2 PL PL NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 4 Pavel pavel NN work_gfjn7ngtojauhn7kaf6bbbsq74 274 5 D d NN work_gfjn7ngtojauhn7kaf6bbbsq74 274 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 7 Petr Petr NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 8 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 10 Jan Jan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 11 P P NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 13 Ondřej Ondřej NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 14 Š Š NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 16 Ivan Ivan NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 17 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 19 Miroslava Miroslava NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 20 Š Š NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 22 Michaela Michaela NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 23 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 25 Lubomír Lubomír NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 26 V V NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 28 Andrew Andrew NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 29 JP JP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 274 31 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 32 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 274 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 275 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 275 2 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 275 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 275 4 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 276 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 276 2 minimal minimal JJ work_gfjn7ngtojauhn7kaf6bbbsq74 276 3 proteome proteome NN work_gfjn7ngtojauhn7kaf6bbbsq74 276 4 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 276 5 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 276 6 reduced reduced JJ work_gfjn7ngtojauhn7kaf6bbbsq74 276 7 mitochondrion mitochondrion NN work_gfjn7ngtojauhn7kaf6bbbsq74 276 8 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 276 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 276 10 parasitic parasitic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 276 11 protist protist NN work_gfjn7ngtojauhn7kaf6bbbsq74 276 12 Giardia Giardia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 276 13 intestinalis intestinalis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 276 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 277 1 PLoS plos ADD work_gfjn7ngtojauhn7kaf6bbbsq74 277 2 One one CD work_gfjn7ngtojauhn7kaf6bbbsq74 277 3 6 6 CD work_gfjn7ngtojauhn7kaf6bbbsq74 277 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 277 5 e17285 e17285 NNP work_gfjn7ngtojauhn7kaf6bbbsq74 277 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 278 1 Kim Kim NNP work_gfjn7ngtojauhn7kaf6bbbsq74 278 2 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 278 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 278 4 Weiss Weiss NNP work_gfjn7ngtojauhn7kaf6bbbsq74 278 5 LM LM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 278 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 278 7 2004 2004 CD work_gfjn7ngtojauhn7kaf6bbbsq74 278 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 278 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 279 1 Toxoplasma Toxoplasma NNP work_gfjn7ngtojauhn7kaf6bbbsq74 279 2 gondii gondii NN work_gfjn7ngtojauhn7kaf6bbbsq74 279 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 279 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 279 5 model model NN work_gfjn7ngtojauhn7kaf6bbbsq74 279 6 apicomplexan apicomplexan VBD work_gfjn7ngtojauhn7kaf6bbbsq74 279 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 280 1 Int Int NNP work_gfjn7ngtojauhn7kaf6bbbsq74 280 2 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 280 3 Parasitol Parasitol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 280 4 34 34 CD work_gfjn7ngtojauhn7kaf6bbbsq74 280 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 280 6 423–432 423–432 CD work_gfjn7ngtojauhn7kaf6bbbsq74 280 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 281 1 Koumandou Koumandou NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 2 VL VL NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 281 4 Wickstead Wickstead NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 5 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 281 7 Ginger Ginger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 8 ML ML NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 281 10 van van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 11 der der NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 12 Giezen Giezen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 13 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 281 15 Dacks Dacks NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 16 JB JB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 281 18 Field Field NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 19 MC MC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 281 20 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 281 21 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 281 22 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 281 23 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 282 1 Molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 282 2 paleontology paleontology NN work_gfjn7ngtojauhn7kaf6bbbsq74 282 3 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 282 4 complexity complexity NN work_gfjn7ngtojauhn7kaf6bbbsq74 282 5 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 282 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 282 7 last last JJ work_gfjn7ngtojauhn7kaf6bbbsq74 282 8 eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 282 9 common common JJ work_gfjn7ngtojauhn7kaf6bbbsq74 282 10 ancestor ancestor NN work_gfjn7ngtojauhn7kaf6bbbsq74 282 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 283 1 Crit Crit NNP work_gfjn7ngtojauhn7kaf6bbbsq74 283 2 Rev Rev NNP work_gfjn7ngtojauhn7kaf6bbbsq74 283 3 Biochem Biochem NNP work_gfjn7ngtojauhn7kaf6bbbsq74 283 4 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 283 5 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 283 6 48 48 CD work_gfjn7ngtojauhn7kaf6bbbsq74 283 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 283 8 373–396 373–396 CD work_gfjn7ngtojauhn7kaf6bbbsq74 283 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 284 1 Lane Lane NNP work_gfjn7ngtojauhn7kaf6bbbsq74 284 2 N N NNP work_gfjn7ngtojauhn7kaf6bbbsq74 284 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 284 4 Martin Martin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 284 5 W W NNP work_gfjn7ngtojauhn7kaf6bbbsq74 284 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 284 7 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 284 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 284 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 285 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 285 2 energetics energetic NNS work_gfjn7ngtojauhn7kaf6bbbsq74 285 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 285 4 genome genome JJ work_gfjn7ngtojauhn7kaf6bbbsq74 285 5 complexity complexity NN work_gfjn7ngtojauhn7kaf6bbbsq74 285 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 286 1 Nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 286 2 467 467 CD work_gfjn7ngtojauhn7kaf6bbbsq74 286 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 286 4 929–934 929–934 CD work_gfjn7ngtojauhn7kaf6bbbsq74 286 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 287 1 Lill Lill NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 2 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 287 4 Fekete Fekete NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 5 Z Z NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 287 7 Sipos Sipos NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 8 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 287 10 Rotte Rotte NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 11 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 287 12 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 287 13 2005 2005 CD work_gfjn7ngtojauhn7kaf6bbbsq74 287 14 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 287 15 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 288 1 Is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 288 2 there there EX work_gfjn7ngtojauhn7kaf6bbbsq74 288 3 an an DT work_gfjn7ngtojauhn7kaf6bbbsq74 288 4 answer answer NN work_gfjn7ngtojauhn7kaf6bbbsq74 288 5 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 289 1 Why why WRB work_gfjn7ngtojauhn7kaf6bbbsq74 289 2 are be VBP work_gfjn7ngtojauhn7kaf6bbbsq74 289 3 mitochondria mitochondria NN work_gfjn7ngtojauhn7kaf6bbbsq74 289 4 essential essential JJ work_gfjn7ngtojauhn7kaf6bbbsq74 289 5 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 289 6 life life NN work_gfjn7ngtojauhn7kaf6bbbsq74 289 7 ? ? . work_gfjn7ngtojauhn7kaf6bbbsq74 290 1 IUBMB IUBMB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 290 2 Life Life NNP work_gfjn7ngtojauhn7kaf6bbbsq74 290 3 57 57 CD work_gfjn7ngtojauhn7kaf6bbbsq74 290 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 290 5 701–703 701–703 CD work_gfjn7ngtojauhn7kaf6bbbsq74 290 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 291 1 Lynch Lynch NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 2 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 4 Field Field NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 5 MC MC NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 7 Goodson Goodson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 8 HV HV NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 10 Malik Malik NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 11 HS HS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 13 Pereira Pereira NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 14 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 291 15 Leal Leal NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 16 JB JB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 18 Roos Roos NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 19 DS DS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 21 Turkewitz Turkewitz NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 22 AP AP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 291 24 Sazer Sazer NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 25 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 291 26 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 291 27 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 291 28 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 291 29 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 292 1 Evolutionary evolutionary JJ work_gfjn7ngtojauhn7kaf6bbbsq74 292 2 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 292 3 biology biology NN work_gfjn7ngtojauhn7kaf6bbbsq74 292 4 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 292 5 two two CD work_gfjn7ngtojauhn7kaf6bbbsq74 292 6 origins origin NNS work_gfjn7ngtojauhn7kaf6bbbsq74 292 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 292 8 one one CD work_gfjn7ngtojauhn7kaf6bbbsq74 292 9 objective objective NN work_gfjn7ngtojauhn7kaf6bbbsq74 292 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 293 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 293 2 Natl Natl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 293 3 Acad Acad NNP work_gfjn7ngtojauhn7kaf6bbbsq74 293 4 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 293 5 USA USA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 293 6 111 111 CD work_gfjn7ngtojauhn7kaf6bbbsq74 293 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 293 8 16990–16994 16990–16994 CD work_gfjn7ngtojauhn7kaf6bbbsq74 293 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 294 1 Maralikova Maralikova NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 2 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 294 4 Ali Ali NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 5 V V NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 294 7 Nakada Nakada NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 8 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 294 9 Tsukui Tsukui NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 10 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 294 12 Nozaki Nozaki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 13 T T NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 294 15 van van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 16 der der NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 17 Giezen Giezen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 18 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 294 20 Henze Henze NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 21 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 22 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 294 23 Tovar Tovar NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 24 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 294 25 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 294 26 2010 2010 CD work_gfjn7ngtojauhn7kaf6bbbsq74 294 27 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 294 28 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 295 1 Bacterial bacterial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 295 2 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 295 3 type type NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 4 oxygen oxygen NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 5 detoxification detoxification NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 6 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 295 7 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 8 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 295 9 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 10 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 11 assembly assembly NN work_gfjn7ngtojauhn7kaf6bbbsq74 295 12 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 295 13 amoebal amoebal NNP work_gfjn7ngtojauhn7kaf6bbbsq74 295 14 relict relict NNP work_gfjn7ngtojauhn7kaf6bbbsq74 295 15 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 295 16 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 296 1 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 296 2 Microbiol Microbiol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 296 3 12 12 CD work_gfjn7ngtojauhn7kaf6bbbsq74 296 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 296 5 331–342 331–342 CD work_gfjn7ngtojauhn7kaf6bbbsq74 296 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 297 1 McMahon McMahon NNP work_gfjn7ngtojauhn7kaf6bbbsq74 297 2 HT HT NNP work_gfjn7ngtojauhn7kaf6bbbsq74 297 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 297 4 Boucrot Boucrot NNP work_gfjn7ngtojauhn7kaf6bbbsq74 297 5 E E NNP work_gfjn7ngtojauhn7kaf6bbbsq74 297 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 297 7 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 297 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 297 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 298 1 Molecular molecular JJ work_gfjn7ngtojauhn7kaf6bbbsq74 298 2 mechanism mechanism NN work_gfjn7ngtojauhn7kaf6bbbsq74 298 3 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 298 4 physiological physiological JJ work_gfjn7ngtojauhn7kaf6bbbsq74 298 5 functions function NNS work_gfjn7ngtojauhn7kaf6bbbsq74 298 6 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 298 7 clathrin clathrin NN work_gfjn7ngtojauhn7kaf6bbbsq74 298 8 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 298 9 mediated mediate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 298 10 endocytosis endocytosis NN work_gfjn7ngtojauhn7kaf6bbbsq74 298 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 299 1 Nat Nat NNP work_gfjn7ngtojauhn7kaf6bbbsq74 299 2 Rev Rev NNP work_gfjn7ngtojauhn7kaf6bbbsq74 299 3 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 299 4 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 299 5 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 299 6 12 12 CD work_gfjn7ngtojauhn7kaf6bbbsq74 299 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 299 8 517–533 517–533 CD work_gfjn7ngtojauhn7kaf6bbbsq74 299 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 300 1 Muller Muller NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 2 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 4 Mentel Mentel NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 5 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 7 van van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 8 Hellemond Hellemond NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 9 JJ JJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 10 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 11 Henze Henze NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 12 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 13 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 14 Woehle Woehle NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 15 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 16 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 17 Gould Gould NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 18 SB SB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 19 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 20 Yu Yu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 21 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 22 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 300 23 Y Y NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 25 van van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 26 der der NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 27 Giezen Giezen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 28 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 30 Tielens Tielens NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 31 AGM AGM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 300 33 Martin Martin NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 34 WF WF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 300 35 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 300 36 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 300 37 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 300 38 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 301 1 Biochemistry biochemistry NN work_gfjn7ngtojauhn7kaf6bbbsq74 301 2 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 301 3 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 301 4 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 301 5 anaerobic anaerobic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 301 6 energy energy NN work_gfjn7ngtojauhn7kaf6bbbsq74 301 7 metabolism metabolism NN work_gfjn7ngtojauhn7kaf6bbbsq74 301 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 301 9 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 301 10 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 302 1 Microbiol Microbiol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 302 2 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 302 3 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 302 4 Rev Rev NNP work_gfjn7ngtojauhn7kaf6bbbsq74 302 5 76 76 CD work_gfjn7ngtojauhn7kaf6bbbsq74 302 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 302 7 444–495 444–495 CD work_gfjn7ngtojauhn7kaf6bbbsq74 302 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 303 1 Nývltová nývltová NN work_gfjn7ngtojauhn7kaf6bbbsq74 303 2 E e NN work_gfjn7ngtojauhn7kaf6bbbsq74 303 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 4 Šuták Šuták NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 5 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 7 Harant Harant NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 8 K K NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 10 Šedinová Šedinová NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 11 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 13 Hrdy Hrdy NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 14 I I NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 16 Paces Paces NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 17 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 19 Vlček Vlček NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 20 Č Č NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 303 22 Tachezy Tachezy NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 23 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 303 24 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 303 25 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 303 26 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 303 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 304 1 NIF NIF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 304 2 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 304 3 type type NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 4 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 5 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 304 6 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 7 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 8 assembly assembly NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 9 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 10 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 304 11 duplicated duplicate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 304 12 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 304 13 distributed distribute VBN work_gfjn7ngtojauhn7kaf6bbbsq74 304 14 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 304 15 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 304 16 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 304 17 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 304 18 cytosol cytosol NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 19 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 304 20 Mastigamoeba Mastigamoeba NNP work_gfjn7ngtojauhn7kaf6bbbsq74 304 21 balamuthi balamuthi NN work_gfjn7ngtojauhn7kaf6bbbsq74 304 22 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 305 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 305 2 Natl Natl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 305 3 Acad Acad NNP work_gfjn7ngtojauhn7kaf6bbbsq74 305 4 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 305 5 USA USA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 305 6 110 110 CD work_gfjn7ngtojauhn7kaf6bbbsq74 305 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 305 8 7371–7376 7371–7376 CD work_gfjn7ngtojauhn7kaf6bbbsq74 305 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 306 1 Place Place NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 2 AR AR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 306 4 Bowers Bowers NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 5 HA HA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 306 7 Bachvaroff Bachvaroff NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 8 TR TR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 306 10 Adolf Adolf NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 11 JE JE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 306 13 Deeds Deeds NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 14 JR JR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 306 16 Sheng Sheng NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 17 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 306 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 306 19 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 306 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 306 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 307 1 Karlodinium Karlodinium NNP work_gfjn7ngtojauhn7kaf6bbbsq74 307 2 veneficum veneficum NNP work_gfjn7ngtojauhn7kaf6bbbsq74 307 3 — — : work_gfjn7ngtojauhn7kaf6bbbsq74 307 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 307 5 little little JJ work_gfjn7ngtojauhn7kaf6bbbsq74 307 6 dinoflagellate dinoflagellate NN work_gfjn7ngtojauhn7kaf6bbbsq74 307 7 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 307 8 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 307 9 big big JJ work_gfjn7ngtojauhn7kaf6bbbsq74 307 10 bite bite NN work_gfjn7ngtojauhn7kaf6bbbsq74 307 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 308 1 Harmful Harmful NNP work_gfjn7ngtojauhn7kaf6bbbsq74 308 2 Algae Algae NNP work_gfjn7ngtojauhn7kaf6bbbsq74 308 3 14 14 CD work_gfjn7ngtojauhn7kaf6bbbsq74 308 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 308 5 179–195 179–195 CD work_gfjn7ngtojauhn7kaf6bbbsq74 308 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 309 1 Schneider Schneider NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 2 RE RE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 4 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 5 MT MT NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 7 Shiflett Shiflett NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 8 AM am NN work_gfjn7ngtojauhn7kaf6bbbsq74 309 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 10 Dyall Dyall NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 11 SD SD NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 13 Hayes Hayes NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 14 RD RD NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 16 Xie Xie NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 17 Y Y NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 19 Loo Loo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 20 JA JA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 309 22 Johnson Johnson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 23 PJ PJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 309 24 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 309 25 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 309 26 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 309 27 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 310 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 310 2 Trichomonas Trichomonas NNP work_gfjn7ngtojauhn7kaf6bbbsq74 310 3 vaginalis vaginalis NN work_gfjn7ngtojauhn7kaf6bbbsq74 310 4 hydrogenosome hydrogenosome NNP work_gfjn7ngtojauhn7kaf6bbbsq74 310 5 proteome proteome NN work_gfjn7ngtojauhn7kaf6bbbsq74 310 6 is be VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 310 7 highly highly RB work_gfjn7ngtojauhn7kaf6bbbsq74 310 8 reduced reduce VBN work_gfjn7ngtojauhn7kaf6bbbsq74 310 9 relative relative JJ work_gfjn7ngtojauhn7kaf6bbbsq74 310 10 to to IN work_gfjn7ngtojauhn7kaf6bbbsq74 310 11 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 310 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 310 13 yet yet CC work_gfjn7ngtojauhn7kaf6bbbsq74 310 14 complex complex JJ work_gfjn7ngtojauhn7kaf6bbbsq74 310 15 compared compare VBN work_gfjn7ngtojauhn7kaf6bbbsq74 310 16 with with IN work_gfjn7ngtojauhn7kaf6bbbsq74 310 17 mitosomes mitosome NNS work_gfjn7ngtojauhn7kaf6bbbsq74 310 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 311 1 Int Int NNP work_gfjn7ngtojauhn7kaf6bbbsq74 311 2 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 311 3 Parasitol Parasitol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 311 4 41 41 CD work_gfjn7ngtojauhn7kaf6bbbsq74 311 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 311 6 1421–1434 1421–1434 CD work_gfjn7ngtojauhn7kaf6bbbsq74 311 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 312 1 Sickmann Sickmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 2 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 4 Reinders Reinders NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 312 5 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 7 Wagner Wagner NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 8 Y Y NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 10 Joppich Joppich NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 11 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 13 Zahedi Zahedi NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 14 R R NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 16 Meyer Meyer NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 17 HE HE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 19 Schonfisch Schonfisch NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 20 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 22 Perschil Perschil NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 23 I I NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 24 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 25 Chacinska Chacinska NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 26 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 27 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 28 Guiard Guiard NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 29 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 30 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 312 31 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 32 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 312 33 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 313 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 313 2 2003 2003 CD work_gfjn7ngtojauhn7kaf6bbbsq74 313 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 313 4 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 314 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 314 2 4538 4538 CD work_gfjn7ngtojauhn7kaf6bbbsq74 314 3 | | NNP work_gfjn7ngtojauhn7kaf6bbbsq74 314 4 E. E. NNP work_gfjn7ngtojauhn7kaf6bbbsq74 314 5 Richardson Richardson NNP work_gfjn7ngtojauhn7kaf6bbbsq74 314 6 et et FW work_gfjn7ngtojauhn7kaf6bbbsq74 314 7 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 314 8 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 315 1 Molecular Molecular NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 2 Biology Biology NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 315 4 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 315 5 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 6 Evolution Evolution NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 7 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 315 8 Fe Fe NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 9 / / SYM work_gfjn7ngtojauhn7kaf6bbbsq74 315 10 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 11 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 315 12 biogenesis biogenesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 315 13 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 315 14 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 315 15 anaerobic anaerobic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 315 16 parasite parasite NN work_gfjn7ngtojauhn7kaf6bbbsq74 315 17 Blastocystis Blastocystis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 315 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 316 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 316 2 Natl Natl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 316 3 Acad Acad NNP work_gfjn7ngtojauhn7kaf6bbbsq74 316 4 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 316 5 USA USA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 316 6 109 109 CD work_gfjn7ngtojauhn7kaf6bbbsq74 316 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 316 8 10426–10431 10426–10431 CD work_gfjn7ngtojauhn7kaf6bbbsq74 316 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 317 1 Tsaousis tsaousis NN work_gfjn7ngtojauhn7kaf6bbbsq74 317 2 AD ad NN work_gfjn7ngtojauhn7kaf6bbbsq74 317 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 317 4 Gentekaki Gentekaki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 5 E E NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 317 7 Eme Eme NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 8 L L NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 317 10 Gaston Gaston NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 11 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 317 13 Roger Roger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 14 AJ AJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 317 15 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 317 16 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 317 17 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 317 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 318 1 Evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 318 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 318 3 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 318 4 cytosolic cytosolic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 318 5 iron iron NN work_gfjn7ngtojauhn7kaf6bbbsq74 318 6 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 318 7 sulfur sulfur NN work_gfjn7ngtojauhn7kaf6bbbsq74 318 8 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 318 9 assembly assembly NN work_gfjn7ngtojauhn7kaf6bbbsq74 318 10 machinery machinery NN work_gfjn7ngtojauhn7kaf6bbbsq74 318 11 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 318 12 Blastocystis Blastocystis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 318 13 species specie NNS work_gfjn7ngtojauhn7kaf6bbbsq74 318 14 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 318 15 other other JJ work_gfjn7ngtojauhn7kaf6bbbsq74 318 16 microbial microbial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 318 17 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 318 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 319 1 Eukaryot Eukaryot NNP work_gfjn7ngtojauhn7kaf6bbbsq74 319 2 Cell Cell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 319 3 13 13 CD work_gfjn7ngtojauhn7kaf6bbbsq74 319 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 319 5 143–153 143–153 CD work_gfjn7ngtojauhn7kaf6bbbsq74 319 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 320 1 Tsaousis tsaousis NN work_gfjn7ngtojauhn7kaf6bbbsq74 320 2 AD ad NN work_gfjn7ngtojauhn7kaf6bbbsq74 320 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 320 4 Kunji Kunji NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 5 ERS ERS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 320 7 Goldberg Goldberg NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 8 AV AV NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 320 10 Lucocq Lucocq NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 11 JM JM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 320 13 Hirt Hirt NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 14 RP RP NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 320 16 Embley Embley NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 17 TM TM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 320 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 320 19 2008 2008 CD work_gfjn7ngtojauhn7kaf6bbbsq74 320 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 320 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 321 1 A a DT work_gfjn7ngtojauhn7kaf6bbbsq74 321 2 novel novel JJ work_gfjn7ngtojauhn7kaf6bbbsq74 321 3 route route NN work_gfjn7ngtojauhn7kaf6bbbsq74 321 4 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 321 5 ATP atp NN work_gfjn7ngtojauhn7kaf6bbbsq74 321 6 acquisition acquisition NN work_gfjn7ngtojauhn7kaf6bbbsq74 321 7 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 321 8 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 321 9 remnant remnant JJ work_gfjn7ngtojauhn7kaf6bbbsq74 321 10 mitochondria mitochondrion NNS work_gfjn7ngtojauhn7kaf6bbbsq74 321 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 321 12 Encephalitozoon Encephalitozoon NNP work_gfjn7ngtojauhn7kaf6bbbsq74 321 13 cuniculi cuniculi NNP work_gfjn7ngtojauhn7kaf6bbbsq74 321 14 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 322 1 Nature nature NN work_gfjn7ngtojauhn7kaf6bbbsq74 322 2 453 453 CD work_gfjn7ngtojauhn7kaf6bbbsq74 322 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 322 4 553–556 553–556 CD work_gfjn7ngtojauhn7kaf6bbbsq74 322 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 323 1 Varki Varki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 323 2 A a DT work_gfjn7ngtojauhn7kaf6bbbsq74 323 3 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 323 4 2006 2006 CD work_gfjn7ngtojauhn7kaf6bbbsq74 323 5 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 323 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 324 1 Nothing nothing NN work_gfjn7ngtojauhn7kaf6bbbsq74 324 2 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 324 3 glycobiology glycobiology NN work_gfjn7ngtojauhn7kaf6bbbsq74 324 4 makes make VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 324 5 sense sense NN work_gfjn7ngtojauhn7kaf6bbbsq74 324 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 324 7 except except IN work_gfjn7ngtojauhn7kaf6bbbsq74 324 8 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 324 9 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 324 10 light light NN work_gfjn7ngtojauhn7kaf6bbbsq74 324 11 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 324 12 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 324 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 325 1 Cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 325 2 126 126 CD work_gfjn7ngtojauhn7kaf6bbbsq74 325 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 325 4 841–845 841–845 CD work_gfjn7ngtojauhn7kaf6bbbsq74 325 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 326 1 Walker Walker NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 2 G G NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 326 4 Dorrell Dorrell NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 5 RG RG NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 326 7 Schlacht Schlacht NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 8 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 326 10 Dacks Dacks NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 11 JB JB NNP work_gfjn7ngtojauhn7kaf6bbbsq74 326 12 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 326 13 2011 2011 CD work_gfjn7ngtojauhn7kaf6bbbsq74 326 14 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 326 15 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 327 1 Eukaryotic eukaryotic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 327 2 systematics systematic NNS work_gfjn7ngtojauhn7kaf6bbbsq74 327 3 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 327 4 a a DT work_gfjn7ngtojauhn7kaf6bbbsq74 327 5 user user NN work_gfjn7ngtojauhn7kaf6bbbsq74 327 6 ’s ’s POS work_gfjn7ngtojauhn7kaf6bbbsq74 327 7 guide guide NN work_gfjn7ngtojauhn7kaf6bbbsq74 327 8 for for IN work_gfjn7ngtojauhn7kaf6bbbsq74 327 9 cell cell NN work_gfjn7ngtojauhn7kaf6bbbsq74 327 10 biologists biologist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 327 11 and and CC work_gfjn7ngtojauhn7kaf6bbbsq74 327 12 parasitologists parasitologist NNS work_gfjn7ngtojauhn7kaf6bbbsq74 327 13 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 328 1 Parasitology parasitology NN work_gfjn7ngtojauhn7kaf6bbbsq74 328 2 138 138 CD work_gfjn7ngtojauhn7kaf6bbbsq74 328 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 328 4 1638–1663 1638–1663 CD work_gfjn7ngtojauhn7kaf6bbbsq74 328 5 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 329 1 Yubuki Yubuki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 329 2 N N NNP work_gfjn7ngtojauhn7kaf6bbbsq74 329 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 329 4 Leander Leander NNP work_gfjn7ngtojauhn7kaf6bbbsq74 329 5 BS BS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 329 6 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 329 7 2013 2013 CD work_gfjn7ngtojauhn7kaf6bbbsq74 329 8 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 329 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 330 1 Evolution Evolution NNP work_gfjn7ngtojauhn7kaf6bbbsq74 330 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 330 3 microtubule microtubule JJ work_gfjn7ngtojauhn7kaf6bbbsq74 330 4 organizing organize VBG work_gfjn7ngtojauhn7kaf6bbbsq74 330 5 centers center NNS work_gfjn7ngtojauhn7kaf6bbbsq74 330 6 across across IN work_gfjn7ngtojauhn7kaf6bbbsq74 330 7 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 330 8 tree tree NN work_gfjn7ngtojauhn7kaf6bbbsq74 330 9 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 330 10 eukaryotes eukaryote NNS work_gfjn7ngtojauhn7kaf6bbbsq74 330 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 331 1 Plant Plant NNP work_gfjn7ngtojauhn7kaf6bbbsq74 331 2 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 331 3 75 75 CD work_gfjn7ngtojauhn7kaf6bbbsq74 331 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 331 5 230–244 230–244 CD work_gfjn7ngtojauhn7kaf6bbbsq74 331 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 332 1 proteome proteome NN work_gfjn7ngtojauhn7kaf6bbbsq74 332 2 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 332 3 Saccharomyces Saccharomyces NNP work_gfjn7ngtojauhn7kaf6bbbsq74 332 4 cerevisiae cerevisiae VBZ work_gfjn7ngtojauhn7kaf6bbbsq74 332 5 mitochondria mitochondria NNP work_gfjn7ngtojauhn7kaf6bbbsq74 332 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 333 1 Proc Proc NNP work_gfjn7ngtojauhn7kaf6bbbsq74 333 2 Natl Natl NNP work_gfjn7ngtojauhn7kaf6bbbsq74 333 3 Acad Acad NNP work_gfjn7ngtojauhn7kaf6bbbsq74 333 4 Sci Sci NNP work_gfjn7ngtojauhn7kaf6bbbsq74 333 5 USA USA NNP work_gfjn7ngtojauhn7kaf6bbbsq74 333 6 100 100 CD work_gfjn7ngtojauhn7kaf6bbbsq74 333 7 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 333 8 13207–13212 13207–13212 CD work_gfjn7ngtojauhn7kaf6bbbsq74 333 9 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 334 1 Smith Smith NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 2 DGS DGS NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 334 4 Gawryluk Gawryluk NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 5 RMR RMR NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 334 7 Spencer Spencer NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 8 DF DF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 334 10 Pearlman Pearlman NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 11 RE RE NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 334 13 Siu Siu NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 14 KWM KWM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 334 16 Gray Gray NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 17 MW MW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 334 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 334 19 2007 2007 CD work_gfjn7ngtojauhn7kaf6bbbsq74 334 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 334 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 335 1 Exploring explore VBG work_gfjn7ngtojauhn7kaf6bbbsq74 335 2 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 335 3 mitochondrial mitochondrial NN work_gfjn7ngtojauhn7kaf6bbbsq74 335 4 proteome proteome NN work_gfjn7ngtojauhn7kaf6bbbsq74 335 5 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 335 6 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 335 7 ciliate ciliate JJ work_gfjn7ngtojauhn7kaf6bbbsq74 335 8 protozoon protozoon NN work_gfjn7ngtojauhn7kaf6bbbsq74 335 9 Tetrahymena Tetrahymena NNP work_gfjn7ngtojauhn7kaf6bbbsq74 335 10 thermophila thermophila NN work_gfjn7ngtojauhn7kaf6bbbsq74 335 11 : : : work_gfjn7ngtojauhn7kaf6bbbsq74 335 12 direct direct JJ work_gfjn7ngtojauhn7kaf6bbbsq74 335 13 analysis analysis NN work_gfjn7ngtojauhn7kaf6bbbsq74 335 14 by by IN work_gfjn7ngtojauhn7kaf6bbbsq74 335 15 tandem tandem NNP work_gfjn7ngtojauhn7kaf6bbbsq74 335 16 mass mass NNP work_gfjn7ngtojauhn7kaf6bbbsq74 335 17 spectrometry spectrometry NNP work_gfjn7ngtojauhn7kaf6bbbsq74 335 18 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 336 1 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 336 2 Mol Mol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 336 3 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 336 4 374 374 CD work_gfjn7ngtojauhn7kaf6bbbsq74 336 5 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 336 6 837–863 837–863 CD work_gfjn7ngtojauhn7kaf6bbbsq74 336 7 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 337 1 Stairs Stairs NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 337 2 CW CW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 4 Eme Eme NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 5 L L NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 7 Brown Brown NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 8 MW MW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 10 Mutsaers Mutsaers NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 11 C C NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 13 Susko Susko NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 14 E E NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 16 Dellaire dellaire NN work_gfjn7ngtojauhn7kaf6bbbsq74 337 17 G g NN work_gfjn7ngtojauhn7kaf6bbbsq74 337 18 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 19 Soanes Soanes NNPS work_gfjn7ngtojauhn7kaf6bbbsq74 337 20 DM DM NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 21 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 22 Van Van NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 23 Der Der NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 24 Giezen Giezen NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 25 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 337 27 Roger Roger NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 28 AJ AJ NNP work_gfjn7ngtojauhn7kaf6bbbsq74 337 29 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 337 30 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 337 31 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 337 32 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 338 1 A a DT work_gfjn7ngtojauhn7kaf6bbbsq74 338 2 SUF SUF NNP work_gfjn7ngtojauhn7kaf6bbbsq74 338 3 Fe fe FW work_gfjn7ngtojauhn7kaf6bbbsq74 338 4 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 338 5 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 338 6 cluster cluster NN work_gfjn7ngtojauhn7kaf6bbbsq74 338 7 biogenesis biogenesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 338 8 system system NN work_gfjn7ngtojauhn7kaf6bbbsq74 338 9 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 338 10 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 338 11 mitochondrion mitochondrion NN work_gfjn7ngtojauhn7kaf6bbbsq74 338 12 - - HYPH work_gfjn7ngtojauhn7kaf6bbbsq74 338 13 related relate VBN work_gfjn7ngtojauhn7kaf6bbbsq74 338 14 organelles organelle NNS work_gfjn7ngtojauhn7kaf6bbbsq74 338 15 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 338 16 the the DT work_gfjn7ngtojauhn7kaf6bbbsq74 338 17 anaerobic anaerobic JJ work_gfjn7ngtojauhn7kaf6bbbsq74 338 18 protist protist JJ work_gfjn7ngtojauhn7kaf6bbbsq74 338 19 Pygsuia Pygsuia NNP work_gfjn7ngtojauhn7kaf6bbbsq74 338 20 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 339 1 Curr Curr NNP work_gfjn7ngtojauhn7kaf6bbbsq74 339 2 Biol Biol NNP work_gfjn7ngtojauhn7kaf6bbbsq74 339 3 24 24 CD work_gfjn7ngtojauhn7kaf6bbbsq74 339 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 339 5 1176–1186 1176–1186 CD work_gfjn7ngtojauhn7kaf6bbbsq74 339 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 340 1 Stiller Stiller NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 2 JW JW NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 340 4 Schreiber Schreiber NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 5 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 6 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 340 7 Yue Yue NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 8 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 9 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 340 10 Guo Guo NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 11 H H NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 12 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 340 13 Ding Ding NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 14 Q Q NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 15 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 340 16 Huang Huang NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 17 J J NNP work_gfjn7ngtojauhn7kaf6bbbsq74 340 18 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 340 19 2014 2014 CD work_gfjn7ngtojauhn7kaf6bbbsq74 340 20 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 340 21 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 341 1 The the DT work_gfjn7ngtojauhn7kaf6bbbsq74 341 2 evolution evolution NN work_gfjn7ngtojauhn7kaf6bbbsq74 341 3 of of IN work_gfjn7ngtojauhn7kaf6bbbsq74 341 4 photosynthesis photosynthesis NN work_gfjn7ngtojauhn7kaf6bbbsq74 341 5 in in IN work_gfjn7ngtojauhn7kaf6bbbsq74 341 6 chromist chromist NNP work_gfjn7ngtojauhn7kaf6bbbsq74 341 7 algae algae NN work_gfjn7ngtojauhn7kaf6bbbsq74 341 8 through through IN work_gfjn7ngtojauhn7kaf6bbbsq74 341 9 serial serial JJ work_gfjn7ngtojauhn7kaf6bbbsq74 341 10 endosymbioses endosymbiose NNS work_gfjn7ngtojauhn7kaf6bbbsq74 341 11 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 342 1 Nat Nat NNP work_gfjn7ngtojauhn7kaf6bbbsq74 342 2 Commun Commun NNP work_gfjn7ngtojauhn7kaf6bbbsq74 342 3 5 5 CD work_gfjn7ngtojauhn7kaf6bbbsq74 342 4 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 342 5 1–7 1–7 CD work_gfjn7ngtojauhn7kaf6bbbsq74 342 6 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 343 1 Tsaousis Tsaousis NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 2 AD ad NN work_gfjn7ngtojauhn7kaf6bbbsq74 343 3 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 4 Ollagnier Ollagnier NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 5 de de IN work_gfjn7ngtojauhn7kaf6bbbsq74 343 6 Choudens Choudens NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 7 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 8 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 9 Gentekaki Gentekaki NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 10 E E NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 11 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 12 Long Long NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 13 S S NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 14 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 15 Gaston Gaston NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 16 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 17 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 18 Stechmann Stechmann NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 19 A A NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 20 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 21 Vinella Vinella NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 22 D D NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 23 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 24 Py Py NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 25 B B NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 26 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 27 Fontecave Fontecave NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 28 M M NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 29 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 30 Barras Barras NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 31 F F NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 32 , , , work_gfjn7ngtojauhn7kaf6bbbsq74 343 33 et et NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 34 al al NNP work_gfjn7ngtojauhn7kaf6bbbsq74 343 35 . . . work_gfjn7ngtojauhn7kaf6bbbsq74 344 1 ( ( -LRB- work_gfjn7ngtojauhn7kaf6bbbsq74 344 2 2012 2012 CD work_gfjn7ngtojauhn7kaf6bbbsq74 344 3 ) ) -RRB- work_gfjn7ngtojauhn7kaf6bbbsq74 344 4 . . .