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GlyCosmos6-UBERON

Id Subject Object Predicate Lexical cue uberon_id
T1 1487-1493 Body_part denotes system http://purl.obolibrary.org/obo/UBERON_0000467

sentences

Id Subject Object Predicate Lexical cue
TextSentencer_T1 0-99 Sentence denotes Rapid identification and quantitative validation of a caffeine-degrading pathway in Pseudomonas sp.
TextSentencer_T2 100-104 Sentence denotes CES.
TextSentencer_T3 105-272 Sentence denotes Understanding the genes and enzymes involved in caffeine metabolism can lead to applications such as production of methylxanthines and environmental waste remediation.
TextSentencer_T4 273-288 Sentence denotes Pseudomonas sp.
TextSentencer_T5 289-523 Sentence denotes CES may provide insights into these applications, since this bacterium degrades caffeine and thrives in concentrations of caffeine that are three times higher (9.0 g L(-1)) than the maximum tolerable levels of other reported bacteria.
TextSentencer_T6 524-609 Sentence denotes We took a novel approach toward identifying the enzymatic pathways in Pseudomonas sp.
TextSentencer_T7 610-764 Sentence denotes CES that metabolize caffeine, which largely circumvented the need for exhaustive isolation of enzymes and the stepwise reconstitution of their activities.
TextSentencer_T8 765-1151 Sentence denotes Here we describe an optimized, rapid alternative strategy based on multiplexed LC-MS/MS assays and show its application by discovering caffeine-degrading enzymes in the CES strain based on quantitative comparison of proteomes from bacteria grown in the absence and presence of caffeine, the latter condition of which was found to have a highly induced capacity for caffeine degradation.
TextSentencer_T9 1152-1434 Sentence denotes Comparisons were made using stable isotope dimethyl labeling, differences in the abundance of particular proteins were substantiated by reciprocal labeling experiments, and the role of the identified proteins in caffeine degradation was independently verified by genetic sequencing.
TextSentencer_T10 1435-1595 Sentence denotes Overall, multiple new components of a N-demethylase system were identified that resulted in rapid pathway validation and gene isolation using this new approach.
T1 0-99 Sentence denotes Rapid identification and quantitative validation of a caffeine-degrading pathway in Pseudomonas sp.
T2 100-104 Sentence denotes CES.
T3 105-272 Sentence denotes Understanding the genes and enzymes involved in caffeine metabolism can lead to applications such as production of methylxanthines and environmental waste remediation.
T4 273-288 Sentence denotes Pseudomonas sp.
T5 289-523 Sentence denotes CES may provide insights into these applications, since this bacterium degrades caffeine and thrives in concentrations of caffeine that are three times higher (9.0 g L(-1)) than the maximum tolerable levels of other reported bacteria.
T6 524-609 Sentence denotes We took a novel approach toward identifying the enzymatic pathways in Pseudomonas sp.
T7 610-764 Sentence denotes CES that metabolize caffeine, which largely circumvented the need for exhaustive isolation of enzymes and the stepwise reconstitution of their activities.
T8 765-1151 Sentence denotes Here we describe an optimized, rapid alternative strategy based on multiplexed LC-MS/MS assays and show its application by discovering caffeine-degrading enzymes in the CES strain based on quantitative comparison of proteomes from bacteria grown in the absence and presence of caffeine, the latter condition of which was found to have a highly induced capacity for caffeine degradation.
T9 1152-1434 Sentence denotes Comparisons were made using stable isotope dimethyl labeling, differences in the abundance of particular proteins were substantiated by reciprocal labeling experiments, and the role of the identified proteins in caffeine degradation was independently verified by genetic sequencing.
T10 1435-1595 Sentence denotes Overall, multiple new components of a N-demethylase system were identified that resulted in rapid pathway validation and gene isolation using this new approach.

GlyCosmos6-CLO

Id Subject Object Predicate Lexical cue
T1 453-460 http://purl.obolibrary.org/obo/CLO_0003500 denotes g L(-1)
T2 453-460 http://purl.obolibrary.org/obo/CLO_0003501 denotes g L(-1)
T3 753-763 http://purl.obolibrary.org/obo/CLO_0001658 denotes activities
T4 1204-1212 http://purl.obolibrary.org/obo/CLO_0007225 denotes labeling
T5 1299-1307 http://purl.obolibrary.org/obo/CLO_0007225 denotes labeling

GlyCosmos600-GlycoEpitope

Id Subject Object Predicate Lexical cue
PD-GlycoEpitope-B_T1 453-459 http://www.glycoepitope.jp/epitopes/AN0498 denotes g L(-1

GlyCosmos600-FMA

Id Subject Object Predicate Lexical cue
PD-FMA-PAE-B_T1 123-128 http://purl.org/sig/ont/fma/fma74402 denotes genes
PD-FMA-PAE-B_T2 1257-1265 http://purl.org/sig/ont/fma/fma67257 denotes proteins
PD-FMA-PAE-B_T3 1352-1360 http://purl.org/sig/ont/fma/fma67257 denotes proteins
PD-FMA-PAE-B_T4 1556-1560 http://purl.org/sig/ont/fma/fma74402 denotes gene

NCBITAXON

Id Subject Object Predicate Lexical cue db_id
PD-NCBITaxon-B_T1 84-95 http://purl.bioontology.org/ontology/NCBITAXON/286 denotes Pseudomonas
PD-NCBITaxon-B_T2 273-284 http://purl.bioontology.org/ontology/NCBITAXON/286 denotes Pseudomonas
PD-NCBITaxon-B_T3 594-605 http://purl.bioontology.org/ontology/NCBITAXON/286 denotes Pseudomonas
PD-NCBITaxon-B_T4 84-98 http://purl.bioontology.org/ontology/NCBITAXON/306 denotes Pseudomonas sp
PD-NCBITaxon-B_T5 273-287 http://purl.bioontology.org/ontology/NCBITAXON/306 denotes Pseudomonas sp
PD-NCBITaxon-B_T6 594-608 http://purl.bioontology.org/ontology/NCBITAXON/306 denotes Pseudomonas sp
T1 84-98 OrganismTaxon denotes Pseudomonas sp NCBItxid:306
T2 273-287 OrganismTaxon denotes Pseudomonas sp NCBItxid:306
T3 350-359 OrganismTaxon denotes bacterium NCBItxid:1869227
T4 514-522 OrganismTaxon denotes bacteria NCBItxid:2
T5 594-608 OrganismTaxon denotes Pseudomonas sp NCBItxid:306
T6 996-1004 OrganismTaxon denotes bacteria NCBItxid:2

pubmed-enju-pas

Id Subject Object Predicate Lexical cue
EnjuParser_T0 0-5 JJ denotes Rapid
EnjuParser_T1 6-20 NN denotes identification
EnjuParser_T2 21-24 CC denotes and
EnjuParser_T3 25-37 JJ denotes quantitative
EnjuParser_T4 38-48 NN denotes validation
EnjuParser_T5 49-51 IN denotes of
EnjuParser_T6 52-53 DT denotes a
EnjuParser_T7 54-72 JJ denotes caffeine-degrading
EnjuParser_T8 73-80 NN denotes pathway
EnjuParser_T9 81-83 IN denotes in
EnjuParser_T10 84-95 NNP denotes Pseudomonas
EnjuParser_T11 96-98 NN denotes sp
EnjuParser_T12 100-103 NNS denotes CES
EnjuParser_T13 105-118 VBG denotes Understanding
EnjuParser_T14 119-122 DT denotes the
EnjuParser_T15 123-128 NNS denotes genes
EnjuParser_T16 129-132 CC denotes and
EnjuParser_T17 133-140 NNS denotes enzymes
EnjuParser_T18 141-149 VBN denotes involved
EnjuParser_T19 150-152 IN denotes in
EnjuParser_T20 153-161 NN denotes caffeine
EnjuParser_T21 162-172 NN denotes metabolism
EnjuParser_T22 173-176 MD denotes can
EnjuParser_T23 177-181 VB denotes lead
EnjuParser_T24 182-184 TO denotes to
EnjuParser_T25 185-197 NNS denotes applications
EnjuParser_T26 198-202 JJ denotes such
EnjuParser_T27 203-205 IN denotes as
EnjuParser_T28 206-216 NN denotes production
EnjuParser_T29 217-219 IN denotes of
EnjuParser_T30 220-235 NNS denotes methylxanthines
EnjuParser_T31 236-239 CC denotes and
EnjuParser_T32 240-253 JJ denotes environmental
EnjuParser_T33 254-259 NN denotes waste
EnjuParser_T34 260-271 NN denotes remediation
EnjuParser_T35 273-284 NN denotes Pseudomonas
EnjuParser_T36 285-287 NN denotes sp
EnjuParser_T37 289-292 NNS denotes CES
EnjuParser_T38 293-296 MD denotes may
EnjuParser_T39 297-304 VB denotes provide
EnjuParser_T40 305-313 NNS denotes insights
EnjuParser_T41 314-318 IN denotes into
EnjuParser_T42 319-324 DT denotes these
EnjuParser_T43 325-337 NNS denotes applications
EnjuParser_T44 337-338 -COMMA- denotes ,
EnjuParser_T45 339-344 IN denotes since
EnjuParser_T46 345-349 DT denotes this
EnjuParser_T47 350-359 NN denotes bacterium
EnjuParser_T48 360-368 VBZ denotes degrades
EnjuParser_T49 369-377 NN denotes caffeine
EnjuParser_T50 378-381 CC denotes and
EnjuParser_T51 382-389 NNS denotes thrives
EnjuParser_T52 390-392 IN denotes in
EnjuParser_T53 393-407 NNS denotes concentrations
EnjuParser_T54 408-410 IN denotes of
EnjuParser_T55 411-419 NN denotes caffeine
EnjuParser_T56 420-424 WDT denotes that
EnjuParser_T57 425-428 VBP denotes are
EnjuParser_T58 429-434 CD denotes three
EnjuParser_T59 435-440 NNS denotes times
EnjuParser_T60 441-447 JJR denotes higher
EnjuParser_T61 448-449 -LRB- denotes (
EnjuParser_T62 449-452 CD denotes 9.0
EnjuParser_T63 453-454 NN denotes g
EnjuParser_T64 455-456 NN denotes L
EnjuParser_T65 456-457 -LRB- denotes (
EnjuParser_T66 457-459 CD denotes -1
EnjuParser_T67 459-460 -RRB- denotes )
EnjuParser_T68 460-461 -RRB- denotes )
EnjuParser_T69 462-466 IN denotes than
EnjuParser_T70 467-470 DT denotes the
EnjuParser_T71 471-478 JJ denotes maximum
EnjuParser_T72 479-488 JJ denotes tolerable
EnjuParser_T73 489-495 NNS denotes levels
EnjuParser_T74 496-498 IN denotes of
EnjuParser_T75 499-504 JJ denotes other
EnjuParser_T76 505-513 VBN denotes reported
EnjuParser_T77 514-522 NNS denotes bacteria
EnjuParser_T78 524-526 PRP denotes We
EnjuParser_T79 527-531 VBD denotes took
EnjuParser_T80 532-533 DT denotes a
EnjuParser_T81 534-539 JJ denotes novel
EnjuParser_T82 540-548 NN denotes approach
EnjuParser_T83 549-555 IN denotes toward
EnjuParser_T84 556-567 VBG denotes identifying
EnjuParser_T85 568-571 DT denotes the
EnjuParser_T86 572-581 JJ denotes enzymatic
EnjuParser_T87 582-590 NNS denotes pathways
EnjuParser_T88 591-593 IN denotes in
EnjuParser_T89 594-605 NNP denotes Pseudomonas
EnjuParser_T90 606-608 NN denotes sp
EnjuParser_T91 610-613 NNS denotes CES
EnjuParser_T92 614-618 WDT denotes that
EnjuParser_T93 619-629 VBP denotes metabolize
EnjuParser_T94 630-638 NN denotes caffeine
EnjuParser_T95 638-639 -COMMA- denotes ,
EnjuParser_T96 640-645 WDT denotes which
EnjuParser_T97 646-653 RB denotes largely
EnjuParser_T98 654-666 VBD denotes circumvented
EnjuParser_T99 667-670 DT denotes the
EnjuParser_T100 671-675 NN denotes need
EnjuParser_T101 676-679 IN denotes for
EnjuParser_T102 680-690 JJ denotes exhaustive
EnjuParser_T103 691-700 NN denotes isolation
EnjuParser_T104 701-703 IN denotes of
EnjuParser_T105 704-711 NNS denotes enzymes
EnjuParser_T106 712-715 CC denotes and
EnjuParser_T107 716-719 DT denotes the
EnjuParser_T108 720-728 JJ denotes stepwise
EnjuParser_T109 729-743 NN denotes reconstitution
EnjuParser_T110 744-746 IN denotes of
EnjuParser_T111 747-752 PRP-DOLLAR- denotes their
EnjuParser_T112 753-763 NNS denotes activities
EnjuParser_T113 765-769 RB denotes Here
EnjuParser_T114 770-772 PRP denotes we
EnjuParser_T115 773-781 VBP denotes describe
EnjuParser_T116 782-784 DT denotes an
EnjuParser_T117 785-794 VBN denotes optimized
EnjuParser_T118 794-795 -COMMA- denotes ,
EnjuParser_T119 796-801 JJ denotes rapid
EnjuParser_T120 802-813 JJ denotes alternative
EnjuParser_T121 814-822 NN denotes strategy
EnjuParser_T122 823-828 VBN denotes based
EnjuParser_T123 829-831 IN denotes on
EnjuParser_T124 832-843 JJ denotes multiplexed
EnjuParser_T125 844-852 NN denotes LC-MS/MS
EnjuParser_T126 853-859 NNS denotes assays
EnjuParser_T127 860-863 CC denotes and
EnjuParser_T128 864-868 VB denotes show
EnjuParser_T129 869-872 PRP-DOLLAR- denotes its
EnjuParser_T130 873-884 NN denotes application
EnjuParser_T131 885-887 IN denotes by
EnjuParser_T132 888-899 VBG denotes discovering
EnjuParser_T133 900-918 JJ denotes caffeine-degrading
EnjuParser_T134 919-926 NNS denotes enzymes
EnjuParser_T135 927-929 IN denotes in
EnjuParser_T136 930-933 DT denotes the
EnjuParser_T137 934-937 NN denotes CES
EnjuParser_T138 938-944 NN denotes strain
EnjuParser_T139 945-950 VBN denotes based
EnjuParser_T140 951-953 IN denotes on
EnjuParser_T141 954-966 JJ denotes quantitative
EnjuParser_T142 967-977 NN denotes comparison
EnjuParser_T143 978-980 IN denotes of
EnjuParser_T144 981-990 NNS denotes proteomes
EnjuParser_T145 991-995 IN denotes from
EnjuParser_T146 996-1004 NNS denotes bacteria
EnjuParser_T147 1005-1010 VBN denotes grown
EnjuParser_T148 1011-1013 IN denotes in
EnjuParser_T149 1014-1017 DT denotes the
EnjuParser_T150 1018-1025 NN denotes absence
EnjuParser_T151 1026-1029 CC denotes and
EnjuParser_T152 1030-1038 NN denotes presence
EnjuParser_T153 1039-1041 IN denotes of
EnjuParser_T154 1042-1050 NN denotes caffeine
EnjuParser_T155 1050-1051 -COMMA- denotes ,
EnjuParser_T156 1052-1055 DT denotes the
EnjuParser_T157 1056-1062 JJ denotes latter
EnjuParser_T158 1063-1072 NN denotes condition
EnjuParser_T159 1073-1075 IN denotes of
EnjuParser_T160 1076-1081 WDT denotes which
EnjuParser_T161 1082-1085 VBD denotes was
EnjuParser_T162 1086-1091 VBN denotes found
EnjuParser_T163 1092-1094 TO denotes to
EnjuParser_T164 1095-1099 VB denotes have
EnjuParser_T165 1100-1101 DT denotes a
EnjuParser_T166 1102-1108 RB denotes highly
EnjuParser_T167 1109-1116 VBN denotes induced
EnjuParser_T168 1117-1125 NN denotes capacity
EnjuParser_T169 1126-1129 IN denotes for
EnjuParser_T170 1130-1138 NN denotes caffeine
EnjuParser_T171 1139-1150 NN denotes degradation
EnjuParser_T172 1152-1163 NNS denotes Comparisons
EnjuParser_T173 1164-1168 VBD denotes were
EnjuParser_T174 1169-1173 VBN denotes made
EnjuParser_T175 1174-1179 VBG denotes using
EnjuParser_T176 1180-1186 JJ denotes stable
EnjuParser_T177 1187-1194 NN denotes isotope
EnjuParser_T178 1195-1203 NN denotes dimethyl
EnjuParser_T179 1204-1212 NN denotes labeling
EnjuParser_T180 1212-1213 -COMMA- denotes ,
EnjuParser_T181 1214-1225 NNS denotes differences
EnjuParser_T182 1226-1228 IN denotes in
EnjuParser_T183 1229-1232 DT denotes the
EnjuParser_T184 1233-1242 NN denotes abundance
EnjuParser_T185 1243-1245 IN denotes of
EnjuParser_T186 1246-1256 JJ denotes particular
EnjuParser_T187 1257-1265 NNS denotes proteins
EnjuParser_T188 1266-1270 VBD denotes were
EnjuParser_T189 1271-1284 VBN denotes substantiated
EnjuParser_T190 1285-1287 IN denotes by
EnjuParser_T191 1288-1298 JJ denotes reciprocal
EnjuParser_T192 1299-1307 NN denotes labeling
EnjuParser_T193 1308-1319 NNS denotes experiments
EnjuParser_T194 1319-1320 -COMMA- denotes ,
EnjuParser_T195 1321-1324 CC denotes and
EnjuParser_T196 1325-1328 DT denotes the
EnjuParser_T197 1329-1333 NN denotes role
EnjuParser_T198 1334-1336 IN denotes of
EnjuParser_T199 1337-1340 DT denotes the
EnjuParser_T200 1341-1351 VBN denotes identified
EnjuParser_T201 1352-1360 NNS denotes proteins
EnjuParser_T202 1361-1363 IN denotes in
EnjuParser_T203 1364-1372 NN denotes caffeine
EnjuParser_T204 1373-1384 NN denotes degradation
EnjuParser_T205 1385-1388 VBD denotes was
EnjuParser_T206 1389-1402 RB denotes independently
EnjuParser_T207 1403-1411 VBN denotes verified
EnjuParser_T208 1412-1414 IN denotes by
EnjuParser_T209 1415-1422 JJ denotes genetic
EnjuParser_T210 1423-1433 NN denotes sequencing
EnjuParser_T211 1435-1442 RB denotes Overall
EnjuParser_T212 1442-1443 -COMMA- denotes ,
EnjuParser_T213 1444-1452 JJ denotes multiple
EnjuParser_T214 1453-1456 JJ denotes new
EnjuParser_T215 1457-1467 NNS denotes components
EnjuParser_T216 1468-1470 IN denotes of
EnjuParser_T217 1471-1472 DT denotes a
EnjuParser_T218 1473-1486 NN denotes N-demethylase
EnjuParser_T219 1487-1493 NN denotes system
EnjuParser_T220 1494-1498 VBD denotes were
EnjuParser_T221 1499-1509 VBN denotes identified
EnjuParser_T222 1510-1514 WDT denotes that
EnjuParser_T223 1515-1523 VBD denotes resulted
EnjuParser_T224 1524-1526 IN denotes in
EnjuParser_T225 1527-1532 JJ denotes rapid
EnjuParser_T226 1533-1540 NN denotes pathway
EnjuParser_T227 1541-1551 NN denotes validation
EnjuParser_T228 1552-1555 CC denotes and
EnjuParser_T229 1556-1560 NN denotes gene
EnjuParser_T230 1561-1570 NN denotes isolation
EnjuParser_T231 1571-1576 VBG denotes using
EnjuParser_T232 1577-1581 DT denotes this
EnjuParser_T233 1582-1585 JJ denotes new
EnjuParser_T234 1586-1594 NN denotes approach
EnjuParser_R0 EnjuParser_T1 EnjuParser_T0 arg1Of identification,Rapid
EnjuParser_R1 EnjuParser_T1 EnjuParser_T2 arg1Of identification,and
EnjuParser_R2 EnjuParser_T4 EnjuParser_T2 arg2Of validation,and
EnjuParser_R3 EnjuParser_T4 EnjuParser_T3 arg1Of validation,quantitative
EnjuParser_R4 EnjuParser_T2 EnjuParser_T5 arg1Of and,of
EnjuParser_R5 EnjuParser_T8 EnjuParser_T5 arg2Of pathway,of
EnjuParser_R6 EnjuParser_T8 EnjuParser_T6 arg1Of pathway,a
EnjuParser_R7 EnjuParser_T8 EnjuParser_T7 arg1Of pathway,caffeine-degrading
EnjuParser_R8 EnjuParser_T8 EnjuParser_T9 arg1Of pathway,in
EnjuParser_R9 EnjuParser_T11 EnjuParser_T9 arg2Of sp,in
EnjuParser_R10 EnjuParser_T11 EnjuParser_T10 arg1Of sp,Pseudomonas
EnjuParser_R11 EnjuParser_T16 EnjuParser_T13 arg2Of and,Understanding
EnjuParser_R12 EnjuParser_T16 EnjuParser_T14 arg1Of and,the
EnjuParser_R13 EnjuParser_T15 EnjuParser_T16 arg1Of genes,and
EnjuParser_R14 EnjuParser_T17 EnjuParser_T16 arg2Of enzymes,and
EnjuParser_R15 EnjuParser_T16 EnjuParser_T18 arg2Of and,involved
EnjuParser_R16 EnjuParser_T18 EnjuParser_T19 arg1Of involved,in
EnjuParser_R17 EnjuParser_T21 EnjuParser_T19 arg2Of metabolism,in
EnjuParser_R18 EnjuParser_T21 EnjuParser_T20 arg1Of metabolism,caffeine
EnjuParser_R19 EnjuParser_T13 EnjuParser_T22 arg1Of Understanding,can
EnjuParser_R20 EnjuParser_T23 EnjuParser_T22 arg2Of lead,can
EnjuParser_R21 EnjuParser_T13 EnjuParser_T23 arg1Of Understanding,lead
EnjuParser_R22 EnjuParser_T23 EnjuParser_T24 arg1Of lead,to
EnjuParser_R23 EnjuParser_T25 EnjuParser_T24 arg2Of applications,to
EnjuParser_R24 EnjuParser_T27 EnjuParser_T26 arg1Of as,such
EnjuParser_R25 EnjuParser_T25 EnjuParser_T27 arg1Of applications,as
EnjuParser_R26 EnjuParser_T31 EnjuParser_T27 arg2Of and,as
EnjuParser_R27 EnjuParser_T28 EnjuParser_T29 arg1Of production,of
EnjuParser_R28 EnjuParser_T30 EnjuParser_T29 arg2Of methylxanthines,of
EnjuParser_R29 EnjuParser_T28 EnjuParser_T31 arg1Of production,and
EnjuParser_R30 EnjuParser_T34 EnjuParser_T31 arg2Of remediation,and
EnjuParser_R31 EnjuParser_T34 EnjuParser_T32 arg1Of remediation,environmental
EnjuParser_R32 EnjuParser_T34 EnjuParser_T33 arg1Of remediation,waste
EnjuParser_R33 EnjuParser_T36 EnjuParser_T35 arg1Of sp,Pseudomonas
EnjuParser_R34 EnjuParser_T37 EnjuParser_T38 arg1Of CES,may
EnjuParser_R35 EnjuParser_T39 EnjuParser_T38 arg2Of provide,may
EnjuParser_R36 EnjuParser_T37 EnjuParser_T39 arg1Of CES,provide
EnjuParser_R37 EnjuParser_T40 EnjuParser_T39 arg2Of insights,provide
EnjuParser_R38 EnjuParser_T39 EnjuParser_T41 arg1Of provide,into
EnjuParser_R39 EnjuParser_T43 EnjuParser_T41 arg2Of applications,into
EnjuParser_R40 EnjuParser_T43 EnjuParser_T42 arg1Of applications,these
EnjuParser_R41 EnjuParser_T39 EnjuParser_T44 arg1Of provide,","
EnjuParser_R42 EnjuParser_T39 EnjuParser_T45 arg1Of provide,since
EnjuParser_R43 EnjuParser_T48 EnjuParser_T45 arg2Of degrades,since
EnjuParser_R44 EnjuParser_T47 EnjuParser_T46 arg1Of bacterium,this
EnjuParser_R45 EnjuParser_T47 EnjuParser_T48 arg1Of bacterium,degrades
EnjuParser_R46 EnjuParser_T50 EnjuParser_T48 arg2Of and,degrades
EnjuParser_R47 EnjuParser_T49 EnjuParser_T50 arg1Of caffeine,and
EnjuParser_R48 EnjuParser_T51 EnjuParser_T50 arg2Of thrives,and
EnjuParser_R49 EnjuParser_T48 EnjuParser_T52 arg1Of degrades,in
EnjuParser_R50 EnjuParser_T53 EnjuParser_T52 arg2Of concentrations,in
EnjuParser_R51 EnjuParser_T53 EnjuParser_T54 arg1Of concentrations,of
EnjuParser_R52 EnjuParser_T55 EnjuParser_T54 arg2Of caffeine,of
EnjuParser_R53 EnjuParser_T53 EnjuParser_T56 arg1Of concentrations,that
EnjuParser_R54 EnjuParser_T53 EnjuParser_T57 arg1Of concentrations,are
EnjuParser_R55 EnjuParser_T60 EnjuParser_T57 arg2Of higher,are
EnjuParser_R56 EnjuParser_T59 EnjuParser_T58 arg1Of times,three
EnjuParser_R57 EnjuParser_T60 EnjuParser_T59 arg1Of higher,times
EnjuParser_R58 EnjuParser_T53 EnjuParser_T60 arg1Of concentrations,higher
EnjuParser_R59 EnjuParser_T53 EnjuParser_T61 arg1Of concentrations,(
EnjuParser_R60 EnjuParser_T64 EnjuParser_T61 arg2Of L,(
EnjuParser_R61 EnjuParser_T68 EnjuParser_T61 arg3Of ),(
EnjuParser_R62 EnjuParser_T64 EnjuParser_T62 arg1Of L,9.0
EnjuParser_R63 EnjuParser_T64 EnjuParser_T63 arg1Of L,g
EnjuParser_R64 EnjuParser_T64 EnjuParser_T65 arg1Of L,(
EnjuParser_R65 EnjuParser_T66 EnjuParser_T65 arg2Of -1,(
EnjuParser_R66 EnjuParser_T67 EnjuParser_T65 arg3Of ),(
EnjuParser_R67 EnjuParser_T52 EnjuParser_T69 arg1Of in,than
EnjuParser_R68 EnjuParser_T73 EnjuParser_T69 arg2Of levels,than
EnjuParser_R69 EnjuParser_T73 EnjuParser_T70 arg1Of levels,the
EnjuParser_R70 EnjuParser_T72 EnjuParser_T71 arg1Of tolerable,maximum
EnjuParser_R71 EnjuParser_T73 EnjuParser_T72 arg1Of levels,tolerable
EnjuParser_R72 EnjuParser_T73 EnjuParser_T74 arg1Of levels,of
EnjuParser_R73 EnjuParser_T77 EnjuParser_T74 arg2Of bacteria,of
EnjuParser_R74 EnjuParser_T77 EnjuParser_T75 arg1Of bacteria,other
EnjuParser_R75 EnjuParser_T77 EnjuParser_T76 arg2Of bacteria,reported
EnjuParser_R76 EnjuParser_T78 EnjuParser_T79 arg1Of We,took
EnjuParser_R77 EnjuParser_T82 EnjuParser_T79 arg2Of approach,took
EnjuParser_R78 EnjuParser_T82 EnjuParser_T80 arg1Of approach,a
EnjuParser_R79 EnjuParser_T82 EnjuParser_T81 arg1Of approach,novel
EnjuParser_R80 EnjuParser_T82 EnjuParser_T83 arg1Of approach,toward
EnjuParser_R81 EnjuParser_T84 EnjuParser_T83 arg2Of identifying,toward
EnjuParser_R82 EnjuParser_T87 EnjuParser_T84 arg2Of pathways,identifying
EnjuParser_R83 EnjuParser_T87 EnjuParser_T85 arg1Of pathways,the
EnjuParser_R84 EnjuParser_T87 EnjuParser_T86 arg1Of pathways,enzymatic
EnjuParser_R85 EnjuParser_T87 EnjuParser_T88 arg1Of pathways,in
EnjuParser_R86 EnjuParser_T90 EnjuParser_T88 arg2Of sp,in
EnjuParser_R87 EnjuParser_T90 EnjuParser_T89 arg1Of sp,Pseudomonas
EnjuParser_R88 EnjuParser_T91 EnjuParser_T92 arg1Of CES,that
EnjuParser_R89 EnjuParser_T91 EnjuParser_T93 arg1Of CES,metabolize
EnjuParser_R90 EnjuParser_T94 EnjuParser_T93 arg2Of caffeine,metabolize
EnjuParser_R91 EnjuParser_T94 EnjuParser_T95 arg1Of caffeine,","
EnjuParser_R92 EnjuParser_T94 EnjuParser_T96 arg1Of caffeine,which
EnjuParser_R93 EnjuParser_T98 EnjuParser_T97 arg1Of circumvented,largely
EnjuParser_R94 EnjuParser_T94 EnjuParser_T98 arg1Of caffeine,circumvented
EnjuParser_R95 EnjuParser_T106 EnjuParser_T98 arg2Of and,circumvented
EnjuParser_R96 EnjuParser_T100 EnjuParser_T99 arg1Of need,the
EnjuParser_R97 EnjuParser_T100 EnjuParser_T101 arg1Of need,for
EnjuParser_R98 EnjuParser_T103 EnjuParser_T101 arg2Of isolation,for
EnjuParser_R99 EnjuParser_T103 EnjuParser_T102 arg1Of isolation,exhaustive
EnjuParser_R100 EnjuParser_T103 EnjuParser_T104 arg1Of isolation,of
EnjuParser_R101 EnjuParser_T105 EnjuParser_T104 arg2Of enzymes,of
EnjuParser_R102 EnjuParser_T100 EnjuParser_T106 arg1Of need,and
EnjuParser_R103 EnjuParser_T109 EnjuParser_T106 arg2Of reconstitution,and
EnjuParser_R104 EnjuParser_T109 EnjuParser_T107 arg1Of reconstitution,the
EnjuParser_R105 EnjuParser_T109 EnjuParser_T108 arg1Of reconstitution,stepwise
EnjuParser_R106 EnjuParser_T109 EnjuParser_T110 arg1Of reconstitution,of
EnjuParser_R107 EnjuParser_T112 EnjuParser_T110 arg2Of activities,of
EnjuParser_R108 EnjuParser_T112 EnjuParser_T111 arg1Of activities,their
EnjuParser_R109 EnjuParser_T127 EnjuParser_T113 arg1Of and,Here
EnjuParser_R110 EnjuParser_T114 EnjuParser_T115 arg1Of we,describe
EnjuParser_R111 EnjuParser_T121 EnjuParser_T115 arg2Of strategy,describe
EnjuParser_R112 EnjuParser_T121 EnjuParser_T116 arg1Of strategy,an
EnjuParser_R113 EnjuParser_T121 EnjuParser_T117 arg1Of strategy,optimized
EnjuParser_R114 EnjuParser_T117 EnjuParser_T118 arg1Of optimized,","
EnjuParser_R115 EnjuParser_T120 EnjuParser_T118 arg2Of alternative,","
EnjuParser_R116 EnjuParser_T120 EnjuParser_T119 arg1Of alternative,rapid
EnjuParser_R117 EnjuParser_T121 EnjuParser_T120 arg1Of strategy,alternative
EnjuParser_R118 EnjuParser_T121 EnjuParser_T122 arg1Of strategy,based
EnjuParser_R119 EnjuParser_T123 EnjuParser_T122 arg2Of on,based
EnjuParser_R120 EnjuParser_T126 EnjuParser_T123 arg2Of assays,on
EnjuParser_R121 EnjuParser_T126 EnjuParser_T124 arg1Of assays,multiplexed
EnjuParser_R122 EnjuParser_T126 EnjuParser_T125 arg1Of assays,LC-MS/MS
EnjuParser_R123 EnjuParser_T115 EnjuParser_T127 arg1Of describe,and
EnjuParser_R124 EnjuParser_T128 EnjuParser_T127 arg2Of show,and
EnjuParser_R125 EnjuParser_T114 EnjuParser_T128 arg1Of we,show
EnjuParser_R126 EnjuParser_T130 EnjuParser_T128 arg2Of application,show
EnjuParser_R127 EnjuParser_T130 EnjuParser_T129 arg1Of application,its
EnjuParser_R128 EnjuParser_T128 EnjuParser_T131 arg1Of show,by
EnjuParser_R129 EnjuParser_T132 EnjuParser_T131 arg2Of discovering,by
EnjuParser_R130 EnjuParser_T114 EnjuParser_T132 arg1Of we,discovering
EnjuParser_R131 EnjuParser_T134 EnjuParser_T132 arg2Of enzymes,discovering
EnjuParser_R132 EnjuParser_T134 EnjuParser_T133 arg1Of enzymes,caffeine-degrading
EnjuParser_R133 EnjuParser_T132 EnjuParser_T135 arg1Of discovering,in
EnjuParser_R134 EnjuParser_T138 EnjuParser_T135 arg2Of strain,in
EnjuParser_R135 EnjuParser_T138 EnjuParser_T136 arg1Of strain,the
EnjuParser_R136 EnjuParser_T138 EnjuParser_T137 arg1Of strain,CES
EnjuParser_R137 EnjuParser_T132 EnjuParser_T139 arg1Of discovering,based
EnjuParser_R138 EnjuParser_T140 EnjuParser_T139 arg2Of on,based
EnjuParser_R139 EnjuParser_T142 EnjuParser_T140 arg2Of comparison,on
EnjuParser_R140 EnjuParser_T142 EnjuParser_T141 arg1Of comparison,quantitative
EnjuParser_R141 EnjuParser_T142 EnjuParser_T143 arg1Of comparison,of
EnjuParser_R142 EnjuParser_T144 EnjuParser_T143 arg2Of proteomes,of
EnjuParser_R143 EnjuParser_T144 EnjuParser_T145 arg1Of proteomes,from
EnjuParser_R144 EnjuParser_T146 EnjuParser_T145 arg2Of bacteria,from
EnjuParser_R145 EnjuParser_T146 EnjuParser_T147 arg2Of bacteria,grown
EnjuParser_R146 EnjuParser_T147 EnjuParser_T148 arg1Of grown,in
EnjuParser_R147 EnjuParser_T151 EnjuParser_T148 arg2Of and,in
EnjuParser_R148 EnjuParser_T151 EnjuParser_T149 arg1Of and,the
EnjuParser_R149 EnjuParser_T150 EnjuParser_T151 arg1Of absence,and
EnjuParser_R150 EnjuParser_T152 EnjuParser_T151 arg2Of presence,and
EnjuParser_R151 EnjuParser_T151 EnjuParser_T153 arg1Of and,of
EnjuParser_R152 EnjuParser_T154 EnjuParser_T153 arg2Of caffeine,of
EnjuParser_R153 EnjuParser_T162 EnjuParser_T155 arg1Of found,","
EnjuParser_R154 EnjuParser_T158 EnjuParser_T156 arg1Of condition,the
EnjuParser_R155 EnjuParser_T158 EnjuParser_T157 arg1Of condition,latter
EnjuParser_R156 EnjuParser_T158 EnjuParser_T159 arg1Of condition,of
EnjuParser_R157 EnjuParser_T154 EnjuParser_T159 arg2Of caffeine,of
EnjuParser_R158 EnjuParser_T154 EnjuParser_T160 arg1Of caffeine,which
EnjuParser_R159 EnjuParser_T158 EnjuParser_T161 arg1Of condition,was
EnjuParser_R160 EnjuParser_T162 EnjuParser_T161 arg2Of found,was
EnjuParser_R161 EnjuParser_T158 EnjuParser_T162 arg2Of condition,found
EnjuParser_R162 EnjuParser_T164 EnjuParser_T162 arg3Of have,found
EnjuParser_R163 EnjuParser_T164 EnjuParser_T163 arg1Of have,to
EnjuParser_R164 EnjuParser_T158 EnjuParser_T164 arg1Of condition,have
EnjuParser_R165 EnjuParser_T168 EnjuParser_T164 arg2Of capacity,have
EnjuParser_R166 EnjuParser_T168 EnjuParser_T165 arg1Of capacity,a
EnjuParser_R167 EnjuParser_T167 EnjuParser_T166 arg1Of induced,highly
EnjuParser_R168 EnjuParser_T168 EnjuParser_T167 arg1Of capacity,induced
EnjuParser_R169 EnjuParser_T168 EnjuParser_T169 arg1Of capacity,for
EnjuParser_R170 EnjuParser_T171 EnjuParser_T169 arg2Of degradation,for
EnjuParser_R171 EnjuParser_T171 EnjuParser_T170 arg1Of degradation,caffeine
EnjuParser_R172 EnjuParser_T172 EnjuParser_T173 arg1Of Comparisons,were
EnjuParser_R173 EnjuParser_T174 EnjuParser_T173 arg2Of made,were
EnjuParser_R174 EnjuParser_T172 EnjuParser_T174 arg2Of Comparisons,made
EnjuParser_R175 EnjuParser_T179 EnjuParser_T175 arg2Of labeling,using
EnjuParser_R176 EnjuParser_T174 EnjuParser_T175 modOf made,using
EnjuParser_R177 EnjuParser_T179 EnjuParser_T176 arg1Of labeling,stable
EnjuParser_R178 EnjuParser_T179 EnjuParser_T177 arg1Of labeling,isotope
EnjuParser_R179 EnjuParser_T179 EnjuParser_T178 arg1Of labeling,dimethyl
EnjuParser_R180 EnjuParser_T189 EnjuParser_T180 arg1Of substantiated,","
EnjuParser_R181 EnjuParser_T181 EnjuParser_T182 arg1Of differences,in
EnjuParser_R182 EnjuParser_T184 EnjuParser_T182 arg2Of abundance,in
EnjuParser_R183 EnjuParser_T184 EnjuParser_T183 arg1Of abundance,the
EnjuParser_R184 EnjuParser_T184 EnjuParser_T185 arg1Of abundance,of
EnjuParser_R185 EnjuParser_T187 EnjuParser_T185 arg2Of proteins,of
EnjuParser_R186 EnjuParser_T187 EnjuParser_T186 arg1Of proteins,particular
EnjuParser_R187 EnjuParser_T181 EnjuParser_T188 arg1Of differences,were
EnjuParser_R188 EnjuParser_T189 EnjuParser_T188 arg2Of substantiated,were
EnjuParser_R189 EnjuParser_T179 EnjuParser_T188 modOf labeling,were
EnjuParser_R190 EnjuParser_T193 EnjuParser_T189 arg1Of experiments,substantiated
EnjuParser_R191 EnjuParser_T181 EnjuParser_T189 arg2Of differences,substantiated
EnjuParser_R192 EnjuParser_T193 EnjuParser_T190 arg2Of experiments,by
EnjuParser_R193 EnjuParser_T193 EnjuParser_T191 arg1Of experiments,reciprocal
EnjuParser_R194 EnjuParser_T193 EnjuParser_T192 arg1Of experiments,labeling
EnjuParser_R195 EnjuParser_T195 EnjuParser_T194 arg1Of and,","
EnjuParser_R196 EnjuParser_T174 EnjuParser_T195 arg1Of made,and
EnjuParser_R197 EnjuParser_T207 EnjuParser_T195 arg2Of verified,and
EnjuParser_R198 EnjuParser_T197 EnjuParser_T196 arg1Of role,the
EnjuParser_R199 EnjuParser_T197 EnjuParser_T198 arg1Of role,of
EnjuParser_R200 EnjuParser_T201 EnjuParser_T198 arg2Of proteins,of
EnjuParser_R201 EnjuParser_T201 EnjuParser_T199 arg1Of proteins,the
EnjuParser_R202 EnjuParser_T201 EnjuParser_T200 arg2Of proteins,identified
EnjuParser_R203 EnjuParser_T197 EnjuParser_T202 arg1Of role,in
EnjuParser_R204 EnjuParser_T204 EnjuParser_T202 arg2Of degradation,in
EnjuParser_R205 EnjuParser_T204 EnjuParser_T203 arg1Of degradation,caffeine
EnjuParser_R206 EnjuParser_T197 EnjuParser_T205 arg1Of role,was
EnjuParser_R207 EnjuParser_T207 EnjuParser_T205 arg2Of verified,was
EnjuParser_R208 EnjuParser_T207 EnjuParser_T206 arg1Of verified,independently
EnjuParser_R209 EnjuParser_T210 EnjuParser_T207 arg1Of sequencing,verified
EnjuParser_R210 EnjuParser_T197 EnjuParser_T207 arg2Of role,verified
EnjuParser_R211 EnjuParser_T210 EnjuParser_T208 arg2Of sequencing,by
EnjuParser_R212 EnjuParser_T210 EnjuParser_T209 arg1Of sequencing,genetic
EnjuParser_R213 EnjuParser_T221 EnjuParser_T211 arg1Of identified,Overall
EnjuParser_R214 EnjuParser_T221 EnjuParser_T212 arg1Of identified,","
EnjuParser_R215 EnjuParser_T215 EnjuParser_T213 arg1Of components,multiple
EnjuParser_R216 EnjuParser_T215 EnjuParser_T214 arg1Of components,new
EnjuParser_R217 EnjuParser_T215 EnjuParser_T216 arg1Of components,of
EnjuParser_R218 EnjuParser_T219 EnjuParser_T216 arg2Of system,of
EnjuParser_R219 EnjuParser_T219 EnjuParser_T217 arg1Of system,a
EnjuParser_R220 EnjuParser_T219 EnjuParser_T218 arg1Of system,N-demethylase
EnjuParser_R221 EnjuParser_T215 EnjuParser_T220 arg1Of components,were
EnjuParser_R222 EnjuParser_T221 EnjuParser_T220 arg2Of identified,were
EnjuParser_R223 EnjuParser_T215 EnjuParser_T221 arg2Of components,identified
EnjuParser_R224 EnjuParser_T222 EnjuParser_T221 arg3Of that,identified
EnjuParser_R225 EnjuParser_T222 EnjuParser_T223 arg1Of that,resulted
EnjuParser_R226 EnjuParser_T223 EnjuParser_T224 arg1Of resulted,in
EnjuParser_R227 EnjuParser_T228 EnjuParser_T224 arg2Of and,in
EnjuParser_R228 EnjuParser_T227 EnjuParser_T225 arg1Of validation,rapid
EnjuParser_R229 EnjuParser_T227 EnjuParser_T226 arg1Of validation,pathway
EnjuParser_R230 EnjuParser_T227 EnjuParser_T228 arg1Of validation,and
EnjuParser_R231 EnjuParser_T230 EnjuParser_T228 arg2Of isolation,and
EnjuParser_R232 EnjuParser_T230 EnjuParser_T229 arg1Of isolation,gene
EnjuParser_R233 EnjuParser_T230 EnjuParser_T231 arg1Of isolation,using
EnjuParser_R234 EnjuParser_T234 EnjuParser_T231 arg2Of approach,using
EnjuParser_R235 EnjuParser_T234 EnjuParser_T232 arg1Of approach,this
EnjuParser_R236 EnjuParser_T234 EnjuParser_T233 arg1Of approach,new