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PubMed:31679928 JSONTXT

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PubMed_ArguminSci

Id Subject Object Predicate Lexical cue
T1 98-234 DRI_Background denotes Nearly all organisms evolved endogenous self-sustained timekeeping mechanisms to track and anticipate cyclic changes in the environment.
T2 235-330 DRI_Background denotes Circadian clocks, with a periodicity of about 24 h, allow animals to adapt to day-night cycles.
T3 331-498 DRI_Background denotes Biological clocks are highly adaptive, but strong behavioral rhythms might be a disadvantage for adaptation to weakly rhythmic environments such as polar areas [1, 2].
T4 499-627 DRI_Background denotes Several high-latitude species, including Drosophila species, were found to be highly arrhythmic under constant conditions [3-6].
T5 628-738 DRI_Approach denotes Furthermore, Drosophila species from subarctic regions can extend evening activity until dusk under long days.
T6 739-932 DRI_Background denotes These traits depend on the clock network neurochemistry, and we previously proposed that high-latitude Drosophila species evolved specific clock adaptations to colonize polar regions [5, 7, 8].
T7 933-1120 DRI_Outcome denotes We broadened our analysis to 3 species of the Chymomyza genus, which diverged circa 5 million years before the Drosophila radiation [9] and colonized both low and high latitudes [10, 11].
T8 1121-1351 DRI_Background denotes C. costata, pararufithorax, and procnemis, independently of their latitude of origin, possess the clock neuronal network of low-latitude Drosophila species, and their locomotor activity does not track dusk under long photoperiods.
T9 1352-1497 DRI_Background denotes Nevertheless, the high-latitude C. costata becomes arrhythmic under constant darkness (DD), whereas the two low-latitude species remain rhythmic.
T10 1498-1810 DRI_Challenge denotes Different mechanisms are behind the arrhythmicity in DD of C. costata and the high-latitude Drosophila ezoana, suggesting that the ability to maintain behavioral rhythms has been lost more than once during drosophilids' evolution and that it might indeed be an evolutionary adaptation for life at high latitudes.

Goldhamster2_Cellosaurus

Id Subject Object Predicate Lexical cue
T1 207-214 CVCL_0238|Cancer_cell_line|Homo sapiens denotes changes
T2 258-259 CVCL_6479|Finite_cell_line|Mus musculus denotes a
T3 281-285 CVCL_8262|Cancer_cell_line|Homo sapiens denotes 24 h
T4 409-410 CVCL_6479|Finite_cell_line|Mus musculus denotes a
T5 622-625 CVCL_9087|Hybrid_cell_line|Homo sapiens,Mus musculus denotes 3-6
T6 702-710 CVCL_C410|Hybridoma|Mus musculus denotes activity
T7 800-802 CVCL_5M23|Cancer_cell_line|Mesocricetus auratus denotes we
T8 923-930 CVCL_VG59|Telomerase_immortalized_cell_line|Homo sapiens denotes 5, 7, 8
T9 923-927 CVCL_ZT25|Transformed_cell_line|Homo sapiens denotes 5, 7
T10 933-935 CVCL_5M23|Cancer_cell_line|Mesocricetus auratus denotes We
T11 1112-1118 CVCL_7942|Cancer_cell_line|Homo sapiens denotes 10, 11
T12 1116-1118 CVCL_5986|Cancer_cell_line|Homo sapiens denotes 11
T13 1121-1122 CVCL_S361|Finite_cell_line|Mus musculus denotes C
T14 1298-1306 CVCL_C410|Hybridoma|Mus musculus denotes activity
T15 1384-1385 CVCL_S361|Finite_cell_line|Mus musculus denotes C
T16 1439-1441 CVCL_J651|Cancer_cell_line|Homo sapiens denotes DD
T17 1551-1553 CVCL_J651|Cancer_cell_line|Homo sapiens denotes DD
T18 1557-1558 CVCL_S361|Finite_cell_line|Mus musculus denotes C
T19 1668-1671 CVCL_6758|Undefined_cell_line_type|Cricetulus griseus denotes has
T20 1668-1671 CVCL_E689|Transformed_cell_line|Homo sapiens denotes has
T21 1756-1758 CVCL_8754|Cancer_cell_line|Homo sapiens denotes an
T22 1756-1758 CVCL_H241|Cancer_cell_line|Homo sapiens denotes an

GoldHamster

Id Subject Object Predicate Lexical cue
T1 281-285 CVCL_8262 denotes 24 h
T2 479-484 PR:Q6NQ99 denotes polar
T3 540-550 2294143 denotes Drosophila
T4 540-550 504603 denotes Drosophila
T5 540-550 2294139 denotes Drosophila
T6 540-550 2294145 denotes Drosophila
T7 540-550 2294141 denotes Drosophila
T8 540-550 2294142 denotes Drosophila
T9 540-550 2294144 denotes Drosophila
T10 540-550 2294140 denotes Drosophila
T11 540-550 D004330 denotes Drosophila
T12 540-550 2080301 denotes Drosophila
T13 641-651 2294143 denotes Drosophila
T14 641-651 504603 denotes Drosophila
T15 641-651 2294139 denotes Drosophila
T16 641-651 2294145 denotes Drosophila
T17 641-651 2294141 denotes Drosophila
T18 641-651 2294142 denotes Drosophila
T19 641-651 2294144 denotes Drosophila
T20 641-651 2294140 denotes Drosophila
T21 641-651 D004330 denotes Drosophila
T22 641-651 2080301 denotes Drosophila
T23 745-751 PR:Q96CJ1 denotes traits
T24 745-751 PR:000006862 denotes traits
T25 745-751 PR:Q91ZD6 denotes traits
T26 745-751 PR:Q811X5 denotes traits
T27 842-852 2294143 denotes Drosophila
T28 842-852 504603 denotes Drosophila
T29 842-852 2294139 denotes Drosophila
T30 842-852 2294145 denotes Drosophila
T31 842-852 2294141 denotes Drosophila
T32 842-852 2294142 denotes Drosophila
T33 842-852 2294144 denotes Drosophila
T34 842-852 2294140 denotes Drosophila
T35 842-852 D004330 denotes Drosophila
T36 842-852 2080301 denotes Drosophila
T37 908-913 PR:Q6NQ99 denotes polar
T38 1044-1054 2294143 denotes Drosophila
T39 1044-1054 504603 denotes Drosophila
T40 1044-1054 2294139 denotes Drosophila
T41 1044-1054 2294145 denotes Drosophila
T42 1044-1054 2294141 denotes Drosophila
T43 1044-1054 2294142 denotes Drosophila
T44 1044-1054 2294144 denotes Drosophila
T45 1044-1054 2294140 denotes Drosophila
T46 1044-1054 D004330 denotes Drosophila
T47 1044-1054 2080301 denotes Drosophila
T48 1258-1268 2294143 denotes Drosophila
T49 1258-1268 504603 denotes Drosophila
T50 1258-1268 2294139 denotes Drosophila
T51 1258-1268 2294145 denotes Drosophila
T52 1258-1268 2294141 denotes Drosophila
T53 1258-1268 2294142 denotes Drosophila
T54 1258-1268 2294144 denotes Drosophila
T55 1258-1268 2294140 denotes Drosophila
T56 1258-1268 D004330 denotes Drosophila
T57 1258-1268 2080301 denotes Drosophila
T68 1590-1607 47313 denotes Drosophila ezoana