instruction stringlengths 161 2.29k | input stringlengths 80 650 | response stringclasses 6 values |
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<Instruct>: Given the context 'As shown in Figure 4, the construct containing the wheat or potato promoters was transcribed only in cognate mitochondria.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chinese-potato (aka dioscorea polystachya)
B: chaco potato (aka solanum chacoense)
C: solanum rugosum
D: solanum annuum
E: potato (aka solanum tuberosum)
F: None of the above. | E |
<Instruct>: Given the context 'In potato, the mature product is barely detectable.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: potatoes (aka solanum tuberosum)
B: solanum ipomoeoides
C: solanum giganteum
D: chaco potato (aka solanum chacoense)
E: solanum
F: None of the above. | A |
<Instruct>: Given the context 'In contrast to wheat mitochondria, the 821 nt mature transcript was only detected when the electroporated potato mitochondria were incubated in the presence of fatty acid-free BSA.
', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: durum wheat (aka triticum turgidum subsp. durum)
B: triticum
C: triticum x secale (aka x triticosecale)
D: wild emmer wheat (aka triticum dicoccoides)
E: bread wheat (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'In contrast to wheat mitochondria, the 821 nt mature transcript was only detected when the electroporated potato mitochondria were incubated in the presence of fatty acid-free BSA.
', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: tuberaria
B: solanum annuum
C: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
D: solanum ipomoeoides
E: chinese-potato (aka dioscorea polystachya)
F: None of the above. | C |
<Instruct>: Given the context 'A cognate rps10 construct is correctly expressed, edited and processed in potato mitochondria
', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
B: solanum rugosum
C: sweet potato (aka ipomoea batatas)
D: solanum giganteum
E: air-potato (aka dioscorea bulbifera)
F: None of the above. | A |
<Instruct>: Given the context 'The construct expressing potato rps10 under the control of potato cox2 promoter was introduced into S.tuberosum isolated mitochondria.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chilean potato-tree (aka solanum crispum)
B: solanum giganteum
C: solanum nutans
D: chaco potato (aka solanum chacoense)
E: potatoes (aka solanum tuberosum)
F: None of the above. | E |
<Instruct>: Given the context 'The construct expressing potato rps10 under the control of potato cox2 promoter was introduced into S.tuberosum isolated mitochondria.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chinese-potato (aka dioscorea polystachya)
B: tuberaria
C: solanum crispum (chilean potato-tree) (aka solanum crispum)
D: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
E: solanum annuum
F: None of the above. | F |
<Instruct>: Given the context 'The construct expressing potato rps10 under the control of potato cox2 promoter was introduced into S.tuberosum isolated mitochondria.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chinese-potato (aka dioscorea polystachya)
B: solanum
C: solanum annuum
D: solanum crispum (chilean potato-tree) (aka solanum crispum)
E: potatoes (aka solanum tuberosum)
F: None of the above. | E |
<Instruct>: Given the context 'The construct expressing potato rps10 under the control of potato cox2 promoter was introduced into S.tuberosum isolated mitochondria.', select the correct biomedical concept corresponding to 's.tuberosum'. Answer using one of the provided options. | <Options>: A: solanum pallidum
B: potatoes (aka solanum tuberosum)
C: solanum esculentum (aka solanum lycopersicum)
D: solanum glabratum
E: solanum ruvu
F: None of the above. | B |
<Instruct>: Given the context 'A cognate editing site in a non-native context is not recognized by wheat mitochondria but is recognized in heterologous mitochondria
To test whether wheat mitochondria are able to edit a cognate site when placed in the context of a potato transcript, we introduced the C259 β16/+6 region from wheat cox2 into potato rps10 exon 1 or intron (Figure 6A, construct MA and ME6, respectively).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: one-grained wheat (aka triticum monococcum)
B: triticum strictum (aka secale strictum)
C: bread wheat (aka triticum aestivum)
D: durum wheat (aka triticum turgidum subsp. durum)
E: triticum x secale (aka x triticosecale)
F: None of the above. | C |
<Instruct>: Given the context 'A cognate editing site in a non-native context is not recognized by wheat mitochondria but is recognized in heterologous mitochondria
To test whether wheat mitochondria are able to edit a cognate site when placed in the context of a potato transcript, we introduced the C259 β16/+6 region from wheat cox2 into potato rps10 exon 1 or intron (Figure 6A, construct MA and ME6, respectively).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aestivum subsp. aestivum (aka triticum aestivum)
B: triticum tauschii (aka aegilops tauschii)
C: triticum x secale (aka x triticosecale)
D: english wheat (aka triticum turgidum)
E: one-grained wheat (aka triticum monococcum)
F: None of the above. | A |
<Instruct>: Given the context 'A cognate editing site in a non-native context is not recognized by wheat mitochondria but is recognized in heterologous mitochondria
To test whether wheat mitochondria are able to edit a cognate site when placed in the context of a potato transcript, we introduced the C259 β16/+6 region from wheat cox2 into potato rps10 exon 1 or intron (Figure 6A, construct MA and ME6, respectively).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: potato (aka solanum tuberosum)
B: solanum nutans
C: solanum
D: solanum annuum
E: tuberaria
F: None of the above. | A |
<Instruct>: Given the context 'A cognate editing site in a non-native context is not recognized by wheat mitochondria but is recognized in heterologous mitochondria
To test whether wheat mitochondria are able to edit a cognate site when placed in the context of a potato transcript, we introduced the C259 β16/+6 region from wheat cox2 into potato rps10 exon 1 or intron (Figure 6A, construct MA and ME6, respectively).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum x secale (aka x triticosecale)
B: durum wheat (aka triticum turgidum subsp. durum)
C: triticum vulgare (aka triticum aestivum)
D: one-grained wheat (aka triticum monococcum)
E: triticum strictum (aka secale strictum)
F: None of the above. | C |
<Instruct>: Given the context 'A cognate editing site in a non-native context is not recognized by wheat mitochondria but is recognized in heterologous mitochondria
To test whether wheat mitochondria are able to edit a cognate site when placed in the context of a potato transcript, we introduced the C259 β16/+6 region from wheat cox2 into potato rps10 exon 1 or intron (Figure 6A, construct MA and ME6, respectively).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: potatoes (aka solanum tuberosum)
B: potato yam (aka dioscorea bulbifera)
C: solanum annuum
D: chaco potato (aka solanum chacoense)
E: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
F: None of the above. | A |
<Instruct>: Given the context 'As reported previously, the 23 nt region forming the C259 editing site from wheat cox2 was efficiently edited when grafted into a different context in a wheat transcript (17).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum durum (aka triticum turgidum subsp. durum)
B: triticum aestivum subsp. aestivum (aka triticum aestivum)
C: triticum strictum (aka secale strictum)
D: one-grained wheat (aka triticum monococcum)
E: wild emmer wheat (aka triticum dicoccoides)
F: None of the above. | B |
<Instruct>: Given the context 'As reported previously, the 23 nt region forming the C259 editing site from wheat cox2 was efficiently edited when grafted into a different context in a wheat transcript (17).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum
B: triticum aethiopicum (aka triticum turgidum)
C: triticum strictum (aka secale strictum)
D: triticum aestivum (triticum aestivum subsp. aestivum) (aka triticum aestivum)
E: wild emmer wheat (aka triticum dicoccoides)
F: None of the above. | D |
<Instruct>: Given the context 'Wild-type rps10 (pRPS10W) and the MA and ME6 mutants were expressed in wheat mitochondria but no splicing was observed (Figure 6B).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: rivet wheat (aka triticum turgidum)
B: one-grained wheat (aka triticum monococcum)
C: triticum sativum (aka triticum aestivum)
D: durum wheat (aka triticum turgidum subsp. durum)
E: wild emmer wheat (aka triticum dicoccoides)
F: None of the above. | C |
<Instruct>: Given the context 'Wild-type rps10 (pRPS10W) and the MA and ME6 mutants were expressed in wheat mitochondria but no splicing was observed (Figure 6B).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum x secale (aka x triticosecale)
B: triticum tauschii (aka aegilops tauschii)
C: durum wheat (aka triticum turgidum subsp. durum)
D: one-grained wheat (aka triticum monococcum)
E: triticum
F: None of the above. | F |
<Instruct>: Given the context 'Unexpectedly, wheat mitochondria appear to be unable to edit the cognate C259 site when the β16/+6 region is located on a potato rps10 precursor.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: wild emmer wheat (aka triticum dicoccoides)
B: one-grained wheat (aka triticum monococcum)
C: triticum strictum (aka secale strictum)
D: triticum x secale (aka x triticosecale)
E: triticum vulgare (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'Unexpectedly, wheat mitochondria appear to be unable to edit the cognate C259 site when the β16/+6 region is located on a potato rps10 precursor.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum giganteum
B: solanum ipomoeoides
C: solanum rugosum
D: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
E: solanum annuum
F: None of the above. | D |
<Instruct>: Given the context 'The analogous MAb and ME6b constructs, containing the S.tuberosum cox2 promoter and the C259 region inserted into rps10 exon 1 and intron were used to electroporate potato mitochondria.', select the correct biomedical concept corresponding to 's.tuberosum'. Answer using one of the provided options. | <Options>: A: potatoes (aka solanum tuberosum)
B: solanum glutinosum
C: solanum trifolium
D: solanum mammosum
E: solanum esculentum (aka solanum lycopersicum)
F: None of the above. | A |
<Instruct>: Given the context 'The analogous MAb and ME6b constructs, containing the S.tuberosum cox2 promoter and the C259 region inserted into rps10 exon 1 and intron were used to electroporate potato mitochondria.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
B: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
C: potato yam (aka dioscorea bulbifera)
D: solanum annuum
E: solanum ipomoeoides
F: None of the above. | B |
<Instruct>: Given the context 'Interestingly, while C259 insertion was not recognized in wheat mitochondria (Figure 6D), the potato RNA editing machinery edited the inserted C259 region (Figure 6E).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aethiopicum (aka triticum turgidum)
B: triticum x secale (aka x triticosecale)
C: wild emmer wheat (aka triticum dicoccoides)
D: bread wheat (aka triticum aestivum)
E: triticum tauschii (aka aegilops tauschii)
F: None of the above. | D |
<Instruct>: Given the context 'Interestingly, while C259 insertion was not recognized in wheat mitochondria (Figure 6D), the potato RNA editing machinery edited the inserted C259 region (Figure 6E).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
B: solanum glutinosum
C: potato (aka solanum tuberosum)
D: solanum crispum (chilean potato-tree) (aka solanum crispum)
E: solanum ipomoeoides
F: None of the above. | C |
<Instruct>: Given the context 'rps10 was chosen precisely because this genetic information is lacking in wheat mitochondria but is active in potato mitochondria (20,23,25).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum
B: bread wheat (aka triticum aestivum)
C: triticum aegilops (aka aegilops tauschii)
D: wild emmer wheat (aka triticum dicoccoides)
E: triticum strictum (aka secale strictum)
F: None of the above. | B |
<Instruct>: Given the context 'rps10 was chosen precisely because this genetic information is lacking in wheat mitochondria but is active in potato mitochondria (20,23,25).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum rugosum
B: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
C: solanum crispum (chilean potato-tree) (aka solanum crispum)
D: sweet potato (aka ipomoea batatas)
E: chinese-potato (aka dioscorea polystachya)
F: None of the above. | B |
<Instruct>: Given the context 'Moreover, rps10 transcripts undergo five C-to-U editing events in potato mitochondria and rps10 contains an intron, thus facilitating the analysis of post-transcriptional processing.
', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum nutans
B: sweet potato (aka ipomoea batatas)
C: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
D: solanum giganteum
E: potatoes (aka solanum tuberosum)
F: None of the above. | E |
<Instruct>: Given the context 'To best evaluate the expression of rps10 in the non-cognate mitochondria, it was necessary to set up electroporation conditions for introducing foreign DNA into S.tuberosum mitochondria.', select the correct biomedical concept corresponding to 's.tuberosum'. Answer using one of the provided options. | <Options>: A: potato (aka solanum tuberosum)
B: solanum glabratum
C: solanum pallidum
D: solanum tuberosum var. boreale (aka solanum stoloniferum)
E: solanum hirtum
F: None of the above. | A |
<Instruct>: Given the context 'To best evaluate the expression of rps10 in the non-cognate mitochondria, it was necessary to set up electroporation conditions for introducing foreign DNA into S.tuberosum mitochondria.', select the correct biomedical concept corresponding to 's.tuberosum'. Answer using one of the provided options. | <Options>: A: solanum lanceaefolium (aka solanum lanceifolium)
B: solanum vicinum
C: solanum glabratum
D: solanum tuberosum var. boreale (aka solanum stoloniferum)
E: solanum luteum (aka solanum villosum)
F: None of the above. | F |
<Instruct>: Given the context 'Potato tuber mitochondria were able to incorporate DNA essentially under the same conditions described for wheat embryo organelles (14), except that the optimal voltage range was larger.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: potatoes (aka solanum tuberosum)
B: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
C: solanum
D: solanum ipomoeoides
E: solanum glutinosum
F: None of the above. | A |
<Instruct>: Given the context 'Potato tuber mitochondria were able to incorporate DNA essentially under the same conditions described for wheat embryo organelles (14), except that the optimal voltage range was larger.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: wild emmer wheat (aka triticum dicoccoides)
B: triticum
C: one-grained wheat (aka triticum monococcum)
D: durum wheat (aka triticum turgidum subsp. durum)
E: bread wheat (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'A major difference to wheat was that isolated potato mitochondria were viable for 3β4 h as measured by oxygen consumption (data not shown).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum durum (aka triticum turgidum subsp. durum)
B: one-grained wheat (aka triticum monococcum)
C: triticum strictum (aka secale strictum)
D: triticum aethiopicum (aka triticum turgidum)
E: triticum sativum (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'A major difference to wheat was that isolated potato mitochondria were viable for 3β4 h as measured by oxygen consumption (data not shown).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
B: solanum annuum
C: tuberaria
D: potato (aka solanum tuberosum)
E: solanum
F: None of the above. | D |
<Instruct>: Given the context 'This behaviour probably reflects the uncoupling of oxidative phosphorylation by fatty acids during incubation of potato mitochondria (26).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
B: solanum nutans
C: solanum crispum (chilean potato-tree) (aka solanum crispum)
D: solanum
E: solanum giganteum
F: None of the above. | A |
<Instruct>: Given the context 'An interesting observation was that neither the wheat nor the potato cox2 promoters were recognized in a heterologous context (Figure 4A and B).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aegilops (aka aegilops tauschii)
B: triticum aethiopicum (aka triticum turgidum)
C: triticum sativum (aka triticum aestivum)
D: triticum strictum (aka secale strictum)
E: wild emmer wheat (aka triticum dicoccoides)
F: None of the above. | C |
<Instruct>: Given the context 'An interesting observation was that neither the wheat nor the potato cox2 promoters were recognized in a heterologous context (Figure 4A and B).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum glutinosum
B: potato (aka solanum tuberosum)
C: solanum
D: solanum giganteum
E: solanum nutans
F: None of the above. | B |
<Instruct>: Given the context 'This situation might by explained by the fact that potato and wheat promoter sequences have no recognizable homologous motifs.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum ipomoeoides
B: solanum annuum
C: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
D: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
E: solanum rugosum
F: None of the above. | C |
<Instruct>: Given the context 'This situation might by explained by the fact that potato and wheat promoter sequences have no recognizable homologous motifs.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: english wheat (aka triticum turgidum)
B: triticum
C: triticum durum (aka triticum turgidum subsp. durum)
D: triticum vulgare (aka triticum aestivum)
E: one-grained wheat (aka triticum monococcum)
F: None of the above. | D |
<Instruct>: Given the context 'While the transcription initiation site in wheat mitochondria is located at position β170 (29), the potato promoter has not yet been described.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: wild emmer wheat (aka triticum dicoccoides)
B: triticum sativum (aka triticum aestivum)
C: triticum aegilops (aka aegilops tauschii)
D: triticum durum (aka triticum turgidum subsp. durum)
E: triticum
F: None of the above. | B |
<Instruct>: Given the context 'While the transcription initiation site in wheat mitochondria is located at position β170 (29), the potato promoter has not yet been described.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aegilops (aka aegilops tauschii)
B: one-grained wheat (aka triticum monococcum)
C: english wheat (aka triticum turgidum)
D: triticum x secale (aka x triticosecale)
E: durum wheat (aka triticum turgidum subsp. durum)
F: None of the above. | F |
<Instruct>: Given the context 'While the transcription initiation site in wheat mitochondria is located at position β170 (29), the potato promoter has not yet been described.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: air-potato (aka dioscorea bulbifera)
B: chaco potato (aka solanum chacoense)
C: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
D: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
E: chilean potato-tree (aka solanum crispum)
F: None of the above. | C |
<Instruct>: Given the context 'However, the lack of crossed recognition of cox2 promoters in wheat and potato is not a general situation since the A.thaliana cox2 gene is expressed and spliced when introduced into maize mitochondria, indicating that the Arabidopsis gene shares some signals with maize cox2 promoter that are sufficient for transcription (18).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum
B: wild emmer wheat (aka triticum dicoccoides)
C: durum wheat (aka triticum turgidum subsp. durum)
D: triticum tauschii (aka aegilops tauschii)
E: common wheat (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'However, the lack of crossed recognition of cox2 promoters in wheat and potato is not a general situation since the A.thaliana cox2 gene is expressed and spliced when introduced into maize mitochondria, indicating that the Arabidopsis gene shares some signals with maize cox2 promoter that are sufficient for transcription (18).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum glutinosum
B: chaco potato (aka solanum chacoense)
C: potatoes (aka solanum tuberosum)
D: chilean potato-tree (aka solanum crispum)
E: solanum nutans
F: None of the above. | C |
<Instruct>: Given the context 'However, the lack of crossed recognition of cox2 promoters in wheat and potato is not a general situation since the A.thaliana cox2 gene is expressed and spliced when introduced into maize mitochondria, indicating that the Arabidopsis gene shares some signals with maize cox2 promoter that are sufficient for transcription (18).', select the correct biomedical concept corresponding to 'a.thaliana'. Answer using one of the provided options. | <Options>: A: thale-cress (aka arabidopsis thaliana)
B: brassica
C: archeria
D: australytta
E: arabidopsis thaliana x arabidopsis arenosa
F: None of the above. | A |
<Instruct>: Given the context 'However, the lack of crossed recognition of cox2 promoters in wheat and potato is not a general situation since the A.thaliana cox2 gene is expressed and spliced when introduced into maize mitochondria, indicating that the Arabidopsis gene shares some signals with maize cox2 promoter that are sufficient for transcription (18).', select the correct biomedical concept corresponding to 'maize'. Answer using one of the provided options. | <Options>: A: zea mexicana (aka zea mays subsp. mexicana)
B: zea mays subsp. mays x zea perennis
C: zea mays subsp. mays x zea mays subsp. parviglumis
D: zea mays var. japonica (aka zea mays)
E: zea mays subsp. mays x zea mays subsp. mexicana
F: None of the above. | D |
<Instruct>: Given the context 'However, the lack of crossed recognition of cox2 promoters in wheat and potato is not a general situation since the A.thaliana cox2 gene is expressed and spliced when introduced into maize mitochondria, indicating that the Arabidopsis gene shares some signals with maize cox2 promoter that are sufficient for transcription (18).', select the correct biomedical concept corresponding to 'arabidopsis'. Answer using one of the provided options. | <Options>: A: arabidopsis (cardaminopsis) (aka arabidopsis)
B: arabidopsis sp.
C: arabis thaliana (aka arabidopsis thaliana)
D: apophylia
E: arabideae
F: None of the above. | C |
<Instruct>: Given the context 'However, the lack of crossed recognition of cox2 promoters in wheat and potato is not a general situation since the A.thaliana cox2 gene is expressed and spliced when introduced into maize mitochondria, indicating that the Arabidopsis gene shares some signals with maize cox2 promoter that are sufficient for transcription (18).', select the correct biomedical concept corresponding to 'maize'. Answer using one of the provided options. | <Options>: A: corn (aka zea mays subsp. mays) (aka zea mays subsp. mays)
B: zea mays subsp. mays x zea mays subsp. mexicana
C: zea mays subsp. mays x zea mays subsp. parviglumis
D: maize (aka zea mays)
E: zea mays subsp. mays x zea perennis
F: None of the above. | D |
<Instruct>: Given the context 'The sites required for transcript initiation have been recently described in A.thaliana mitochondrial genes (28).', select the correct biomedical concept corresponding to 'a.thaliana'. Answer using one of the provided options. | <Options>: A: ansola
B: arabidopsis thaliana x arabidopsis halleri
C: arabidopsis thaliana x arabidopsis arenosa
D: arabis thaliana (aka arabidopsis thaliana)
E: avian (aka aves)
F: None of the above. | D |
<Instruct>: Given the context 'We found no such homologous sequences in the potato cox2 upstream region indicating that the two dicot promoters do not have the same origin.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: sweet potato (aka ipomoea batatas)
B: solanum crispum (chilean potato-tree) (aka solanum crispum)
C: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
D: solanum
E: solanum giganteum
F: None of the above. | C |
<Instruct>: Given the context 'It should be mentioned that the presence of a conserved sequence is not sufficient for expression since a region that acts as promoter in Arabidopsis, potato and Oenothera is inactive in vivo in pea (30).', select the correct biomedical concept corresponding to 'arabidopsis'. Answer using one of the provided options. | <Options>: A: land plants (aka embryophyta)
B: arabidella
C: unclassified arabidopsis
D: arabis thaliana (aka arabidopsis thaliana)
E: arabidopsis suecica (arabis thaliana subsp. suecica) (aka arabidopsis suecica)
F: None of the above. | D |
<Instruct>: Given the context 'It should be mentioned that the presence of a conserved sequence is not sufficient for expression since a region that acts as promoter in Arabidopsis, potato and Oenothera is inactive in vivo in pea (30).', select the correct biomedical concept corresponding to 'arabidopsis'. Answer using one of the provided options. | <Options>: A: arabidopsis thaliana x arabidopsis halleri
B: arabidopsis environmental sample
C: euphyia
D: land plants (aka embryophyta)
E: (arabidopsis thaliana x arabidopsis arenosa) x arabidopsis suecica
F: None of the above. | F |
<Instruct>: Given the context 'It should be mentioned that the presence of a conserved sequence is not sufficient for expression since a region that acts as promoter in Arabidopsis, potato and Oenothera is inactive in vivo in pea (30).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum nutans
B: solanum annuum
C: tuberaria
D: chaco potato (aka solanum chacoense)
E: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
F: None of the above. | E |
<Instruct>: Given the context 'It should be mentioned that the presence of a conserved sequence is not sufficient for expression since a region that acts as promoter in Arabidopsis, potato and Oenothera is inactive in vivo in pea (30).', select the correct biomedical concept corresponding to 'pea'. Answer using one of the provided options. | <Options>: A: pealius
B: faba bean (aka vicia faba)
C: garden pea (aka pisum sativum)
D: white pea (aka lathyrus sativus)
E: peafowls (aka pavo)
F: None of the above. | C |
<Instruct>: Given the context 'The potato rps10 gene controlled by a T.aestivum promoter (Figure 1A) was transcribed as a 1204 nt precursor in wheat mitochondria, but no traces of mature RNA were observed.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: sweet potato (aka ipomoea batatas)
B: potatoes (aka solanum tuberosum)
C: chaco potato (aka solanum chacoense)
D: solanum annuum
E: solanum glutinosum
F: None of the above. | B |
<Instruct>: Given the context 'The potato rps10 gene controlled by a T.aestivum promoter (Figure 1A) was transcribed as a 1204 nt precursor in wheat mitochondria, but no traces of mature RNA were observed.', select the correct biomedical concept corresponding to 't.aestivum'. Answer using one of the provided options. | <Options>: A: triticum aestivum (triticum aestivum subsp. aestivum) (aka triticum aestivum)
B: triticum aestivum var. milturum (triticum vulgare var. miltura) (aka triticum aestivum var. milturum)
C: triticum
D: triticum spelta var. album
E: triticum pyramidale (aka triticum turgidum subsp. pyramidale)
F: None of the above. | A |
<Instruct>: Given the context 'The potato rps10 gene controlled by a T.aestivum promoter (Figure 1A) was transcribed as a 1204 nt precursor in wheat mitochondria, but no traces of mature RNA were observed.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aegilops (aka aegilops tauschii)
B: triticum x secale (aka x triticosecale)
C: one-grained wheat (aka triticum monococcum)
D: triticum strictum (aka secale strictum)
E: wheat (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'Moreover, the five C residues reported as RNA editing targets in vivo (23) remain unchanged, indicating that rps10 transcript was not recognized by the wheat splicing and editing machinery.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aegilops (aka aegilops tauschii)
B: bread wheat (aka triticum aestivum)
C: rivet wheat (aka triticum turgidum)
D: triticum durum (aka triticum turgidum subsp. durum)
E: one-grained wheat (aka triticum monococcum)
F: None of the above. | B |
<Instruct>: Given the context 'Based on the canonical structure of group II mitochondrial introns (21), two editing sites, C2 located at the Intron Binding Site 2 (IBS2) and C3 located in the intron, nine residues downstream from the end of exon 1 in S.tuberosum rps10 are of particular interest.', select the correct biomedical concept corresponding to 's.tuberosum'. Answer using one of the provided options. | <Options>: A: solanum esculentum (aka solanum lycopersicum)
B: tuberosum group
C: solanum florulentum
D: potato (aka solanum tuberosum)
E: solanum succosum
F: None of the above. | D |
<Instruct>: Given the context 'This position may be crucial for splicing as inferred from mutants of a yeast mitochondrial intron (32).', select the correct biomedical concept corresponding to 'yeast'. Answer using one of the provided options. | <Options>: A: saccharomyces hansenii (aka debaryomyces hansenii)
B: saccharomycetes (hemiascomycetes) (aka saccharomycetes)
C: saccharomyces albicans (aka candida albicans)
D: saccharomyces cerevisiae (saccharomyces cerevisiae (desm.) meyen ex e.c. hansen, 1883) (aka saccharomyces cerevisiae)
E: candida/saccharomycetales (aka candida/saccharomycales clade)
F: None of the above. | D |
<Instruct>: Given the context 'These results clearly demonstrate that C2 and C3 editing is not sufficient for splicing of rps10 precursor in wheat mitochondria and lead us to conclude that splicing failure is probably linked to the lack of trans-recognition elements.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum
B: triticum aestivum (triticum aestivum subsp. aestivum) (aka triticum aestivum)
C: one-grained wheat (aka triticum monococcum)
D: wild emmer wheat (aka triticum dicoccoides)
E: triticum x secale (aka x triticosecale)
F: None of the above. | B |
<Instruct>: Given the context 'The C-to-U mutants were also tested in potato mitochondria; no significant differences were detected in splicing efficiency when compared to the unedited construct (D. Choury, unpublished data).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chaco potato (aka solanum chacoense)
B: potatoes (aka solanum tuberosum)
C: chinese-potato (aka dioscorea polystachya)
D: tuberaria
E: chilean potato-tree (aka solanum crispum)
F: None of the above. | B |
<Instruct>: Given the context 'The C-to-U mutants were also tested in potato mitochondria; no significant differences were detected in splicing efficiency when compared to the unedited construct (D. Choury, unpublished data).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum giganteum
B: solanum annuum
C: chinese-potato (aka dioscorea polystachya)
D: sweet potato (aka ipomoea batatas)
E: tuberaria
F: None of the above. | F |
<Instruct>: Given the context 'It should be noted that the lack of splicing in wheat mitochondria is not a general feature of potato introns, since the potato cox2 intron is removed efficiently (Figure 4B).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: rivet wheat (aka triticum turgidum)
B: triticum aestivum subsp. aestivum (aka triticum aestivum)
C: triticum strictum (aka secale strictum)
D: one-grained wheat (aka triticum monococcum)
E: triticum
F: None of the above. | B |
<Instruct>: Given the context 'It should be noted that the lack of splicing in wheat mitochondria is not a general feature of potato introns, since the potato cox2 intron is removed efficiently (Figure 4B).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chilean potato-tree (aka solanum crispum)
B: solanum giganteum
C: solanum
D: potato (aka solanum tuberosum)
E: air-potato (aka dioscorea bulbifera)
F: None of the above. | D |
<Instruct>: Given the context 'It should be noted that the lack of splicing in wheat mitochondria is not a general feature of potato introns, since the potato cox2 intron is removed efficiently (Figure 4B).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: chinese-potato (aka dioscorea polystachya)
B: solanum glutinosum
C: solanum giganteum
D: potato (aka solanum tuberosum)
E: solanum rugosum
F: None of the above. | D |
<Instruct>: Given the context 'This is consistent with the hypothesis that potato and wheat mitochondria have similar trans-acting factors for cox2 intron removal.
', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum
B: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
C: tuberaria
D: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
E: solanum giganteum
F: None of the above. | D |
<Instruct>: Given the context 'This is consistent with the hypothesis that potato and wheat mitochondria have similar trans-acting factors for cox2 intron removal.
', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: one-grained wheat (aka triticum monococcum)
B: triticum aethiopicum (aka triticum turgidum)
C: wild emmer wheat (aka triticum dicoccoides)
D: triticum aestivum subsp. aestivum (aka triticum aestivum)
E: triticum strictum (aka secale strictum)
F: None of the above. | D |
<Instruct>: Given the context 'In rice, failure of RNA maturation and editing has been correlated with cytoplasmic male sterile phenotype.', select the correct biomedical concept corresponding to 'rice'. Answer using one of the provided options. | <Options>: A: asian cultivated rice (aka oryza sativa)
B: long-grained rice (aka oryza sativa indica group)
C: oryzopsis (ricegrass) (aka oryzopsis)
D: common wild rice (aka oryza rufipogon)
E: japonica rice (aka oryza sativa japonica group)
F: None of the above. | A |
<Instruct>: Given the context 'In organello studies have shown that S.bicolor atp6-1 gene was transcribed but not edited when introduced into maize mitochondria (18).', select the correct biomedical concept corresponding to 's.bicolor'. Answer using one of the provided options. | <Options>: A: lepisorus bicolor
B: snellenius bicolor
C: melipona bicolor subsp. bicolor (aka melipona bicolor bicolor)
D: quedius bicoloris
E: suillus bicolor (aka baorangia bicolor)
F: None of the above. | F |
<Instruct>: Given the context 'In organello studies have shown that S.bicolor atp6-1 gene was transcribed but not edited when introduced into maize mitochondria (18).', select the correct biomedical concept corresponding to 'maize'. Answer using one of the provided options. | <Options>: A: zea mays subsp. saccharata (aka zea mays subsp. mays)
B: zea mays var. japonica (aka zea mays)
C: zea mays subsp. mays x zea mays subsp. mexicana
D: zea mays subsp. mays x zea mays subsp. parviglumis
E: zea mays subsp. mays x zea perennis
F: None of the above. | B |
<Instruct>: Given the context 'However, partially edited molecules were detected in sorghum-maize atp6 chimeric transcripts when they included the maize atp6 5β²-untranslated sequence, suggesting that the 5β² non-coding region provides a structural motif or binding site for a transcript-specific editing factor (34).', select the correct biomedical concept corresponding to 'sorghum'. Answer using one of the provided options. | <Options>: A: sorghum grande
B: sorghum miliaceum (aka sorghum halepense)
C: sorghum nervosum (aka sorghum bicolor)
D: sorghum sorghoides (cleistachne sorghoides) (aka sorghum sorghoides)
E: sorghum brachypodum
F: None of the above. | C |
<Instruct>: Given the context 'However, partially edited molecules were detected in sorghum-maize atp6 chimeric transcripts when they included the maize atp6 5β²-untranslated sequence, suggesting that the 5β² non-coding region provides a structural motif or binding site for a transcript-specific editing factor (34).', select the correct biomedical concept corresponding to 'maize'. Answer using one of the provided options. | <Options>: A: zea mays subsp. mays x zea perennis
B: zea mays var. japonica (aka zea mays)
C: zea mays var. mays (aka zea mays subsp. mays)
D: zea mexicana (aka zea mays subsp. mexicana)
E: zea mays subsp. mays x zea mays subsp. parviglumis
F: None of the above. | B |
<Instruct>: Given the context 'However, partially edited molecules were detected in sorghum-maize atp6 chimeric transcripts when they included the maize atp6 5β²-untranslated sequence, suggesting that the 5β² non-coding region provides a structural motif or binding site for a transcript-specific editing factor (34).', select the correct biomedical concept corresponding to 'maize'. Answer using one of the provided options. | <Options>: A: zea mays subsp. ceratina (aka zea mays subsp. mays)
B: zea mays subsp. mays x zea perennis
C: zea mexicana (aka zea mays subsp. mexicana)
D: zea mays subsp. mays x zea mays subsp. mexicana
E: zea mays subsp. mays x zea mays subsp. parviglumis
F: None of the above. | F |
<Instruct>: Given the context 'However, partially edited molecules were detected in sorghum-maize atp6 chimeric transcripts when they included the maize atp6 5β²-untranslated sequence, suggesting that the 5β² non-coding region provides a structural motif or binding site for a transcript-specific editing factor (34).', select the correct biomedical concept corresponding to 'maize'. Answer using one of the provided options. | <Options>: A: zea mays subsp. amylacea (aka zea mays subsp. mays)
B: zea mexicana (aka zea mays subsp. mexicana)
C: zea mays (zea mays var. japonica) (aka zea mays)
D: zea mays subsp. mays x zea mays subsp. mexicana
E: zea mays subsp. mays x zea perennis
F: None of the above. | C |
<Instruct>: Given the context 'Since wheat mitochondria do not have rps10 encoded in the mitochondrial genome (20), it was interesting to test whether wheat mitochondria were able to recognize editing sites which had been lost during evolution.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aegilops (aka aegilops tauschii)
B: triticum
C: triticum strictum (aka secale strictum)
D: triticum vulgare (aka triticum aestivum)
E: triticum aethiopicum (aka triticum turgidum)
F: None of the above. | D |
<Instruct>: Given the context 'Since wheat mitochondria do not have rps10 encoded in the mitochondrial genome (20), it was interesting to test whether wheat mitochondria were able to recognize editing sites which had been lost during evolution.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum strictum (aka secale strictum)
B: one-grained wheat (aka triticum monococcum)
C: wild emmer wheat (aka triticum dicoccoides)
D: triticum aestivum (triticum aestivum subsp. aestivum) (aka triticum aestivum)
E: triticum durum (aka triticum turgidum subsp. durum)
F: None of the above. | D |
<Instruct>: Given the context 'As described above, the rps10 transcript was not processed in wheat but it was correctly spliced in cognate mitochondria (Figure 5A).', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum durum (aka triticum turgidum subsp. durum)
B: common wheat (aka triticum aestivum)
C: wild emmer wheat (aka triticum dicoccoides)
D: triticum aethiopicum (aka triticum turgidum)
E: triticum x secale (aka x triticosecale)
F: None of the above. | B |
<Instruct>: Given the context 'The fact that the four editing sites were found either edited or unedited in spliced rps10 mRNA is an indication that editing does not precede splicing as was previously found for cox2 in wheat (15).
', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum durum (aka triticum turgidum subsp. durum)
B: triticum vulgare (aka triticum aestivum)
C: triticum tauschii (aka aegilops tauschii)
D: triticum
E: one-grained wheat (aka triticum monococcum)
F: None of the above. | B |
<Instruct>: Given the context 'This possibility can be discarded since potato rps10 precursor mRNA was found to be edited in vivo (23).', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum glutinosum
B: chinese-potato (aka dioscorea polystachya)
C: solanum tuberosum (solanum aracc-papa) (aka solanum tuberosum)
D: chilean potato-tree (aka solanum crispum)
E: solanum insanum (solanum melongena var. insanum) (aka solanum insanum)
F: None of the above. | C |
<Instruct>: Given the context 'This led us to postulate that the inability of wheat mitochondria to recognize rps10 editing sites is likely due to the fact that wheat mitochondria have lost the editing trans-recognition elements which become dispensable after transfer of rps10 to the nucleus.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum aestivum (triticum aestivum subsp. aestivum) (aka triticum aestivum)
B: triticum strictum (aka secale strictum)
C: triticum x secale (aka x triticosecale)
D: triticum
E: triticum durum (aka triticum turgidum subsp. durum)
F: None of the above. | A |
<Instruct>: Given the context 'This led us to postulate that the inability of wheat mitochondria to recognize rps10 editing sites is likely due to the fact that wheat mitochondria have lost the editing trans-recognition elements which become dispensable after transfer of rps10 to the nucleus.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: one-grained wheat (aka triticum monococcum)
B: triticum tauschii (aka aegilops tauschii)
C: triticum strictum (aka secale strictum)
D: wild emmer wheat (aka triticum dicoccoides)
E: bread wheat (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'To test this possibility, rps10 chimeric plasmids containing editing site C259 from wheat cox2 inserted either in exon1 or the intron were constructed.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum
B: rivet wheat (aka triticum turgidum)
C: triticum strictum (aka secale strictum)
D: triticum durum (aka triticum turgidum subsp. durum)
E: triticum aestivum subsp. aestivum (aka triticum aestivum)
F: None of the above. | E |
<Instruct>: Given the context 'The wheat C259 editing site in the chimeric construct was correctly edited by potato mitochondria.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: wild emmer wheat (aka triticum dicoccoides)
B: triticum
C: wheat (aka triticum aestivum)
D: durum wheat (aka triticum turgidum subsp. durum)
E: triticum tauschii (aka aegilops tauschii)
F: None of the above. | C |
<Instruct>: Given the context 'The wheat C259 editing site in the chimeric construct was correctly edited by potato mitochondria.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: wild emmer wheat (aka triticum dicoccoides)
B: triticum
C: triticum strictum (aka secale strictum)
D: triticum aethiopicum (aka triticum turgidum)
E: triticum tauschii (aka aegilops tauschii)
F: None of the above. | F |
<Instruct>: Given the context 'The wheat C259 editing site in the chimeric construct was correctly edited by potato mitochondria.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum giganteum
B: solanum crispum (chilean potato-tree) (aka solanum crispum)
C: potato (aka solanum tuberosum)
D: solanum ipomoeoides
E: solanum nutans
F: None of the above. | C |
<Instruct>: Given the context 'This result is not unexpected since the corresponding region in endogenous potato cox2 mRNA, which presents two differences at positions β3 (C instead of A) and β7 (G instead of A), is edited.', select the correct biomedical concept corresponding to 'potato'. Answer using one of the provided options. | <Options>: A: solanum annuum
B: potatoes (aka solanum tuberosum)
C: solanum ipomoeoides
D: tuberaria
E: solanum giganteum
F: None of the above. | B |
<Instruct>: Given the context 'Surprisingly, the C259 editing site grafted in rps10 was not recognized by the wheat editing machinery.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum strictum (aka secale strictum)
B: one-grained wheat (aka triticum monococcum)
C: triticum
D: triticum aestivum (triticum aestivum subsp. aestivum) (aka triticum aestivum)
E: triticum tauschii (aka aegilops tauschii)
F: None of the above. | D |
<Instruct>: Given the context 'The fact that the wheat editing site C259 inserted in chimeric rps10 transcripts was not recognized by wheat mitochondria is a strong argument for this hypothesis.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: one-grained wheat (aka triticum monococcum)
B: triticum strictum (aka secale strictum)
C: bread wheat (aka triticum aestivum)
D: triticum x secale (aka x triticosecale)
E: wild emmer wheat (aka triticum dicoccoides)
F: None of the above. | C |
<Instruct>: Given the context 'The fact that the wheat editing site C259 inserted in chimeric rps10 transcripts was not recognized by wheat mitochondria is a strong argument for this hypothesis.', select the correct biomedical concept corresponding to 'wheat'. Answer using one of the provided options. | <Options>: A: triticum durum (aka triticum turgidum subsp. durum)
B: bread wheat (aka triticum aestivum)
C: triticum tauschii (aka aegilops tauschii)
D: triticum x secale (aka x triticosecale)
E: wild emmer wheat (aka triticum dicoccoides)
F: None of the above. | B |
<Instruct>: Given the context 'The power function Tf=f(Pc) theoretically derived was experimentally confirmed by concomitant Pp and Pc measurements on intact leaflets of the liana Tetrastigma voinierianum under greenhouse conditions.', select the correct biomedical concept corresponding to 'tetrastigma voinierianum'. Answer using one of the provided options. | <Options>: A: leucochloridium vogtianum
B: elaphoglossum fournierianum
C: tetrastigma voinierianum (vitis voinieriana) (aka tetrastigma voinierianum)
D: milesina vogesiaca
E: massisteria voersi (massisteria sp. cw-2015) (aka massisteria voersi)
F: None of the above. | C |
<Instruct>: Given the context 'This could be verified by combined turgor pressure probe and leaf patch clamp pressure probe measurements on leaflets of the liana Tetrastigma voinierianum.', select the correct biomedical concept corresponding to 'tetrastigma voinierianum'. Answer using one of the provided options. | <Options>: A: magnolia vovidesii
B: milesina vogesiaca
C: tetrastigma voinierianum (vitis voinieriana) (aka tetrastigma voinierianum)
D: diplotaxis vogelii (sinapidendron vogelii) (aka diplotaxis vogelii)
E: mnasicles (remella) vopiscus (aka mnasicles vopiscus)
F: None of the above. | C |
<Instruct>: Given the context 'Materials and methods
Plant material
Experiments were performed on two specimens of the liana Tetrastigma voinierianum, growing in the c. 12 m tall tropical greenhouse of the University of Salzburg, Austria.', select the correct biomedical concept corresponding to 'tetrastigma voinierianum'. Answer using one of the provided options. | <Options>: A: leucochloridium vogtianum
B: vitis voinieriana (aka tetrastigma voinierianum)
C: herpetodiplostomum vogti
D: milesina vogesiaca
E: hypoxylon vogesiacum (sphaeria vogesiaca) (aka hypoxylon vogesiacum)
F: None of the above. | B |
<Instruct>: Given the context 'Turgor pressure measurements on leaf cells of T. voinierianum were difficult to perform because of the presence of mucilage.', select the correct biomedical concept corresponding to 't. voinierianum'. Answer using one of the provided options. | <Options>: A: ancotrema voyanum (aka haplotrema voyanum)
B: vitis voinieriana (aka tetrastigma voinierianum)
C: herpetodiplostomum vogti
D: byttneria voulily
E: trichinium beckerianum (aka ptilotus beckerianus)
F: None of the above. | B |
<Instruct>: Given the context 'Experience collected with patch clamp pressure measurements on T. voinierianum and on preliminary results of other plants (e.g. grapevines, bananas, Eucalyptus, and Arabidopsis) showed that a smooth intercostal leaf area for clamping can readily be found.', select the correct biomedical concept corresponding to 't. voinierianum'. Answer using one of the provided options. | <Options>: A: unclassified votadinium
B: trichinium beckerianum (aka ptilotus beckerianus)
C: vitis voinieriana (aka tetrastigma voinierianum)
D: didymium radiaticolumellum
E: vogesella mureinivorans
F: None of the above. | C |
<Instruct>: Given the context 'Experience collected with patch clamp pressure measurements on T. voinierianum and on preliminary results of other plants (e.g. grapevines, bananas, Eucalyptus, and Arabidopsis) showed that a smooth intercostal leaf area for clamping can readily be found.', select the correct biomedical concept corresponding to 't. voinierianum'. Answer using one of the provided options. | <Options>: A: trichinium beckerianum (aka ptilotus beckerianus)
B: geminobasidium donsium (aka geminibasidium donsium)
C: votum
D: leucochloridium vogtianum
E: haplotrema voyanum (ancotrema voyanum) (aka haplotrema voyanum)
F: None of the above. | F |
<Instruct>: Given the context 'Experience collected with patch clamp pressure measurements on T. voinierianum and on preliminary results of other plants (e.g. grapevines, bananas, Eucalyptus, and Arabidopsis) showed that a smooth intercostal leaf area for clamping can readily be found.', select the correct biomedical concept corresponding to 'bananas'. Answer using one of the provided options. | <Options>: A: balbis banana (aka musa balbisiana)
B: dessert bananas (aka musa acuminata)
C: banana (aka musa x paradisiaca)
D: bantia
E: baniana
F: None of the above. | B |
<Instruct>: Given the context 'Analogous recordings of turgor pressure and patch clamp pressure on grapevines, bananas, and Eucalyptus trees also yielded results (D Zimmermann, unpublished results) which were consistent with the predictions of equation 8.', select the correct biomedical concept corresponding to 'bananas'. Answer using one of the provided options. | <Options>: A: banta
B: bannoa
C: banana family (aka musaceae)
D: dessert bananas (aka musa acuminata)
E: flowering banana (aka musa ornata)
F: None of the above. | D |
<Instruct>: Given the context 'Analogous recordings of turgor pressure and patch clamp pressure on grapevines, bananas, and Eucalyptus trees also yielded results (D Zimmermann, unpublished results) which were consistent with the predictions of equation 8.', select the correct biomedical concept corresponding to 'eucalyptus'. Answer using one of the provided options. | <Options>: A: eucalyptus
B: eucalyptus resinifera
C: blue gum (aka eucalyptus globulus)
D: eucalyptus foliosa
E: eucalyptus oleosa
F: None of the above. | A |
<Instruct>: Given the context 'The process seemed to be very similar to the refilling of the cells of the resurrection plant Myrothamnus flabellifolia with water after desiccation (Wagner et al., 2000).', select the correct biomedical concept corresponding to 'myrothamnus flabellifolia'. Answer using one of the provided options. | <Options>: A: myrothamnus flabellifolius (aka myrothamnus flabellifolia)
B: grammitis flabelliformis (aka melpomene flabelliformis)
C: hydnum flabellatum
D: martensia flabelliformis
E: hymenophyllum flabellatum
F: None of the above. | A |
<Instruct>: Given the context '4A and B, restoration of full turgescence in T. voinierianum was faster than the preceding turgor pressure loss if the lianas were well-watered.', select the correct biomedical concept corresponding to 't. voinierianum'. Answer using one of the provided options. | <Options>: A: leucochloridium vogtianum
B: vitis voinieriana (aka tetrastigma voinierianum)
C: unclassified votadinium
D: didymium radiaticolumellum
E: begonia boiviniana
F: None of the above. | B |
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