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Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtem...

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Zeitschriftentitel: Plant and Cell Physiology
Personen und Körperschaften: Lv, Zongyou, Wang, Shu, Zhang, Fangyuan, Chen, Lingxian, Hao, Xiaolong, Pan, Qifang, Fu, Xueqing, Li, Ling, Sun, Xiaofen, Tang, Kexuan
In: Plant and Cell Physiology, 57, 2016, 9, S. 1961-1971
Format: E-Article
Sprache: Englisch
veröffentlicht:
Oxford University Press (OUP)
Schlagwörter:
Cell Biology
Plant Science
Physiology
General Medicine
author_facet Lv, Zongyou
Wang, Shu
Zhang, Fangyuan
Chen, Lingxian
Hao, Xiaolong
Pan, Qifang
Fu, Xueqing
Li, Ling
Sun, Xiaofen
Tang, Kexuan
Lv, Zongyou
Wang, Shu
Zhang, Fangyuan
Chen, Lingxian
Hao, Xiaolong
Pan, Qifang
Fu, Xueqing
Li, Ling
Sun, Xiaofen
Tang, Kexuan
author Lv, Zongyou
Wang, Shu
Zhang, Fangyuan
Chen, Lingxian
Hao, Xiaolong
Pan, Qifang
Fu, Xueqing
Li, Ling
Sun, Xiaofen
Tang, Kexuan
spellingShingle Lv, Zongyou
Wang, Shu
Zhang, Fangyuan
Chen, Lingxian
Hao, Xiaolong
Pan, Qifang
Fu, Xueqing
Li, Ling
Sun, Xiaofen
Tang, Kexuan
Plant and Cell Physiology
Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
Cell Biology
Plant Science
Physiology
General Medicine
author_sort lv, zongyou
spelling Lv, Zongyou Wang, Shu Zhang, Fangyuan Chen, Lingxian Hao, Xiaolong Pan, Qifang Fu, Xueqing Li, Ling Sun, Xiaofen Tang, Kexuan 0032-0781 1471-9053 Oxford University Press (OUP) Cell Biology Plant Science Physiology General Medicine http://dx.doi.org/10.1093/pcp/pcw118 Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (<i>AaNAC1</i>) Enhances the Content of Artemisinin and Increases Tolerance to Drought and<i>Botrytis cinerea</i>in<i>Artemisia annua</i> Plant and Cell Physiology
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title Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_unstemmed Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_full Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_fullStr Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_full_unstemmed Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_short Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_sort overexpression of a novel nac domain-containing transcription factor gene (<i>aanac1</i>) enhances the content of artemisinin and increases tolerance to drought and<i>botrytis cinerea</i>in<i>artemisia annua</i>
topic Cell Biology
Plant Science
Physiology
General Medicine
url http://dx.doi.org/10.1093/pcp/pcw118
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author Lv, Zongyou, Wang, Shu, Zhang, Fangyuan, Chen, Lingxian, Hao, Xiaolong, Pan, Qifang, Fu, Xueqing, Li, Ling, Sun, Xiaofen, Tang, Kexuan
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imprint Oxford University Press (OUP), 2016
imprint_str_mv Oxford University Press (OUP), 2016
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physical 1961-1971
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spelling Lv, Zongyou Wang, Shu Zhang, Fangyuan Chen, Lingxian Hao, Xiaolong Pan, Qifang Fu, Xueqing Li, Ling Sun, Xiaofen Tang, Kexuan 0032-0781 1471-9053 Oxford University Press (OUP) Cell Biology Plant Science Physiology General Medicine http://dx.doi.org/10.1093/pcp/pcw118 Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (<i>AaNAC1</i>) Enhances the Content of Artemisinin and Increases Tolerance to Drought and<i>Botrytis cinerea</i>in<i>Artemisia annua</i> Plant and Cell Physiology
spellingShingle Lv, Zongyou, Wang, Shu, Zhang, Fangyuan, Chen, Lingxian, Hao, Xiaolong, Pan, Qifang, Fu, Xueqing, Li, Ling, Sun, Xiaofen, Tang, Kexuan, Plant and Cell Physiology, Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua, Cell Biology, Plant Science, Physiology, General Medicine
title Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_full Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_fullStr Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_full_unstemmed Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_short Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
title_sort overexpression of a novel nac domain-containing transcription factor gene (<i>aanac1</i>) enhances the content of artemisinin and increases tolerance to drought and<i>botrytis cinerea</i>in<i>artemisia annua</i>
title_unstemmed Overexpression of a Novel NAC Domain-Containing Transcription Factor Gene (AaNAC1) Enhances the Content of Artemisinin and Increases Tolerance to Drought andBotrytis cinereainArtemisia annua
topic Cell Biology, Plant Science, Physiology, General Medicine
url http://dx.doi.org/10.1093/pcp/pcw118