Overexpression of the OsbZIP66 transcription factor enhances drought tolerance of rice plants

Drought stress is a major constraint of crop development and productivity. Plants have evolutionally developed several mechanisms at the molecular, cellular, and physiological levels to overcome drought stress. The basic leucine zipper (bZIP) transcription factor (TF) family members are starting to...

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Published in	Plant biotechnology reports Vol. 11; no. 1; pp. 53 - 62
Main Authors	Yoon, Suin, Lee, Dong-Keun, Yu, In Jeong, Kim, Youn Shic, Choi, Yang Do, Kim, Ju-Kon
Format	Journal Article
Language	English
Published	Tokyo Springer Japan 01.02.2017 Springer Nature B.V 한국식물생명공학회
Subjects	Abiotic stress abscisic acid Agriculture Analysis Biomedical and Life Sciences Biotechnology Cell Biology Crop development Crop science Drought Drought resistance drought tolerance Gene expression gene overexpression Genomics leucine zipper Life Sciences Original Article Phylogenetics Physiology Plant Biochemistry Plant Sciences Plant tolerance Rice roots Salinity Seeds stress response Studies Transcription factors Transgenic plants water stress 농학 ABA Transgenic crop Drought Transcriptional regulation Basic leucine zipper Rice
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ISSN	1863-5466 1863-5474
DOI	10.1007/s11816-017-0430-2

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Abstract	Drought stress is a major constraint of crop development and productivity. Plants have evolutionally developed several mechanisms at the molecular, cellular, and physiological levels to overcome drought stress. The basic leucine zipper (bZIP) transcription factor (TF) family members are starting to be concerned about their roles in drought stress responses. In this study, we functionally characterized OsbZIP66 , a rice group-E bZIP TF, to be associated with rice drought tolerance mechanisms. Expression of OsbZIP66 was significantly induced upon treatments of rice plants with drought, high salinity, and ABA. These observations and the fact that the OsbZIP66 promoter contains ten ABA-responsive cis -elements suggest that OsbZIP66 is up-regulated by drought stress in an ABA-dependent manner. Overexpression of OsbZIP66 both in a whole plant body and specifically in roots enhanced drought tolerance of rice plants, indicating that the rice drought tolerance positively correlates with the expression levels of OsbZIP66 . Thus, our results demonstrated that OsbZIP66 has a potential for use in biotechnological development of high-yielding rice plants under drought conditions.
AbstractList	Drought stress is a major constraint of crop development and productivity. Plants have evolutionally developed several mechanisms at the molecular, cellular, and physiological levels to overcome drought stress. The basic leucine zipper (bZIP) transcription factor (TF) family members are starting to be concerned about their roles in drought stress responses. In this study, we functionally characterized OsbZIP66, a rice group-E bZIP TF, to be associated with rice drought tolerance mechanisms. Expression of OsbZIP66 was significantly induced upon treatments of rice plants with drought, high salinity, and ABA. These observations and the fact that the OsbZIP66 promoter contains ten ABA-responsive cis-elements suggest that OsbZIP66 is up-regulated by drought stress in an ABA-dependent manner. Overexpression of OsbZIP66 both in a whole plant body and specifically in roots enhanced drought tolerance of rice plants, indicating that the rice drought tolerance positively correlates with the expression levels of OsbZIP66. Thus, our results demonstrated that OsbZIP66 has a potential for use in biotechnological development of high-yielding rice plants under drought conditions. Drought stress is a major constraint of crop development and productivity. Plants have evolutionally developed several mechanisms at the molecular, cellular, and physiological levels to overcome drought stress. The basic leucine zipper (bZIP) transcription factor (TF) family members are starting to be concerned about their roles in drought stress responses. In this study, we functionally characterized OsbZIP66 , a rice group-E bZIP TF, to be associated with rice drought tolerance mechanisms. Expression of OsbZIP66 was significantly induced upon treatments of rice plants with drought, high salinity, and ABA. These observations and the fact that the OsbZIP66 promoter contains ten ABA-responsive cis -elements suggest that OsbZIP66 is up-regulated by drought stress in an ABA-dependent manner. Overexpression of OsbZIP66 both in a whole plant body and specifically in roots enhanced drought tolerance of rice plants, indicating that the rice drought tolerance positively correlates with the expression levels of OsbZIP66 . Thus, our results demonstrated that OsbZIP66 has a potential for use in biotechnological development of high-yielding rice plants under drought conditions. Drought stress is a major constraint of crop development and productivity. Plants have evolutionally developed several mechanisms at the molecular, cellular, and physiological levels to overcome drought stress. The basic leucine zipper (bZIP) transcription factor (TF) family members are starting to be concerned about their roles in drought stress responses. In this study, we functionally characterized OsbZIP66, a rice group-E bZIP TF, to be associated with rice drought tolerance mechanisms. Expression of OsbZIP66 was significantly induced upon treatments of rice plants with drought, high salinity, and ABA. These observations and the fact that the OsbZIP66 promoter contains ten ABA-responsive cis-elements suggest that OsbZIP66 is up-regulated by drought stress in an ABA-dependent manner. Overexpression of OsbZIP66 both in a whole plant body and specifically in roots enhanced drought tolerance of rice plants, indicating that the rice drought tolerance positively correlates with the expression levels of OsbZIP66. Thus, our results demonstrated that OsbZIP66 has a potential for use in biotechnological development of high-yielding rice plants under drought conditions. KCI Citation Count: 7
Author	Kim, Youn Shic Kim, Ju-Kon Choi, Yang Do Yoon, Suin Yu, In Jeong Lee, Dong-Keun
Author_xml	– sequence: 1 givenname: Suin surname: Yoon fullname: Yoon, Suin organization: Graduate School of International Agricultural Technology and Crop Biotechnology Institute/GreenBio Science and Technology, Seoul National University – sequence: 2 givenname: Dong-Keun surname: Lee fullname: Lee, Dong-Keun organization: Graduate School of International Agricultural Technology and Crop Biotechnology Institute/GreenBio Science and Technology, Seoul National University – sequence: 3 givenname: In Jeong surname: Yu fullname: Yu, In Jeong organization: Graduate School of International Agricultural Technology and Crop Biotechnology Institute/GreenBio Science and Technology, Seoul National University – sequence: 4 givenname: Youn Shic surname: Kim fullname: Kim, Youn Shic organization: Graduate School of International Agricultural Technology and Crop Biotechnology Institute/GreenBio Science and Technology, Seoul National University – sequence: 5 givenname: Yang Do surname: Choi fullname: Choi, Yang Do organization: Department of Agricultural Biotechnology, Seoul National University – sequence: 6 givenname: Ju-Kon surname: Kim fullname: Kim, Ju-Kon email: jukon@snu.ac.kr organization: Graduate School of International Agricultural Technology and Crop Biotechnology Institute/GreenBio Science and Technology, Seoul National University
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Snippet	Drought stress is a major constraint of crop development and productivity. Plants have evolutionally developed several mechanisms at the molecular, cellular,...
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SubjectTerms	Abiotic stress abscisic acid Agriculture Analysis Biomedical and Life Sciences Biotechnology Cell Biology Crop development Crop science Drought Drought resistance drought tolerance Gene expression gene overexpression Genomics leucine zipper Life Sciences Original Article Phylogenetics Physiology Plant Biochemistry Plant Sciences Plant tolerance Rice roots Salinity Seeds stress response Studies Transcription factors Transgenic plants water stress 농학
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Title	Overexpression of the OsbZIP66 transcription factor enhances drought tolerance of rice plants
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ispartofPNX	Plant Biotechnology Reports, 2017, 11(1), , pp.53-62
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