Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance

Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance

Abstract Background Light provides the energy for photosynthesis and determines plant morphogenesis and development. Low light compromises photosynthetic efficiency and leads to crop yield loss. It remains unknown how rice responds to low light stress at a proteomic level. Results In this study, the...

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Main Authors: Yangxuan Liu, Ting Pan, Yuying Tang, Yong Zhuang, Zhijian Liu, Penghui Li, Hui Li, Weizao Huang, Shengbin Tu, Guangjun Ren, Tao Wang, Songhu Wang
Format: Article
Language:English
Published: SpringerOpen 2020-06-01
Series:Rice
Online Access:http://link.springer.com/article/10.1186/s12284-020-00390-8
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spelling doaj-326cef3495034964ba38b6787ab7f6b32020-11-25T03:11:52ZengSpringerOpenRice1939-84251939-84332020-06-0113111010.1186/s12284-020-00390-8Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress ToleranceYangxuan Liu0Ting Pan1Yuying Tang2Yong Zhuang3Zhijian Liu4Penghui Li5Hui Li6Weizao Huang7Shengbin Tu8Guangjun Ren9Tao Wang10Songhu Wang11Chengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesCrop Research Institute, Sichuan Academy of Agricultural SciencesChengdu Institute of Biology, Chinese Academy of SciencesChengdu Institute of Biology, Chinese Academy of SciencesAbstract Background Light provides the energy for photosynthesis and determines plant morphogenesis and development. Low light compromises photosynthetic efficiency and leads to crop yield loss. It remains unknown how rice responds to low light stress at a proteomic level. Results In this study, the quantitative proteomic analysis with isobaric tags for relative and absolute quantitation (iTRAQ) was used and 1221 differentially expressed proteins (DEPs) were identified from wild type rice plants grown in control or low light condition (17% light intensity of control), respectively. Bioinformatic analysis of DEPs indicated low light remarkably affects the abundance of chloroplastic proteins. Specifically, the proteins involved in carbon fixation (Calvin cycle), electron transport, and ATPase complex are severely downregulated under low light. Furthermore, overexpression of the downregulated gene encoding rice β subunit of glyceraldehyde-3-phosphate dehydrogenase (OsGAPB), an enzyme in Calvin cycle, significantly increased the CO2 assimilation rate, chlorophyll content and fresh weight under low light conditions but have no obvious effect on rice growth and development under control light. Conclusion Our results revealed that low light stress on vegetative stage of rice inhibits photosynthesis possibly by decreasing the photosynthetic proteins and OsGAPB gene is a good candidate for manipulating rice tolerance to low light stress.http://link.springer.com/article/10.1186/s12284-020-00390-8
collection DOAJ
language English
format Article
sources DOAJ
author Yangxuan Liu
Ting Pan
Yuying Tang
Yong Zhuang
Zhijian Liu
Penghui Li
Hui Li
Weizao Huang
Shengbin Tu
Guangjun Ren
Tao Wang
Songhu Wang
spellingShingle Yangxuan Liu
Ting Pan
Yuying Tang
Yong Zhuang
Zhijian Liu
Penghui Li
Hui Li
Weizao Huang
Shengbin Tu
Guangjun Ren
Tao Wang
Songhu Wang
Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance
Rice
author_facet Yangxuan Liu
Ting Pan
Yuying Tang
Yong Zhuang
Zhijian Liu
Penghui Li
Hui Li
Weizao Huang
Shengbin Tu
Guangjun Ren
Tao Wang
Songhu Wang
author_sort Yangxuan Liu
title Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance
title_short Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance
title_full Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance
title_fullStr Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance
title_full_unstemmed Proteomic Analysis of Rice Subjected to Low Light Stress and Overexpression of OsGAPB Increases the Stress Tolerance
title_sort proteomic analysis of rice subjected to low light stress and overexpression of osgapb increases the stress tolerance
publisher SpringerOpen
series Rice
issn 1939-8425
1939-8433
publishDate 2020-06-01
description Abstract Background Light provides the energy for photosynthesis and determines plant morphogenesis and development. Low light compromises photosynthetic efficiency and leads to crop yield loss. It remains unknown how rice responds to low light stress at a proteomic level. Results In this study, the quantitative proteomic analysis with isobaric tags for relative and absolute quantitation (iTRAQ) was used and 1221 differentially expressed proteins (DEPs) were identified from wild type rice plants grown in control or low light condition (17% light intensity of control), respectively. Bioinformatic analysis of DEPs indicated low light remarkably affects the abundance of chloroplastic proteins. Specifically, the proteins involved in carbon fixation (Calvin cycle), electron transport, and ATPase complex are severely downregulated under low light. Furthermore, overexpression of the downregulated gene encoding rice β subunit of glyceraldehyde-3-phosphate dehydrogenase (OsGAPB), an enzyme in Calvin cycle, significantly increased the CO2 assimilation rate, chlorophyll content and fresh weight under low light conditions but have no obvious effect on rice growth and development under control light. Conclusion Our results revealed that low light stress on vegetative stage of rice inhibits photosynthesis possibly by decreasing the photosynthetic proteins and OsGAPB gene is a good candidate for manipulating rice tolerance to low light stress.
url http://link.springer.com/article/10.1186/s12284-020-00390-8
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