水稻中OsPsbR基因家族的分子特征与功能分析

Molecular characterization and functional analysis of the OsPsbR gene family in rice.

作者信息

Li Lihua, Ye Taozhi, Gao Xiaoling, Chen Rongjun, Xu Jinghong, Xie Chen, Zhu Jianqing, Deng Xiaojian, Wang Pingrong, Xu Zhengjun

机构信息

Key Laboratory of Southwest Crop Genetic Resources and Improvement, Ministry of Education, Rice Institute of Sichuan Agricultural University, Chengdu, 611130, China.

Crop Research Institute, Academy of Agricultural and Forestry Sciences, Chengdu, 611130, China.

出版信息

Mol Genet Genomics. 2017 Apr;292(2):271-281. doi: 10.1007/s00438-016-1273-1. Epub 2016 Nov 10.

DOI:10.1007/s00438-016-1273-1

PMID:27832344

Abstract

Low temperature may exert a negative impact on agronomical productivity. PsbR was known as the 10 kDa Photosystem II polypeptide. Although plant PsbR is thought to play important roles in photosynthesis, little is known about the contribution of plant PsbR to abiotic stress resistance. The expression patterns of three OsPsbR gene family members, OsPsbR1, OsPsbR2, and OsPsbR3, were characterized in rice 'Nipponbare'. Under normal condition, OsPsbR1 and OsPsbR3 showed tissue-specific expression, while the expression of OsPsbR2 could not be detected in all tested tissues. OsPsbR1 was upregulated in response to cold stress, and downregulated under drought, salt, or heat conditions. The upregulation of OsPsbR3 was observed under the treatment of ABA, and its downregulation was detected under drought or heat conditions. Upregulation of OsPsbR1 in rice resulted in significantly increased resistance to cold, but did not affect the yield of rice. Furthermore, after 8 h cold-stress treatment, the expression levels of three cold stress-induced marker genes were significantly higher in the overexpression lines L11 and L19 in comparison with the wild type. All these results suggest that OsPsbR1 may play key roles in photosynthesis and cold stress response and thus has the potential to improve cold stress tolerance of crops.

摘要

低温可能会对农业生产力产生负面影响。PsbR被认为是10 kDa的光系统II多肽。尽管植物PsbR被认为在光合作用中发挥重要作用，但关于植物PsbR对非生物胁迫抗性的贡献却知之甚少。在水稻“日本晴”中对三个OsPsbR基因家族成员OsPsbR1、OsPsbR2和OsPsbR3的表达模式进行了表征。在正常条件下，OsPsbR1和OsPsbR3表现出组织特异性表达，而在所有测试组织中均未检测到OsPsbR2的表达。OsPsbR1在冷胁迫下上调，在干旱、盐或热条件下下调。在ABA处理下观察到OsPsbR3上调，在干旱或热条件下检测到其下调。水稻中OsPsbR1的上调导致对冷的抗性显著增加，但不影响水稻产量。此外，在8小时冷胁迫处理后，与野生型相比，过表达系L11和L19中三个冷胁迫诱导标记基因的表达水平显著更高。所有这些结果表明，OsPsbR1可能在光合作用和冷胁迫响应中起关键作用，因此具有提高作物冷胁迫耐受性的潜力。

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水稻中OsPsbR基因家族的分子特征与功能分析

Molecular characterization and functional analysis of the OsPsbR gene family in rice.

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