Involvement of Polyamine Oxidase-Produced Hydrogen Peroxide during Coleorhiza-Limited Germination of Rice Seeds

文献类型: 外文期刊

第一作者: Chen, Bing-Xian

作者: Chen, Bing-Xian;Li, Wen-Yan;Gao, Yin-Tao;Chen, Zhong-Jian;Zhang, Wei-Na;Liu, Qin-Jian;Chen, Zhuang;Liu, Jun

作者机构:

关键词: seed germination;polyamine oxidases;hydrogen peroxide;Oryza sativa;OsPAO5;gene expression;in silco analysis

期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:5.753; 五年影响因子:6.612 )

ISSN: 1664-462X

年卷期: 2016 年 7 卷

页码:

收录情况: SCI

摘要: Seed germination is a complicated biological process that requires regulated enzymatic and non-enzymatic reactions. The action of polyamine oxidase (PAO) produces hydrogen peroxide (H2O2), which promotes dicot seed germination. However, whether and, if so, how PAOs regulate monocot seed germination via H2O2 production is unclear. Herein, we report that the coleorhiza is the main physical barrier to radicle protrusion during germination of rice seed (a monocot seed) and that it does so in a manner similar to that of dicot seed micropylar endosperm. We found that H2O2 specifically and steadily accumulated in the coleorhizae and radicles of germinating rice seeds and was accompanied by increased PAO activity as the germination percentage increased. These physiological indexes were strongly decreased in number by guazatine, a PAO inhibitor. We also identified 11 PAO homologs (OsPAO1-11) in the rice genome, which could be classified into four subfamilies (I, Ila, Ilb, and III). The OsPAO genes in subfamilies I, Ila, and Ilb (OsPAO1-7) encode PAOs, whereas those in subfamily III (OsPAO8-11) encode histone lysine-specific demethylases. In silico-characterized expression profiles of OsPAO1-7 and those determined by qPCR revealed that OsPAO5 is markedly upregulated in imbibed seeds compared with dry seeds and that its transcript accumulated to a higher level in embryos than in the endosperm. Moreover, its transcriptional abundance increased gradually during seed germination in water and was inhibited by 5 mM guazatine. Taken together, these results suggest that PAO-generated H2O2 is involved in coleorhiza-limited rice seed germination and that OsPAO(5) expression accounts for most PAO expression and activity during rice seed germination. These findings should facilitate further study of PAOs and provide valuable information for functional validation of these proteins during seed germination of monocot cereals.

分类号:

  • 相关文献

[1]Reactive Oxygen Species Generated by NADPH Oxidases Promote Radicle Protrusion and Root Elongation during Rice Seed Germination. Li, Wen-Yan,Chen, Bing-Xian,Chen, Zhong-Jian,Gao, Yin-Tao,Chen, Zhuang,Liu, Jun. 2017

[2]Enhancement of Salinity Tolerance during Rice Seed Germination by Presoaking with Hemoglobin. Xu, Sheng,Hu, Bing,He, Ziyi,Ma, Fei,Feng, Jianfei,Shen, Wenbiao,Yang, Jie. 2011

[3]Hydrogen-rich water alleviates salt stress in rice during seed germination. Xu, Sheng,Jiang, Yilong,Wang, Ning,Shen, Wenbiao,Xu, Sheng,Wang, Ren,Xu, Sheng,Wang, Ren,Zhu, Susong,Yang, Jie.

[4]A calcium-binding protein, rice annexin OsANN1, enhances heat stress tolerance by modulating the production of H2O2. Qiao, Bei,Zhang, Qian,Liu, Dongliang,Wang, Haiqi,Yin, Jingya,Wang, Rui,He, Mengli,Cui, Meng,Shang, Zhonglin,Zhu, Zhengge,Wang, Dekai.

[5]Chromatin states responsible for the regulation of differentially expressed genes under Co-60 similar to gamma ray radiation in rice. Pan, Xiucai,Fang, Yuan,Zheng, Dongyang,Chen, Lifen,Wang, Lei,Xiao, Jin,Wang, Xiu-e,Zhang, Wenli,Yang, Xueming,Wang, Kai,Cheng, Zhukuan,Cheng, Zhukuan,Yu, Hengxiu,Zhang, Wenli. 2017

[6]Antagonistic HLH/bHLH Transcription Factors Mediate Brassinosteroid Regulation of Cell Elongation and Plant Development in Rice and Arabidopsis. Zhang, Li-Ying,Bai, Ming-Yi,Zhu, Jia-Ying,Wang, Hao,Wang, Wenfei,Zhao, Jun,Yang, Hongjuan,Xu, Yunyuan,Lin, Wen-Hui,Chong, Kang,Wang, Zhi-Yong,Zhang, Li-Ying,Zhu, Jia-Ying,Wang, Hao,Wang, Wenfei,Zhao, Jun,Bai, Ming-Yi,Sun, Yu,Wang, Zhi-Yong,Wu, Jinxia,Zhang, Zhiguo,Sun, Xuehui,Lu, Tiegang,Kim, Soo-Hwan,Fujioka, Shozo.

[7]A 90-day safety study of genetically modified rice expressing rhIGF-1 protein in C57BL/6J rats. Tang, Maoxue,Cheng, Wenke,Qian, Lili,Yang, Shulin,Cui, Wentao,Li, Kui,Tang, Maoxue,Cheng, Wenke,Qian, Lili,Yang, Shulin,Cui, Wentao,Li, Kui,Xie, Tingting,Yang, Daichang.

[8]Multiple tissue-specific expression of rice seed-shattering gene SH4 regulated by its promoter pSH4. Yan, Huanxin,Ma, Li,Wang, Zhe,Lu, Bao-Rong,Lin, Zhimin,Su, Jun. 2015

[9]Mobilization of Diverse Transposable Elements in Rice Induced by Alien Pollination Without Entailing Genetic Introgression. Wu, Ying,Guo, Guizhen,Lin, Xiuyun,Wu, Ying,Jiang, Tingting,Sun, Yue,Wang, Zeyang,Sun, Shuai,Li, Ning,Wang, Zhenhui,Zhang, Di,Bai, Yan,Gao, Yang,Liu, Bao,Dong, Yuzhu.

[10]Nitrate increases ethylene production and aerenchyma formation in roots of lowland rice plants under water stress. Gao, Cuimin,Ding, Lei,Li, Yingrui,Chen, Yupei,Zhu, Jingwen,Gu, Mian,Xu, Guohua,Shen, Qirong,Guo, Shiwei,Gao, Cuimin,Li, Yong.

[11]RNA-Seq Analysis of Differentially Expressed Genes in Rice under Photooxidation. Ma, J.,Zhang, B. -B.,Wang, F.,Sun, M. -M.,Shen, W. -J.,Gao, Z.,Chen, G. -X.,Lv, C..

[12]Comprehensive molecular evolution and gene expression analyses of the ABC1 atypical kinase family in rice and Arabidopsis. Gao, Qingsong,Luo, Yuming,Yang, Liming,Zang, Hui,Gao, Yun,Yang, Zefeng,Zhou, Yong,Yuan, Yuan,Wang, Yifan,Xu, Xing,Xu, Chenwu,Liang, Guohua,Wang, Jun.

[13]Expression of a rice gene OsNOA1 re-establishes nitric oxide synthesis and stress-related gene expression for salt tolerance in Arabidopsis nitric oxide-associated 1 mutant Atnoa1. Qiao, Weihua,Yu, Liang,Fan, Liu-Min,Xiao, Shouhua.

[14]DYNAMICS OF SEED GERMINATION, SEEDLING GROWTH AND PHYSIOLOGICAL RESPONSES OF SWEET CORN UNDER PEG-INDUCED WATER STRESS. Li, Wu,Zhang, Xiaolan,Suo, Haicui,Li, Gaoke,Li, Wu,Zhang, Xiaolan,Suo, Haicui,Li, Gaoke,Li, Wu,Suo, Haicui,Ashraf, Umair,Mo, Zhaowen. 2017

[15]Variation in temperature requirements for germination and early seedling root development in Chamaecrista rotundifolia and three allied species. Xu, MG,McDonald, CK,Liu, CJ,Hacker, JB. 2000

[16]Phenotypic and genotypic changes in rapeseed after 18 years of storage and regeneration. Wu, XM,Wu, NF,Qian, XZ,Li, RG,Huang, FH,Zhu, L. 1998

[17]QTL mapping of coleorhiza length in maize (Zea mays L.) under two germination environmental conditions. Jiang, Xuwen,Tian, Baohua,Zhang, Weimin,Wang, Guoying,Wang, Jianhua,Jiang, Xuwen,Tian, Baohua,Zhang, Weimin,Wang, Guoying,Wang, Jianhua,Wang, Guoying. 2011

[18]TaWRKY71, a WRKY Transcription Factor from Wheat, Enhances Tolerance to Abiotic Stress in Transgenic Arabidopsis thaliana. Xu, Q.,Feng, W. J.,Peng, H. R.,Ni, Z. F.,Sun, Q. X.,Xu, Q.. 2014

[19]Ammonia toxicity in aerobic rice: use of soil properties to predict ammonia volatilization following urea application and the adverse effects on germination. Haden, V. R.,Hobbs, P.,Duxbury, J. M.,Xiang, J.,Peng, S.,Ketterings, Q. M..

[20]Comparative proteomic analysis of alfalfa revealed new salt and drought stress-related factors involved in seed germination. Ma, Qiaoli,Kang, Junmei,Zhang, Kun,Wang, Tenghua,Sun, Yan,Kang, Junmei,Long, Ruicai,Zhang, Tiejun,Yang, Qingchuan,Ma, Qiaoli,Xiong, Junbo.

作者其他论文 更多>>

微信小程序