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
文献类型: 外文期刊
第一作者: Qiao, Weihua
作者: Qiao, Weihua;Yu, Liang;Fan, Liu-Min;Xiao, Shouhua
作者机构:
关键词: Rice; Arabidopsis; OsNOA1; AtNOA1; Nitric oxide; Salt tolerance
期刊名称:ENVIRONMENTAL AND EXPERIMENTAL BOTANY ( 影响因子:5.545; 五年影响因子:5.99 )
ISSN: 0098-8472
年卷期: 2009 年 65 卷 1 期
页码:
收录情况: SCI
摘要: Nitric oxide (NO) has been indicated in regulating a wide-spectrum of plant developmental events and stress responses. An Arabidopsis gene AtNOA1 encodes a NO-associated protein, which plays a role in salt tolerance. We employed the knockout mutant for AtNOA1, Atnoa1 that is sensitive to salinity, as a toot to evaluate the functions of a rice homologous gene, OsNOA1. OsNOA1 transgenic expression rescued Atnoa1 in seedling development and vegetative growth under normal conditions, enhanced the salt tolerance of Atnoa1 in seed germination, seedling root growth and chlorophyll synthesis, and reduced Na(+)/K(+) ratio in Atnoa1; NO relative content assay implicates that NO synthesis was re-established via OsNOA1 expression in Atnoa1: Northern blot and Semi-Q RT-PCR assays demonstrate that salt tolerance-related gene expression was re-established as well via OsNOA1 expression in Atnoa1. Our data indicate that the re-establishment of NO synthesis and salt tolerance-related gene expression by OsNOA1 expression may account for the restoration of Atnoa1 in terms of developmental and salt tolerance phenotypes. All the above results point to a notion that OsNOA1 may play similar roles as AtNOA1, and NO involvement in salt tolerance may be ascribed to its regulation of salt tolerance-related gene expression. (C) 2008 Elsevier B.V. All rights reserved.
分类号: Q94
- 相关文献
作者其他论文 更多>>
-
Q negatively regulates wheat salt tolerance through directly repressing the expression of TaSOS1 and reactive oxygen species scavenging genes
作者:Yang, Ziyi;Yang, Ruizhen;Bai, Wanqing;Chen, Wenxi;Kong, Xiuying;Qiao, Weihua;Zhang, Yunwei;Sun, Jiaqiang;Zhou, Yun
关键词:wheat; salt tolerance; reactive oxygen species; Q; TaWD40
-
A wild rice CSSL population facilitated identification of salt tolerance genes and rice germplasm innovation
作者:Xing, Meng;Nie, Yamin;Huang, Jingfen;Wang, Shizhuang;Wang, Yanyan;Chen, Wenxi;Chen, Ziyi;Zhang, Lifang;Cheng, Yunlian;Yang, Qingwen;Sun, Jiaqiang;Qiao, Weihua;Xing, Meng;Nie, Yamin;Huang, Jingfen;Wang, Shizhuang;Wang, Yanyan;Chen, Ziyi;Yang, Qingwen;Qiao, Weihua;Li, Yapeng;Zhao, Mingchao
关键词:
-
Haplotype-resolved gapless genome and chromosome segment substitution lines facilitate gene identification in wild rice
作者:Huang, Jingfen;Xing, Meng;Lei, Cailin;Wang, Shizhuang;Nie, Yamin;Wang, Yanyan;Han, Zhenyun;Sun, Xianjun;Zheng, Xiaoming;Fan, Weiya;Liu, Ziran;Guo, Wenlong;Zhang, Lifang;Cheng, Yunlian;Qian, Qian;Yang, Qingwen;Qiao, Weihua;Zhang, Yilin;Zhou, Han;He, Hang;Zhang, Yilin;Zhou, Han;He, Hang;Zhang, Yilin;Zhou, Han;Wang, Yan;He, Hang;Li, Yapeng;Xing, Meng;Lei, Cailin;Wang, Shizhuang;Nie, Yamin;Wang, Yanyan;Zhao, Mingchao;Zheng, Xiaoming;Xiao, Xiaorong;Qian, Qian;Yang, Qingwen;Qiao, Weihua;Li, Yapeng;Zhao, Mingchao;Xiao, Xiaorong
关键词:
-
Metabolomic Insights into Primary and Secondary Metabolites Variation in Common and Glutinous Rice (Oryza sativa L.)
作者:Zhao, Mingchao;Ren, Junfang;Xiao, Xiaorong;Li, Yapeng;Yan, Xiaowei;Yun, Yong;Tang, Qingjie;Xing, Funeng;Zhao, Mingchao;Ren, Junfang;Xiao, Xiaorong;Li, Yapeng;Zhai, Linan;Yan, Xiaowei;Yun, Yong;Tang, Qingjie;Xing, Funeng;Zhao, Mingchao;Yang, Qingwen;Qiao, Weihua;Huang, Jingfen;Yang, Qingwen;Qiao, Weihua
关键词:rice; metabolic profiling; differential metabolites; vitamin; LC-MS
-
Comparative Metabolic Profiling of Different Colored Rice Grains Reveals the Distribution of Major Active Compounds and Key Secondary Metabolites in Green Rice
作者:Zhao, Mingchao;Tang, Qingjie;Ren, Junfang;Yun, Yong;Yan, Xiaowei;Xing, Funeng;Zhao, Mingchao;Zhai, Linan;Tang, Qingjie;Ren, Junfang;Zhou, Shizhen;Wang, Huijian;Yun, Yong;Yan, Xiaowei;Xing, Funeng;Zhao, Mingchao;Yang, Qingwen;Qiao, Weihua
关键词:pigmented rice; bioactive compounds; LC-MS; vitamin; metabolomics
-
TaBZR1 enhances wheat salt tolerance via promoting ABA biosynthesis and ROS scavenging
作者:Yang, Ruizhen;Yang, Ziyi;Xing, Meng;Jing, Yexing;Zhang, Yunwei;Qiao, Weihua;Sun, Jiaqiang;Yang, Ruizhen;Zhao, Huixian;Xing, Meng;Qiao, Weihua;Zhang, Kewei;Zhou, Yun;Zhao, Huixian
关键词:Wheat; TaBZR1; Salt stress; ABA; ROS
-
Plant-specific BLISTER interacts with kinase BIN2 and BRASSINAZOLE RESISTANT1 during skotomorphogenesis
作者:Yang, Ruizhen;Liu, Pan;Zhang, Tianren;Dong, Huixue;Jing, Yexing;Yang, Ziyi;Tang, Sha;Lv, Mingjie;Liu, Jun;Zhang, Yunwei;Qiao, Weihua;Sun, Jiaqiang;Liu, Jie;Zhang, Yu
关键词:
