Characterization and Functional Analysis of Pyrabactin Resistance-Like Abscisic Acid Receptor Family in Rice

文献类型: 外文期刊

第一作者: Niu, Hongbin

作者: Niu, Hongbin;Tian, Xiaojie;Wang, Zhenyu;Li, Xiufeng;Lv, Tianxiao;Liu, Huazhao;Bu, Qingyun;Tian, Xiaojie;Li, Xiufeng;Lv, Tianxiao;Liu, Huazhao;Wang, Lizhi

作者机构:

关键词: Rice;ABA receptors;PYL;Drought stress;Cold stress;Seed germination

期刊名称:RICE ( 影响因子:4.783; 五年影响因子:5.23 )

ISSN: 1939-8425

年卷期: 2015 年 8 卷

页码:

收录情况: SCI

摘要: Background: Abscisic acid (ABA) plays crucial roles in regulating plant growth and development, especially in responding to abiotic stress. The pyrabactin resistance-like (PYL) abscisic acid receptor family has been identified and widely characterized in Arabidopsis. However, PYL families in rice were largely unknown. In the present study, 10 out of 13 PYL orthologs in rice (OsPYL) were isolated and investigated. Results: Quantitative reverse transcription-polymerase chain reaction (qRT-PCR) analysis showed that expression of OsPYL genes is tissue-specific and display differential response to ABA treatment, implying their functional diversity. The interaction between 10 OsPYL members and 5 protein phosphatase 2C in rice (OsPP2C) members was investigated in yeast two-hybrid and tobacco transient expression assays, and an overall interaction map was generated, which was suggestive of the diversity and complexity of ABA-sensing signaling in rice. To study the biological function of OsPYLs, two OsPYL genes (OsPYL3 and OsPYL9) were overexpressed in rice. Phenotypic analysis of OsPYL3 and OsPYL9 transgenic rice showed that OsPYLs positively regulated the ABA response during the seed germination. More importantly, the overexpression of OsPYL3 and OsPYL9 substantially improved drought and cold stress tolerance in rice. Conclusion: Taken together, we comprehensively uncovered the properties of OsPYLs, which may be good candidates for the improvement of abiotic stress tolerance in rice.

分类号:

  • 相关文献

[1]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.

[2]Activation of ABA Receptors Gene GhPYL9-11A Is Positively Correlated with Cotton Drought Tolerance in Transgenic Arabidopsis. Liang, Chengzhen,Liu, Yan,Li, Yanyan,Meng, Zhigang,Yan, Rong,Zhu, Tao,Wang, Yuan,Kang, Shujing,Abid, Muhammad Ali,Malik, Waqas,Sun, Guoqing,Guo, Sandui,Zhang, Rui,Yan, Rong,Malik, Waqas. 2017

[3]Overexpressing IbCBF3 increases low temperature and drought stress tolerance in transgenic sweetpotato. Jin, Rong,Kim, Beg Hab,Ji, Chang Yoon,Kim, Ho Soo,Kwak, Sang-Soo,Jin, Rong,Ji, Chang Yoon,Kwak, Sang-Soo,Jin, Rong,Kim, Ho Soo,Ma, Dai Fu. 2017

[4]Global Gene Expression Analysis Reveals Crosstalk between Response Mechanisms to Cold and Drought Stresses in Cassava Seedlings. Li, Shuxia,Yu, Xiaoling,Ruan, Mengbin,Li, Wenbin,Peng, Ming,Yu, Xiang,Yu, Xiang,Cheng, Zhihao,Yu, Xiang. 2017

[5]Overexpression of MeDREB1D confers tolerance to both drought and cold stresses in transgenic Arabidopsis. Yang, Yiling,Wang, Bin,Yang, Yiling,Liao, Wenbin,Yu, Xiaoling,Wang, Bin,Peng, Ming,Ruan, Mengbin.

[6]Phytochrome B Negatively Affects Cold Tolerance by Regulating OsDREB1 Gene Expression through Phytochrome Interacting Factor-Like Protein OsPIL16 in Rice. He, Yanan,Li, Yaping,Cui, Lixin,Xie, Lixia,Zheng, Chongke,Zhou, Guanhua,Zhou, Jinjun,Xie, Xianzhi,Li, Yaping,Cui, Lixin. 2016

[7]Glycine increases cold tolerance in rice via the regulation of N uptake, physiological characteristics, and photosynthesis. Cao Xiaochuang,Zhong Chu,Zhu Lianfeng,Zhang Junhua,Hussain, Sajid,Jin Qianyu,Wu Lianghuan,Jin Qianyu.

[8]DNA methylation alterations of rice in response to cold stress. Pan, Yajiao,Wang, Wensheng,Zhao, Xiuqin,Zhu, Linghua,Fu, Binying,Li, Zhikang. 2011

[9]The Rice Pentatricopeptide Repeat Gene TCD10 is Needed for Chloroplast Development under Cold Stress. Wu, Lanlan,Wu, Jun,Liu, Yanxia,Gong, Xiaodi,Lin, Dongzhi,Dong, Yanjun,Gong, Xiaodi,Xu, Jianlong. 2016

[10]Genome-Wide Differences in DNA Methylation Changes in Two Contrasting Rice Genotypes in Response to Drought Conditions. Wang, Wensheng,Qin, Qiao,Sun, Fan,Wang, Yinxiao,Xu, Dandan,Li, Zhikang,Fu, Binying,Xu, Dandan,Li, Zhikang,Fu, Binying. 2016

[11]Overlap between Signaling Pathways Responsive to Xanthomonas oryzae pv. oryzae Infection and Drought Stress in Rice Introgression Line Revealed by RNA-Seq. Zhang, Fan,Zhang, Fan,Huang, Liyu,Xu, Jianlong,Zhou, Yongli,Li, Zhikang,Xu, Jianlong,Zhou, Yongli,Li, Zhikang,Huang, Liyu,Cruz, Casiana Vera,Ali, Jauhar,Zhang, Fan.

[12]Endosperm-specific OsPYL8 and OsPYL9 act as positive regulators of the ABA signaling pathway in rice seed germination. Chen, Ziqiang,Kong, Lan,Zhou, Yun,Chen, Zaijie,Tian, Dagang,Lin, Yan,Wang, Feng,Chen, Songbiao.

[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]Involvement of Polyamine Oxidase-Produced Hydrogen Peroxide during Coleorhiza-Limited Germination of Rice Seeds. Chen, Bing-Xian,Li, Wen-Yan,Gao, Yin-Tao,Chen, Zhong-Jian,Zhang, Wei-Na,Liu, Qin-Jian,Chen, Zhuang,Liu, Jun. 2016

[15]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

[16]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

[17]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

[18]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

[19]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

[20]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

作者其他论文 更多>>

微信小程序