Stress-responsive gene RsICE1 from Raphanus sativus increases cold tolerance in rice

文献类型: 外文期刊

第一作者: Man, Lili

作者: Man, Lili;Xiang, Dianjun;Wang, Lina;Qi, Guochao;Zhang, Weiwei;Wang, Xiaodong

作者机构:

关键词: Radish;RsICE1;DEEB1/CBF;Cold-responsive genes;Rice;Tolerance

期刊名称:PROTOPLASMA ( 影响因子:3.356; 五年影响因子:3.298 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The ICE1 transcription factor plays a critical role in plant cold tolerance via triggering CBF/DREB1 cold-regulated signal networks. In this work, a novel MYC-type ICE1-like gene, RsICE1, was isolated from radish (Raphanus sativus L.), and its function in cold tolerance was characterized in rice. The RsICE1 gene was expressed constitutively with higher transcriptional levels in the roots and stems of radish seedlings. The NaCl, cold, and ABA treatments could significantly upregulate RsICE1 expression levels, but dehydration stress had a weak effect on its expression. Ectopic expression of the RsICE1 gene in rice conferred enhanced tolerance to low-temperature stress grounded on a higher survival rate, higher accumulation of soluble sugars and free proline content, a decline in electrolyte leakage and MDA levels, and higher chlorophyll levels relative to control plants. OsDREBL and OsTPP1, downstream cold-regulated genes, were remarkably upregulated at transcription levels in rice overexpressing RsICE1 under low-temperature stress, which indicated that RsICE1 was involved in CBF/DREB1 cold-regulated signal networks. Overall, the above data showed that RsICE1 played an active role in improving rice cold tolerance, most likely resulting from the upregulation of OsDREBL and OsTPP1 expression levels by interacting with the RsICE1 gene under low-temperature stress.

分类号: Q24

  • 相关文献

[1]Overexpression of a heading Chinese cabbage ICE1 gene confers freezing tolerance in transgenic rice. Xiang, Dianjun,Man, Lili,Chai, Yongshan,Sun, Yuyou,Zhang, Taizhong,Wei, Caiqiang,Xie, Zhong,Li, Hongliang,Zhang, Weiwei,Liu, Dan,Cheng, Dujuan,Wang, Xiaodong,Liu, Chunguang.

[2]Fine mapping of brown planthopper (Nilaparvata lugens StAyenl) resistance gene Bph28(t) in rice (Oryza sativa L.). Wu, Han,Liu, Yuqiang,He, Jun,Liu, Yanling,Jiang, Ling,Liu, Linlong,Wang, Chunming,Cheng, Xianian,Wan, Jianmin,Wan, Jianmin.

[3]Transcriptome analysis of the roots at early and late seedling stages using Illumina paired-end sequencing and development of EST-SSR markers in radish. Wang, Shufen,He, Qiwei,Liu, Xianxian,Xu, Wenling,Li, Libin,Gao, Jianwei,Wang, Fengde,Wang, Xiufeng. 2012

[4]INTERCROPPING DIFFERENT VARIETIES OF RADISH CAN INCREASE CADMIUM ACCUMULATION IN RADISH. Liao, Ming'an,Mei, Luoyin,Liu, Qihua,Shi, Jun,Sun, Jinlong.

[5]Unraveling the Root Proteome Changes and Its Relationship to Molecular Mechanism Underlying Salt Stress Response in Radish (Raphanus sativus L.). Sun, Xiaochuan,Wang, Yan,Xu, Liang,Li, Chao,Zhang, Wei,Luo, Xiaobo,Jiang, Haiyan,Liu, Liwang,Sun, Xiaochuan,Sun, Xiaochuan,Wang, Yan,Xu, Liang,Luo, Xiaobo,Liu, Liwang. 2017

[6]Heterozygous alleles restore male fertility to cytoplasmic male-sterile radish (Raphanus sativus L.): a case of overdominance. Wang, Zhi Wei,Wang, Chuan,Gao, Lei,Zhou, Yuan,Wang, Ting,Wang, Chuan,Mei, Shi Yong,Xiang, Chang Ping. 2013

[7]Cadmium availability and uptake by radish (Raphanus sativus) grown in soils applied with wheat straw or composted pig manure. Shan, Hong,Su, Shiming,Liu, Rongle,Li, Shutian.

[8]Comparative Transcriptome Profile of the Cytoplasmic Male Sterile and Fertile Floral Buds of Radish (Raphanus sativus L.). Mei, Shiyong,Liu, Touming,Liu, Touming,Wang, Zhiwei. 2016

[9]RadishBase: A Database for Genomics and Genetics of Radish. Shen, Di,Li, Xixiang,Shen, Di,Sun, Honghe,Huang, Mingyun,Zheng, Yi,Fei, Zhangjun,Sun, Honghe,Fei, Zhangjun. 2013

[10]Comprehensive analysis of expressed sequence tags from cultivated and wild radish (Raphanus spp.). Shen, Di,Qiu, Yang,Li, Xixiang,Shen, Di,Sun, Honghe,Huang, Mingyun,Zheng, Yi,Fei, Zhangjun,Sun, Honghe,Fei, Zhangjun. 2013

[11]A chimeric Rfo gene generated by intergenic recombination cosegregates with the fertility restorer phenotype for cytoplasmic male sterility in radish. Wang, Zhi Wei,Zhang, Li Jun,Chen, Jie,Zhou, Yuan,Wang, Ting,Wang, Zhi Wei,Xiang, Chang Ping,Zhang, Li Jun,Chen, Jie,Mei, Shi Yong. 2010

[12]Development of PCR-based markers linked to a restorer gene for cytoplasmic male sterility in radish (Raphanus sativus L.). Wang, Zhiwei,Xiang, Changping,Mei, Shiyong. 2006

[13]Repetitive sequence analysis and karyotyping reveals centromere-associated DNA sequences in radish (Raphanus sativus L.). He, Qunyan,Hu, Tianhua,Bao, Chonglai,Mao, Weihai,He, Qunyan,Cai, Zexi,Liu, Huijun,Jin, Weiwei. 2015

[14]Identification of Optimal Reference Genes for Expression Analysis in Radish (Raphanus sativus L.) and Its Relatives Based on Expression Stability. Duan, Mengmeng,Wang, Jinglei,Zhang, Xiaohui,Yang, Haohui,Wang, Haiping,Qiu, Yang,Song, Jiangping,Li, Xixiang,Duan, Mengmeng,Guo, Yangdong. 2017

[15]Allelopathic effects of Conyza canadesis the germination and growth of wheat, sorghum, cucumber, rape and radish. Gao, Xingxiang,Li, Mei,Gao, Zongyun,Zhang, Hongjun,Sun, Zuowen.

[16]Genetic diversity and evolutionary relationship analyses within and among Raphanus species using EST-SSR markers. Wang, Qingbiao,Zhang, Li,Zheng, Pengjing,Wang, Qingbiao,Zhang, Li,Zheng, Pengjing.

[17]Identification of promoter exchange at a male fertility restorer locus for cytoplasmic male sterility in radish (Raphanus sativus L.). Wang, Zhi Wei,Cai, Qing Ze,Wang, Zhi Wei,De Wang, Chuan,Gao, Lei,Zhou, Yuan,Wang, Ting,De Wang, Chuan,Mei, Shi Yong,Mei, Shi Yong.

[18]Effect of N Management on Root Yield and N Uptake of Radishes in Southern China. Yuan, Wei-Ling,Deng, Xiao-hui,Gan, Cai-xia,Cui, Lei,Wang, Qing-fang,Yuan, Shang-yong.

[19]Integration of Cadmium Accumulation, Subcellular Distribution, and Physiological Responses to Understand Cadmium Tolerance in Apple Rootstocks. Zhou, Jiangtao,Wan, Huixue,He, Jiali,Lyu, Deguo,Zhou, Jiangtao,Wan, Huixue,He, Jiali,Lyu, Deguo,Li, Huifeng. 2017

[20]Genetic dissection of QTL against phosphate deficiency in the hybrid rice 'Xieyou9308'. Zhang, Yingxin,Anis, Galal Bakr,Wu, Weiming,Yu, Ning,Shen, Xihong,Zhan, Xiaodeng,Cheng, Shihua,Cao, Liyong,Wang, Ruci,Zhang, Yingxin,Wu, Weiming,Shen, Xihong,Zhan, Xiaodeng,Cheng, Shihua,Cao, Liyong,Anis, Galal Bakr. 2018

作者其他论文 更多>>

微信小程序