UBIQUITIN-SPECIFIC PROTEASES function in plant development and stress responses

文献类型: 外文期刊

第一作者: Zhou, Huapeng

作者: Zhou, Huapeng;Cai, Jingqing;Zhao, Jinfeng;Patil, Suyash B.

作者机构:

关键词: Ubiquitin;Ubiqutination/deubiquitination;UBIQUITIN-SPECIFIC PROTEASES;Plant development;Plant stress response and tolerance

期刊名称:PLANT MOLECULAR BIOLOGY ( 影响因子:4.076; 五年影响因子:4.89 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Protein ubiquitination and deubiquitination are reversible processes, which can modulate the stability, activity as well as subcellular localization of the substrate proteins. UBIQUITIN-SPECIFIC PROTEASE (UBP) protein family participates in protein deubiquitination. Members of UBP family are involved in a variety of physiological processes in plants, as evidenced by their functional characterization in model plant Arabidopsis and other plants. UBPs are conserved in plants and distinct UBPs function in different regulatory processes, although functional redundancies exist between some members. Here we briefly reviewed recent advances in understanding the biological functions of UBP protein family in Arabidopsis, particularly the molecular mechanisms by which UBPs regulate plant development and stress responses. We believe that elucidation of UBPs function and regulation in Arabidopsis will provide new insights about protein deubiquitination and might shed light on the understanding of the mechanistic roles of UBPs in general, which will definitely contribute to crop improvement in agriculture.

分类号: Q946

  • 相关文献

[1]Enrichment and analysis of rice seedling ubiquitin-related proteins using four UBA domains (GST-qUBAs). Meng, Qingshi,Rao, Liqun,Meng, Qingshi,Pan, Yinghong,Meng, Qingshi,Pan, Yinghong.

[2]Practical Chemical Synthesis of Atypical Ubiquitin Chains by Using an Isopeptide-Linked Ub Isomer. Tang, Shan,Liang, Lu-Jun,Si, Yan-Yan,Gao, Shuai,Wang, Jia-Xing,Liu, Lei,Liang, Jun,Zheng, Ji-Shen,Mei, Ziqing.

[3]Co-expression of Ubiquitin gene and capsid protein gene enhances the potency of DNA immunization of PCV2 in mice. Fu, Fang,Li, Xuesong,Lang, Yuekun,Li, Xi,Li, Xuesong,Yang, Yuju,Tong, Guangzhi,Li, Guoxin,Zhou, Yanjun,Li, Xi. 2011

[4]Cloning and bioinformatics analysis of an ubiquitin gene of the rice stem borer, Chilo suppressalis Walker (Lepidoptera: Pyralidae). Du, Yu-zhou,Qiang, Cheng-kui,Zhou, Bao-ya,Qin, Yue-hua,Qiang, Cheng-kui,Li, Chang-chun,Qi, Ren-de. 2011

[5]Role of the ubiquitin-proteasome pathway on proteolytic activity in postmortem proteolysis and tenderisation of sheep skeletal muscle. Liu, Yue,Du, Manting,Li, Xin,Chen, Li,Zhang, Dequan,Liu, Yue,Tian, Jianwen,Shen, Qingwu.

[6]Breeding of disease-resistant seedless grapes using Chinese wild Vitis spp. I. In vitro embryo rescue and plant development. Tian, Lili,Wang, Yuejin,Tang, Dongmei,Tian, Lili,Wang, Yuejin,Tang, Dongmei,Tian, Lili,Wang, Yuejin,Tang, Dongmei,Niu, Liang. 2008

[7]Calreticulin: conserved protein and diverse functions in plants. Jia, Xiao-Yun,He, Li-Heng,Li, Run-Zhi,Jia, Xiao-Yun,Jing, Rui-Lian.

[8]Identification of ERF genes in peanuts and functional analysis of AhERF008 and AhERF019 in abiotic stress response. Wan, Liyun,Wu, Yanshan,Huang, Jiaquan,Lei, Yong,Yan, Liying,Jiang, Huifang,Liao, Boshou,Dai, Xiaofeng,Zhang, Juncheng,Varshney, Rajeev K..

[9]Isolation and characterization of two putative cytokinin oxidase genes related to grain number per spike phenotype in wheat. Zhang, Jinpeng,Liu, Weihua,Yang, Xinming,Gao, Ainong,Li, Xiuquan,Wu, Xiaoyang,Li, Lihui.

[10]The RICE MINUTE-LIKE1 (RML1) gene, encoding a ribosomal large subunit protein L3B, regulates leaf morphology and plant architecture in rice. Zheng, Ming,Wang, Yihua,Liu, Xi,Sun, Juan,Wang, Yunlong,Xu, Yang,Lv, Jia,Long, Wuhua,Zhu, Xiaopin,Jiang, Ling,Wang, Chunming,Wan, Jianmin,Guo, Xiuping,Wan, Jianmin.

[11]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.

[12]Impact of phosphorus supply on root exudation, aerenchyma formation and methane emission of rice plants. Lu, Y,Wassmann, R,Neue, HU,Huang, C.

[13]Transcriptional Modulation of Ethylene Response Factor Protein JERF3 in the Oxidative Stress Response Enhances Tolerance of Tobacco Seedlings to Salt, Drought, and Freezing. Wu, Lijun,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng,Wu, Lijun,Wang, Xue-Chen,Wu, Lijun,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng,Wu, Lijun,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng.

[14]Identification of quantitative trait loci for leaf area and chlorophyll content in maize (Zea mays) under low nitrogen and low phosphorus supply. Cai, Hongguang,Chu, Qun,Yuan, Lixing,Liu, Jianchao,Chen, Xiaohui,Chen, Fanjun,Mi, Guohua,Zhang, Fusuo,Cai, Hongguang.

[15]Transcriptomics Analysis Identified Candidate Genes Colocalized with Seed Dormancy QTLs in Rice (Oryza sativa L.). Qin, Huaide,Xie, Kun,Jiang, Ling,Wan, Jianmin,Wu, Fuqing,Cheng, Zhijun,Guo, Xiuping,Zhang, Xin,Wang, Jie,Lei, Cailin,Wang, Jiulin,Mao, Long,Wan, Jianmin.

[16]Functional analysis of GUS expression patterns and T-DNA integration characteristics in rice enhancer trap lines. Peng, H,Huang, HM,Yang, YZ,Zhai, Y,Wu, JX,Huang, DF,Lu, TG.

[17]LAX PANICLE2 of Rice Encodes a Novel Nuclear Protein and Regulates the Formation of Axillary Meristems. Hattori, Susumu,Omae, Minami,Shimizu-Sato, Sae,Sato, Yutaka,Tabuchi, Hiroaki,Zhang, Yu,Xie, He,Fang, Xiaohua,Chen, Fan,Oikawa, Tetsuo,Qian, Qian,Nishimura, Minoru,Kitano, Hidemi,Yoshida, Hitoshi,Kyozuka, Junko,Sato, Yutaka.

[18]SHALLOT-LIKE1 Is a KANADI Transcription Factor That Modulates Rice Leaf Rolling by Regulating Leaf Abaxial Cell Development. Xu, Qian,Xue, Hong-Wei,Zhang, Guang-Heng,Zhu, Xu-Dong,Qian, Qian.

[19]Unconditional and Conditional Quantitative Trait Loci Mapping for Plant Height in Nonheading Chinese Cabbage. Yi, Ying,Hou, Xilin,Geng, Jianfeng,Zhang, Xiao Wei,Yi, Ying,Hou, Xilin.

[20]The ethylene response factor AtERF11 that is transcriptionally modulated by the bZIP transcription factor HY5 is a crucial repressor for ethylene biosynthesis in Arabidopsis. Li, Zhuofu,Zhang, Lixia,Yu, Yanwen,Quan, Ruidang,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng,Li, Zhuofu,Zhang, Lixia,Yu, Yanwen,Quan, Ruidang,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng.

作者其他论文 更多>>

微信小程序