Screen of Receptor-like Kinase OsWAK50 Intracellular Interacting Proteins by Yeast Two-hybrid System

文献类型: 外文期刊

第一作者: Sun Li-Jing

作者: Sun Li-Jing;Sun Ying;Zhang Qian;Lu Tie-Gang

作者机构:

关键词: rice;wall-associated kinases;yeast two-hybrid;protein interaction

期刊名称:PROGRESS IN BIOCHEMISTRY AND BIOPHYSICS ( 影响因子:0.351; 五年影响因子:0.272 )

ISSN: 1000-3282

年卷期: 2012 年 39 卷 5 期

页码:

收录情况: SCI

摘要: The wall-associated kinases (WAKs) belong to a unique subfamily of the receptor-like kinases (RLKs) in plants, named for its tight association with the cell wall. There are 125 OsWAK genes in rice (Oryza saliva), of which OsWAK50 is a typical RLK with an extracellular domain, a transmembrane domain and an intracellular kinase domain. OsWAK50-GFP fusion protein is localized on the cell surface and associated with the cell wall. By the yeast two-hybrid screen, we identified 20 possible OsWAK50 intracellular interacting proteins. Further one to one reverse hybridization indicates that OsSK4, OsSWIB and OsSWI3C interact with OsWAK50 intracellular domain. OsSWIB interacts directly with the kinase domain of OsWAK50, while OsSK4 and OsSWI3C interact with OsWAK50 intracellular domain in a C terminal dependent manner. OsSK4 and OsSWIB can also interact with OsWAK53a, the closest homolog of OsWAK50 in rice, whereas OsSWI3C can not interact with OsWAK53a. The interaction between OsWAK50 and OsSK4, OsWAK.53a and OsSK4 was further confirmed by in, vivo BiFC assay. These results provide important clues for elucidating the molecular mechanisms of OsWAK50 function in rice.

分类号:

  • 相关文献

[1]Construction of gateway-compatible yeast two-hybrid vectors for high throughput analysis of protein interaction. Wang, Weixia,Zhu, Tingheng,Yang, Xiao,Wang, Kun,Cui, Zhifeng,Wong, Hann-lin. 2010

[2]Functional characterization of GhSOC1 and GhMADS42 homologs from upland cotton (Gossypium hirsutum L.). Xiaohong Zhang,Jianghui wei,Shuli Fan,Meizhen Song,Chaoyou Pang,Hengling Wei,Chengshe Wang,Shuxun Yu. 2016

[3]Molecular identification and interaction assay of the gene (OsUbc13) encoding a ubiquitin-conjugating enzyme in rice. Wang, Ya,Xu, Meng-yun,Liu, Jian-ping,Wang, Mu-gui,Tu, Ju-min,Wang, Ya,Yin, Hai-qing. 2014

[4]Interactive cellular proteins related to classical swine fever virus non-structure protein 2 by yeast two-hybrid analysis. Kang, Kai,Guo, Kangkang,Zhang, Yanming,Wu, Jiang,Li, Weiwei,Lin, Zhi,Tang, Qinhai.

[5]Identification and function analysis of the host cell protein that interacted with Orf virus Bcl-2-like protein ORFV125. Tian, Hong,Chen, Yan,Wu, Jinyan,Lin, Tong,Liu, Xiangtao.

[6]Isolation and analysis of ZmPto from maize, a homologue to Pto. Zou, Huawen,Song, Zhongjian,Wu, Zhongyi,Zhang, Xiuhai,Huang, Conglin,Zou, Huawen,Liu, Hongfang,Ma, Guohui. 2011

[7]Interaction between potyvirus P3 and ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO) of host plants. Lin, Lin,Yan, Fei,Lu, Yuwen,Zheng, Hongying,Chen, Jianping,Luo, Zhaopeng. 2011

[8]Identification of JAZ1-MYC2 Complex in Lotus corniculatus. Zhou, Meiliang,Sun, Zhanmin,Li, Jinbo,Wang, Dan,Tang, Yixiong,Wu, Yanmin,Zhou, Meiliang,Wu, Yanmin.

[9]The interaction of banana MADS-box protein MuMADS1 and ubiquitin-activating enzyme E-MuUBA in post-harvest banana fruit. Liu, Ju-Hua,Zhang, Jing,Jia, Cai-Hong,Zhang, Jian-Bin,Yang, Zi-Xian,Xu, Bi-Yu,Jin, Zhi-Qiang,Wang, Jia-Shui,Jin, Zhi-Qiang. 2013

[10]Identification for soybean host factors interacting with P3N-PIPO protein of Soybean mosaic virus. Song, Puwen,Gao, Le,Zhi, Haijian,Chen, Xin,Wu, Bingyue,Cui, Xiaoyan.

[11]Interaction study of MADS-domain proteins in tomato. Leseberg, Charles H.,Eissler, Christie L.,Johns, Mitrick A.,Duvall, Melvin R.,Mao, Long,Leseberg, Charles H.,Wang, Xiang,Mao, Long,Leseberg, Charles H.,Wang, Xiang,Mao, Long. 2008

[12]Screening and identification of host proteins interacting with Theileria annulata cysteine proteinase (TaCP) by yeast-two-hybrid system. Zhao, Shuaiyang,Guan, Guiquan,Liu, Junlong,Liu, Aihong,Li, Youquan,Yin, Hong,Luo, Jianxun,Yin, Hong. 2017

[13]A wheat PI4K gene whose product possesses threonine autophophorylation activity confers tolerance to drought and salt in Arabidopsis. Liu, Pei,Xu, Zhao-Shi,Lu, Pan-Pan,Hu, Di,Chen, Ming,Li, Lian-Cheng,Ma, You-Zhi. 2013

[14]Screening of candidate proteins interacting with IE-2 of Bombyx mori nucleopolyhedrovirus. Wu, Yejun,Wu, Yu,Wu, Yan,Tang, Hui,Wu, Huiling,Wang, Wenbing,Zhang, Guozheng.

[15]Isolation and molecular characterization of the Triticum aestivum L. ethylene-responsive factor 1 (TaERF1) that increases multiple stress tolerance. Xu, Zhao-Shi,Xia, Lan-Qin,Chen, Ming,Cheng, Xian-Guo,Zhang, Rui-Yue,Li, Lian-Cheng,Zhao, Yun-Xiang,Lu, Yan,Ni, Zhi-Yong,Liu, Li,Qiu, Zhi-Gang,Ma, You-Zhi.

[16]Functional identification of apple MdJAZ2 in Arabidopsis with reduced JA-sensitivity and increased stress tolerance. An, Xiu-Hong,Li, En-Mao,Xu, Kai,Cheng, Cun-Gang,Hao, Yu-Jin.

[17]Expression profiles and interaction suggest TBK1 can be regulated by Nrdp1 in response to immune stimulation in large yellow croaker Larimichthys crocea. Zhang, Dong Ling,Chen, Jian,Wang, Zhi Yong,Yu, Da Hui,Fan, Sigang.

[18]IPA1 functions as a downstream transcription factor repressed by D53 in strigolactone signaling in rice. Song, Xiaoguang,Lu, Zefu,Yu, Hong,Shao, Gaoneng,Xiong, Jinsong,Meng, Xiangbing,Jing, Yanhui,Liu, Guifu,Xiong, Guosheng,Duan, Jingbo,Wang, Yonghong,Li, Jiayang,Song, Xiaoguang,Lu, Zefu,Yu, Hong,Shao, Gaoneng,Xiong, Jinsong,Meng, Xiangbing,Jing, Yanhui,Liu, Guifu,Xiong, Guosheng,Duan, Jingbo,Wang, Yonghong,Li, Jiayang,Shao, Gaoneng,Li, Jiayang,Yao, Xue-Feng,Liu, Chun-Ming,Li, Hongqing,Lu, Zefu,Xiong, Jinsong,Xiong, Guosheng. 2017

[19]Thellungiella halophila ThPIP1 gene enhances the tolerance of the transgenic rice to salt stress. Qiang Xiao-jing,Yu Guo-hong,Jiang Lin-lin,Sun Lin-lin,Zhang Shu-hui,Li Wei,Cheng Xian-guo,Sun Lin-lin,Zhang Shu-hui. 2015

[20]Double repression of soluble starch synthase genes SSIIa and SSIIIa in rice (Oryza sativa L.) uncovers interactive effects on the physicochemical properties of starch. Zhang, Guoyu,Cheng, Zhijun,Zhang, Xin,Guo, Xiuping,Su, Ning,Mao, Long,Wan, Jianmin,Zhang, Guoyu,Cheng, Zhijun,Zhang, Xin,Guo, Xiuping,Su, Ning,Mao, Long,Wan, Jianmin,Jiang, Ling,Wan, Jianmin.

作者其他论文 更多>>

微信小程序