Multiple proteins of White spot syndrome virus involved in recognition of beta-integrin

文献类型: 外文期刊

第一作者: Zhang, Jing-Yan

作者: Zhang, Jing-Yan;Liu, Qing-Hui;Huang, Jie;Zhang, Jing-Yan

作者机构:

关键词: Binding motif;beta-integrin;proteins;recognition;WSSV

期刊名称:JOURNAL OF BIOSCIENCES ( 影响因子:1.826; 五年影响因子:2.107 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The recognition and attachment of virus to its host cell surface is a critical step for viral infection. Recent research revealed that beta-integin was involved in White spot syndrome virus (WSSV) infection. In this study, the interaction of beta-integrin with structure proteins of WSSV and motifs involved in WSSV infection was examined. The results showed that envelope proteins VP26, VP31, VP37, VP90 and nucleocapsid protein VP136 interacted with LvInt. ROD-, YGL- and LDV-related peptide functioned as motifs of WSSV proteins binding with beta-integrin. The beta-integrin ligand of RGDT had better blocking effect compared with that of YGL- and LDV-related peptides. In vivo assay indicated that ROD-, LDV- and YGL-related peptides could partially block WSSV infection. These data collectively indicate that multiple proteins were involved in recognition of P-integrin. Identification of proteins in WSSV that are associated with P-integrin will assist development of new agents for effective control of the white spot syndrome

分类号: Q

  • 相关文献

[1]Study on Recognition of the True or False Red Wine Based on Visible-Near Infrared Spectroscopy. Guo Hai-xia,Wang Tao,Liu Yang,Wu Hai-yun,Zuo Yue-ming,Song Hai-yan,He Jin-yu. 2011

[2]Research on Key Technology of Truss Tomato Harvesting Robot in Greenhouse. Ji, Chao,Yuan, Ting,Li, Wei,Zhang, Jing. 2014

[3]Tire Tread Pattern Recognition and Feature Analyzing Based on Hu Moment. Zhang, Fan,Li, Puwang,Li, Yongzhen,Liu, Yijun,Yang, Ziming. 2017

[4]Mucosal-Associated Invariant T Cells: New Insights into Antigen Recognition and Activation. Xiao, Xingxing,Cai, Jianping,Xiao, Xingxing,Cai, Jianping. 2017

[5]Synthesis of Reversible Fluorescence Quenched Probe for Cu2+ and Imaging in PK-15 cells. Zhang Yingpeng,You Caixia,Yang Yunshang,Liu Xiaoyu,Dong Yuying,Guo Huichen. 2016

[6]Recognition method of cotton blind stinkbug hazard level based on image processing. Zhang, Jianhua,Zhu, Mengshuai,Kong, Fantao,Chen, Wei,Wu, Jianzhai. 2014

[7]Short communication: Identification of geographical indication tea with Fisher's discriminant classification and principal components analysis. Zhou, Jian,Cheng, Hao,Wang, Liyuan,Liu, Xu,Lu, Wenyuan,He, Wei. 2009

[8]Computer vision recognition of stem and calyx in apples using near-infrared linear-array structured light and 3D reconstruction. Zhang, Baohua,Gong, Liang,Zhao, Chunjiang,Liu, Chengliang,Huang, Danfeng,Huang, Wenqian,Wang, Chaopeng,Zhao, Chunjiang,Huang, Wenqian,Wang, Chaopeng,Zhao, Chunjiang,Huang, Wenqian,Wang, Chaopeng,Zhao, Chunjiang,Huang, Wenqian,Wang, Chaopeng,Zhao, Chunjiang.

[9]Identification and characterization of lymph organ microRNAs in red swamp crayfish, Procambarus clarkii infected with white spot syndrome virus. Du, Zhi-Qiang,Leng, Xiao-Yun,Jin, Yan-Hui,Shen, Xiu-Li,Li, Xin-Cang. 2017

[10]Isolation of Prawn (Exopalaemon carinicauda) Lipopolysaccharide and beta-1, 3-Glucan Binding Protein Gene and Its Expression in Responding to Bacterial and Viral Infections. Ge Qianqian,Li Jitao,Sun Ming,Ge Qianqian,Li Jian,Sun Ming,Zhao Fazhen,Ge Qianqian,Li Jian,Sun Ming,Zhao Fazhen,Duan Yafei. 2016

[11]Expression profiles of the p38 MAPK signaling pathway from Chinese shrimp I Fenneropenaeus chinensis in response to viral and bacterial infections. He, Yuying,Liu, Ping,Li, Jian,Wang, Qingyin,He, Yuying,Li, Jian,Yao, Wanlong. 2018

[12]Bioassay evidence for the transmission of WSSV by the harpacticoid copepod Nitocra sp.. Zhang, Jia-Song,Dong, Shuang-Lin,Dong, Yun-Wei,Tian, Xiang-Li,Hou, Chun-Qiang,Zhang, Jia-Song. 2008

[13]White spot syndrome virus VP51 interact with ribosomal protein L7 of Litopenaeus vannamei. Liu, Qing-hui,Ma, Fang-fang,Guan, Guang-Kuo,Wang, Xiu-Fang,Li, Chen,Huang, Jie,Liu, Qing-hui,Li, Chen,Huang, Jie,Ma, Fang-fang,Guan, Guang-Kuo,Wang, Xiu-Fang.

[14]Litopenaeus vannamei clathrin coat AP17 involved in white spot syndrome virus infection. Wang, Xiu-Fang,Liu, Qing-Hui,Huang, Jie,Wang, Xiu-Fang,Wu, Yin,Liu, Qing-Hui,Huang, Jie.

[15]Virus-phytoplankton adhesion: a new WSSV transmission route to zooplankton. Mang Jiasong,Dong Shuanglin,Tian Xiangli,Dong Yunwei,Liu Xiangyi,Mang Jiasong,Liu Xiangyi,Yan Dongchun. 2007

[16]Relationship between white spot syndrome virus (WSSV) loads and characterizations of water quality in Litopenaeus vannamei culture ponds during the tropical storm. Zhang, J. S.,Li, Z. J.,Wen, G. L.,Luo, L.,Dong, H. B.,Wang, G. L.,Zhang, H. J.,Luo, L.. 2016

[17]A farnesoic acid O-methyltransferase (FAMeT) from Exopalaemon carinicauda is responsive to Vibrio anguillarum and WSSV challenge. Duan, Yafei,Liu, Ping,Li, Jitao,Li, Jian,Chen, Ping,Duan, Yafei,Wang, Yun.

[18]Sf-PHB2, A new transcription factor, Drives WSSV Ie1 Gene Expression via a 12-bp DNA Element. Ma, Guoda,Yu, Li,Wang, Qian,Ma, Guoda,Cui, Yudong,Liu, Wei,Kwang, Jimmy. 2012

[19]Efficiency of two fragments of VP28 against White Spot Syndrome Virus in Litopenaeus vannamei. Qiu, Zhi-guang,Liu, Qing-hui,Huang, Jie. 2012

[20]VP90 of white spot syndrome virus interacts with VP26 and VP28. Li, Qian,Liu, Qing-Hui,Huang, Jie,Li, Qian. 2012

作者其他论文 更多>>

微信小程序