一种重组GII.13[P21]诺如病毒株的鉴定：分子动力学模拟表明基因突变改变了其与宿主受体聚糖的结合谱。

Identification of a recombinant GII.13[P21] norovirus strain: molecular dynamic simulations indicate that gene mutations shifted its spectrum of binding to host receptor glycans.

作者信息

Chen Yunfei, Zhou Zexian, Dong Lei, Jin Miao, Wang Yongjie, Yu Yongxin

机构信息

College of Food Science and Technology, Shanghai Ocean University, Shanghai, China.

National Institute for Viral Disease Control and Prevention, Chinese Center for Disease Control and Prevention, Beijing, China.

出版信息

Arch Virol. 2025 Apr 1;170(5):94. doi: 10.1007/s00705-025-06277-7.

DOI:10.1007/s00705-025-06277-7

PMID:40169405

Abstract

Human norovirus is a pervasive pathogen that causes global outbreaks of viral gastroenteritis. Previous studies have suggested that histo-blood group antigens (HBGAs) can interact with human norovirus, facilitating its entry of host cells and significantly affecting its evolution. In this study, the complete genome sequence of recombinant GII.13[P21] norovirus from fecal samples was analyzed. Molecular dynamics simulations of GII.13 norovirus P proteins from 1978 to 2019 showed changes in their capacity to bind to HBGAs. Initially, GII.13 proteins bound A or B/H-type HBGAs, but subsequent mutations resulted in a loss of this binding capacity, favoring binding to the HBGA type I precursor (Lewis c) over A or B/H and Lewis antigens.

摘要

人诺如病毒是一种普遍存在的病原体，可引发全球病毒性肠胃炎疫情。先前的研究表明，组织血型抗原（HBGAs）可与人诺如病毒相互作用，促进其进入宿主细胞，并显著影响其进化。在本研究中，对来自粪便样本的重组GII.13[P21]诺如病毒的全基因组序列进行了分析。对1978年至2019年GII.13诺如病毒P蛋白的分子动力学模拟显示，其与HBGAs结合的能力发生了变化。最初，GII.13蛋白可结合A或B/H型HBGAs，但随后的突变导致这种结合能力丧失，相比于A或B/H以及Lewis抗原，更倾向于结合I型HBGA前体（Lewis c）。

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Identification of a recombinant GII.13[P21] norovirus strain: molecular dynamic simulations indicate that gene mutations shifted its spectrum of binding to host receptor glycans.一种重组GII.13[P21]诺如病毒株的鉴定：分子动力学模拟表明基因突变改变了其与宿主受体聚糖的结合谱。

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一种重组GII.13[P21]诺如病毒株的鉴定：分子动力学模拟表明基因突变改变了其与宿主受体聚糖的结合谱。

Identification of a recombinant GII.13[P21] norovirus strain: molecular dynamic simulations indicate that gene mutations shifted its spectrum of binding to host receptor glycans.

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