遗传 ›› 2010, Vol. 32 ›› Issue (7): 701-711.doi: 10.3724/SP.J.1005.2010.00701

• 研究报告 • 上一篇    下一篇

不同宿主H1N1病毒血凝素蛋白(HA)受体结合位点的变异特征

傅天韵1,娄维义2,石铁流2   

  1. 1. 华东师范大学第二附属中学, 上海201203; 2. 华东师范大学生命科学学院, 上海200062
  • 收稿日期:2009-10-10 修回日期:2010-02-02 出版日期:2010-07-20 发布日期:2010-07-20
  • 通讯作者: 石铁流 E-mail:tieliushi@yahoo.com

Variation feature of receptor binding sites of H1N1 influenza he-magglutinin in different hosts

FU Tian-Yun1, LOU Wei-Yi1, SHI Tie-Liu2   

  1. 1. No. 2 High School of East China Normal University, Shanghai 201203, China; 2. School of Life Sciences, East China Normal University, Shanghai 200062, China
  • Received:2009-10-10 Revised:2010-02-02 Online:2010-07-20 Published:2010-07-20
  • Contact: SHI Tie-Liu E-mail:tieliushi@yahoo.com

摘要: 2009年全球性爆发的H1N1病毒已经导致213个国家和地区受到感染, 有16 226人死亡。病毒与宿主细胞表面受体的结合是病毒感染不可缺少的第一步, 从而导致病毒膜与宿主细胞膜的融合。血凝素(Hemagglutinin, HA)就是介导这种受体结合与膜融合的病毒蛋白, 受体结合位点(Receptor binding sites, RBSs)位于HA蛋白三聚体中每个单体的球形头部, 主要由190位螺旋(190~198aa)、130位环(135~138aa)和220位环(221~228)3个二级结构域组成。文章收集了1918~2009年间1 221株H1N1病毒株的HA1序列(长度为327个氨基酸残基), 通过序列比对、各位点氨基酸残基的熵值以及3D结构模拟等生物信息学研究。结果显示不同宿主的不同病毒RBSs具有不同的熵值, 而且不同宿主的病毒HA1其RBSs具有不同的优势序列。3D结构模拟也显示了H1N1不同HA1之间在190位螺旋构象上的细微差异。该研究揭示了不同HA1上RBSs的一些新的特征, 为进一步探讨病毒感染的机理提供了新的信息

关键词: H1N1流感病毒, 受体结合位点, 变异特征, 生物信息学分析

Abstract: Recent outbreak of H1N1 virus worldwide has caused 16 226 deaths in over 213 countries and districts. Binding between the virus and the receptor on the host cell surface is the key initial event for the infection, which results in the fusion of viral host cell membrane. Hemagglutinin (HA) is the viral protein that mediates the receptor binding and membrane fusion. The receptor binding sites (RBSs) are located at the membrane-distal part of each subunit of the HA trimer and are formed by three secondary structure elements, 190 helix (residues 190 to 198), 130 loop (residues 135 to 138), and 220 loop (residues 221 to 228). HA1 with 327 amino acid sequences in length was collected from 1221 H1N1 viruses between 1918 and 2009, and bioinformatic studies were carried out through sequence comparison, entropy calculation for each amino acid residue, and 3D structure modeling. The results showed that the RBSs of different viruses with different hosts have different entropies, and the RBSs in HA1 with different hosts have different favorite amino acid sequences. The 3D modeling indicates the subtly conformation changes in the 190 helix region between different HA1s in H1N1. This study explores new characters of the RBS structure in different HA1s, and provides new information for the further investigation of the infection mechanism.

Key words: H1N1 influenza, receptor binding site, variation feature, bioinformatics analysis