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为了探讨中国H3N2亚型人流感病毒血凝素基因变异与流行关系,对1995~2005年中国分离的550株H3N2流感病毒的HA1序列进行分析。HA1基因进化树显示出以很长的主干和很短的侧枝为特征。HA1的氨基酸位点变异主要位于5个已知的抗原位点及其附近,同时其它位点也有改变。通过对HA1序列资料分析发现这期间导致H3N2流行的序列改变的三种可能,第一种是同时出现多位点变化,第二种是位点变化逐渐发生累积到多个位点变化,第三种是单个抗原位点和受体结合位点同时改变,均可以引起H3N2流行。
Abstract:To study the correlation of human influenza A/H3N2 hemagglutinin gene variation and the epidemic from 1995 to 2005 in China,550 HA1 sequences of H3N2 viruses isolated in China were analyzed with phylogenetic tree.The results showed that the evolution of HA1 represented a long trunk with short side branches.The animo acid changes of HA1 mostly located at the antigenic sites or aside of them,but also may occur at the other sites simultaneously.The analysis also showed three possibilities of HA1 variation to cause H3N2 epidemic,the first is multiple site mutations happened simultaneously;the second is mutation sites happened gradually and then accumulated to multiple sites;the third is a single antigenic site mutation occurred simultaneously with the receptor binding site variation.
[1]王君,戴富强,刘敏,等.流行性感冒疫苗在小学生中临床效果及经济效益评估[J].中华流行病学杂志,2001,22:477.
[2]郭元吉,程小雯.流行性感冒病毒及其实验技术[M].北京:中国三峡出版社,1997:87-88.
[3]Wile D C,Wilson I A,Skehel J J,et al.Structural i-dentification of the antibody-binding sites of Hong Konginfluenza hemagglutinin and their involvement in antigen-tic variation[J].Nature,1981,289:373-378.
[4]Weis W,Brown J H,Cusack S,et al.Structure of theinfluenza virus haemagglutinin complexed with its recep-tor,sialic acid[J].Nature,1998,333:426-431.
[5]Fitch W M,Bush R M,Bender C A,et al.Long termtrends in the evolution of H(3)HA1 human influenzatype A[J].Proc Natl Acad.Sci USA,1997,94:7712-7718.
[6]Bush R M,Bender C A,Subbarao K,et al.Predictingthe evolution of human influenza A[J].Science,1999,286:1921-1925.
[7]郭元吉,徐西雁,王敏,等.1979~1992年H3N2亚型流感病毒的血凝素基因进化的研究[J].中华实验和临床病毒学杂志,1994,84:291-296.
[8]张烨,温乐英,李梓,等.2000~2002年我国流行的甲3(H3N2)亚型流感病毒抗原性及基因特性的研究[J].中华实验和临床病毒学杂志,2004,18(1):16-19.
[9]张烨,李梓,郭俊峰,等.中国2000~2001年流行性感冒流行概况[J].中华流行病学杂志,2003,24(1):4-6.
[10]王勇,陈淑霞,薛颖,等.中国历年H3N2亚型人流感病毒血凝素基因的序列测定及分析[J].病毒学报,2002,18(2):118-125.
[11]Saiki R K,Delfand D H,Stattels A,et al.Primer di-rected enzymatic amplification of DNA with a thermo-stable DNA polymerase[J].Science,1988,239:487-491.
[12]Kumar,Tamura K,Nei M.MEGA3,integrated soft-ware for molecular evolutionary genetics analysis andsequence alignment[J].Briefings in Bioinformatics,2004,5:150-163.
[13]Guo Y J,Wang M,Dong J,et al.Influenza surveil-lance in China from January 1985 to June 1996[C].Fourth International Conference of Viral Disease Epi-demic,Diagnosis,Prevention and Therapy.Lamhou,PR China,1996,9:16-20.
[14]Guo Y J.Influenza activity in China:1998-1999[J].Vaccine,2002,20(Suppl 2):S28-S35.
[15]徐红.中国2002~2003年度流行性感冒监测分析[J].中华流行病学杂志,2003,4(11):995-998.
[16]Abe Y,Takashita E,Sugawara K,et al.Effect of theaddition of oligosaccharides on the biological activitiesand antigenicity of influenza A/H3N2 virus hemagglu-tinin[J].J Virol,2004,78(18):9605-9611.
[17]Jin H,Zhou H,Liu H,et al.Two residues in the he-magglutinin of A/Fujian/411/02 like influenza virusesare responsible for antigenic drift from A/Panama/2007/99[J].Virology,2005,336:113-119.
[18]Thompson C I,Barclay W S,Zambon M C,et al.In-fection of human airway epithelium by human and avianstrains of influenza A virus[J].J Virol,2006,80(16):8060-8068.
[19]Gupta V,Earl D J,Deem M W,et al.Quantifying in-fluenza vaccine efficacy and antigenic distance[J].Vac-cine,2006,24(18):3881-3888.
[20]Wolf Y I,Vibound C,Holmes E C,et al.Long inter-val of stasis punctuated by bursts of positive selectionin the seasonal evolution of influenza A virus[J].Biol-ogy Direct,2006,1:34.
基本信息:
中图分类号:R373.2
引用信息:
[1]董丽波,张烨,温乐英,等.1995~2005年中国H3N2亚型人流感病毒血凝素基因变异与流行相关性研究[J].病毒学报,2007(05):339-344.
基金信息:
国家自然科学基金重大项目(编号:30599433);; 国家重点研究发展计划(973计划)项目(编号:2005CB523006)资助
2007-09-15
2007-09-15