Ramachandran M, Gentsch J R, Parashar U D, Jin S, Woods P A, Holmes J L, Kirkwood C D, Bishop R F, Greenberg H B, Urasawa S, Gerna G, Coulson B S, Taniguchi K, Bresee J S, Glass R I
Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia, USA.
J Clin Microbiol. 1998 Nov;36(11):3223-9. doi: 10.1128/JCM.36.11.3223-3229.1998.
We recently established a rotavirus strain surveillance system in the United States to monitor the prevalent G serotypes before and after the anticipated implementation of a vaccination program against rotavirus and to identify the emergence of uncommon strains. In this study, we examined 348 rotavirus strains obtained in 1996 to 1997 from children with diarrhea in 10 U.S. cities. Strains were characterized for P and G types, subgroups, and electropherotypes by using a combination of monoclonal antibody immunoassay, reverse transcription-PCR, and hybridization. The four strains most commonly found worldwide comprised 83% of the isolates (P[8]G1, 66.4%; P[4]G2, 8.3%; P[8]G3, 6.9%; P[8]G4, 1.4%), but 9.2% were unusual strains (P[6]G9, 5.5%; P[8]G9, 1.7%; P[6]G1, 1.4%; and P[4]G1 and P[8]G2, 0. 3% each). Strains not typeable for P or G type accounted for 5.5% of the total, while 2.3% of the strains had more than one G type (mixed infections). All P[6]G9 strains tested had short electropherotypes and subgroup I specificity and were detected in 4 of 10 cities, while P[8]G9 strains had long electropherotypes and subgroup II VP6 antigens. Both sequence analysis of the VP7 open reading frame (about 94 to 95% amino acid identity with the VP7 gene of G9 prototype strain WI61) and binding to a G9-specific monoclonal antibody strongly suggest that U.S. G9 strains belong to serotype G9. The high detection rates of unusual rotaviruses with G9 (7.2%) or P[6] (6.9%) specificity in multiple U.S. cities suggest the emergence of new strains or inadequate diagnosis in the past. The epidemiologic importance of these strains remains to be determined.
我们最近在美国建立了一个轮状病毒株监测系统,以监测在预期实施轮状病毒疫苗接种计划前后流行的G血清型,并识别不常见毒株的出现。在本研究中,我们检测了1996年至1997年从美国10个城市腹泻儿童中获得的348株轮状病毒。通过使用单克隆抗体免疫测定、逆转录聚合酶链反应和杂交相结合的方法,对毒株的P和G型、亚组和电泳型进行了鉴定。全球最常见的四种毒株占分离株的83%(P[8]G1,66.4%;P[4]G2,8.3%;P[8]G3,6.9%;P[8]G4,1.4%),但9.2%为不常见毒株(P[6]G9,5.5%;P[8]G9,1.7%;P[6]G1,1.4%;P[4]G1和P[8]G2各占0.3%)。无法分型P或G型的毒株占总数的5.5%,而2.3%的毒株有不止一种G型(混合感染)。所有检测的P[6]G9毒株都有短电泳型和I亚组特异性,在10个城市中的4个城市被检测到,而P[8]G9毒株有长电泳型和II亚组VP6抗原。VP7开放阅读框的序列分析(与G9原型毒株WI61的VP7基因约94%至95%的氨基酸同一性)以及与G9特异性单克隆抗体的结合都强烈表明美国的G9毒株属于血清型G9。在美国多个城市中,具有G9(7.2%)或P[6](6.9%)特异性的不常见轮状病毒的高检出率表明出现了新毒株或过去诊断不足。这些毒株的流行病学重要性仍有待确定。