Okamoto H, Kobata S, Tokita H, Inoue T, Woodfield G D, Holland P V, Al-Knawy B A, Uzunalimoglu O, Miyakawa Y, Mayumi M
Immunology Division, Jichi Medical School, Tochigi-Ken, Japan.
J Virol Methods. 1996 Mar;57(1):31-45. doi: 10.1016/0166-0934(95)01960-x.
A second-generation method of genotyping hepatitis C virus (HCV) was developed by the polymerase chain reaction (PCR) with sense as well as antisense primers deduced from the core gene. HCV RNA specimens extracted from sera were reverse-transcribed and amplified with universal primers in the first round of PCR to obtain fragments of 433 base pairs representing nucleotides 319-751. In the second round of PCR, portions of PCR products were amplified separately with sense and antisense primers specific for each of the five common genotypes prevailing across the world, i.e., I/1a, II/1b, III/2a, IV/2b and V/3a. The specificity of the method was verified by a panel of 177 HCV isolates of various genotypes in the genetic groups 1-9. It allowed clear differentiation of genotype I/1a from II/1b which was not always accomplished by the previous method. When 501 sera from blood donors and hepatitis patients with HCV viremia from various countries were genotyped by the second-generation method, 478 (95.4%) were classified into the five genotypes. HCV RNA samples from 23 (4.6%) sera were not classifiable into any of the five common genotypes and, by sequence analysis, 22 were found to be of four genotypes in group 4 and one of genotype 1c in Simmond's classification.
通过聚合酶链反应(PCR)开发了一种第二代丙型肝炎病毒(HCV)基因分型方法,该方法使用从核心基因推导的正义和反义引物。从血清中提取的HCV RNA标本在第一轮PCR中用通用引物进行逆转录和扩增,以获得代表核苷酸319 - 751的433个碱基对的片段。在第二轮PCR中,用针对全球流行的五种常见基因型(即I/1a、II/1b、III/2a、IV/2b和V/3a)各自的正义和反义引物分别扩增部分PCR产物。该方法的特异性通过1 - 9遗传组中177株不同基因型的HCV分离株进行了验证。它能够清晰地区分I/1a基因型和II/1b基因型,而之前的方法并非总能做到这一点。当用第二代方法对来自不同国家的501份献血者血清和HCV病毒血症肝炎患者血清进行基因分型时,478份(95.4%)被归类为五种基因型。来自23份(4.6%)血清的HCV RNA样本无法归类为五种常见基因型中的任何一种,通过序列分析发现,22份属于第4组的四种基因型,1份属于西蒙兹分类中的1c基因型。
