Casas I, Palacios G F, Trallero G, Cisterna D, Freire M C, Tenorio A
Service of Diagnostic Microbiology, Centro Nacional de Microbiología, Instituto de Salud Carlos III, Majadahonda, Madrid, Spain.
J Med Virol. 2001 Sep;65(1):138-48.
Three nested RT-PCR assays were developed to permit sensitive typing of enteroviruses directly from clinical samples. These assays amplified short fragments from different genomic regions codifying for three proteins: VP2, VP1, and RNA polymerase. Given that enteroviruses have a high rate of degeneration within target codons among serotypes, the primers used consisted of mixed base and deoxyinosine residues. These techniques detected at 0.03-0.003 TCID50 of prototype Poliovirus 1 and Echovirus 30. They were used to characterize the enteroviral RNA detected in 18 CSF, stool, and throw swab samples and in 8 enterovirus isolates from patients with several syndromes. Phylogenetic analysis in each independent sequenced region grouped the enterovirus into four clusters, enabling genetic classification. A comparative study was performed among the 26 sequences obtained after direct sequencing of products with those available in the nucleotide databases. The efficiency of each assay for enterovirus identification was evaluated by both distance (Clustal) and similarity (M-NW) indices. Comparative results obtained independently in the three regions showed the highest yield of correlation between nucleotide sequences of all prototype serotypes and the analyzed genotypes in the VP1 region (26/26, 100% Clustal; 22/26, 85% M-NW). Conversely, the VP2 region failed to identify some of the circulating enteroviruses (17/26, 65% Clustal; 16/26, 62% M-NW). Using the RNA polymerase region, sequences from samples and isolates were associated with prototype strains whenever these were available (20/21, 95% Clustal; 12/21, 57% M-NW). These assays were useful for molecular identification of enterovirus directly from samples even when isolation was not possible.
开发了三种巢式逆转录聚合酶链反应(RT-PCR)检测方法,以便直接从临床样本中对肠道病毒进行灵敏分型。这些检测方法从编码三种蛋白质(VP2、VP1和RNA聚合酶)的不同基因组区域扩增短片段。鉴于肠道病毒在血清型的靶密码子内具有较高的变异率,所用引物由混合碱基和脱氧肌苷残基组成。这些技术能检测到0.03 - 0.003半数组织培养感染剂量(TCID50)的脊髓灰质炎病毒1型原型株和埃可病毒30型。它们被用于鉴定18份脑脊液、粪便和咽拭子样本以及8株来自患有多种综合征患者的肠道病毒分离株中检测到的肠道病毒RNA。在每个独立测序区域进行的系统发育分析将肠道病毒分为四个簇,从而实现基因分类。对产物直接测序后获得的26个序列与核苷酸数据库中可用的序列进行了比较研究。通过距离(Clustal)和相似性(M-NW)指数评估了每种检测方法对肠道病毒鉴定的效率。在三个区域独立获得的比较结果显示,所有原型血清型的核苷酸序列与VP1区域分析的基因型之间的相关性最高(Clustal法为26/26,100%;M-NW法为22/26,85%)。相反,VP2区域未能鉴定出一些流行的肠道病毒(Clustal法为17/26,65%;M-NW法为16/26,62%)。利用RNA聚合酶区域,只要有原型株可用,样本和分离株的序列就能与之关联(Clustal法为20/21,95%;M-NW法为12/21,57%)。即使无法进行分离,这些检测方法对于直接从样本中进行肠道病毒的分子鉴定也很有用。
