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鉴定由轮状病毒基因分型 PCR 确定为 G12 的 G8 轮状病毒株:更新当前的基因分型方法。

Identification of G8 rotavirus strains determined as G12 by rotavirus genotyping PCR: updating the current genotyping methods.

机构信息

Health Protection Agency, Centre for Infections, 61 Colindale Avenue, London, NW9 5HT, United Kingdom.

出版信息

J Clin Virol. 2010 Apr;47(4):340-4. doi: 10.1016/j.jcv.2010.01.004. Epub 2010 Feb 6.

DOI:10.1016/j.jcv.2010.01.004
PMID:20138804
Abstract

BACKGROUND

Rotaviruses are classified into G- and P-types, which are determined by the reactivity with antibodies to the outer viral proteins, VP7 and VP4, respectively, or sequence variation in the genes encoding these proteins. There are presently a number of different rotavirus strains co-circulating within the UK, with the common human strains G1P[8], G2P[4] and G9P[8] being the most prevalent. As part of strain surveillance for the European Rotavirus Network (EuroRotaNet) a cluster (n=29) of G8 strains was detected in the UK between February and May 2009.

OBJECTIVES

G8 strains were initially mistyped as G12 through multiplex RT-PCR, therefore further investigation was performed to ascertain the reasons behind this mistyping.

STUDY DESIGN

The genes encoding the VP7 of these G8 strains were sequenced and aligned with the existing G8- and G12-specific oligonucleotide primers.

RESULTS

Multiple alignment of sequences derived from these strains and the G8- and G12-specific oligonucleotide primers revealed a series of point mutations which resulted in mismatches at the 3' end of the G8-specific primer binding site that prevented amplification with the G8-specific primer, whilst a close homology with the G12-specific primer allowed mis-priming. Both the G8 and G12 primers were redesigned and their ability to correctly identify G8 and G12 strains was evaluated and confirmed.

CONCLUSION

These findings highlight the importance of monitoring the specificity and sensitivity of the genotyping methods in order to detect changes in the genotype distribution and changes associated with genetic drift of common or uncommon genotypes.

摘要

背景

轮状病毒分为 G 型和 P 型,分别由与病毒外蛋白 VP7 和 VP4 的抗体反应性或编码这些蛋白的基因中的序列变异来确定。目前,在英国有许多不同的轮状病毒株共同传播,常见的人类株 G1P[8]、G2P[4]和 G9P[8]最为流行。作为欧洲轮状病毒网络(EuroRotaNet)的菌株监测的一部分,2009 年 2 月至 5 月在英国检测到一组(n=29)G8 株。

目的

G8 株最初通过多重 RT-PCR 错误地定型为 G12,因此进行了进一步的调查,以确定这种错误定型的原因。

研究设计

对这些 G8 株的 VP7 基因进行测序,并与现有的 G8-和 G12 特异性寡核苷酸引物进行比对。

结果

对这些菌株和 G8-和 G12 特异性寡核苷酸引物衍生的序列进行多重比对显示,一系列点突变导致 G8 特异性引物结合位点的 3'末端不匹配,从而阻止了 G8 特异性引物的扩增,而与 G12 特异性引物的密切同源性允许错误引发。重新设计了 G8 和 G12 引物,并评估和证实了它们正确识别 G8 和 G12 株的能力。

结论

这些发现强调了监测基因分型方法的特异性和敏感性的重要性,以便检测基因型分布的变化以及与常见或罕见基因型遗传漂移相关的变化。

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