Martella Vito, Terio Valentina, Arista Serenella, Elia Gabriella, Corrente Marialaura, Madio Anna, Pratelli Annamaria, Tempesta Maria, Cirani Antonio, Buonavoglia Canio
Department of Animal Health and Well-Being, University of Bari, Bari, Italy.
J Med Virol. 2004 Jan;72(1):143-8. doi: 10.1002/jmv.10563.
A modified (aFT9m) and a degenerate (aFT9d) version of the rotavirus G9-specific primer (aFT9) allowed strains that were previously untypable, because of point mutations accumulating at the primer binding site, to be G typed by reverse transcription-polymerase chain reaction. The strains were collected during 2001-2002 in Italy in hospitals of the Apulia region, from children affected by severe rotavirus-associated enteritis. Using a wide selection of G9 rotaviruses detected worldwide, sequencing of the G9 untypable strains, sequence comparison, and phylogenetic analysis showed that the Italian strains have strong genetic similarity (< or =99.4%) to G9 rotaviruses identified recently in many parts of the world and different from the old G9 strains identified during the 1980s (less than 90%). Genetic variation of G9 rotaviruses explains the constraints encountered in the typing assays and presumably accounts, together with genetic reassortment events, for the emergence on a global scale of the G9 serotype.
轮状病毒G9特异性引物(aFT9)的一个修饰版本(aFT9m)和一个简并版本(aFT9d),使得那些由于引物结合位点积累点突变而先前无法分型的毒株,能够通过逆转录-聚合酶链反应进行G分型。这些毒株于2001年至2002年期间在意大利普利亚地区的医院收集,来自患有严重轮状病毒相关性肠炎的儿童。通过对全球检测到的多种G9轮状病毒进行广泛选择,对无法分型的G9毒株进行测序、序列比较和系统发育分析表明,意大利毒株与最近在世界许多地区鉴定出的G9轮状病毒具有很强的遗传相似性(≤99.4%),与20世纪80年代鉴定出的旧G9毒株不同(小于90%)。G9轮状病毒的基因变异解释了分型检测中遇到的限制,并且可能与基因重配事件一起,导致了G9血清型在全球范围内的出现。