Ferguson William, Dvora Shira, Gallo Juliana, Orth Annie, Boissinot Stéphane
Department of Biology, Queens College, The City University of New York, USA.
Mol Biol Evol. 2008 Aug;25(8):1609-18. doi: 10.1093/molbev/msn106. Epub 2008 May 5.
Oligoadenylate synthetases (OASs) are interferon-inducible enzymes that participate in the first line of defense against a wide range of viral infection. Recent studies have determined that Oas1b, a member of the OAS gene family in the house mouse (Mus musculus), provides specific protection against flavivirus infection (e.g., West Nile virus, dengue fever virus, and yellow fever virus). We characterized the nucleotide sequence variation in coding and noncoding regions of the Oas1b gene for a large number of wild-derived strains of M. musculus and related species. Our sequence analyses determined that this gene is one of the most polymorphic genes ever described in any mammal. The level of variation in noncoding regions of Oas1b is an order of magnitude higher than the level reported for other regions of the mouse genome and is significantly different from the level of intraspecific variation expected under neutrality. Furthermore, a phylogenetic analysis of intronic sequences demonstrated that Oas1b alleles are ancient and that their divergence predates several speciation events, resulting in transspecific polymorphisms. The amino acid sequence of Oas1b is also extremely variable, with 1 out of 7 amino acid positions being polymorphic within M. musculus. Oas1b alleles are comparatively more divergent at synonymous positions than most autosomal genes and the ratio of nonsynonymous to synonymous substitution is remarkably high, suggesting that positive selection has been acting on Oas1b. The ancestry of Oas1b polymorphisms and the high level of amino acid polymorphisms strongly suggest that the allelic variation at Oas1b has been maintained in mouse populations by long-term balancing selection.
寡腺苷酸合成酶(OASs)是干扰素诱导型酶,参与针对多种病毒感染的第一道防线。最近的研究已确定,小家鼠(Mus musculus)OAS基因家族的成员Oas1b可提供针对黄病毒感染(如西尼罗河病毒、登革热病毒和黄热病毒)的特异性保护。我们对大量小家鼠野生衍生株及相关物种的Oas1b基因编码区和非编码区的核苷酸序列变异进行了表征。我们的序列分析确定,该基因是在任何哺乳动物中描述过的多态性最高的基因之一。Oas1b非编码区的变异水平比小鼠基因组其他区域报道的水平高一个数量级,且与中性条件下预期的种内变异水平显著不同。此外,内含子序列的系统发育分析表明,Oas1b等位基因很古老,它们的分歧早于几次物种形成事件,从而导致了跨物种多态性。Oas1b的氨基酸序列也极具变异性,小家鼠中有七分之一的氨基酸位置是多态性的。与大多数常染色体基因相比,Oas1b等位基因在同义位置上的分歧相对更大,非同义替换与同义替换的比率非常高,这表明正选择一直在作用于Oas1b。Oas1b多态性的祖先以及高水平的氨基酸多态性强烈表明,Oas1b的等位基因变异在小鼠种群中是通过长期的平衡选择得以维持的。