Sacristán Soledad, Malpica José M, Fraile Aurora, García-Arenal Fernando
Departamento de Biotecnología, E.T.S. Ingenieros Agrónomos, Universidad Politécnica de Madrid, 28040 Madrid, Spain.
J Virol. 2003 Sep;77(18):9906-11. doi: 10.1128/jvi.77.18.9906-9911.2003.
More often than not, analyses of virus evolution have considered that virus populations are so large that evolution can be explained by purely deterministic models. However, virus populations could have much smaller effective numbers than the huge reported census numbers, and random genetic drift could be important in virus evolution. A reason for this would be population bottlenecks during the virus life cycle. Here we report a quantitative estimate of population bottlenecks during the systemic colonization of tobacco leaves by Tobacco mosaic virus (TMV). Our analysis is based on the experimental estimation of the frequency of different genotypes of TMV in the inoculated leaf, and in systemically infected leaves, of tobacco plants coinoculated with two TMV genotypes. A simple model, based on the probability that a leaf in coinoculated plants is infected by just one genotype and on the frequency of each genotype in the source, was used to estimate the effective number of founders for the populations in each leaf. Results from the analysis of three leaves per plant in plants inoculated with different combinations of three TMV genotypes yielded highly consistent estimates. Founder numbers for each leaf were small, in the order of units. This would result in effective population numbers much smaller than the census numbers and indicates that random effects due to genetic drift should be considered for understanding virus evolution within an infected plant.
通常情况下,对病毒进化的分析认为病毒群体数量如此之大,以至于进化可以用纯粹的确定性模型来解释。然而,病毒群体的有效数量可能比所报道的庞大普查数量小得多,并且随机遗传漂变在病毒进化中可能很重要。其原因可能是病毒生命周期中的群体瓶颈。在此,我们报告了烟草花叶病毒(TMV)在烟草叶片系统定殖过程中群体瓶颈的定量估计。我们的分析基于对接种了两种TMV基因型的烟草植株的接种叶和系统感染叶中不同TMV基因型频率的实验估计。一个基于共接种植株中的叶片仅被一种基因型感染的概率以及每种基因型在来源中的频率的简单模型,被用于估计每片叶中群体的有效奠基者数量。对接种了三种TMV基因型不同组合的植株中每株的三片叶进行分析的结果产生了高度一致的估计值。每片叶的奠基者数量很少,为个位数。这将导致有效群体数量远小于普查数量,并表明为了理解受感染植物内的病毒进化,应考虑遗传漂变引起的随机效应。