Department of Medical Microbiology and Immunology, College of Medicine, University of Toledo Health Science Campus, Toledo, OH 43614, USA.
J Gen Virol. 2010 Jun;91(Pt 6):1484-93. doi: 10.1099/vir.0.017855-0. Epub 2010 Jan 27.
Host radiation refers to the ability of parasites to adapt to new environments and expand or change their niches. Adaptation to one specific environment may involve a loss in adaptation to a second environment. Thus, fitness costs may impose limits to niche expansion and constitute the cost of specialization. Several reports have addressed the cost of host radiation in vesicular stomatitis virus (VSV), but in some cases the experimental setup may have resulted in the overestimation of fitness costs. To clarify this issue, experiments were carried out in which a reference strain of VSV was allowed to adapt to HeLa, MDCK and BHK-21 cells, and to a regime of alternation between HeLa and Madin-Darby canine kidney (MDCK) cells. Measurement of viral fitness on each cell type showed that most virus populations behaved as generalists, and increased in fitness in all environments. Tradeoffs, where a fitness increase in one environment led to a fitness decrease in another environment, were rare. These results highlight the importance of using appropriate methods to measure fitness in evolved virus populations, and provide further support to a model of evolutionary dynamics in which costs due to incongruent landscapes provided by different environments are more common than tradeoffs.
宿主辐射是指寄生虫适应新环境并扩大或改变其生态位的能力。对特定环境的适应可能会导致对第二环境的适应能力丧失。因此,适应成本可能会限制生态位的扩展,并构成专业化的成本。有几项报告探讨了水疱性口炎病毒(VSV)中的宿主辐射成本,但在某些情况下,实验设置可能导致对适应成本的高估。为了澄清这个问题,进行了实验,其中允许参考株 VSV 适应 HeLa、MDCK 和 BHK-21 细胞,并适应 HeLa 和马迪逊犬肾 (MDCK) 细胞之间交替的模式。在每种细胞类型上测量病毒适应性表明,大多数病毒群体表现为通才,在所有环境中适应性都增加。在一个环境中适应性增加导致另一个环境中适应性下降的权衡现象很少见。这些结果强调了在进化病毒群体中使用适当方法测量适应性的重要性,并进一步支持了一个进化动态模型,其中由于不同环境提供的不一致景观而导致的成本比权衡更为常见。
