Department of Biology, University of Louisiana at Lafayette, Lafayette, LA 70506, USA.
Philos Trans R Soc Lond B Biol Sci. 2013 Feb 4;368(1614):20120194. doi: 10.1098/rstb.2012.0194. Print 2013 Mar 19.
RNA viruses account for numerous emerging and perennial infectious diseases, and are characterized by rapid rates of molecular evolution. The ecological dynamics of most emerging RNA viruses are still poorly understood and difficult to ascertain. The availability of genome sequence data for many RNA viruses, in principle, could be used to infer ecological dynamics if changes in population numbers produced a lasting signature within the pattern of genome evolution. As a result, the rapidly emerging phylogeographic structure of a pathogen, shaped by the rise and fall in the number of infections and their spatial distribution, could be used as a surrogate for direct ecological assessments. Based on rabies virus as our example, we use a model combining ecological and evolutionary processes to test whether variation in the rate of host movement results in predictive diagnostic patterns of pathogen genetic structure. We identify several linearizable relationships between host dispersal rate and measures of phylogenetic structure suggesting genetic information can be used to directly infer ecological process. We also find phylogenetic structure may be more revealing than demography for certain ecological processes. Our approach extends the reach of current analytic frameworks for infectious disease dynamics by linking phylogeography back to underlying ecological processes.
RNA 病毒引发了许多新出现和常年存在的传染病,其特点是分子进化速度快。大多数新出现的 RNA 病毒的生态动态仍然知之甚少,难以确定。如果种群数量的变化在基因组进化模式中产生持久的特征,那么许多 RNA 病毒的基因组序列数据的可用性原则上可以用于推断生态动态。因此,病原体迅速出现的系统地理学结构(由感染数量的增减及其空间分布决定)可以作为直接生态评估的替代方法。以狂犬病病毒为例,我们使用结合了生态和进化过程的模型来测试宿主移动率的变化是否会导致病原体遗传结构的预测性诊断模式。我们确定了宿主扩散率和系统发育结构度量之间的几个可线性化关系,表明遗传信息可用于直接推断生态过程。我们还发现,对于某些生态过程,系统地理学结构可能比人口统计学更具揭示性。我们的方法通过将系统地理学与潜在的生态过程联系起来,扩展了当前传染病动力学分析框架的应用范围。