Mullen Lynne M, Vignieri Sacha N, Gore Jeffery A, Hoekstra Hopi E
Department of Organismic and Evolutionary Biology and The Museum of Comparative Zoology, Harvard University, Cambridge, MA, USA.
Proc Biol Sci. 2009 Nov 7;276(1674):3809-18. doi: 10.1098/rspb.2009.1146. Epub 2009 Aug 5.
A major goal in evolutionary biology is to understand how and why populations differentiate, both genetically and phenotypically, as they invade a novel habitat. A classical example of adaptation is the pale colour of beach mice, relative to their dark mainland ancestors, which colonized the isolated sandy dunes and barrier islands on Florida's Gulf Coast. However, much less is known about differentiation among the Gulf Coast beach mice, which comprise five subspecies linearly arrayed on Florida's shoreline. Here, we test the role of selection in maintaining variation among these beach mouse subspecies at multiple levels-phenotype, genotype and the environments they inhabit. While all beach subspecies have light pelage, they differ significantly in colour pattern. These subspecies are also genetically distinct: pair-wise F(st)-values range from 0.23 to 0.63 and levels of gene flow are low. However, we did not find a correlation between phenotypic and genetic distance. Instead, we find a significant association between the average 'lightness' of each subspecies and the brightness of the substrate it inhabits: the two most genetically divergent subspecies occupy the most similar habitats and have converged on phenotype, whereas the most genetically similar subspecies occupy the most different environments and have divergent phenotypes. Moreover, allelic variation at the pigmentation gene, Mc1r, is statistically correlated with these colour differences but not with variation at other genetic loci. Together, these results suggest that natural selection for camouflage-via changes in Mc1r allele frequency-contributes to pigment differentiation among beach mouse subspecies.
进化生物学的一个主要目标是了解种群在侵入新栖息地时如何以及为何在基因和表型上发生分化。适应性的一个经典例子是海滩小鼠相对于其深色大陆祖先的浅色,这些祖先在佛罗里达州墨西哥湾沿岸的孤立沙丘和屏障岛上定居。然而,对于墨西哥湾沿岸海滩小鼠(它们由线性排列在佛罗里达州海岸线上的五个亚种组成)之间的分化了解得要少得多。在这里,我们测试选择在维持这些海滩小鼠亚种在多个层面——表型、基因型及其栖息环境——的变异中所起的作用。虽然所有海滩亚种都有浅色的皮毛,但它们在毛色图案上有显著差异。这些亚种在基因上也各不相同:成对的F(st)值范围从0.23到0.63,基因流水平较低。然而,我们没有发现表型距离与遗传距离之间的相关性。相反,我们发现每个亚种的平均“亮度”与其所栖息底物的亮度之间存在显著关联:两个在基因上差异最大的亚种占据最相似的栖息地,并且在表型上趋同,而在基因上最相似的亚种占据最不同的环境,并且具有不同的表型。此外,色素沉着基因Mc1r的等位基因变异与这些颜色差异在统计学上相关,但与其他基因位点的变异无关。总之,这些结果表明,通过Mc1r等位基因频率的变化进行的伪装自然选择有助于海滩小鼠亚种之间的色素分化。