Laboratório de Biologia Genômica e Molecular, Faculdade de Biociências, Pontifical Catholic University of Rio Grande do Sul (PUCRS), Porto Alegre, Rio Grande do Sul, Brazil.
Department of Veterinary Integrative Biosciences, Texas A&M University, College Station, TX 77843, USA.
Sci Adv. 2017 Jul 19;3(7):e1700299. doi: 10.1126/sciadv.1700299. eCollection 2017 Jul.
The great cats of the genus comprise a recent radiation whose evolutionary history is poorly understood. Their rapid diversification poses challenges to resolving their phylogeny while offering opportunities to investigate the historical dynamics of adaptive divergence. We report the sequence, de novo assembly, and annotation of the jaguar () genome, a novel genome sequence for the leopard (), and comparative analyses encompassing all living species. Demographic reconstructions indicated that all of these species have experienced variable episodes of population decline during the Pleistocene, ultimately leading to small effective sizes in present-day genomes. We observed pervasive genealogical discordance across genomes, caused by both incomplete lineage sorting and complex patterns of historical interspecific hybridization. We identified multiple signatures of species-specific positive selection, affecting genes involved in craniofacial and limb development, protein metabolism, hypoxia, reproduction, pigmentation, and sensory perception. There was remarkable concordance in pathways enriched in genomic segments implicated in interspecies introgression and in positive selection, suggesting that these processes were connected. We tested this hypothesis by developing exome capture probes targeting ~19,000 genes and applying them to 30 wild-caught jaguars. We found at least two genes ( and , both related to optic nerve development) bearing significant signatures of interspecies introgression and within-species positive selection. These findings indicate that post-speciation admixture has contributed genetic material that facilitated the adaptive evolution of big cat lineages.
大猫属( )包含了近期的辐射物种,它们的进化历史还没有被很好地理解。它们的快速多样化给解析它们的系统发育带来了挑战,但也为研究适应性分化的历史动态提供了机会。我们报告了美洲豹( )的序列、从头组装和注释,这是豹( )的一个新基因组序列,以及包括所有现存大猫物种的比较分析。种群重建表明,这些物种在更新世期间都经历了种群数量的波动下降,最终导致了现今基因组中有效种群规模较小。我们观察到所有这些物种的基因组中存在普遍的谱系不和谐,这是由不完全谱系分选和复杂的历史种间杂交模式造成的。我们发现了多个与物种特异性正选择相关的基因座,这些基因座涉及颅面和肢体发育、蛋白质代谢、缺氧、生殖、色素沉着和感觉感知等方面。在与种间渐渗和正选择相关的基因组片段中富集的途径中存在显著的一致性,这表明这些过程是相关的。我们通过开发针对约 19000 个基因的外显子捕获探针并将其应用于 30 只野生美洲豹来检验这一假设。我们发现了至少两个基因( 和 ,都与视神经发育有关)具有种间渐渗和种内正选择的显著特征。这些发现表明,种间杂交后混合的遗传物质促进了大型猫科动物谱系的适应性进化。
