Tackney Justin C, Potter Ben A, Raff Jennifer, Powers Michael, Watkins W Scott, Warner Derek, Reuther Joshua D, Irish Joel D, O'Rourke Dennis H
Department of Anthropology, University of Utah, Salt Lake City, UT 84112;
Department of Anthropology, University of Alaska, Fairbanks, AK 99775;
Proc Natl Acad Sci U S A. 2015 Nov 10;112(45):13833-8. doi: 10.1073/pnas.1511903112. Epub 2015 Oct 26.
Pleistocene residential sites with multiple contemporaneous human burials are extremely rare in the Americas. We report mitochondrial genomic variation in the first multiple mitochondrial genomes from a single prehistoric population: two infant burials (USR1 and USR2) from a common interment at the Upward Sun River Site in central Alaska dating to ∼11,500 cal B.P. Using a targeted capture method and next-generation sequencing, we determined that the USR1 infant possessed variants that define mitochondrial lineage C1b, whereas the USR2 genome falls at the root of lineage B2, allowing us to refine younger coalescence age estimates for these two clades. C1b and B2 are rare to absent in modern populations of northern North America. Documentation of these lineages at this location in the Late Pleistocene provides evidence for the extent of mitochondrial diversity in early Beringian populations, which supports the expectations of the Beringian Standstill Model.
在美洲,含有多个同期人类墓葬的更新世居住遗址极为罕见。我们报告了来自单一史前群体的首批多个线粒体基因组中的线粒体基因组变异情况:来自阿拉斯加中部向上太阳河遗址一处共同墓葬的两具婴儿遗骸(USR1和USR2),其年代可追溯至约公元前11,500年(校正年代)。使用靶向捕获方法和下一代测序技术,我们确定USR1婴儿拥有定义线粒体谱系C1b的变异,而USR2基因组位于谱系B2的根部,这使我们能够完善这两个分支更年轻的聚合年龄估计。C1b和B2在北美北部现代人群中很少见或不存在。在晚更新世这个地点记录到这些谱系,为早期白令海人群中线粒体多样性的程度提供了证据,这支持了白令海停滞模型的预期。