Garrigan Daniel, Mobasher Zahra, Kingan Sarah B, Wilder Jason A, Hammer Michael F
Genomic Analysis and Technology Core, University of Arizona, Tucson, Arizona 85721, USA.
Genetics. 2005 Aug;170(4):1849-56. doi: 10.1534/genetics.105.041095. Epub 2005 Jun 3.
Fossil evidence links human ancestry with populations that evolved from modern gracile morphology in Africa 130,000-160,000 years ago. Yet fossils alone do not provide clear answers to the question of whether the ancestors of all modern Homo sapiens comprised a single African population or an amalgamation of distinct archaic populations. DNA sequence data have consistently supported a single-origin model in which anatomically modern Africans expanded and completely replaced all other archaic hominin populations. Aided by a novel experimental design, we present the first genetic evidence that statistically rejects the null hypothesis that our species descends from a single, historically panmictic population. In a global sample of 42 X chromosomes, two African individuals carry a lineage of noncoding 17.5-kb sequence that has survived for >1 million years without any clear traces of ongoing recombination with other lineages at this locus. These patterns of deep haplotype divergence and long-range linkage disequilibrium are best explained by a prolonged period of ancestral population subdivision followed by relatively recent interbreeding. This inference supports human evolution models that incorporate admixture between divergent African branches of the genus Homo.
化石证据将人类祖先与13万至16万年前在非洲从现代纤细形态进化而来的种群联系起来。然而,仅凭化石并不能明确回答所有现代智人的祖先究竟是由单一的非洲种群构成,还是由不同的古代种群融合而成这一问题。DNA序列数据一直支持单一起源模型,即解剖学上现代的非洲人扩张并完全取代了所有其他古代人类种群。借助一种新颖的实验设计,我们提供了首个遗传学证据,从统计学角度拒绝了我们这个物种起源于单一的、历史上随机交配种群的零假设。在一个包含42条X染色体的全球样本中,两名非洲个体携带了一段17.5千碱基的非编码序列谱系,该序列已经存活了超过100万年,在这个位点没有与其他谱系进行持续重组的任何明显痕迹。这些深度单倍型分歧和长程连锁不平衡的模式,最好的解释是祖先种群长期细分,随后是相对较近的杂交。这一推断支持了包含智人属不同非洲分支之间杂交的人类进化模型。