Mountford Hayley S, Villanueva Pía, Fernández María Angélica, Jara Lilian, De Barbieri Zulema, Carvajal-Carmona Luis G, Cazier Jean-Baptiste, Newbury Dianne F
Department of Biological and Medical Sciences, Faculty of Health and Life Sciences, Oxford Brookes University, Oxford, United Kingdom.
Department of Speech Language and Hearing Sciences, Faculty of Medicine, University of Chile, Santiago, Chile.
Front Genet. 2020 Jun 26;11:669. doi: 10.3389/fgene.2020.00669. eCollection 2020.
Studies examining genetic conditions common in Latin America are highly underrepresented in the scientific literature. Understanding of the population structure is limited, particularly Chile, in part due to the lack of available population specific data. An important first-step in elucidating disease mechanisms in Latin America countries is to understand the genetic structure of isolated populations. Robinson Crusoe Island (RCI) is a small land mass off the coast of Chile. The current population of over 900 inhabitants are primarily descended from a small number of founders who colonized the island in the late 1800s. Extensive genealogical records can trace the ancestry of almost the entire population. We perform a comprehensive genetic analysis to investigate the ancestry of the island population, examining ancestral mitochondrial and Y chromosome haplogroups, as well as autosomal admixture. Mitochondrial and Y chromosome haplogroups indicated a substantial European genetic contribution to the current RCI population. Analysis of the mitochondrial haplogroups found in the present-day population revealed that 79.1% of islanders carried European haplogroups, compared to 60.0% of the mainland Chilean controls from Santiago. Both groups showed a substantially lower contribution of indigenous haplogroups than expected. Analysis of the Y chromosome haplogroups also showed predominantly European haplogroups detected in 92.3% of male islanders and 86.7% of mainland Chilean controls. Using the near-complete genealogical data collected from the RCI population, we successfully inferred the ancestral haplogroups of 16/23 founder individuals, revealing genetic ancestry from Northern and Southern Europe. As mitochondrial and Y investigations only provide information for direct maternal and paternal lineages, we expanded this to investigate genetic admixture using the autosomes. Admixture analysis identified substantial indigenous genetic admixture in the RCI population (46.9%), higher than that found in the Santiago mainland Chilean controls (43.4%), but lower than a more representative Chilean population (Chile_GRU) (49.1%). Our study revealed the Robinson Crusoe Island population show a substantial genetic contribution for indigenous Chileans, similar to the level reported in mainland Chileans. However, direct maternal and paternal haplogroup analysis revealed strong European genetic contributions consistent with the history of the Island.
研究拉丁美洲常见遗传疾病的研究在科学文献中的占比极低。对该地区人群结构的了解有限,尤其是智利,部分原因是缺乏特定人群的可用数据。在拉丁美洲国家阐明疾病机制的重要第一步是了解孤立人群的遗传结构。鲁滨逊·克鲁索岛(RCI)是智利海岸外的一个小块陆地。目前岛上900多名居民主要是19世纪末殖民该岛的少数奠基者的后裔。广泛的家谱记录可以追溯几乎整个人口的祖先。我们进行了全面的遗传分析,以调查该岛人口的祖先,研究祖传线粒体和Y染色体单倍群,以及常染色体混合情况。线粒体和Y染色体单倍群表明欧洲基因对当前RCI人口有重大贡献。对当今人群中发现的线粒体单倍群的分析显示,79.1%的岛民携带欧洲单倍群,而来自圣地亚哥的智利大陆对照组为60.0%。两组中本土单倍群的贡献均远低于预期。对Y染色体单倍群的分析也显示,在92.3%的男性岛民和86.7%的智利大陆对照组中检测到的主要是欧洲单倍群。利用从RCI人群收集的几乎完整的家谱数据,我们成功推断出23名奠基者个体中有16名的祖传单倍群,揭示了来自北欧和南欧的遗传祖先。由于线粒体和Y染色体研究仅提供直接母系和父系谱系的信息,我们将此扩展到使用常染色体来研究基因混合情况。混合分析确定RCI人群中有大量本土基因混合(46.9%),高于智利大陆圣地亚哥对照组(43.4%),但低于更具代表性的智利人群(Chile_GRU)(49.1%)。我们的研究表明,鲁滨逊·克鲁索岛人群对智利本土人有重大的基因贡献,与智利大陆报道的水平相似。然而,直接的母系和父系单倍群分析显示,与该岛历史一致,欧洲基因有很强的贡献。
