The genetic structure of south Asian populations as revealed by 650 000 SNPs

Metspalu, Mait ; Chaubey, Gyaneshwer ; Yunusbayev, Bayazit ; Romero, Irene ; Karmin, Monika ; Mallick, Chandana ; Metspalu, Ene ; Shanmugalakshmi, Sadagopal ; Balakrishnan, Karuppiah ; Thangaraj, Kumarasamy ; Singh, Lalji ; Pitchappan, Ramasamy ; Kivisild, Toomas ; Villems, Richard (2010) The genetic structure of south Asian populations as revealed by 650 000 SNPs Genome Biology, 11 (S1). O8. ISSN 1465-6906

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Official URL: https://genomebiology.biomedcentral.com/articles/1...

Related URL: http://dx.doi.org/10.1186/gb-2010-11-s1-o8

Abstract

The analyses of dense marker sets covering the whole genome has revolutionised the field of (human) population genetics. Driven largely by the needs of biomedical research, these new data are helping to unveil our demographic past, exemplified by the study of mtDNA and Y-chromosome variation during the past ∼20 years. We have analysed (Illumina 650K SNPs) over 320 new samples from South and Central Asia and the Caucasus, together with the publicly available databases (HGDP panel and our published data set of ∼600 Eurasian samples) and illustrated the power of full genome analyses by addressing two specific questions. (i) What is the nature of genetic continuity and discontinuity between South Asia, Middle East and Central Asia? (ii) What are the genetic origins of the Munda speakers of India? We use principal component and structure-like analyses to reveal the structure in the genome wide SNP data. The most striking feature of the genetic structure of South Asian populations is the clear separation of the Indus valley and southern India populations. The genetic component prevalent in the latter region is marginal in the former and absent outside South Asia. By contrast, the component ubiquitous to Indus valley is also present (∼30-40 %) among Indo-European speakers from Ganges valley and Dravidic speakers in southern India. Furthermore, this component can also be found in Central Asia and the Caucasus as well as in Middle East. We explored possibilities to identify the source region for this genetic component. Alternative models put the origins of Munda languages speakers either in South Asia (the Munda speakers sport exclusively autochthonous South Asian mtDNA variants) or in Southeast Asia, where the other Austro Asiatic languages have spread. Y-chromosome variation supports the latter model through sharing of hg O2a in both regions. We show that in addition to the dominant ancestry component being shared between the Indian Dravidic and Munda speakers, up to 30% of Munda speakers retain an ancestry component otherwise prevalent in East Asia. There is no widespread sign of South Asian ancestry component in Southeast Asia. This provides genomic support to the model by which Indian Austro-Asiatic populations derive from dispersal from Southeast/East Asia, followed by an extensive admixture with local Indian populations.

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