MBE Advance Access originally published online on June 3, 2008
Molecular Biology and Evolution 2008 25(8):1750-1761; doi:10.1093/molbev/msn128
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Research Articles |
Gene Flow and Natural Selection in Oceanic Human Populations Inferred from Genome-Wide SNP Typing
* Department of Forensic Medicine, Tokai University School of Medicine, Kanagawa, Japan
Department of Human Genetics, Graduate School of Medicine, The University of Tokyo, Tokyo, Japan
Division of Health Informatics and Education, National Institute of Health and Nutrition, Tokyo, Japan
Socio-Environmental Health Sciences, Graduate School of Medicine, Gunma University, Gunma, Japan
|| Department of Environmental Sociology, Faculty of Agriculture, Saga University, Saga, Japan
¶ National Institute for Environmental Studies, Ibaraki, Japan
E-mail: rkimura{at}is.icc.u-tokai.ac.jp.
Accepted for publication May 26, 2008.
It is suggested that the major prehistoric human colonizations of Oceania occurred twice, namely, about 50,000 and 4,000 years ago. The first settlers are considered as ancestors of indigenous people in New Guinea and Australia. The second settlers are Austronesian-speaking people who dispersed by voyaging in the Pacific Ocean. In this study, we performed genome-wide single-nucleotide polymorphism (SNP) typing on an indigenous Melanesian (Papuan) population, Gidra, and a Polynesian population, Tongans, by using the Affymetrix 500K assay. The SNP data were analyzed together with the data of the HapMap samples provided by Affymetrix. In agreement with previous studies, our phylogenetic analysis indicated that indigenous Melanesians are genetically closer to Asians than to Africans and European Americans. Population structure analyses revealed that the Tongan population is genetically originated from Asians at 70% and indigenous Melanesians at 30%, which thus supports the so-called Slow train model. We also applied the SNP data to genome-wide scans for positive selection by examining haplotypic variation and identified many candidates of locally selected genes. Providing a clue to understand human adaptation to environments, our approach based on evolutionary genetics must contribute to revealing unknown gene functions as well as functional differences between alleles. Conversely, this approach can also shed some light onto the invisible phenotypic differences between populations.
Key Words: adaptive evolution • gene flow • human genome • SNP • Oceania
Yoko Satta, Associate Editor
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