Molecular Phylogeography of a Human Autosomal Skin Color Locus Under Natural Selection

Divergent natural selection caused by differences in solar exposure has resulted in distinctive variations in skin color between human populations. The derived light skin color allele of the SLC24A5 gene, A111T, predominates in populations of Western Eurasian ancestry. To gain insight into when and where this mutation arose, we defined common haplotypes in the genomic region around SLC24A5 across diverse human populations and deduced phylogenetic relationships between them. Virtually all chromosomes carrying the A111T allele share a single 78-kb haplotype that we call C11, indicating that all instances of this mutation in human populations share a common origin. The C11 haplotype was most likely created by a crossover between two haplotypes, followed by the A111T mutation. The two parental precursor haplotypes are found from East Asia to the Americas but are nearly absent in Africa. The distributions of C11 and its parental haplotypes make it most likely that these two last steps occurred between the Middle East and the Indian subcontinent, with the A111T mutation occurring after the split between the ancestors of Europeans and East Asians.

[1]  Kenny Q. Ye,et al.  An integrated map of genetic variation from 1,092 human genomes , 2012, Nature.

[2]  R. Durbin,et al.  Revising the human mutation rate: implications for understanding human evolution , 2012, Nature Reviews Genetics.

[3]  Natalie M. Myres,et al.  New insights into the Tyrolean Iceman's origin and phenotype as inferred by whole-genome sequencing , 2012, Nature Communications.

[4]  Sharon R Grossman,et al.  Integrating common and rare genetic variation in diverse human populations , 2010, Nature.

[5]  Saharon Rosset,et al.  The genome-wide structure of the Jewish people , 2010, Nature.

[6]  H. Bandelt,et al.  The Archaeogenetics of Europe , 2010, Current Biology.

[7]  Or Zuk,et al.  A Composite of Multiple Signals Distinguishes Causal Variants in Regions of Positive Selection , 2010, Science.

[8]  Ashutosh Kumar Singh,et al.  Genetic landscape of the people of India: a canvas for disease gene exploration , 2008, Journal of Genetics.

[9]  D. Cox,et al.  A genomewide association study of skin pigmentation in a South Asian population. , 2007, American journal of human genetics.

[10]  Zhaohui S. Qin,et al.  A second generation human haplotype map of over 3.1 million SNPs , 2007, Nature.

[11]  Pardis C Sabeti,et al.  Genome-wide detection and characterization of positive selection in human populations , 2007, Nature.

[12]  R. Kittles,et al.  Genetic evidence for the convergent evolution of light skin in Europeans and East Asians. , 2006, Molecular biology and evolution.

[13]  Y. Koda,et al.  Population differences of two coding SNPs in pigmentation-related genes SLC24A5 and SLC45A2 , 2006, International Journal of Legal Medicine.

[14]  G. Cox,et al.  ~ " " " ' l I ~ " " -" . : -· " J , 2006 .

[15]  Paul Mellars,et al.  A new radiocarbon revolution and the dispersal of modern humans in Eurasia , 2006, Nature.

[16]  Alan Filipski,et al.  Placing confidence limits on the molecular age of the human-chimpanzee divergence. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[17]  Keith C. Cheng,et al.  SLC24A5, a Putative Cation Exchanger, Affects Pigmentation in Zebrafish and Humans , 2005, Science.

[18]  H. Bandelt,et al.  Single, Rapid Coastal Settlement of Asia Revealed by Analysis of Complete Mitochondrial Genomes , 2005, Science.

[19]  D. Hartl,et al.  Identification of a Locus Under Complex Positive Selection in Drosophila simulans by Haplotype Mapping and Composite-Likelihood Estimation , 2004, Genetics.

[20]  Peter Donnelly,et al.  A comparison of bayesian methods for haplotype reconstruction from population genotype data. , 2003, American journal of human genetics.

[21]  M. Aguadé,et al.  DNA variation at the rp49 gene region of Drosophila simulans: evolutionary inferences from an unusual haplotype structure. , 2001, Genetics.

[22]  P. Donnelly,et al.  A new statistical method for haplotype reconstruction from population data. , 2001, American journal of human genetics.

[23]  N. Jablonski,et al.  The evolution of human skin coloration. , 2000, Journal of human evolution.

[24]  P L Miller,et al.  ALFRED: a Web-accessible allele frequency database. , 1999, Pacific Symposium on Biocomputing. Pacific Symposium on Biocomputing.

[25]  David M.J. Lilley Nucleic Acids and Molecular Biology , 1987, Nucleic Acids and Molecular Biology.

[26]  W. Loomis Skin-Pigment Regulation of Vitamin-D Biosynthesis in Man , 1967, Science.

[27]  Mark D Shriver,et al.  The timing of pigmentation lightening in Europeans. , 2013, Molecular biology and evolution.

[28]  M. Feldman,et al.  Worldwide Human Relationships Inferred from Genome-Wide Patterns of Variation , 2008 .

[29]  T. Kivisild,et al.  A Model for the Dispersal of Modern Humans out of Africa , 2006 .

[30]  S. Oppenheimer Out of Eden , 2003 .