Skin pigmentation, biogeographical ancestry and admixture mapping

Posted in Anthropology, Articles, Health/Medicine/Genetics, Media Archive, United Kingdom, United States on 2013-09-13 01:01Z by Steven

Skin pigmentation, biogeographical ancestry and admixture mapping

Human Genetics
Volume 112, Issue 4 (April 2003)
pages 387-399

Mark D. Shriver, Professor of Anthropology
Pennsylvania State University

Esteban J. Parra
Department of Anthropology
University of Toronto at Mississauga

Sonia Dios
Department of Anthropology
Pennsylvania State University

Carolina Bonilla
Department of Anthropology
Pennsylvania State University

Heather Norton
Department of Anthropology
Pennsylvania State University

Celina Jovel
Department of Anthropology
Pennsylvania State University

Carrie Pfaff
Department of Anthropology
Pennsylvania State University

Cecily Jones
National Human Genome Center
Howard University, Washington, D.C.

Aisha Massac
National Human Genome Center
Howard University, Washington, D.C.

Neil Cameron
Takeway Media, London

Archie Baron
Takeway Media, London

Tabitha Jackson
Takeway Media, London

George Argyropoulos
Pennington Center for Biomedical Research, Baton Rouge, Louisiana

Li Jin
Department of Environmental Health
University of Cincinnati, Cincinnati, Ohio

Clive J. Hoggart
Department of Epidemiology and Population Health
London School of Hygiene and Tropical Medicine

Paul M. McKeigue
Department of Epidemiology and Population Health
London School of Hygiene and Tropical Medicine

Rick A. Kittles
National Human Genome Center
Howard University, Washington, D.C.

Ancestry informative markers (AIMs) are genetic loci showing alleles with large frequency differences between populations. AIMs can be used to estimate biogeographical ancestry at the level of the population, subgroup (e.g. cases and controls) and individual. Ancestry estimates at both the subgroup and individual level can be directly instructive regarding the genetics of the phenotypes that differ qualitatively or in frequency between populations. These estimates can provide a compelling foundation for the use of admixture mapping (AM) methods to identify the genes underlying these traits. We present details of a panel of 34 AIMs and demonstrate how such studies can proceed, by using skin pigmentation as a model phenotype. We have genotyped these markers in two population samples with primarily African ancestry, viz. African Americans from Washington D.C. and an African Caribbean sample from Britain, and in a sample of European Americans from Pennsylvania. In the two African population samples, we observed significant correlations between estimates of individual ancestry and skin pigmentation as measured by reflectometry (R2=0.21, P<0.0001 for the African-American sample and R2=0.16, P<0.0001 for the British African-Caribbean sample). These correlations confirm the validity of the ancestry estimates and also indicate the high level of population structure related to admixture, a level that characterizes these populations and that is detectable by using other tests to identify genetic structure. We have also applied two methods of admixture mapping to test for the effects of three candidate genes (TYR, OCA2, MC1R) on pigmentation. We show that TYR and OCA2 have measurable effects on skin pigmentation differences between the west African and west European parental populations. This work indicates that it is possible to estimate the individual ancestry of a person based on DNA analysis with a reasonable number of well-defined genetic markers. The implications and applications of ancestry estimates in biomedical research are discussed.

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Genome Study Points to Adaptation in Early African-Americans

Posted in Articles, Health/Medicine/Genetics, New Media, United States on 2012-01-03 00:37Z by Steven

Genome Study Points to Adaptation in Early African-Americans

The New York Times
2012-01-02

Nicholas Wade, Science Reporter

Researchers scanning the genomes of African-Americans say they see evidence of natural selection as their ancestors adapted to the harsh conditions of their new environment in America.

The scientists, led by Li Jin of the Chinese Academy of Sciences in Shanghai, report in the journal Genome Research that certain disease-causing variant genes became more common in African-Americans after their ancestors reached American shores—perhaps because they conferred greater, offsetting benefits. Other gene variants have become less common, the researchers say, like the gene for sickle cell hemoglobin, which in its more common single-dose form protects against malaria. The Shanghai team suggests the gene has become less common in African-Americans because malaria is much less of a threat.

The purpose of studying African-American genomes is largely medical. Most searches for variant genes that cause disease take place in people of European ancestry, and physicians want to make sure they have not missed variants that may be more common in African-Americans and helpful for developing treatments or diagnosis.

Such searches often reveal events in a population’s history by pinpointing genes that have changed under the pressure of natural selection…

…The Shanghai researchers used a method for studying admixture, a geneticist’s term for when two populations or races intermarry; China has several such populations, perhaps accounting for the team’s interest. Using gene chips that analyze common variations in the human genome, researchers can deconstruct the chromosomes of an African-American, say, assigning each chunk of DNA to an African or European origin.

The scientists found that of the African-American genomes in their sample, 22 percent of the DNA came from Europeans, on average, and the rest from African ancestors, a figure in line with other estimates…

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