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Genetic Differences in Humans Shaped by Geography, History

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Natural selection is only partly responsible for the distribution of genetic differences among humans, according to a new study co-authored by Graham Coop (above). Human history and migrations also play major roles in the distribution of genetic
Natural selection is only partly responsible for the distribution of genetic differences among humans, according to a new study co-authored by Graham Coop (above). Human history and migrations also play major roles in the distribution of genetic variants.

Local pressures such as climate or diet that affect natural selection are only partly responsible for differences in the genetic makeup of human populations, a new study finds. Migrations, the expansions and contractions of populations and the vagaries of genetic chance also play a role.

鈥淚t鈥檚 easy to imagine that natural selection could have led to human populations strongly diverging from each other as they adapted to the different environments they encountered as they spread around the world,鈥 said Graham Coop, an assistant professor of evolution and ecology at the University of California, Davis, and lead author of the paper describing the study. 鈥淏ut what excites me about this work is that we鈥檙e showing that a population鈥檚 history and migrations between groups have had a strong role in limiting and shaping how populations adapted to their environments.鈥

The study, led by Jonathan Pritchard, a Howard Hughes Medical Institute investigator at the University of Chicago, was published June 5 in the online journal PLoS Genetics.

Other collaborators in the work are Joseph Pickrell at the University of Chicago and Marcus Feldman, Richard Myers and Luca Cavalli-Sforza, all at Stanford University.

Natural selection occurs when a particular genetic difference 鈥 known as a variant 鈥 gives an individual a greater opportunity to have children and pass on his or her genes to future generations. A good example are the variants responsible for light skin color. As modern humans moved out of Africa and spread into northern latitudes, dark skin became a disadvantage, possibly because it blocked too much of the sunlight necessary for synthesis of vitamin D for healthy bones. Genetic variants for light skin, then, conferred a small survival edge, and today those variants are common in people of European and northern Asian ancestry.

Yet genetic variants do not always help populations adapt to their environments, Pritchard said. For example, if a small population undergoes a rapid expansion 鈥 because it has entered new territory, perhaps, or developed a technology that supports larger numbers 鈥 some of the genetic variants carried by that population can increase rapidly in number, even if they do not provide a reproductive advantage. The pool of genes within a population also tends to fluctuate due to chance events and random differences in the number of children people have and the particular genes they pass on to their offspring.

Thus, one of the fundamental questions facing human geneticists is: Is it possible to determine which genetic variants have increased because of selection and which have increased because of population changes or genetic chance?

Pritchard, Coop and their collaborators decided to tackle this question when new genetic data became available last year from the Human Genome Diversity Project at Stanford University. These data provided a much more in-depth sampling of worldwide genetic differences than had previously been available, allowing the research team to carry out a new and more rigorous test for selection.

To determine whether a variant鈥檚 frequency resulted from natural selection, the team compared the distribution of variants in two parts of the genome: in regions that affect the structure and regulation of proteins, and in neutral regions that have no effect on proteins. Because neutral regions are less likely to be affected by natural selection, they should reflect the demographic history of populations, the team reasoned. In contrast, regions that have been influenced by selection 鈥 the protein-regulating regions 鈥 should show different patterns of distribution.

The analysis immediately identified known examples of selection, including those involved in determining skin pigmentation, resistance to pathogens, and the ability to digest milk as an adult, a trait that arose in Europe, the Middle East and Africa following the domestication of dairy animals.

Interestingly, it also revealed several genes of unknown function that appear to have been under strong selective pressures. 鈥淲e鈥檙e keen to learn what these genes are and how they work,鈥 said Coop.

Yet the team also found that many genetic signals that other researchers have attributed to selection may actually have been created by historical and demographic factors. When the group compared closely related populations 鈥 those that recently came from the same ancestral population or those that have exchanged many migrants throughout history 鈥 it found few large genetic differences. If these populations鈥 environments were exerting strong selective pressure, such differences should have been more apparent.

Even with genetic variants where evidence of selection is strong, such as those for skin color, Pritchard noted, the movements of populations have powerfully influenced current patterns of variation.

鈥淎 handful of selective signals are clear,鈥 he said, 鈥渂ut it鈥檚 hard to be confident about individual cases beyond the top ten or so that we understand well right now.鈥

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For 100 years, 澳门六合彩资料库 Davis has engaged in teaching, research and public service that matter to California and transform the world. Located close to the state capital, 澳门六合彩资料库 Davis has 31,000 students, an annual research budget that exceeds $500 million, a comprehensive health system and 13 specialized research centers. The university offers interdisciplinary graduate study and more than 100 undergraduate majors in four colleges 鈥 Agricultural and Environmental Sciences, Biological Sciences, Engineering, and Letters and Science 鈥 and advanced degrees from six professional schools 鈥 Education, Law, Management, Medicine, Veterinary Medicine and the Betty Irene Moore School of Nursing.

Media Resources

Liese Greensfelder, Research news (emphasis: biological and physical sciences, and engineering), (530) 752-6101, lgreensfelder@ucdavis.edu

Graham Coop, Evolution and Ecology, 530-752-1622, gmcoop@ucdavis.edu

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