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Contributed by Henry C. Harpending, August 13, 2007 (received for review May 24, 2007)
Abstract
Genomic surveys in humans identify a large amount of recent positive selection. Using the 3.9-million HapMap SNP dataset, we found that selection has accelerated greatly during the last 40,000 years. We tested the null hypothesis that the observed age distribution of recent positively selected linkage blocks is consistent with a constant rate of adaptive substitution during human evolution. We show that a constant rate high enough to explain the number of recently selected variants would predict (i) site heterozygosity at least 10-fold lower than is observed in humans, (ii) a strong relationship of heterozygosity and local recombination rate, which is not observed in humans, (iii) an implausibly high number of adaptive substitutions between humans and chimpanzees, and (iv) nearly 100 times the observed number of high-frequency linkage disequilibrium blocks. Larger populations generate more new selected mutations, and we show the consistency of the observed data with the historical pattern of human population growth. We consider human demographic growth to be linked with past changes in human cultures and ecologies. Both processes have contributed to the extraordinarily rapid recent genetic evolution of our species.
Footnotes
- †To whom correspondence may be addressed. E-mail: jhawk{at}wisc.edu, harpend{at}xmission.com, or rmoyzis{at}uci.edu
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Author contributions: J.H., E.T.W., and G.M.C. contributed equally to this work; J.H., E.T.W., G.M.C., and R.K.M. designed research; J.H., E.T.W., G.M.C., H.C.H., and R.K.M. performed research; E.T.W. and R.K.M. contributed new reagents/analytic tools; J.H., E.T.W., G.M.C., and H.C.H. analyzed data; and J.H. and R.K.M. wrote the paper.
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The authors declare no conflict of interest.
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This article contains supporting information online at www.pnas.org/cgi/content/full/0707650104/DC1.
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Freely available online through the PNAS open access option.
- © 2007 by The National Academy of Sciences of the USA
Recent acceleration of human adaptive evolution
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