Reconstructing the evolutionary history of microcephalin, a gene controlling human brain size

doi:10.1093/hmg/ddh126

Human Molecular Genetics Advance Access originally published online on March 31, 2004

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Human Molecular Genetics, 2004, Vol. 13, No. 11 1139-1145
DOI: 10.1093/hmg/ddh126
Human Molecular Genetics, Vol. 13, No. 11 © Oxford University Press 2004; all rights reserved

Reconstructing the evolutionary history of microcephalin, a gene controlling human brain size

Patrick D. Evans¹^,2, Jeffrey R. Anderson¹, Eric J. Vallender¹^,2, Sun Shim Choi¹ and Bruce T. Lahn¹^,*

¹Howard Hughes Medical Institute, Department of Human Genetics and ²Committee on Genetics, University of Chicago, Chicago, IL 60637, USA

Received February 24, 2004; Accepted March 25, 2004

The defining process in the evolution of primates and particularlyhumans is the dramatic expansion of the brain. While many typesof genes could potentially contribute to this process, genesthat specifically regulate brain size during development maybe especially relevant. Here, we examine the evolution of themicrocephalin gene, whose null mutation in humans causes primarymicrocephaly, a congenital defect characterized by severe reductionsin brain size without other gross abnormalities. We show thatthe evolution of microcephalin's protein sequence is highlyaccelerated throughout the lineage from simian ancestors tohumans and chimpanzees, with the most pronounced accelerationseen in the early periods of this lineage. We further demonstratethat this accelerated evolution is coupled with signatures ofpositive selection. Statistical analysis suggests that about45 advantageous amino acid changes in microcephalin might havefixed during the 25–30 million years of evolution fromearly simian progenitors to modern humans. These observationssupport the notion that the molecular evolution of microcephalinmay have contributed to brain expansion in the simian lineageleading to humans. We have recently shown that ASPM, anothergene linked to primary microcephaly, experienced strong positiveselection in the ape lineage leading to humans. We thereforepropose that genes regulating brain size during developmentmay have the general propensity to contribute to brain evolutionin primates and particularly humans.

^* To whom correspondence should be addressed. Tel: +1 7738344393; Fax: +1 7738348470; Email: blahn{at}genetics.uchicago.edu

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