Departure from Neutrality at the Mitochondrial NADH Dehydrogenase Subunit 2 Gene in Humans, but Not in Chimpanzees

Departure from Neutrality at the Mitochondrial NADH Dehydrogenase Subunit 2 Gene in Humans, but Not in Chimpanzees

Cheryl A. Wise^a, Michaela Sraml^a, and Simon Easteal^a
^a The John Curtin School of Medical Research, The Australian National University, Canberra, ACT 0200, Australia

Corresponding author: Cheryl A. Wise, Human Genetics Group, John Curtin School of Medical Research, The Australian National University, Canberra, ACT 0200, Australia. Email: cheryl.wise@anu.edu.au.

Communicating editor: R. R. HUDSON

To test whether patterns of mitochondrial DNA (mtDNA) variationare consistent with a neutral model of molecular evolution,nucleotide sequences were determined for the 1041 bp of theNADH dehydrogenase subunit 2 (ND2) gene in 20 geographicallydiverse humans and 20 common chimpanzees. Contingency testsof neutrality were performed using four mutational categoriesfor the ND2 molecule: synonymous and nonsynonymous mutationsin the transmembrane regions, and synonymous and nonsynonymousmutations in the surface regions. The following three topologicalmutational categories were also used: intraspecific tips, intraspecificinteriors, and interspecific fixed differences. The analysesreveal a significantly greater number of nonsynonymous polymorphismswithin human transmembrane regions than expected based on interspecificcomparisons, and they are inconsistent with a neutral equilibriummodel. This pattern of excess nonsynonymous polymorphism isnot seen within chimpanzees. Statistical tests of neutrality,such as TAJIMA's D test, and the D and F tests proposed by FUand LI, indicate an excess of low frequency polymorphisms inthe human data, but not in the chimpanzee data. This is consistentwith recent directional selection, a population bottleneck orbackground selection of slightly deleterious mutations in humanmtDNA samples. The analyses further support the idea that mitochondrialgenome evolution is governed by selective forces that have thepotential to affect its use as a "neutral" marker in evolutionaryand population genetic studies.

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