Simulation Study of the Reliability and Robustness of the Statistical Methods for Detecting Positive Selection at Single Amino Acid Sites

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Molecular Biology and Evolution 19:1865-1869 (2002)
© 2002 Society for Molecular Biology and Evolution

Simulation Study of the Reliability and Robustness of the Statistical Methods for Detecting Positive Selection at Single Amino Acid Sites

Yoshiyuki Suzuki and Masatoshi Nei

Institute of Molecular Evolutionary Genetics, Department of Biology, The Pennsylvania State University

Inferring positive selection at single amino acid sites is ofbiological and medical importance. Parsimony-based and likelihood-basedmethods have been developed for this purpose, but the reliabilitiesof these methods are not well understood. Because the evolutionarymodels assumed in these methods are only rough approximationsto reality, it is desirable that the methods are not very sensitiveto violation of the assumptions made. In this study we showby computer simulation that the likelihood-based method is sensitiveto violation of the assumptions and produces many false-positiveresults under certain conditions, whereas the parsimony-basedmethod tends to be conservative. These observations, togetherwith those from previous studies, suggest that the positivelyselected sites inferred by the parsimony-based method are morereliable than those inferred by the likelihood-based method.

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