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1 December 2008 “Reverse Ecology” and the Power of Population Genomics
Yong Fuga Li, James C. Costello, Alisha K. Holloway, Matthew W. Hahn
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Rapid and inexpensive sequencing technologies are making it possible to collect whole genome sequence data on multiple individuals from a population. This type of data can be used to quickly identify genes that control important ecological and evolutionary phenotypes by finding the targets of adaptive natural selection, and we therefore refer to such approaches as “reverse ecology.” To quantify the power gained in detecting positive selection using population genomic data, we compare three statistical methods for identifying targets of selection: the McDonald–Kreitman test, the mkprf method, and a likelihood implementation for detecting dN/dS > 1. Because the first two methods use polymorphism data we expect them to have more power to detect selection. However, when applied to population genomic datasets from human, fly, and yeast, the tests using polymorphism data were actually weaker in two of the three datasets. We explore reasons why the simpler comparative method has identified more genes under selection, and suggest that the different methods may really be detecting different signals from the same sequence data. Finally, we find several statistical anomalies associated with the mkprf method, including an almost linear dependence between the number of positively selected genes identified and the prior distributions used. We conclude that interpreting the results produced by this method should be done with some caution.

Yong Fuga Li, James C. Costello, Alisha K. Holloway, and Matthew W. Hahn "“Reverse Ecology” and the Power of Population Genomics," Evolution 62(12), 2984-2994, (1 December 2008).
Received: 25 February 2008; Accepted: 18 May 2008; Published: 1 December 2008

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McDonald-Kreitman test
molecular evolution
population genetics
Positive selection
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