A Composite of Multiple Signals Distinguishes Causal Variants in Regions of Positive Selection

A Composite of Multiple Signals Distinguishes Causal Variants in Regions of Positive Selection

The human genome contains hundreds of regions whose patterns of genetic variation indicate recent positive natural selection, yet for most the underlying gene and the advantageous mutation remain unknown. We developed a method, composite of multiple signals (CMS), that combines tests for multiple si...

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Hauptverfasser: Shylakhter, Ilya, Karlsson, Elinor Kathryn, Byrne, Elizabeth Hockfield, Morales, Shannon, Frieden, Gabriel, Hostetter, Elizabeth, Angelino, Elaine Lee, Garber, Manuel, Zuk, Or, Lander, Eric Steven, Schaffner, Stephen, Sabeti, Pardis Christine, Grossman, Sharon Rachel
Format: Artikel
Sprache:eng
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Zusammenfassung:The human genome contains hundreds of regions whose patterns of genetic variation indicate recent positive natural selection, yet for most the underlying gene and the advantageous mutation remain unknown. We developed a method, composite of multiple signals (CMS), that combines tests for multiple signals of selection and increases resolution by up to 100-fold. By applying CMS to candidate regions from the International Haplotype Map, we localized population-specific selective signals to 55 kilobases (median), identifying known and novel causal variants. CMS can not just identify individual loci but implicates precise variants selected by evolution.
ISSN:0036-8075
DOI:10.1126/science.1183863