| Literature DB >> 29146814 |
Gemma G R Murray1, André E R Soares1, Ben J Novak1,2, Nathan K Schaefer3, James A Cahill1, Allan J Baker4, John R Demboski5, Andrew Doll5, Rute R Da Fonseca6, Tara L Fulton1,7, M Thomas P Gilbert6,8, Peter D Heintzman1,9, Brandon Letts10, George McIntosh11, Brendan L O'Connell3, Mark Peck5, Marie-Lorraine Pipes12, Edward S Rice3, Kathryn M Santos11, A Gregory Sohrweide13, Samuel H Vohr3, Russell B Corbett-Detig3,14, Richard E Green3,14, Beth Shapiro15,14.
Abstract
The extinct passenger pigeon was once the most abundant bird in North America, and possibly the world. Although theory predicts that large populations will be more genetically diverse, passenger pigeon genetic diversity was surprisingly low. To investigate this disconnect, we analyzed 41 mitochondrial and 4 nuclear genomes from passenger pigeons and 2 genomes from band-tailed pigeons, which are passenger pigeons' closest living relatives. Passenger pigeons' large population size appears to have allowed for faster adaptive evolution and removal of harmful mutations, driving a huge loss in their neutral genetic diversity. These results demonstrate the effect that selection can have on a vertebrate genome and contradict results that suggested that population instability contributed to this species's surprisingly rapid extinction.Entities:
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Year: 2017 PMID: 29146814 DOI: 10.1126/science.aao0960
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728