High-altitude adaptation and incipient speciation in geladas

Author:

Chiou Kenneth L.ORCID,Janiak Mareike C.ORCID,Schneider-Crease IndiaORCID,Sen SharmiORCID,Ayele Ferehiwot,Chuma Idrissa S.,Knauf SaschaORCID,Lemma AlemayehuORCID,Signore Anthony V.ORCID,D’Ippolito Anthony M.,Abebe Belayneh,Haile Abebaw Azanaw,Kebede Fanuel,Fashing Peter J.ORCID,Nguyen Nga,McCann Colleen,Houck Marlys L.,Wall Jeffrey D.ORCID,Burrell Andrew S.,Bergey Christina M.ORCID,Rogers JeffreyORCID,Phillips-Conroy Jane E.ORCID,Jolly Clifford J.,Melin Amanda D.ORCID,Storz Jay F.ORCID,Lu AmyORCID,Beehner Jacinta C.ORCID,Bergman Thore J.ORCID,Snyder-Mackler NoahORCID

Abstract

AbstractSurvival at high altitude requires adapting to extreme conditions such as environmental hypoxia. To understand high-altitude adaptations in a primate, we assembled the genome of the gelada (Theropithecus gelada), an endemic Ethiopian monkey, and complemented it with population resequencing, hematological, and morphometric data. Unexpectedly, we identified a novel karyotype that may contribute to reproductive isolation between gelada populations. We also identified genomic elements including protein-coding sequences and gene families that exhibit accelerated changes in geladas and may contribute to high-altitude adaptation. Our findings lend insight into mechanisms of speciation and adaptation while providing promising avenues for functional hypoxia research.

Publisher

Cold Spring Harbor Laboratory

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