| Literature DB >> 27182286 |
Noah D Simons1, Maria Jose Ruiz-Lopez2, Colin A Chapman3, Tony L Goldberg4, Julie A Karl5, Roger W Wiseman5, Patrick S Bohn5, David H O'Connor6, Nelson Ting7.
Abstract
Immunogenetic data from wild primate populations have been difficult to obtain, due to logistic and methodological constraints. We applied a well-characterized deep sequencing method for MHC I typing, developed for macaques, to a population of wild red colobus to assess the feasibility of identifying MHC I-A/B haplotypes. Ten individuals produced sufficient data from blood and tissue samples to assign haplotypes. Eighty-two sequences were classified as red colobus MHC I alleles distributed across six MHC I loci. Individuals averaged ~13k reads across six MHC I loci, with 83% of all alleles representing either MHC I-A or MHC I-B loci. This study not only represents an important advance in the identification and genotyping of MHC in the endangered red colobus but also shows the potential for using this approach in other endangered wild primates.Entities:
Keywords: Major Histocompatibility Complex; immunogenetics; next generation sequencing; primates; red colobus
Year: 2016 PMID: 27182286 PMCID: PMC4863455 DOI: 10.1007/s12686-016-0516-0
Source DB: PubMed Journal: Conserv Genet Resour Impact factor: 0.973