Molecular study of Mhc-DRB in wild chacma baboons reveals high variability and evidence for transspecies inheritance
Résumé
The MHC class II genes of many primate species were investigated extensively in recent years. However, while Mhc-DRB genes were studied in Old World monkeys such as rhesus macaques, the Mhc-DRB of baboons was only studied in a limited way. Because of their close anatomical and physiological relationship to humans, baboons are often used as models for reproduction and transplantation research. Baboons are also studied as a model species in behavioural ecology. Thus, identification of MHC genes would provide a foundation for studies of Mhc, biology and behaviour. Here, we describe the use of PCR, cloning, denaturing gradient gel electrophoresis (DGGE) and sequencing to identify Mhc-DRB sequences in wild chacma baboons (Papio ursinus). We amplified the highly variable second exon of baboon Mhc-DRB sequences using generic DRB primers. To validate and optimize the DGGE protocol, four DNA samples were initially studied using cloning and sequencing. Clones were screened using a novel RFLP approach to increase the number of clones identified for each individual. Results from cloning and sequencing were used to optimise DGGE conditions for Mhc-DRB genotyping of the remaining study subjects. Using these techniques, we identified 16 Paur-DRB sequences from 30 chacma baboons. On the basis of phylogenetic tree analyses, representatives of the Mhc- DRB1 and Mhc-DRB5 loci, and 13 different DRB lineages were identified. Evidence for trans-species inheritance of some Mhc-DRB sequences comes from high identity between the new Paur-DRB sequences and sequences from Papio cynocephalus, Macaca mulatta and possibly Galago moholi.