Background: A recent genome-wide scan using the canine minimal screening set 2 (MSS-2) showed that cobalamin deficiency appears to be hereditary in Chinese Shar Peis and is linked to the microsatellite markers DTR13.6 and REN13N11 on canine chromosome 13.
Objective: The goal of this study was to evaluate the MYC_CANFA gene, which is the closest known gene with a distance of approximately 0.06 megabases (Mb) to the microsatellite marker DTR13.6, for any mutations in this breed.
Methods: Microsatellite markers (Myc and G15987) for genotyping and primers for sequencing were used to evaluate the MYC_CANFA gene. The genotype and gene sequence were compared between cobalamin-deficient Shar Peis, Shar Peis with normal serum cobalamin concentrations, and the DNA sequences published as part of the Ensemble Genomic map.
Results: Neither the microsatellite markers (Myc and G15987) nor the sequences of the MYC_CANFA gene showed a significant difference among both groups of Shar Peis and the published canine DNA sequence.
Conclusions: The data presented here suggest that cobalamin deficiency in Shar Peis is not related to any mutations of the MYC_CANFA gene according to the genotyping and sequencing results in this study. Further investigations are warranted to find a potential genomic locus in proximity to DTR13.6 and REN13N11 that shows mutations in cobalamin-deficient Shar Peis.
© 2012 American Society for Veterinary Clinical Pathology.