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Peer-reviewed veterinary case report

Gene mutation linked to deafness in Australian Stumpy Tail Cattle Dogs

By Xu, Fangzheng et al.·Published in Genes·2021·Institute of Veterinary Medicine, Germany·View original on PubMed

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Original publication title: A Missense Mutation in theGene Is a Potential Candidate Variant for Congenital Deafness in Australian Stumpy Tail Cattle Dogs.

Species:
dog

Plain-English summary

A group of Australian Stumpy Tail Cattle Dogs (ASCD) with congenital deafness was studied to find the cause of their hearing loss. Researchers identified a specific gene mutation that appears to be linked to deafness in these dogs. They found that this mutation was present in many of the deaf dogs but not in those with normal hearing. The study suggests that this gene could be a significant factor in congenital deafness for ASCDs, helping breeders and veterinarians understand and manage this condition better.

People also search for: Australian Stumpy Tail Cattle Dog deafness · congenital deafness in dogs · dog hearing loss treatment

Abstract

Congenital deafness is prevalent among modern dog breeds, including Australian Stumpy Tail Cattle Dogs (ASCD). However, in ASCD, no causative gene has been identified so far. Therefore, we performed a genome-wide association study (GWAS) and whole genome sequencing (WGS) of affected and normal individuals. For GWAS, 3 bilateral deaf ASCDs, 43 herding dogs, and one unaffected ASCD were used, resulting in 13 significantly associated loci on 6 chromosomes, i.e., CFA3, 8, 17, 23, 28, and 37. CFA37 harbored a region with the most significant association (-log(9.54 × 10) = 20.02) as well as 7 of the 13 associated loci. For whole genome sequencing, the same three affected ASCDs and one unaffected ASCD were used. The WGS data were compared with 722 canine controls and filtered for protein coding and non-synonymous variants, resulting in four missense variants present only in the affected dogs. Using effect prediction tools, two variants remained with predicted deleterious effects within the Heart development protein with EGF like domains 1 () gene (NC_006615.3: g.28028412G>C; XP_022269716.1: p.His531Asp) and Kruppel-like factor 7 () gene (NC_006619.3: g.15562684G>A; XP_022270984.1: p.Leu173Phe). Due to its function as a regulator in heart and vessel formation and cardiovascular development,was excluded as a candidate gene. On the other hand,plays a crucial role in the nervous system, is expressed in the otic placode, and is reported to be involved in inner ear development. 55 additional ASCD samples (28 deaf and 27 normal hearing dogs) were genotyped for thevariant, and the variant remained significantly associated with deafness in ASCD (= 0.014). Furthermore, 24 dogs with heterozygous or homozygous mutations were detected, including 18 deaf dogs. The penetrance was calculated to be 0.75, which is in agreement with previous reports. In conclusion,is a promising candidate gene causative for ASCD deafness.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/33805165/