Peer-reviewed veterinary case report
Copper toxicosis gene variants in Australian Bedlington Terriers
By Hyun, Changbaig et al.·Published in American journal of veterinary research·2004·School of Veterinary Science, Australia·View original on PubMed →
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Original publication title: Evaluation of haplotypes associated with copper toxicosis in Bedlington Terriers in Australia.
- Species:
- dog
Plain-English summary
A group of 131 Bedlington Terriers in Australia was studied to understand genetic factors related to copper toxicosis, a condition that can cause liver damage. Researchers looked at DNA samples to identify specific genetic markers associated with the disease. They found that while a known deletion in a gene was linked to copper toxicosis, it wasn't the only cause, as some affected dogs had an intact gene. This suggests that other genetic factors may also play a role in the disease. Understanding these genetic links can help in managing and preventing copper toxicosis in Bedlington Terriers.
People also search for: Bedlington Terrier copper toxicosis symptoms · copper toxicosis treatment for dogs · genetic testing Bedlington Terrier
Abstract
OBJECTIVE: To evaluate the haplotype distribution associated with the copper toxicosis gene and the segregation of the mutated allele in a Bedlington Terrier population in Australia. ANIMALS: 131 Bedlington Terriers. PROCEDURE: Samples of DNA and RNA were obtained from each dog. Genetic status of each dog was evaluated by use of the DNA markers C04107; single nucleotide polymorphism (SNP), which was adjacent to exon 2 of Murr1; and a deletion marker for exon 2. A subgroup of the study population was evaluated by use of biochemical and histologic techniques to elucidate the correlation between genotype and phenotype. RESULTS: We identified a recombination between the C04107 marker and Murr1 and a variation in a nucleotide in the splice site of exon 2 in our Bedlington Terrier cohort. Furthermore, we identified a novel haplotype associated with copper toxicosis in this cohort. CONCLUSIONS AND CLINICAL RELEVANCE: Our findings indicate that the deletion of exon 2 was not the sole cause of copper toxicosis, although only exon 2 deletion of Murr1 has been responsible for copper toxicosis in Bedlington Terriers. Although we failed to find a novel mutation in our cohort, we identified an affected dog family with an intact exon 2. Furthermore, we found that an SNP in the 5' splicing site of exon 2 may or may not be associated with a novel mutation of the Murr1 gene or other genes. Loss of linkage between the C04107 marker and the Murr1 gene was also identified in a certain family of dogs.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/15566097/