• Journal of Veterinary Clinics
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• v.32 no.1
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• pp.1-4
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• 2015

This study was performed to survey prevalence of Copper metabolism domain containing 1 (COMMD1) mutation using molecular diagnostic method in a population of Bedlington terriers in Korea. COMMD1 gene (formerly MURR1) functions as a regulator of sodium transport and copper metabolism. The deletion of exon 2 of the COMMD1 gene causes copper toxicosis in Bedlington terriers. Bedlington terriers with this autosomal recessive disorder were shown to have the elevated liver copper levels due to genetic derangement in the biliary copper excretion pathway. DNA samples were extracted from whole blood collected from 257 Bedlington terriers (109 males, 148 females) of pet dog clubs in Korea. A multiplex PCR was carried out to detect of exon 2 deletion of COMMD1 gene. In this study, it was possible to know the existence and prevalence of exon 2 deletion of COMMD1 in Bedlington terriers in Korea. Of the 257 samples, 131 (51%) were wild type homozygous for the normal COMMD1 gene, 108 (42%) were heterozygous, having both normal and mutated copy of the COMMD1 gene. The eighteen (7%) were mutant type homozygous. The results of genetic analysis could help establish proper management strategy and selective breeding program to prevent COMMD1 mutation in Bedlington terriers in Korea.

• Proceedings of the Korean Society of Veterinary Clinics Conference
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• 2009.10a
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• pp.255-255
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• 2009

• Biomedical Science Letters
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• v.18 no.1
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• pp.49-55
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• 2012

Numerous biochemical molecules have been implicated in the development of muscular atrophy. However, control mechanisms associated with muscular disease are not clear. The present study was conducted to investigate gene expression profiles of rat muscle during the denervation to atrophy transition processes. We isolated total RNA from rats suffering from partial muscle atrophy (P) and electromyostimulated atrophy (PE) and synthesized cDNA using annealing control primers. Using 20 ACPs for PCR, we cloned 18 DEGs using TOPO TA cloning vector, sequenced, and analyzed their identities using BLAST search. Sequences of 14 clones significantly matched database entries, while one clone was ESTs, and 3 clones were unidentified. Different expression profiles of selected DEGs between P and PE were confirmed. The troponin T, Fkbp1a, RGD1307554, Phtf1, Atp1a1 and Commd3 were highly expressed genes in the P and PE groups, while Krox-25 and TCOX2 were only expressed genes in the P group, the Sv2b and Marcks were only expressed genes in PE group. also, Cox8h was highly expressed genes in PE groups. The ASPH, ND1, and ARPL1 were highly expressed genes in the P and PE groups. List of genes obtained from the present study might provide an insight for the study of mechanism regulating muscle atrophy and electrostimulated muscle atrophy transitions. These data suggest that troponin T, Fkbp1a, RGD1307554, Phtf1, Atp1a1, and Commd3 are potentially useful as clinical biomarkers of age-related muscle atrophy and dysfunction.

• Korean Journal of Veterinary Research
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• v.62 no.4
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• pp.31.1-31.5
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• 2022

A 12-year-old intact male Dalmatian dog presented hyporexia and vomiting for 1 week. Blood analysis revealed increased liver enzyme activity. Histopathological examination of the liver confirmed chronic hepatitis with fibrosis and necrosis. Copper staining revealed marked copper accumulation (2,770 ppm; normal range, 200 to 400 ppm), prominent in the centrilobular region, and compatible with copper-associated chronic hepatitis. However, copper metabolism domain containing 1 (COMMD1) mutation predisposing to copper accumulation in the liver tissue was not identified. The dog received medications but died 1 month after first visit. This is the first case of primary copper-associated hepatitis without COMMD1 mutation in a Dalmatian dog in South Korea.

• Journal of Genetic Medicine
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• v.8 no.1
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• pp.53-57
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• 2011

Purpose: Wilson disease is an autosomal recessive disorder which causes excessive copper accumulation in the hepatic region. So far, ATP7B gene is the only disease-causing gene of Wilson disease known to date. However, ATP7B mutations have not been found in ~15% of the patients. This study was performed to identify any causative gene in Wilson disease patients without an ATP7B mutation in either allele. Materials and Methods: The sequence of the coding regions and exon-intron boundaries of the five ATP7B-interacting genes, ATOX1, COMMD1, GLRX, DCTN4, and ZBTB16, were analyzed in the 12 patients with Wilson disease. Results: Three nonsynonymous variants including c.1084A>G (p.Thr362Ala) in the exon 12 of the DCTN4 gene were identified in the patients examined. Among these, only p.Thr362Ala was predicted as possibly damaging protein function by in silico analysis. Examination of allele frequency of c.1084A>G (p.Thr362Ala) variant in the 176 patients with Wilson disease and in the 414 normal subjects revealed that the variant was more prevalent in the Wilson disease patients (odds ratio [OR]=3.14, 95% confidence interval=1.36-7.22, P=0.0094). Conclusion: Our result suggests that c.1084A>G (p.Thr362Ala) in the ATP7B-interacting DCTN4 gene may be associated with the pathogenesis of Wilson disease.