Browsing by Subject "intracellular calcium regulation"
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(2019)Amelogenesis Imperfecta (AI) is a group of hereditary diseases where tooth enamel is abnormally formed. This disease has been found in Lancashire Heeler dogs. However, none of the mutations known to cause AI in canine, explain the disease in the Lancashire Heeler population. A research study was initiated to investigate the genetic background of the disease in the breed. Based on the pedigree data the disease was suggested to be inherited as an autosomal recessive disease. Whole-exome sequencing of two affected dogs was performed which revealed a plausible candidate variant in a gene regulating intracellular calcium concentration. The aim of this study was to examine whether the mutation in the candidate gene causes AI. The DNA were extracted from blood samples of 249 Lancashire Heelers. A genome-wide SNP genotyping was conducted on four cases and a homozygosity mapping was performed. The candidate variant was genotyped in a large cohort of Lancashire Heelers (n=249) and dogs from related breeds (n=91) to confirm the association with the disease. The expression of the candidate gene in lymphocytes was studied with RT-PCR. Clinical studies were performed to evaluate the clinical features and serum calcium levels were measured. The segregation of genotypes and phenotypes of the dogs was complete. The identified variant is predicted to cause a premature STOP codon, which, if translated, leads to a truncated protein lacking protein transmembrane domains. According to the results acquired from RT-PCR, it is possible that the protein will complete the translation despite the mutation. Clinical studies did not reveal other clinical features than enamel defects and serum calcium levels were normal. According to the results, we suggest that the identified variant is causal for AI in Lancashire Heelers. The results have significant impact because no other genetic connection between the gene and AI has been found before. Consequently, the development of a gene test is possible, creating multiple opportunities for researchers and veterinary medicine. The results are applicable also to human medicine. However, we need more research to achieve a complete understanding of the mutation and its effects.
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