Human mutation
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The RYR1 gene encodes the skeletal muscle isoform ryanodine receptor and is fundamental to the process of excitation-contraction coupling and skeletal muscle calcium homeostasis. Mapping to chromosome 19q13.2, the gene comprises 106 exons and encodes a protein of 5,038 amino acids. Mutations in the gene have been found in association with several diseases: the pharmacogenetic disorder, malignant hyperthermia (MH); and three congenital myopathies, including central core disease (CCD), multiminicore disease (MmD), and in an isolated case of a congenital myopathy characterized on histology by cores and rods. ⋯ In vitro analysis has confirmed that alteration of normal calcium homeostasis is a functional consequence of some of these changes. Genotype-phenotype correlation studies performed using data from MH and CCD patients have also suggested that mutations may be associated with a range of disease severity phenotypes. This review aims to summarize the current understanding of RYR1 mutations reported in association with MH and CCD and the present viewpoint on the use of mutation data to aid clinical diagnosis of these conditions.
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Hyperekplexia (startle disease) is a hereditary motor disease caused by mutations within the GLRA1 gene (Chr. 5q33.1), which encodes the alpha1 subunit of the inhibitory glycine receptor (GlyR). While most patients are diagnosed with dominant hyperekplexia associated with point mutations within or adjacent to the channel pore, recessive hyperekplexia is less frequent. Here, we report five new pedigrees of recessive hyperekplexia in apparently unrelated families of Kurdish origin associated with a deletion of exons 1-7 of the GLRA1 gene. ⋯ Consensus sites for Toposiomerase II were detected close to the breakpoint compatible with an illegitimate recombination event. No heterozygous carriers of the deletion allele were detected by screening of 500 individuals from the southeastern Mediterranean region belonging to four different ethnic groups. Hence, the identical nature of the breakpoint junction in all patients and carriers suggests a founder mutation in an ethnic population originating from Turkey.