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  • Title: [Molecular pathology of Duchenne and Becker muscular dystrophy].
    Author: Sugita H.
    Journal: Rinsho Shinkeigaku; 1990 Dec; 30(12):1309-16. PubMed ID: 2099874.
    Abstract:
    The gene for Duchenne (DMD) and Becker (BMD) types of muscular dystrophy has been isolated by Kunkel's and Worton's groups and shown to be the largest one over known in human, spanning more than 65 exons distributed over 2,500 kb in P21 region of X-chromosome. Fourteen kb cDNA encodes 427 kD cytoskeletal protein "dystrophin", supposed to form an anti-parallel homodimer like alpha-actinin and spectrin. The polyclonal antibodies against the synthetic peptides or fusion proteins predicted from dystrophin cDNA disclosed the complete absence of dystrophin at the surface membrane of both skeletal and cardiac muscles of DMD in marked contrast with the continuous and uniform staining in normal muscles. In manifested carriers, the mosaic expression of dystrophin was observed at the surface membrane of the skeletal muscle. BMD, which is thought to be allelic to DMD, revealed a faint or patchy immunostaining along with the abnormal and/or lower amount of dystrophin. In BMD, there is an intimate connection between the amount of dystrophin and the severity of the clinical course. It should be noted that 5 out of 39 patients with clinical diagnosis of limb-girdle (L-G) muscular dystrophy showed a patchy staining pattern, suggesting BMD not L-G. On the basis of dystrophin discovery, a possible therapeutic trial of DMD is discussed.
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