Literature DB >> 1310898

Temperature-sensitive mutations in the III-IV cytoplasmic loop region of the skeletal muscle sodium channel gene in paramyotonia congenita.

A I McClatchey1, P Van den Bergh, M A Pericak-Vance, W Raskind, C Verellen, D McKenna-Yasek, K Rao, J L Haines, T Bird, R H Brown.   

Abstract

Paramyotonia congenita (PMC), a dominant disorder featuring cold-induced myotonia (muscle stiffness), has recently been genetically linked to a candidate gene, the skeletal muscle sodium channel gene SCN4A. We have now established that SCN4A is the disease gene in PMC by identifying two different single-base coding sequence alterations in PMC families. Both mutations affect highly conserved residues in the III-IV cytoplasmic loop, a portion of the sodium channel thought to pivot in response to membrane depolarization, thereby blocking and inactivating the channel. Abnormal function of this cytoplasmic loop therefore appears to produce the Na+ current abnormality and the unique temperature-sensitive clinical phenotype in this disorder.

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Year:  1992        PMID: 1310898     DOI: 10.1016/0092-8674(92)90151-2

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  40 in total

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2.  Primary structure, chromosomal localization, and functional expression of a voltage-gated sodium channel from human brain.

Authors:  C M Ahmed; D H Ware; S C Lee; C D Patten; A V Ferrer-Montiel; A F Schinder; J D McPherson; C B Wagner-McPherson; J J Wasmuth; G A Evans
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3.  A cluster of hydrophobic amino acid residues required for fast Na(+)-channel inactivation.

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4.  Effect of sodium channel abundance on Drosophila development, reproductive capacity and aging.

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Review 5.  Inherited disorders of voltage-gated sodium channels.

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7.  The dominant cold-sensitive Out-cold mutants of Drosophila melanogaster have novel missense mutations in the voltage-gated sodium channel gene paralytic.

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8.  Sodium channel mutations in paramyotonia congenita exhibit similar biophysical phenotypes in vitro.

Authors:  N Yang; S Ji; M Zhou; L J Ptácek; R L Barchi; R Horn; A L George
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9.  Loss of Na+ channel inactivation by anemone toxin (ATX II) mimics the myotonic state in hyperkalaemic periodic paralysis.

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10.  Human sodium channel myotonia: slowed channel inactivation due to substitutions for a glycine within the III-IV linker.

Authors:  H Lerche; R Heine; U Pika; A L George; N Mitrovic; M Browatzki; T Weiss; M Rivet-Bastide; C Franke; M Lomonaco
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