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Literature DB >> 16874448

Sarcolemmal ion channels in dystrophin-deficient skeletal muscle fibres.

Abstract

Duchenne muscular dystrophy (DMD) is a genetic disease caused by mutations in the dystrophin gene and characterized by progressive skeletal muscle degeneration. A current hypothesis suggests that degeneration of dystrophin-deficient skeletal muscle results from a chronic intracellular Ca2+ overload. Ca2+ handling in skeletal muscle is tightly controlled by the membrane potential which is set by sarcolemmal ion channels activity. Also, with regard to the subsarcolemmal localization of dystrophin, it is reasonable to enquire if the distribution and function of ion channels might be affected by the absence of dystrophin. This paper briefly summarizes the current knowledge of the properties of sarcolemmal ion channels in fully differentiated dystrophin-deficient skeletal muscle fibres.

Entities: Chemical Disease Gene

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Year: 2006 PMID： 16874448 DOI： 10.1007/s10974-006-9083-4

Source DB: PubMed Journal: J Muscle Res Cell Motil ISSN： 0142-4319 Impact factor: 2.698

34 in total

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Journal: Muscle Nerve Date: 1993-05 Impact factor: 3.217

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13 in total

Review 1. Diverse roles of the actin cytoskeleton in striated muscle.

Authors: Anthony J Kee; Peter W Gunning; Edna C Hardeman
Journal: J Muscle Res Cell Motil Date: 2009-12-08 Impact factor: 2.698

2. Transcriptomic analysis of dystrophin RNAi knockdown reveals a central role for dystrophin in muscle differentiation and contractile apparatus organization.

Authors: Mohammad M Ghahramani Seno; Capucine Trollet; Takis Athanasopoulos; Ian R Graham; Pingzhao Hu; George Dickson
Journal: BMC Genomics Date: 2010-06-01 Impact factor: 3.969

3. Partial opening and subconductance gating of mechanosensitive ion channels in dystrophic skeletal muscle.

Authors: Ivan Vasquez; Nhi Tan; Mark Boonyasampant; Kari A Koppitch; Jeffry B Lansman
Journal: J Physiol Date: 2012-09-10 Impact factor: 5.182

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Authors: Céline Berbey; Bruno Allard
Journal: Biophys J Date: 2009-04-08 Impact factor: 4.033

5. Acute failure of action potential conduction in mdx muscle reveals new mechanism of contraction-induced force loss.

Authors: Jarrod A Call; Gordon L Warren; Mayank Verma; Dawn A Lowe
Journal: J Physiol Date: 2013-06-10 Impact factor: 5.182

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Authors: Gaëlle Robin; Christine Berthier; Bruno Allard
Journal: J Gen Physiol Date: 2012-03 Impact factor: 4.086

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Authors: Erick O Hernández-Ochoa; Stephen J P Pratt; Karla P Garcia-Pelagio; Martin F Schneider; Richard M Lovering
Journal: Physiol Rep Date: 2015-04