Research ArticleArticle
The Gln4863Ala Mutation within a Putative, Pore-Lining Trans-Membrane Helix of the Cardiac Ryanodine Receptor Channel Alters Both the Kinetics of Ryanoid Interaction and the Subsequent Fractional Conductance
Kishani M. Ranatunga, Tracy M. Moreno-King, Bhavna Tanna, Ruiwu Wang, S. R. Wayne Chen, Luc Ruest, William Welch and Alan J. Williams
Molecular Pharmacology September 2005, 68 (3) 840-846; DOI: https://doi.org/10.1124/mol.105.012807
Kishani M. Ranatunga
Tracy M. Moreno-King
Bhavna Tanna
Ruiwu Wang
S. R. Wayne Chen
Luc Ruest
William Welch
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Research ArticleArticle
The Gln4863Ala Mutation within a Putative, Pore-Lining Trans-Membrane Helix of the Cardiac Ryanodine Receptor Channel Alters Both the Kinetics of Ryanoid Interaction and the Subsequent Fractional Conductance
Kishani M. Ranatunga, Tracy M. Moreno-King, Bhavna Tanna, Ruiwu Wang, S. R. Wayne Chen, Luc Ruest, William Welch and Alan J. Williams
Molecular Pharmacology September 1, 2005, 68 (3) 840-846; DOI: https://doi.org/10.1124/mol.105.012807
Research ArticleArticle
The Gln4863Ala Mutation within a Putative, Pore-Lining Trans-Membrane Helix of the Cardiac Ryanodine Receptor Channel Alters Both the Kinetics of Ryanoid Interaction and the Subsequent Fractional Conductance
Kishani M. Ranatunga, Tracy M. Moreno-King, Bhavna Tanna, Ruiwu Wang, S. R. Wayne Chen, Luc Ruest, William Welch and Alan J. Williams
Molecular Pharmacology September 1, 2005, 68 (3) 840-846; DOI: https://doi.org/10.1124/mol.105.012807
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