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Literature DB >> 15110152

Molecular regulation of cardiac ryanodine receptor ion channel.

Abstract

The release of Ca(2+) ions from intracellular stores is a key step in a wide variety of cellular functions. In striated muscle, the release of Ca(2+) from the sarcoplasmic reticulum (SR) leads to muscle contraction. Ca(2+) release occurs through large, high-conductance Ca(2+) release channels, also known as ryanodine receptors (RyRs) because they bind the plant alkaloid ryanodine with high affinity and specificity. The RyRs are isolated as 30S protein complexes comprised of four 560 kDa RyR2 subunits and four 12 kDa FK506 binding protein (FKBP12) subunits. Multiple endogenous effector molecules and posttranslational modifications regulate the RyRs. This review focuses on current research toward understanding the control of the isolated cardiac Ca(2+) release channel/ryanodine receptor (RyR2) by Ca(2+), calmodulin, thiol oxidation/reduction and nitrosylation, and protein phosphorylation.

Entities: Chemical Gene

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Year: 2004 PMID： 15110152 DOI： 10.1016/j.ceca.2004.01.015

Source DB: PubMed Journal: Cell Calcium ISSN： 0143-4160 Impact factor: 6.817

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Cited

55 in total

1. Regulation of myocyte contraction via neuronal nitric oxide synthase: role of ryanodine receptor S-nitrosylation.

Authors: Honglan Wang; Serge Viatchenko-Karpinski; Junhui Sun; Inna Györke; Nancy A Benkusky; Mark J Kohr; Héctor H Valdivia; Elizabeth Murphy; Sandor Györke; Mark T Ziolo
Journal: J Physiol Date: 2010-06-07 Impact factor: 5.182

2. Calmodulin-binding locations on the skeletal and cardiac ryanodine receptors.

Authors: Xiaojun Huang; Bradley Fruen; Dinah T Farrington; Terence Wagenknecht; Zheng Liu
Journal: J Biol Chem Date: 2012-07-06 Impact factor: 5.157

3. Dysfunctional ryanodine receptor and cardiac hypertrophy: role of signaling molecules.

Authors: Naohiro Yamaguchi; Asima Chakraborty; Daniel A Pasek; Jeffery D Molkentin; Gerhard Meissner
Journal: Am J Physiol Heart Circ Physiol Date: 2011-03-18 Impact factor: 4.733

4. CRISPR/Cas9 Gene editing of RyR2 in human stem cell-derived cardiomyocytes provides a novel approach in investigating dysfunctional Ca²⁺ signaling.

Authors: Hua Wei; Xiao-Hua Zhang; Cassandra Clift; Naohiro Yamaguchi; Martin Morad
Journal: Cell Calcium Date: 2018-04-27 Impact factor: 6.817

Molecular regulation of cardiac ryanodine receptor ion channel.

1. Regulation of myocyte contraction via neuronal nitric oxide synthase: role of ryanodine receptor S-nitrosylation.

2. Calmodulin-binding locations on the skeletal and cardiac ryanodine receptors.

3. Dysfunctional ryanodine receptor and cardiac hypertrophy: role of signaling molecules.

4. CRISPR/Cas9 Gene editing of RyR2 in human stem cell-derived cardiomyocytes provides a novel approach in investigating dysfunctional Ca²⁺ signaling.

5. Regulation of ryanodine receptors by calsequestrin: effect of high luminal Ca2+ and phosphorylation.

6. A two-gate model for the ryanodine receptor with allosteric modulation by caffeine and quercetin.

7. Regulation of sarcoplasmic reticulum Ca²⁺ leak by cytosolic Ca²⁺ in rabbit ventricular myocytes.

8. Ligand-dependent conformational changes in the clamp region of the cardiac ryanodine receptor.

9. Termination of cardiac Ca2+ sparks: role of intra-SR [Ca2+], release flux, and intra-SR Ca2+ diffusion.

10. CLIC2-RyR1 interaction and structural characterization by cryo-electron microscopy.