Luminal Ca2+-regulated Mg2+ inhibition of skeletal RyRs reconstituted as isolated channels or coupled clusters. - Wikidata - wikimedia - TriplyDB

Luminal Ca2+-regulated Mg2+ inhibition of skeletal RyRs reconstituted as isolated channels or coupled clusters.

Luminal Ca2+-regulated Mg2+ inhibition of skeletal RyRs reconstituted as isolated channels or coupled clusters.

http://www.wikidata.org/entity/Q36445732

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A recently identified member of the glutathione transferase structural family modifies cardiac RyR2 substate activity, coupled gating and activation by Ca2+ and ATP Ca2+ stores regulate ryanodine receptor Ca2+ release channels via luminal and cytosolic Ca2+ sites Rapid Ca2+ flux through the transverse tubular membrane, activated by individual action potentials in mammalian skeletal muscle.IL-1α reversibly inhibits skeletal muscle ryanodine receptor. a novel mechanism for critical illness myopathy?Ryanodine receptors: structure, expression, molecular details, and function in calcium release.Differences in the regulation of RyR2 from human, sheep, and rat by Ca²⁺ and Mg²⁺ in the cytoplasm and in the lumen of the sarcoplasmic reticulum.Control of sarcoplasmic reticulum Ca2+ release by stochastic RyR gating within a 3D model of the cardiac dyad and importance of induction decay for CICR termination Multiple modes of ryanodine receptor 2 inhibition by flecainide.The conformation of calsequestrin determines its ability to regulate skeletal ryanodine receptors.Human slack potassium channel mutations increase positive cooperativity between individual channels Coupled gating of skeletal muscle ryanodine receptors is modulated by Ca2+, Mg2+, and ATP.Luminal Ca2+ regulation of single cardiac ryanodine receptors: insights provided by calsequestrin and its mutants Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia.Regulation of ryanodine receptors from skeletal and cardiac muscle during rest and excitation.Ca2+ stores regulate ryanodine receptor Ca2+ release channels via luminal and cytosolic Ca2+ sites.Luminal Mg2+, a key factor controlling RYR2-mediated Ca2+ release: cytoplasmic and luminal regulation modeled in a tetrameric channel Modulation of the local SR Ca2+ release by intracellular Mg2+ in cardiac myocytes.Ryanodine receptor luminal Ca2+ regulation: swapping calsequestrin and channel isoforms.Calcium-induced calcium release in skeletal muscle.A peripheral governor regulates muscle contraction.Reciprocal dihydropyridine and ryanodine receptor interactions in skeletal muscle activation.New factors contributing to dynamic calcium regulation in the skeletal muscle triad-a crowded place Amyloid-β protein impairs Ca2+ release and contractility in skeletal muscle.β-alanine supplementation improves in-vivo fresh and fatigued skeletal muscle relaxation speed Modulation of contractile apparatus Ca2+ sensitivity and disruption of excitation-contraction coupling by S-nitrosoglutathione in rat muscle fibres.Ryanodine receptors

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Luminal Ca2+-regulated Mg2+ inhibition of skeletal RyRs reconstituted as isolated channels or coupled clusters.

http://www.wikidata.org/entity/Q36445732

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2004 nî lūn-bûn

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年學術文章

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2004年學術文章

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2004年學術文章

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The Journal of General Physiology

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Derek R Laver

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Erin R O'Neill

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Graham D Lamb

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P2860

Divergent effects of the malignant hyperthermia-susceptible Arg(615)-->Cys mutation on the Ca(2+) and Mg(2+) dependence of the RyR1.

Different Ca2+ releasing action of caffeine and depolarisation in skeletal muscle fibres of the rat

Depletion of Ca2+ in the sarcoplasmic reticulum stimulates Ca2+ entry into mouse skeletal muscle fibres

Regulation of the calcium release channel from rabbit skeletal muscle by the nucleotides ATP, AMP, IMP and adenosine

Ryanodine sensitizes the cardiac Ca(2+) release channel (ryanodine receptor isoform 2) to Ca(2+) activation and dissociates as the channel is closed by Ca(2+) depletion

Calsequestrin and the calcium release channel of skeletal and cardiac muscle.

Sarcoplasmic reticulum lumenal Ca2+ has access to cytosolic activation and inactivation sites of skeletal muscle Ca2+ release channel

Highly cooperative and hysteretic response of the skeletal muscle ryanodine receptor to changes in proton concentrations

Regulation of cardiac muscle Ca2+ release channel by sarcoplasmic reticulum lumenal Ca2+

Regulation of the cardiac ryanodine receptor channel by luminal Ca2+ involves luminal Ca2+ sensing sites.

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