Depletion "skraps" and dynamic buffering inside the cellular calcium store. - Wikidata - awgldk - TriplyDB

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

http://www.wikidata.org/entity/Q34479895

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Role of Junctin protein interactions in cellular dynamics of calsequestrin polymer upon calcium perturbation Glycosylation of Skeletal Calsequestrin: IMPLICATIONS FOR ITS FUNCTION The catecholaminergic polymorphic ventricular tachycardia mutation R33Q disrupts the N-terminal structural motif that regulates reversible calsequestrin polymerization The number and spatial distribution of IP3 receptors underlying calcium puffs in Xenopus oocytes Rapid Ca2+ flux through the transverse tubular membrane, activated by individual action potentials in mammalian skeletal muscle.Analysis of osmotic stress induced Ca2+ spark termination in mammalian skeletal muscle.Store-operated calcium entry remains fully functional in aged mouse skeletal muscle despite a decline in STIM1 protein expression.Store-operated Ca2+ entry in malignant hyperthermia-susceptible human skeletal muscle.Paradoxical buffering of calcium by calsequestrin demonstrated for the calcium store of skeletal muscle.Mice null for calsequestrin 1 exhibit deficits in functional performance and sarcoplasmic reticulum calcium handling.Quantitative measurement of Ca²(+) in the sarcoplasmic reticulum lumen of mammalian skeletal muscle.The C-terminal calcium-sensitive disordered motifs regulate isoform-specific polymerization characteristics of calsequestrin.The conformation of calsequestrin determines its ability to regulate skeletal ryanodine receptors.Accelerated activation of SOCE current in myotubes from two mouse models of anesthetic- and heat-induced sudden death.D4cpv-calsequestrin: a sensitive ratiometric biosensor accurately targeted to the calcium store of skeletal muscle.Measurement of RyR permeability reveals a role of calsequestrin in termination of SR Ca(2+) release in skeletal muscle Recovery of cardiac calcium release is controlled by sarcoplasmic reticulum refilling and ryanodine receptor sensitivity.The couplonopathies: A comparative approach to a class of diseases of skeletal and cardiac muscle.Kinetics on Demand Is a Simple Mathematical Solution that Fits Recorded Caffeine-Induced Luminal SR Ca2+ Changes in Smooth Muscle Cells.The changes in Ca2+ sparks associated with measured modifications of intra-store Ca2+ concentration in skeletal muscle.Calcium-dependent inactivation terminates calcium release in skeletal muscle of amphibians.Ryanodine receptor luminal Ca2+ regulation: swapping calsequestrin and channel isoforms.Junctin and triadin each activate skeletal ryanodine receptors but junctin alone mediates functional interactions with calsequestrin.Deconstructing calsequestrin. Complex buffering in the calcium store of skeletal muscle.Calsequestrin depolymerizes when calcium is depleted in the sarcoplasmic reticulum of working muscle.IP(3) receptors: toward understanding their activation.Functional interaction between calsequestrin and ryanodine receptor in the heart.Leaky ryanodine receptors delay the activation of store overload-induced Ca2+ release, a mechanism underlying malignant hyperthermia-like events in dystrophic muscle.Inhibition of SERCA pumps induces desynchronized RyR activation in overloaded internal Ca2+ stores in smooth muscle cells.Altered Ca2+ concentration, permeability and buffering in the myofibre Ca2+ store of a mouse model of malignant hyperthermia.Ambiguous interactions between diastolic and SR Ca2+ in the regulation of cardiac Ca2+ release.Role of calsequestrin evaluated from changes in free and total calcium concentrations in the sarcoplasmic reticulum of frog cut skeletal muscle fibres.Evolution and modulation of intracellular calcium release during long-lasting, depleting depolarization in mouse muscle.Store-operated Ca entry is activated by every action potential in skeletal muscle

P2860

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P2860

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

http://www.wikidata.org/entity/Q34479895

description

2006 nî lūn-bûn

@nan

2006 թուականի Փետրուարին հրատարակուած գիտական յօդուած

@hyw

2006 թվականի փետրվարին հրատարակված գիտական հոդված

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2006年の論文

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2006年論文

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2006年論文

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2006年論文

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2006年論文

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2006年論文

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2006年论文

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name

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@ast

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

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Depletion "skraps" and dynamic buffering inside the cellular calcium store.

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type

label

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@ast

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@en

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@nl

prefLabel

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@ast

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@en

Depletion "skraps" and dynamic buffering inside the cellular calcium store.

@nl

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Proceedings of the National Academy of Sciences of the United States of America

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Depletion "skraps" and dynamic buffering inside the cellular calcium store

@en

P2093

Eduardo Ríos

http://www.w3.org/2001/XMLSchema#string

Gustavo Brum

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Jingsong Zhou

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Thomas R Shannon

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P2860

Physics of chemoreception

Comparing skeletal and cardiac calsequestrin structures and their calcium binding: a proposed mechanism for coupled calcium binding and protein polymerization

Complex formation between junctin, triadin, calsequestrin, and the ryanodine receptor. Proteins of the cardiac junctional sarcoplasmic reticulum membrane

Calcium sparks: elementary events underlying excitation-contraction coupling in heart muscle

The use of the indicator fluo-5N to measure sarcoplasmic reticulum calcium in single muscle fibres of the cane toad

Calcium signalling: dynamics, homeostasis and remodelling

Time course of individual Ca2+ sparks in frog skeletal muscle recorded at high time resolution.

Ca2+ blinks: rapid nanoscopic store calcium signaling

Reduction-of-dimensionality kinetics at reaction-limited cell surface receptors

Intracellular Ca(2+) release as irreversible Markov process.

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2982-2987

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10.1073/PNAS.0511252103

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8

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103

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Bradley S Launikonis

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2006-02-10T00:00:00Z

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7302626

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16473932

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1413852

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