Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling. - Wikidata - wikimedia - TriplyDB

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

http://www.wikidata.org/entity/Q36411133

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Plasma membrane Ca2+-ATPase isoform 4 antagonizes cardiac hypertrophy in association with calcineurin inhibition in rodents Hadp1, a newly identified pleckstrin homology domain protein, is required for cardiac contractility in zebrafish Cardiac-targeted delivery of regulatory RNA molecules and genes for the treatment of heart failure Calsequestrin 2 (CASQ2) mutations increase expression of calreticulin and ryanodine receptors, causing catecholaminergic polymorphic ventricular tachycardia Calmodulin mediates differential sensitivity of CaMKII and calcineurin to local Ca2+ in cardiac myocytes Overexpression of TRPC3 increases apoptosis but not necrosis in response to ischemia-reperfusion in adult mouse cardiomyocytes.Autoregulation of cardiac l-type calcium channels.Isoform- and tissue-specific regulation of the Ca(2+)-sensitive transcription factor NFAT in cardiac myocytes and heart failure.Molecular mechanisms, and selective pharmacological rescue, of Rem-inhibited CaV1.2 channels in heart.Activation of NFATc1 is directly mediated by IP3 in adult cardiac myocytes TRPC3 contributes to regulation of cardiac contractility and arrhythmogenesis by dynamic interaction with NCX1.Redox signaling in cardiac myocytes.The real estate of cardiac signaling: location, location, location Succinate causes pathological cardiomyocyte hypertrophy through GPR91 activation.PKC-dependent coupling of calcium permeation through transient receptor potential canonical 3 (TRPC3) to calcineurin signaling in HL-1 myocytes Mice lacking functional TRPV1 are protected from pressure overload cardiac hypertrophy STIM1-dependent store-operated Ca²⁺ entry is required for pathological cardiac hypertrophy.The type 2 inositol 1,4,5-trisphosphate receptor, emerging functions for an intriguing Ca²⁺-release channel.Plasma membrane calcium pump (PMCA4)-neuronal nitric-oxide synthase complex regulates cardiac contractility through modulation of a compartmentalized cyclic nucleotide microdomain.Hierarchical architecture influences calcium dynamics in engineered cardiac muscle.Nicotinic Acid Adenine Dinucleotide Phosphate (NAADP) and Cyclic ADP-Ribose (cADPR) Mediate Ca2+ Signaling in Cardiac Hypertrophy Induced by β-Adrenergic Stimulation.Critical role for stromal interaction molecule 1 in cardiac hypertrophy beta-Adrenergic receptor activation induces internalization of cardiac Cav1.2 channel complexes through a beta-arrestin 1-mediated pathway Cardiac Stim1 Silencing Impairs Adaptive Hypertrophy and Promotes Heart Failure Through Inactivation of mTORC2/Akt Signaling.Endogenous and exogenous cardiac glycosides: their roles in hypertension, salt metabolism, and cell growth.The cardiac IP3 receptor: uncovering the role of "the other" calcium-release channel.Emerging roles of inositol 1,4,5-trisphosphate signaling in cardiac myocytes.L-type calcium channel C terminus autoregulates transcription Age-dependent differential crosstalk between alpha(1)-adrenergic and angiotensin receptors.Effects of wenxin keli on the action potential and L-type calcium current in rats with transverse aortic constriction-induced heart failure.Engineering proteins for custom inhibition of Ca(V) channels.The genetics of congestive heart failure.Emerging concepts for the role of TRP channels in the cardiovascular system.L-type calcium channel auto-regulation of transcription.Calcium signaling dysfunction in heart disease.Calcium signaling in cardiac myocytes.Role of the nuclear envelope in calcium signalling.Vitamin D: a custodian of cell signalling stability in health and disease.Vitamin D, reactive oxygen species and calcium signalling in ageing and disease.Cardiac-directed parvalbumin transgene expression in mice shows marked heart rate dependence of delayed Ca2+ buffering action.

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P2860

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

http://www.wikidata.org/entity/Q36411133

description

2006 nî lūn-bûn

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2006年の論文

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年學術文章

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2006年學術文章

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2006年學術文章

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name

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

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Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

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type

label

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

@ast

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

@en

prefLabel

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

@ast

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

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Journal of Clinical Investigation

P1476

Dichotomy of Ca2+ in the heart: contraction versus intracellular signaling.

@en

P2860

Signal-dependent nuclear export of a histone deacetylase regulates muscle differentiation

Protein kinases C and D mediate agonist-dependent cardiac hypertrophy through nuclear export of histone deacetylase 5

Cardiac excitation-contraction coupling

Class II histone deacetylases act as signal-responsive repressors of cardiac hypertrophy

A calcineurin-dependent transcriptional pathway for cardiac hypertrophy

Histone deacetylases 5 and 9 govern responsiveness of the heart to a subset of stress signals and play redundant roles in heart development

Calcium signaling mechanisms in T lymphocytes.

Store-operated cation channels in the heart and cells of the cardiovascular system.

Cytoplasmic signaling pathways that regulate cardiac hypertrophy.

CaM kinase signaling induces cardiac hypertrophy and activates the MEF2 transcription factor in vivo.

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10.1172/JCI27824

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3

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Jeffery D. Molkentin

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2006-03-01T00:00:00Z

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7265470

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