Genetic inhibition of Na+-Ca2+ exchanger current disables fight or flight sinoatrial node activity without affecting resting heart rate. - Wikidata - wikimedia - TriplyDB

Genetic inhibition of Na+-Ca2+ exchanger current disables fight or flight sinoatrial node activity without affecting resting heart rate.

Genetic inhibition of Na+-Ca2+ exchanger current disables fight or flight sinoatrial node activity without affecting resting heart rate.

http://www.wikidata.org/entity/Q36582471

about

Popeye domain-containing proteins and stress-mediated modulation of cardiac pacemaking The importance of Ca(2+)-dependent mechanisms for the initiation of the heartbeat Na+/Ca2+ exchange and Na+/K+-ATPase in the heart EHD3-dependent endosome pathway regulates cardiac membrane excitability and physiology.Hypertrophic cardiomyopathy: a heart in need of an energy bar?Complete atrial-specific knockout of sodium-calcium exchange eliminates sinoatrial node pacemaker activity.Burst pacemaker activity of the sinoatrial node in sodium-calcium exchanger knockout mice.The genetic basis for inherited forms of sinoatrial dysfunction and atrioventricular node dysfunction Modern perspectives on numerical modeling of cardiac pacemaker cell RyR-NCX-SERCA local cross-talk ensures pacemaker cell function at rest and during the fight-or-flight reflex.A Single Protein Kinase A or Calmodulin Kinase II Site Does Not Control the Cardiac Pacemaker Ca2+ Clock.Two-Pore K+ Channel TREK-1 Regulates Sinoatrial Node Membrane Excitability.Pinpointing beta adrenergic receptor in ageing pathophysiology: victim or executioner? Evidence from crime scenes.Depressed pacemaker activity of sinoatrial node myocytes contributes to the age-dependent decline in maximum heart rate.Electrical storm: recent pathophysiological insights and therapeutic consequences.Spontaneous inward currents reflecting oscillatory activation of Na⁺/Ca²⁺ exchangers in human embryonic stem cell-derived cardiomyocytes.CaV1.3 L-type Ca2+ channel contributes to the heartbeat by generating a dihydropyridine-sensitive persistent Na+ current.

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P2860

Genetic inhibition of Na+-Ca2+ exchanger current disables fight or flight sinoatrial node activity without affecting resting heart rate.

http://www.wikidata.org/entity/Q36582471

description

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Genetic inhibition of Na+-Ca2+ ...... affecting resting heart rate.

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Genetic inhibition of Na+-Ca2+ ...... affecting resting heart rate.

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Genetic inhibition of Na+-Ca2+ ...... affecting resting heart rate.

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Genetic inhibition of Na+-Ca2+ ...... affecting resting heart rate.

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CIRCRESAHA.111.300193

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Circulation Research

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Genetic inhibition of Na+-Ca2+ ...... affecting resting heart rate.

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Anil Purohit

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Duane D Hall

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Kathy Zimmerman

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Kenneth D Philipson

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Long-sheng Song

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Mark E Anderson

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Mei-ling A Joiner

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Olha M Koval

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Paari D Swaminathan

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Robert M Weiss

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P2860

Familial sinus bradycardia associated with a mutation in the cardiac pacemaker channel

Cardiac excitation-contraction coupling

Ivabradine and outcomes in chronic heart failure (SHIFT): a randomised placebo-controlled study

Functional adult myocardium in the absence of Na+-Ca2+ exchange: cardiac-specific knockout of NCX1

Targeted disruption of Na+/Ca2+ exchanger gene leads to cardiomyocyte apoptosis and defects in heartbeat

Deep bradycardia and heart block caused by inducible cardiac-specific knockout of the pacemaker channel gene Hcn4

Electrophysiological mapping of embryonic mouse hearts: mechanisms for developmental pacemaker switch and internodal conduction pathway.

I(f) and SR Ca(2+) release both contribute to pacemaker activity in canine sinoatrial node cells

Sodium/calcium exchange: its physiological implications.

A coupled SYSTEM of intracellular Ca2+ clocks and surface membrane voltage clocks controls the timekeeping mechanism of the heart's pacemaker.

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3562595

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