The integration of spontaneous intracellular Ca2+ cycling and surface membrane ion channel activation entrains normal automaticity in cells of the heart's pacemaker.
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Mechanisms of Electrical Activation and Conduction in the Gastrointestinal System: Lessons from Cardiac ElectrophysiologyMechanisms of cardiac arrhythmiasElectrophysiological mapping of embryonic mouse hearts: mechanisms for developmental pacemaker switch and internodal conduction pathway.Yin and yang of the cardiac pacemaker clock system in health and disease.A coupled SYSTEM of intracellular Ca2+ clocks and surface membrane voltage clocks controls the timekeeping mechanism of the heart's pacemaker.Ca2+ clock malfunction in a canine model of pacing-induced heart failurePacemaking through Ca2+ stores interacting as coupled oscillators via membrane depolarizationSelective sinoatrial node optical mapping and the mechanism of sinus rate acceleration.Electrophysiological characteristics of canine superior vena cava sleeve preparations: effect of ranolazine.Modern perspectives on numerical modeling of cardiac pacemaker cellTranscription factor ISL1 is essential for pacemaker development and function.Normal heart rhythm is initiated and regulated by an intracellular calcium clock within pacemaker cellsRGS2 overexpression or G(i) inhibition rescues the impaired PKA signaling and slow AP firing of cultured adult rabbit pacemaker cellsSynergism of coupled subsarcolemmal Ca2+ clocks and sarcolemmal voltage clocks confers robust and flexible pacemaker function in a novel pacemaker cell model.Regulation of basal and reserve cardiac pacemaker function by interactions of cAMP-mediated PKA-dependent Ca2+ cycling with surface membrane channels.Tachycardia-bradycardia syndrome: Electrophysiological mechanisms and future therapeutic approaches (Review).Pacing the Heart with Genes: Recent Progress in Biological Pacing.Regulation of calcium clock-mediated pacemaking by inositol-1,4,5-trisphosphate receptors in mouse sinoatrial nodal cells.Mechanisms of spontaneous pacing: sinoatrial nodal cells, neonatal cardiomyocytes, and human stem cell derived cardiomyocytes.Regional difference in dynamical property of sinoatrial node pacemaking: role of na+ channel current.Non-cardiomyocytes influence the electrophysiological maturation of human embryonic stem cell-derived cardiomyocytes during differentiation.Calcium dynamics and the mechanisms of atrioventricular junctional rhythm.Cardiac pacemaker cell failure with preserved I(f), I(CaL), and I(Kr): a lesson about pacemaker function learned from ischemia-induced bradycardia.Roles of hyperpolarization-activated current If in sinoatrial node pacemaking: insights from bifurcation analysis of mathematical models.Cardiovascular and Hemostatic Disorders: SOCE in Cardiovascular Cells: Emerging Targets for Therapeutic Intervention.Functional expression and modulation of the L-type Ca2+ current in embryonic heart cells.
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P2860
The integration of spontaneous intracellular Ca2+ cycling and surface membrane ion channel activation entrains normal automaticity in cells of the heart's pacemaker.
description
2006 nî lūn-bûn
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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
@zh-hk
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
The integration of spontaneous ...... ells of the heart's pacemaker.
@ast
The integration of spontaneous ...... ells of the heart's pacemaker.
@en
type
label
The integration of spontaneous ...... ells of the heart's pacemaker.
@ast
The integration of spontaneous ...... ells of the heart's pacemaker.
@en
prefLabel
The integration of spontaneous ...... ells of the heart's pacemaker.
@ast
The integration of spontaneous ...... ells of the heart's pacemaker.
@en
P2093
P2860
P50
P356
P1476
The integration of spontaneous ...... cells of the heart's pacemaker
@en
P2093
Abdul Ruknudin
Syevda Sirenko
Tatiana Vinogradova
Weizong Zhu
P2860
P304
P356
10.1196/ANNALS.1380.016
P407
P577
2006-10-01T00:00:00Z