scholarly article | Q13442814 |
P50 | author | Alexey E Lyashkov | Q87446868 |
Edward G. Lakatta | Q32985045 | ||
Victor V Maltsev | Q38523718 | ||
P2093 | author name string | Yue Li | |
Ihor Zahanich | |||
Tatiana M Vinogradova | |||
Harold A Spurgeon | |||
H Bradley Nuss | |||
Antoine Younes | |||
P2860 | cites work | Rhythmic ryanodine receptor Ca2+ releases during diastolic depolarization of sinoatrial pacemaker cells do not require membrane depolarization | Q44764245 |
Beyond Bowditch: the convergence of cardiac chronotropy and inotropy | Q44862851 | ||
The effects of tertiapin-Q on responses of the sinoatrial pacemaker of the guinea-pig heart to vagal nerve stimulation and muscarinic agonists | Q46410232 | ||
Direct measurement of SR release flux by tracking 'Ca2+ spikes' in rat cardiac myocytes. | Q49093485 | ||
Postganglionic nerve stimulation induces temporal inhibition of excitability in rabbit sinoatrial node. | Q51240786 | ||
Wall tension is a potent negative regulator of in vivo thrombomodulin expression. | Q54795983 | ||
Muscarinic control of the hyperpolarization-activated current (if) in rabbit sino-atrial node myocytes | Q69095482 | ||
Functional morphology of the mammalian sinuatrial node | Q69468039 | ||
Morphological study of the innervation pattern of the rabbit sinoatrial node | Q69733328 | ||
Muscarinic modulation of cardiac rate at low acetylcholine concentrations | Q69945253 | ||
Acetylcholine inhibits Ca2+ current by acting exclusively at a site proximal to adenylyl cyclase in frog cardiac myocytes | Q71551546 | ||
Relative densities of muscarinic cholinergic and beta-adrenergic receptors in the canine sinoatrial node and their relation to sites of pacemaker activity | Q71730289 | ||
Ionic basis of the chronotropic effect of acetylcholine on the rabbit sinoatrial node | Q72013318 | ||
Effects of high potassium and the bradycardic agents ZD7288 and cesium on heart rate of rabbits and guinea pigs | Q72242682 | ||
Constitutively active G protein-coupled receptors: potential mechanisms of receptor activation | Q73065335 | ||
Differential control of the hyperpolarization-activated current (i(f)) by cAMP gating and phosphatase inhibition in rabbit sino-atrial node myocytes | Q73362911 | ||
Pacemaker shift in the rabbit sinoatrial node in response to vagal nerve stimulation | Q74108394 | ||
Characteristics of nitric oxide-mediated cholinergic modulation of calcium current in rabbit sino-atrial node | Q74577271 | ||
Local cholinergic suppression of pacemaker activity in the rabbit sinoatrial node | Q77227532 | ||
beta2-adrenergic cAMP signaling is uncoupled from phosphorylation of cytoplasmic proteins in canine heart | Q77726094 | ||
Membrane potential fluctuations resulting from submembrane Ca2+ releases in rabbit sinoatrial nodal cells impart an exponential phase to the late diastolic depolarization that controls their chronotropic state | Q79157008 | ||
Distribution of the muscarinic K+ channel proteins Kir3.1 and Kir3.4 in the ventricle, atrium, and sinoatrial node of heart | Q28570285 | ||
Insights into G protein structure, function, and regulation. | Q30336381 | ||
Diastolic calcium release controls the beating rate of rabbit sinoatrial node cells: numerical modeling of the coupling process. | Q33200126 | ||
Parasympathetic modulation of sinoatrial node pacemaker activity in rabbit heart: a unifying model | Q33864388 | ||
Tertiapin potently and selectively blocks muscarinic K(+) channels in rabbit cardiac myocytes. | Q33895714 | ||
Direct activation of cardiac pacemaker channels by intracellular cyclic AMP. | Q34580492 | ||
Cyclic variation of intracellular calcium: a critical factor for cardiac pacemaker cell dominance | Q35069469 | ||
What keeps us ticking: a funny current, a calcium clock, or both? | Q36010630 | ||
The emergence of a general theory of the initiation and strength of the heartbeat | Q36518774 | ||
Ca(2+) -stimulated basal adenylyl cyclase activity localization in membrane lipid microdomains of cardiac sinoatrial nodal pacemaker cells | Q36662735 | ||
Embryological development of pacemaker hierarchy and membrane currents related to the function of the adult sinus node: implications for autonomic modulation of biopacemakers | Q36699136 | ||
Dynamic interactions of an intracellular Ca2+ clock and membrane ion channel clock underlie robust initiation and regulation of cardiac pacemaker function | Q37002243 | ||
Synergism of coupled subsarcolemmal Ca2+ clocks and sarcolemmal voltage clocks confers robust and flexible pacemaker function in a novel pacemaker cell model. | Q37138978 | ||
Visualizing signal transduction: receptors, G-proteins, and adenylate cyclases | Q41242923 | ||
Effect of forskolin and acetylcholine on calcium current in single isolated cardiac myocytes. | Q41251196 | ||
Muscarinic regulation of the L-type calcium current in isolated cardiac myocytes. | Q41447579 | ||
A cellular mechanism for nitric oxide-mediated cholinergic control of mammalian heart rate | Q41937457 | ||
Type 5 adenylyl cyclase disruption alters not only sympathetic but also parasympathetic and calcium-mediated cardiac regulation | Q42444813 | ||
High basal protein kinase A-dependent phosphorylation drives rhythmic internal Ca2+ store oscillations and spontaneous beating of cardiac pacemaker cells | Q42489642 | ||
Agonist-independent effects of muscarinic antagonists on Ca2+ and K+ currents in frog and rat cardiac cells | Q42506461 | ||
Mechanism of muscarinic control of the high-threshold calcium current in rabbit sino-atrial node myocytes | Q42507818 | ||
Ca2+-stimulated adenylyl cyclase isoform AC1 is preferentially expressed in guinea-pig sino-atrial node cells and modulates the I(f) pacemaker current | Q42513495 | ||
Constitutive phosphodiesterase activity restricts spontaneous beating rate of cardiac pacemaker cells by suppressing local Ca2+ releases | Q42524756 | ||
Sinoatrial nodal cell ryanodine receptor and Na(+)-Ca(2+) exchanger: molecular partners in pacemaker regulation | Q43649137 | ||
beta-Adrenergic stimulation modulates ryanodine receptor Ca(2+) release during diastolic depolarization to accelerate pacemaker activity in rabbit sinoatrial nodal cells | Q43851351 | ||
The role of muscarinic K(+) channels in the negative chronotropic effect of a muscarinic agonist | Q43863097 | ||
Analysis of the chronotropic effect of acetylcholine on sinoatrial node cells | Q44005909 | ||
Differential effects of ACh on cardiac pacemaker cells | Q44180542 | ||
Sarcoplasmic reticulum Ca2+ release is not a dominating factor in sinoatrial node pacemaker activity | Q44321423 | ||
Enhanced G(i) signaling selectively negates beta2-adrenergic receptor (AR)--but not beta1-AR-mediated positive inotropic effect in myocytes from failing rat hearts | Q44585421 | ||
The fade of the response to acetylcholine at the rabbit isolated sino-atrial node | Q44619441 | ||
Pertussis toxin-sensitive G protein but not NO/cGMP pathway mediates the negative inotropic effect of carbachol in adult rat cardiomyocytes | Q44674745 | ||
P433 | issue | 3 | |
P304 | page(s) | H949-59 | |
P577 | publication date | 2009-06-19 | |
P1433 | published in | American Journal of Physiology Heart and Circulatory Physiology | Q3193662 |
P1476 | title | Cholinergic receptor signaling modulates spontaneous firing of sinoatrial nodal cells via integrated effects on PKA-dependent Ca(2+) cycling and I(KACh) | |
P478 | volume | 297 |