Minor contribution of cytosolic Ca2+ transients to the pacemaker rhythm in guinea pig sinoatrial node cells.
about
The importance of Ca(2+)-dependent mechanisms for the initiation of the heartbeatThe mitochondrial Na+-Ca2+ exchanger, NCLX, regulates automaticity of HL-1 cardiomyocytes.Hierarchical clustering of ryanodine receptors enables emergence of a calcium clock in sinoatrial node cells.From two competing oscillators to one coupled-clock pacemaker cell systemIonic mechanisms and Ca2+ dynamics underlying the glucose response of pancreatic β cells: a simulation study.Store-operated calcium entry and the localization of STIM1 and Orai1 proteins in isolated mouse sinoatrial node cells.Beat-to-beat Ca(2+)-dependent regulation of sinoatrial nodal pacemaker cell rate and rhythm.Quantitative Decomposition of Dynamics of Mathematical Cell Models: Method and Application to Ventricular Myocyte Models.The funny current in the context of the coupled-clock pacemaker cell system.Selective sinoatrial node optical mapping and the mechanism of sinus rate acceleration.Modern perspectives on numerical modeling of cardiac pacemaker cellNumerical models based on a minimal set of sarcolemmal electrogenic proteins and an intracellular Ca(2+) clock generate robust, flexible, and energy-efficient cardiac pacemaking.Abnormal Ca(2+) homeostasis, atrial arrhythmogenesis, and sinus node dysfunction in murine hearts modeling RyR2 modificationNonlinear dynamics in cardiology.Mechanisms of beat-to-beat regulation of cardiac pacemaker cell function by Ca²⁺ cycling dynamics.The destiny of Ca(2+) released by mitochondria.Computational analysis of the human sinus node action potential: model development and effects of mutations.Cyclic AMP reverses the effects of aging on pacemaker activity and If in sinoatrial node myocytesContributions of cardiac "funny" (f) channels and sarcoplasmic reticulum Ca2+ in regulating beating rate of mouse and guinea pig sinoatrial nodeAn updated computational model of rabbit sinoatrial action potential to investigate the mechanisms of heart rate modulation.A mathematical model of action potentials of mouse sinoatrial node cells with molecular bases.Ca(2+) cycling properties are conserved despite bradycardic effects of heart failure in sinoatrial node cells.Modeling the chronotropic effect of isoprenaline on rabbit sinoatrial nodeCarvedilol analog modulates both basal and stimulated sinoatrial node automaticity.Letter to the editor: "Validating the requirement for beat-to-beat coupling of the Ca2+ clock and M clock in pacemaker cell normal automaticity".Cytosolic calcium ions exert a major influence on the firing rate and maintenance of pacemaker activity in guinea-pig sinus node.Regularity of beating of small clusters of embryonic chick ventricular heart-cells: experiment vs. stochastic single-channel population model.Heterogeneous functional expression of the sustained inward Na+ current in guinea pig sinoatrial node cells.
P2860
Q28085170-C02841EC-DF93-4D88-AA78-01B72A519840Q30274549-C0AC015B-3B66-4636-ACC5-AA5A4180546DQ30577224-7C8E9FD8-2B46-4BB0-A955-DF5B8E3A215AQ35081445-FED683F3-8997-49D3-91E9-DDCBDF22C00EQ35102159-73BEE59A-16FE-4F95-AF9F-03217DDDBBB2Q35158231-6DD698F3-E373-46B8-8B07-BFAB19CBF7EFQ35529322-31F2E9CB-1DDC-4014-9359-909D8CDBF5DAQ35668892-CA4D2434-C767-44F5-B3EF-4E09EA5F7D3CQ35705710-61E43305-1912-4256-9718-57A0FF103D77Q35864806-09856DF5-DEEB-4AEC-864C-AEFE1B5E738DQ35934714-1D660E26-778F-4813-9009-47BD3115497DQ35961500-B5956577-07A7-4187-926C-45599F6DA70DQ36952000-4989F44B-38FB-435A-A54E-74216F5115A0Q37070184-8D0A04F1-516C-453C-9DA5-9E57F385E040Q37217198-8569A854-9A8C-4CA1-9462-35B5BB9DE54EQ38226236-CC9F137D-ED8E-45B5-B7AB-D91E7E1565B4Q38546164-F9536676-1025-4354-9FC8-892AD15B74B4Q38546231-3F7EBD7E-A076-4ACF-A2AB-9AFEA26E98EFQ38546795-23E16C9E-6995-47CC-B18B-7FA458BCB4E9Q38548874-2B3B2D72-506D-49AD-ABEB-F3389129A2CAQ38681682-F677D81B-29AE-4F60-9452-02CDE7637222Q41984222-5FECF7DE-8488-4C0F-9D75-BD2D1117FDD3Q42080710-21E69DB1-6DB8-47F6-9DD0-75AE434AB703Q42441100-94754F7B-3AEE-4298-8F12-34223FA8145AQ42765652-D95A8135-DB8D-4C26-A9D7-5CB349DE60EEQ43140903-9A568B45-7176-4DFF-9091-7550E01926C1Q46298143-F38E9B4C-2855-43F6-B2E3-F78092E63CD7Q48190843-0BFB16ED-2EAE-4F0A-8A91-8FA7A5F73758
P2860
Minor contribution of cytosolic Ca2+ transients to the pacemaker rhythm in guinea pig sinoatrial node cells.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Minor contribution of cytosoli ...... nea pig sinoatrial node cells.
@en
Minor contribution of cytosoli ...... nea pig sinoatrial node cells.
@nl
type
label
Minor contribution of cytosoli ...... nea pig sinoatrial node cells.
@en
Minor contribution of cytosoli ...... nea pig sinoatrial node cells.
@nl
prefLabel
Minor contribution of cytosoli ...... nea pig sinoatrial node cells.
@en
Minor contribution of cytosoli ...... nea pig sinoatrial node cells.
@nl
P2093
P2860
P1476
Minor contribution of cytosoli ...... inea pig sinoatrial node cells
@en
P2093
Akinori Noma
Akira Amano
Chae Young Cha
Futoshi Toyoda
Hiroshi Matsuura
Hiroyasu Satoh
P2860
P304
P356
10.1152/AJPHEART.00764.2010
P577
2010-10-15T00:00:00Z