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1 connecting LA GPs with the PVs, AV node, and SA node.
2 xtends beyond the AV node to also affect the SA node.
3 e, whereas Nav1.1 was present throughout the SA node.
4 )1.1 alpha subunits were also present in rat SA node.
5 gesting that the deficit is intrinsic to the SA node.
6 vity between the periphery and center of the SA node.
7 cells but was absent from the center of the SA node.
8 ocytes of the ventricles and the sinoatrial (SA) node.
9 ich is expressed in atrial tissue but not in SA node), and Na(+) channel localization was analyzed by
10 re are no atrial cells within the functional SA node, and the differences result from a change in the
11 king since the rate of beating of guinea-pig SA node/atrial preparations was slowed in the presence o
13 ed: Nav1.5 was absent from the centre of the SA node, but present in the periphery of the SA node, wh
14 alpha(1D)) Ca(2+) channel in the sinoatrial (SA) node by using Ca(v)1.3 Ca(2+) channel-deficient mice
15 t on purinoceptors on cardiomyocytes, AV and SA nodes, cardiac fibroblasts, and coronary blood vessel
16 ice designated randomly as an atrial cell or SA node cell (in correct proportions for periphery and c
17 , two important pacemaker currents in rabbit SA node cells and point to both I(Ca.T) and I(Ca.L) as m
18 rents (I(Ca,L)s) recorded in single isolated SA node cells from Ca(v)1.3(-/-) mice show a significant
19 hange in the mix of atrial cells and uniform SA node cells from periphery to center, whereas accordin
21 oth intact SA node preparations and isolated SA node cells without a significant effect on SA node co
23 P and 3 micromol/L KN-93 completely arrested SA node cells, which indicates that basal CaMKII activat
31 ough L-type Ca2+ channels in the sinoatrial (SA) node contributes to pacemaker activity, whereas L-ty
32 tivity of pacemaker cells in the sinoatrial (SA) node controls heart rate under normal physiological
36 Clinical studies have shown the incidence of SA node dysfunction increases with age and occurs with p
37 saic model) of the makeup of the sinoatrial (SA) node has been proposed to explain the characteristic
38 CBP60g/SARD1 node between the PAD4/EDS1 and SA nodes in the defense signaling network, and indicated
39 c model of the SA node is untenable, and the SA node is adequately described by the gradient model.
41 origin of the heartbeat in the sino-atrial (SA) node is usually thought to arise from the sequential
42 rms are important for the functioning of the SA node: neuronal (putative Nav1.1) and cardiac Nav1.5 i
46 e to membrane depolarization participates in SA node pacemaker currents, but their role in the workin
47 sitive iNa, slowed pacemaking in both intact SA node preparations and isolated SA node cells without
48 ty to the L-type calcium blocker nifedipine; SA node preparations stopped beating in 100 micromol/L n
50 cally isolated myocytes from the sinoatrial (SA) node, right and left atria, right and left ventricle
51 ntaneous action potentials recorded from the SA nodes show a significant decrease in the beating freq
55 SA node, but present in the periphery of the SA node, whereas Nav1.1 was present throughout the SA no
56 tly with reduced spontaneous activity of the SA node with increased age, which provides further evide
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