Voltage dependence of Ca2+ sparks in intact cerebral arteries.
about
Nitrergic relaxation of the mouse gastric fundus is mediated by cyclic GMP-dependent and ryanodine-sensitive mechanismsMeasurement of chloride flux associated with the myogenic response in rat cerebral arteriesCaveolin-1 abolishment attenuates the myogenic response in murine cerebral arteriesRegulation of cellular communication by signaling microdomains in the blood vessel wall.Identification and spatiotemporal characterization of spontaneous Ca2+ sparks and global Ca2+ oscillations in retinal arteriolar smooth muscle cellsEffect of nitric oxide donors and noradrenaline on Ca2+ release sites and global intracellular Ca2+ in myocytes from guinea-pig small mesenteric arteries.Sarcoplasmic reticulum calcium load regulates rat arterial smooth muscle calcium sparks and transient K(Ca) currents.Functional coupling of ryanodine receptors to KCa channels in smooth muscle cells from rat cerebral arteries.Local and cellular Ca2+ transients in smooth muscle of pressurized rat resistance arteries during myogenic and agonist stimulation.TNF-alpha dilates cerebral arteries via NAD(P)H oxidase-dependent Ca2+ spark activationThe effects of diuretics on intracellular Ca2+ dynamics of arteriole smooth muscles as revealed by laser confocal microscopy.Glutamate regulates Ca2+ signals in smooth muscle cells of newborn piglet brain slice arterioles through astrocyte- and heme oxygenase-dependent mechanisms.Aging increases capacitance and spontaneous transient outward current amplitude of smooth muscle cells from murine superior epigastric arteries.T-type voltage-gated Ca2+ channels do not contribute to the negative feedback regulation of myogenic tone in murine superior epigastric arteries.Ion channels and vascular tone.Calcium sparks in the intact gerbil spiral modiolar artery.Heterogeneous function of ryanodine receptors, but not IP3 receptors, in hamster cremaster muscle feed arteries and arteriolesRole of sarcoplasmic reticulum in control of membrane potential and nitrergic response in opossum lower esophageal sphincterType 2 ryanodine receptors are highly sensitive to alcoholGenetic ablation of caveolin-1 modifies Ca2+ spark coupling in murine arterial smooth muscle cells.Calcium signaling in smooth muscle.KCa channel insensitivity to Ca2+ sparks underlies fractional uncoupling in newborn cerebral artery smooth muscle cells.Relationship between Ca2+ sparklets and sarcoplasmic reticulum Ca2+ load and release in rat cerebral arterial smooth muscleCa(V)3.2 channels and the induction of negative feedback in cerebral arteries.Rhythmicity in arterial smooth muscle.Calcium events in smooth muscles and their interstitial cells; physiological roles of sparks.Chronic fetal exposure to caffeine altered resistance vessel functions via RyRs-BKCa down-regulation in rat offspring.Mini-dystrophin expression down-regulates IP3-mediated calcium release events in resting dystrophin-deficient muscle cells.Ca2+-activated K+ channels in murine endothelial cells: block by intracellular calcium and magnesium.Intermittent hypoxia in rats reduces activation of Ca2+ sparks in mesenteric arteries.Maternal high-altitude hypoxia and suppression of ryanodine receptor-mediated Ca2+ sparks in fetal sheep pulmonary arterial myocytes.Spontaneous purinergic neurotransmission in the mouse urinary bladderHypertension of Kcnmb1-/- is linked to deficient K secretion and aldosteronismPressure-induced oxidative activation of PKG enables vasoregulation by Ca2+ sparks and BK channels.Opposing roles of smooth muscle BK channels and ryanodine receptors in the regulation of nerve-evoked constriction of mesenteric resistance arteries.Potassium Channels in Regulation of Vascular Smooth Muscle Contraction and Growth.Smooth Muscle Ion Channels and Regulation of Vascular Tone in Resistance Arteries and Arterioles.Intravascular pressure enhances the abundance of functional Kv1.5 channels at the surface of arterial smooth muscle cells.Inhibition of a mammalian large conductance, calcium-sensitive K+ channel by calmodulin-binding peptides.Calcitox-aging counterbalanced by endogenous farnesol-like sesquiterpenoids: An undervalued evolutionarily ancient key signaling pathway
P2860
Q28344077-A51C55CA-B2EE-4869-988C-FAFD634540E5Q28345149-B4299889-3F20-4988-B1EA-53D085FF8902Q28507559-1171DD32-00FA-4811-B502-911888090E7FQ30406156-09FEFD8F-6FDC-4CFB-8413-0B8055E43CCCQ30484789-2733439E-1F1D-4911-992B-D23B41118D08Q30699703-F6B4E34D-0656-4F32-AB75-EE47D1DB8A64Q30858339-15AAF7EA-AB2C-46F2-BEDB-5D9FC98BCDDBQ31917972-9D96F661-47AB-40C4-A6D0-EFC79F194543Q33178694-6BAB2776-C9EF-4EFA-86CF-2C79345C742CQ33226492-BA636942-E551-4BC3-8CD0-DED942790BAAQ33504187-9155703C-3582-4735-BA1B-4624B3005EF9Q33656069-927CDD1F-D000-49D8-AD45-D0EB5AE33956Q33701962-4A2D679C-0403-4160-8F87-FEF37DB21397Q33777986-87A888E7-B14C-4F24-869C-B37A80A149A5Q33821521-4FF2A6F1-392C-448D-AF11-4986F0F562E1Q34003864-74B218BB-99CC-4D6A-B0CC-8D8F72554AE5Q34979788-A70EB9B2-45CA-4C91-9400-DE4F86198D48Q35045889-9BF8B70F-C487-4921-BA3E-F360C4470ADBQ35121270-82D85B3A-CF26-47AC-ACA9-988EF471A392Q35222395-993F8A31-84C0-412F-9EDD-D9ACB088A219Q35234605-13D1F4B4-B2A6-4A46-ABE7-72433E9124F0Q35546782-626A9439-6E23-4EEF-A0AF-E2221C99A301Q35601430-2B77A70E-6E9F-4636-B5C5-E25A635464DBQ35924522-1A1A8C0C-6D0F-4A4D-9CCC-CDD0887434CEQ36132949-66993F3D-DF23-43ED-9850-2C450EF95F0AQ36272888-6146122C-62F9-4D18-85A1-A2E04F0A8AD2Q36273589-3B6B29FF-459B-4E79-917F-DD00CA3D108BQ36295718-1F15067A-4183-4109-97A7-7B7508AC6FB2Q36404789-ACECCD84-1A96-4F1B-8430-34631336BE11Q36422424-5006417D-7518-42A6-9792-5F764654E8CAQ36454406-FD727F12-5590-4559-AD66-709136A25214Q37127645-C29F4010-6D05-433B-A50D-A4E968878771Q37241637-CFA8D8BA-5460-466D-80A7-EB661FDBE069Q37499325-248B3745-2DA2-4A2C-BBB2-BF3874DBC710Q37656096-288726C9-3994-43BA-829B-86EEB8DEFA84Q39141080-16B100F1-7002-4048-BF3E-59C9EB6F092CQ39195631-435E4D9C-F865-4EF4-B283-7B35DA548A8FQ40629681-8B7AAE57-6D53-4A44-B80C-892202454F0AQ40854838-5747DCD9-7593-44EA-8D9B-D846500EBC1BQ41222280-EC9464F2-0988-442C-BA6F-32F16BBDCAA8
P2860
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
description
1998 nî lūn-bûn
@nan
1998 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
@ast
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
@en
type
label
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
@ast
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
@en
prefLabel
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
@ast
Voltage dependence of Ca2+ sparks in intact cerebral arteries.
@en
P2093
P1476
Voltage dependence of Ca2+ sparks in intact cerebral arteries
@en
P2093
A S Stevenson
J H Jaggar
M T Nelson
P304
P356
10.1152/AJPCELL.1998.274.6.C1755
P407
P577
1998-06-01T00:00:00Z