Mechanistic basis of differential conduction in skeletal muscle arteries. - Wikidata - wikimedia - TriplyDB

Mechanistic basis of differential conduction in skeletal muscle arteries.

Mechanistic basis of differential conduction in skeletal muscle arteries.

http://www.wikidata.org/entity/Q46145719

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The vascular conducted response in cerebral blood flow regulation Endothelial Ca2+ wavelets and the induction of myoendothelial feedback.Gap junctions suppress electrical but not [Ca(2+)] heterogeneity in resistance arteries Regulation of blood flow in the microcirculation: role of conducted vasodilation.Acute two-photon imaging of the neurovascular unit in the cortex of active mice Macro-scale phenomena of arterial coupled cells: a massively parallel simulation.Blunted temporal activity of microvascular perfusion heterogeneity in metabolic syndrome: a new attractor for peripheral vascular disease?3D time-varying simulations of Ca2+ dynamics in arterial coupled cells: A massively parallel implementation.Long distance conduction of vasodilation: a passive or regenerative process?Peripheral circulation.Emerging trend in second messenger communication and myoendothelial feedback.Electrical communication in branching arterial networks.Intercellular calcium waves are associated with the propagation of vasomotion along arterial strips.Vasoconstrictor stimulus determines the functional contribution of myoendothelial feedback to mesenteric arterial tone.Structural analysis of endothelial projections from mesenteric arteries.Cell-cell communication in the resistance vasculature: the past, present, and future.BKCa and KV channels limit conducted vasomotor responses in rat mesenteric terminal arterioles.Less is more: minimal expression of myoendothelial gap junctions optimizes cell-cell communication in virtual arterioles.Sympathetic overdrive in obesity involves purinergic hyperactivity in the resistance vasculature.Smooth muscle gap-junctions allow propagation of intercellular Ca waves and vasoconstriction due to Ca based action potentials in rat mesenteric resistance arteries

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Mechanistic basis of differential conduction in skeletal muscle arteries.

http://www.wikidata.org/entity/Q46145719

description

2009 nî lūn-bûn

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2009年の論文

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2009年学术文章

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2009年学术文章

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2009年学术文章

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2009年学术文章

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2009年学术文章

@zh-my

2009年学术文章

@zh-sg

2009年學術文章

@yue

2009年學術文章

@zh-hant

name

Mechanistic basis of differential conduction in skeletal muscle arteries.

@en

Mechanistic basis of differential conduction in skeletal muscle arteries.

@nl

type

label

Mechanistic basis of differential conduction in skeletal muscle arteries.

@en

Mechanistic basis of differential conduction in skeletal muscle arteries.

@nl

prefLabel

Mechanistic basis of differential conduction in skeletal muscle arteries.

@en

Mechanistic basis of differential conduction in skeletal muscle arteries.

@nl

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JPHYSIOL.2008.166017

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The Journal of Physiology

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Mechanistic basis of differential conduction in skeletal muscle arteries.

@en

P2093

Cam Ha T Tran

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Donald G Welsh

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Edward J Vigmond

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Frances Plane

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P2860

Role for endothelial cell conduction in ascending vasodilatation and exercise hyperaemia in hamster skeletal muscle

Signal transduction by G-proteins, rho-kinase and protein phosphatase to smooth muscle and non-muscle myosin II.

Heterogeneity in conducted arteriolar vasomotor response is agonist dependent.

Dye tracers define differential endothelial and smooth muscle coupling patterns within the arteriolar wall.

Connexin 43 and connexin 40 gap junctional proteins are present in arteriolar smooth muscle and endothelium in vivo.

Electromechanical coupling and the conducted vasomotor response.

Cellular pathways of the conducted electrical response in arterioles of hamster cheek pouch in vitro.

Patterns of excitation-contraction coupling in arterioles: dependence on time and concentration.

Plasma membrane channels formed by connexins: their regulation and functions.

Ca2+-activated K+ channels in murine endothelial cells: block by intracellular calcium and magnesium.

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10.1113/JPHYSIOL.2008.166017

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Pt 6

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587

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