Mark T. Nelson
Mark T. Nelson
University Distinguished Professor and Chair, University of Vermont
Verified email at
Cited by
Cited by
Physiological roles and properties of potassium channels in arterial smooth muscle
MT Nelson, JM Quayle
American Journal of Physiology-Cell Physiology 268 (4), C799-C822, 1995
Relaxation of arterial smooth muscle by calcium sparks
MT Nelson, H Cheng, M Rubart, LF Santana, AD Bonev, HJ Knot, ...
Science 270 (5236), 633-637, 1995
Hyperpolarizing vasodilators activate ATP-sensitive K+ channels in arterial smooth muscle
NB Standen, JM Quayle, NW Davies, JE Brayden, Y Huang, MT Nelson
Science 245 (4914), 177-180, 1989
Calcium channels, potassium channels, and voltage dependence of arterial smooth muscle tone
MT Nelson, JB Patlak, JF Worley, NB Standen
American Journal of Physiology-Cell Physiology 259 (1), C3-C18, 1990
Regulation of arterial tone by activation of calcium-dependent potassium channels
JE Brayden, MT Nelson
Science 256 (5056), 532-535, 1992
ATP-sensitive and inwardly rectifying potassium channels in smooth muscle
JM Quayle, MT Nelson, NB Standen
Physiological reviews 77 (4), 1165-1232, 1997
Vasoregulation by the β1 subunit of the calcium-activated potassium channel
R Brenner, GJ Peréz, AD Bonev, DM Eckman, JC Kosek, SW Wiler, ...
Nature 407 (6806), 870-876, 2000
Regulation of arterial diameter and wall [Ca2+] in cerebral arteries of rat by membrane potential and intravascular pressure
HJ Knot, MT Nelson
The Journal of physiology 508 (1), 199-209, 1998
Calcium sparks in smooth muscle
JH Jaggar, VA Porter, WJ Lederer, MT Nelson
American Journal of Physiology-Cell Physiology 278 (2), C235-C256, 2000
cGMP-dependent protein kinase activates Ca-activated K channels in cerebral artery smooth muscle cells
BE Robertson, R Schubert, J Hescheler, MT Nelson
American Journal of Physiology-Cell Physiology 265 (1), C299-C303, 1993
Calcium-activated potassium channels and the regulation of vascular tone
J Ledoux, ME Werner, JE Brayden, MT Nelson
Physiology 21 (1), 69-78, 2006
Local potassium signaling couples neuronal activity to vasodilation in the brain
JA Filosa, AD Bonev, SV Straub, AL Meredith, MK Wilkerson, RW Aldrich, ...
Nature neuroscience 9 (11), 1397-1403, 2006
Transient receptor potential channels regulate myogenic tone of resistance arteries
DG Welsh, AD Morielli, MT Nelson, JE Brayden
Circulation research 90 (3), 248-250, 2002
Elementary Ca2+ signals through endothelial TRPV4 channels regulate vascular function
SK Sonkusare, AD Bonev, J Ledoux, W Liedtke, MI Kotlikoff, TJ Heppner, ...
Science 336 (6081), 597-601, 2012
Arterial dilations in response to calcitonin gene-related peptide involve activation of K+ channels
MT Nelson, Y Huang, JE Brayden, J Hescheler, NB Standen
Nature 344 (6268), 770-773, 1990
TRPV4 Forms a Novel Ca2+ Signaling Complex With Ryanodine Receptors and BKCa Channels
S Earley, TJ Heppner, MT Nelson, JE Brayden
Circulation research 97 (12), 1270-1279, 2005
Capillary K+-sensing initiates retrograde hyperpolarization to increase local cerebral blood flow
TA Longden, F Dabertrand, M Koide, AL Gonzales, NR Tykocki, ...
Nature neuroscience 20 (5), 717-726, 2017
Noradrenaline contracts arteries by activating voltage-dependent calcium channels
MT Nelson, NB Standen, JE Brayden, JF Worley III
Nature 336 (6197), 382-385, 1988
Targeted Disruption of Kir2.1 and Kir2.2 Genes Reveals the Essential Role of the Inwardly Rectifying K+ Current in K+-Mediated Vasodilation
JJ Zaritsky, DM Eckman, GC Wellman, MT Nelson, TL Schwarz
Circulation research 87 (2), 160-166, 2000
Overactive bladder and incontinence in the absence of the BK large conductance Ca2+-activated K+ channel
AL Meredith, KS Thorneloe, ME Werner, MT Nelson, RW Aldrich
Journal of Biological Chemistry 279 (35), 36746-36752, 2004
The system can't perform the operation now. Try again later.
Articles 1–20