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D H Jenkinson

Showing results (21-30 of 39) with videos related to

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The Journal of Physiology|February 1, 1992
Properties of a cell volume-sensitive potassium conductance in isolated guinea-pig and rat hepatocytesC A Sandford, J H Sweiry, D H Jenkinson
British Journal of Pharmacology|December 1, 1985
Neuromuscular blocking agents inhibit receptor-mediated increases in the potassium permeability of intestinal smooth muscleP R Gater, D G Haylett, D H Jenkinson
Cell Calcium|December 1, 1983
Calcium-activated potassium channels in liver cellsD H Jenkinson, D G Haylett, N S Cook
European Journal of Pharmacology|July 11, 1980
Antagonism of an indirectly acting agonist: block by propranolol and sotalol of the action of tyramine on rat heartJ W Black, D H Jenkinson, T P Kenakin
Trends in Neurosciences|February 1, 1989
Toxins in the characterization of potassium channelsN A Castle, D G Haylett, D H Jenkinson
Archiv Der Pharmazie|December 1, 1996
On the concept of a bivalent pharmacophore for SKCa channel blockers: synthesis, pharmacological testing, and radioligand binding studies on mono-, bis-, and tris-quinolinium compoundsD Galanakis, C R Ganellin, P M Dunn, et al.
British Journal of Pharmacology|April 1, 2000
Compounds that block both intermediate-conductance (IK(Ca)) and small-conductance (SK(Ca)) calcium-activated potassium channelsM Malik-Hall, C R Ganellin, D Galanakis, et al.
European Journal of Pharmacology|May 19, 1993
Dequalinium: a potent inhibitor of apamin-sensitive K+ channels in hepatocytes and of nicotinic responses in skeletal muscleN A Castle, D G Haylett, J M Morgan, et al.
Journal of Medicinal Chemistry|September 23, 2000
bis-Quinolinium cyclophanes: 8,14-diaza-1,7(1, 4)-diquinolinacyclotetradecaphane (UCL 1848), a highly potent and selective, nonpeptidic blocker of the apamin-sensitive Ca(2+)-activated K(+) channelJ Q Chen, D Galanakis, C R Ganellin, et al.
The Journal of Physiology|September 5, 2001
SK3 is an important component of K(+) channels mediating the afterhyperpolarization in cultured rat SCG neuronesR Hosseini, D C Benton, P M Dunn, et al.
Pageof 4

Showing results (21-30 of 39) with videos related to

Sort By:
Pageof 4
The Journal of Physiology|February 1, 1992
Properties of a cell volume-sensitive potassium conductance in isolated guinea-pig and rat hepatocytesC A Sandford, J H Sweiry, D H Jenkinson
British Journal of Pharmacology|December 1, 1985
Neuromuscular blocking agents inhibit receptor-mediated increases in the potassium permeability of intestinal smooth muscleP R Gater, D G Haylett, D H Jenkinson
Cell Calcium|December 1, 1983
Calcium-activated potassium channels in liver cellsD H Jenkinson, D G Haylett, N S Cook
European Journal of Pharmacology|July 11, 1980
Antagonism of an indirectly acting agonist: block by propranolol and sotalol of the action of tyramine on rat heartJ W Black, D H Jenkinson, T P Kenakin
Trends in Neurosciences|February 1, 1989
Toxins in the characterization of potassium channelsN A Castle, D G Haylett, D H Jenkinson
Archiv Der Pharmazie|December 1, 1996
On the concept of a bivalent pharmacophore for SKCa channel blockers: synthesis, pharmacological testing, and radioligand binding studies on mono-, bis-, and tris-quinolinium compoundsD Galanakis, C R Ganellin, P M Dunn, et al.
British Journal of Pharmacology|April 1, 2000
Compounds that block both intermediate-conductance (IK(Ca)) and small-conductance (SK(Ca)) calcium-activated potassium channelsM Malik-Hall, C R Ganellin, D Galanakis, et al.
European Journal of Pharmacology|May 19, 1993
Dequalinium: a potent inhibitor of apamin-sensitive K+ channels in hepatocytes and of nicotinic responses in skeletal muscleN A Castle, D G Haylett, J M Morgan, et al.
Journal of Medicinal Chemistry|September 23, 2000
bis-Quinolinium cyclophanes: 8,14-diaza-1,7(1, 4)-diquinolinacyclotetradecaphane (UCL 1848), a highly potent and selective, nonpeptidic blocker of the apamin-sensitive Ca(2+)-activated K(+) channelJ Q Chen, D Galanakis, C R Ganellin, et al.
The Journal of Physiology|September 5, 2001
SK3 is an important component of K(+) channels mediating the afterhyperpolarization in cultured rat SCG neuronesR Hosseini, D C Benton, P M Dunn, et al.
Pageof 4