Add to ORKG1. The mechanisms by which ADP and the hyperglycaemic compound diazoxide stimulate the activity of the ATP-regulated K+ channel (KATP channel) were studied using inside-out patches isolated from mouse pancreatic beta-cells maintained in tissue culture. 2. The ability of diazoxide and ADP to increase KATP channel activity declined with time following patch excision and no stimulation was observed after 15-40 min. 3. Activation of KATP channels by ADP required the presence of intracellular Mg2+. The stimulatory effect of ADP was mimicked by AMP but only in the presence of ATP. Replacement of ATP with the non-hydrolysable analogue beta, gamma-methylene ATP did not interfere with the ability of ADP to stimulate KATP channel activity. By contras...
The influence of the antidiabetic sulphonylurea tolbutamide on K+ channels of mouse pancreatic beta-...
Abstractthe effect of ADP on ATP-sensitive K+ channels in the insulin-secreting RINm5F cell line has...
AbstractThe δ-cell line RIN14B was characterized with regard to ATP-regulated K+ (KATP) channel acti...
1. The mechanisms by which ADP and the hyperglycaemic compound diazoxide stimulate the activity of t...
1. Patch-clamp recording techniques were used, to examine the effects of diazoxide on KATP currents ...
The mechanisms by which nucleotides stimulate the activity of the ATP-regulated K(+)-channel (KATP-c...
1. The effects of diazoxide on ATP-K+ channel currents, recorded from the insulin-secreting cell lin...
1. The inside-out configuration of the patch-clamp method was used to study the effects of MgATP, fr...
Stimulation of insulin release by glucose requires Ca2+ influx in pancreatic B-cells. This influx oc...
This thesis attempts to further clarify mechanisms behind the negative effects of overstimulation an...
The effects of glucose, diazoxide, K+, and tolbutamide on the activity of K+ channels, membrane pote...
1. The effects of various inhibitors of the mitochondrial electron transport chain on the activity o...
<p>A, BPA at 1 nM decreased K<sub>ATP</sub> channel activity in pancreatic β-cells from WT mice. The...
The energy state of pancreatic B-cells may influence insulin release at several steps of stimulus-se...
The effects of a photoactivable (DMNPE-caged) ATP-analogue on ATP-regulated K(+)-channels (KATP-chan...
The influence of the antidiabetic sulphonylurea tolbutamide on K+ channels of mouse pancreatic beta-...
Abstractthe effect of ADP on ATP-sensitive K+ channels in the insulin-secreting RINm5F cell line has...
AbstractThe δ-cell line RIN14B was characterized with regard to ATP-regulated K+ (KATP) channel acti...
1. The mechanisms by which ADP and the hyperglycaemic compound diazoxide stimulate the activity of t...
1. Patch-clamp recording techniques were used, to examine the effects of diazoxide on KATP currents ...
The mechanisms by which nucleotides stimulate the activity of the ATP-regulated K(+)-channel (KATP-c...
1. The effects of diazoxide on ATP-K+ channel currents, recorded from the insulin-secreting cell lin...
1. The inside-out configuration of the patch-clamp method was used to study the effects of MgATP, fr...
Stimulation of insulin release by glucose requires Ca2+ influx in pancreatic B-cells. This influx oc...
This thesis attempts to further clarify mechanisms behind the negative effects of overstimulation an...
The effects of glucose, diazoxide, K+, and tolbutamide on the activity of K+ channels, membrane pote...
1. The effects of various inhibitors of the mitochondrial electron transport chain on the activity o...
<p>A, BPA at 1 nM decreased K<sub>ATP</sub> channel activity in pancreatic β-cells from WT mice. The...
The energy state of pancreatic B-cells may influence insulin release at several steps of stimulus-se...
The effects of a photoactivable (DMNPE-caged) ATP-analogue on ATP-regulated K(+)-channels (KATP-chan...
The influence of the antidiabetic sulphonylurea tolbutamide on K+ channels of mouse pancreatic beta-...
Abstractthe effect of ADP on ATP-sensitive K+ channels in the insulin-secreting RINm5F cell line has...
AbstractThe δ-cell line RIN14B was characterized with regard to ATP-regulated K+ (KATP) channel acti...