1. The effects of intracellular pH (pHi) on the ATP-sensitive K+ channel (K+ATP channel) from mouse pancreatic beta-cells were examined in inside-out patches exposed to symmetrical 140 mM K+ solutions. 2. The relationship between channel activity and pHi was described by the Hill equation with half-maximal inhibition (Ki) at pHi 6.25 and a Hill coefficient of 3.7. 3. Following exposure to pHi < 6.8, channel activity did not recover to its original level. Subsequent application of trypsin to the intracellular membrane surface restored channel activity to its initial level or above. 4. At -60 mV the relationship between pHi and the single-channel current amplitude was described by a modified Hill equation with a Hill coefficient of 2.1, ha...
AbstractThe effects of bicarbonate buffer (HCO−3/CO2) on the activity of the two K+ channels propose...
The mechanisms by which nucleotides stimulate the activity of the ATP-regulated K(+)-channel (KATP-c...
The effects of glucose, diazoxide, K+, and tolbutamide on the activity of K+ channels, membrane pote...
1. The effects of intracellular pH (pHi) on the ATP-sensitive K+ channel (K+ATP channel) from mouse ...
AbstractThe study of the influence of intracellular pH (pHi) changes on the mechanism underlying pan...
1. The inside-out configuration of the patch-clamp method was used to study the effects of MgATP, fr...
We have studied the effects of changes of intracellular ATP concentration ([ATP]i) on the activity o...
AbstractMeasurements of the effects of NH3/NH4+ on glucose-induced electrical activity in β-cells fr...
We studied the block of whole-cell ATP-sensitive K+ (KATP) currents in mouse pancreatic beta-cells p...
The effect of internal Cl- on the K-ATP channel of pancreatic beta-cells was examined. Reducing Cl- ...
ATP-sensitive K(+) channels (K(ATP) channels) couple cell metabolism to electrical activity and ther...
1. The patch-clamp method has been used to study the selectivity of single ATP-sensitive potassium c...
AbstractWe have studied the effects of changes of intracellular ATP concentration ([ATP]i) on the ac...
The single-channel recording technique was employed to investigate the mechanism conferring ATP sens...
AbstractATP-sensitive K+ channels in inside-out membrane patches from dispersed rat pancreatic B-cel...
AbstractThe effects of bicarbonate buffer (HCO−3/CO2) on the activity of the two K+ channels propose...
The mechanisms by which nucleotides stimulate the activity of the ATP-regulated K(+)-channel (KATP-c...
The effects of glucose, diazoxide, K+, and tolbutamide on the activity of K+ channels, membrane pote...
1. The effects of intracellular pH (pHi) on the ATP-sensitive K+ channel (K+ATP channel) from mouse ...
AbstractThe study of the influence of intracellular pH (pHi) changes on the mechanism underlying pan...
1. The inside-out configuration of the patch-clamp method was used to study the effects of MgATP, fr...
We have studied the effects of changes of intracellular ATP concentration ([ATP]i) on the activity o...
AbstractMeasurements of the effects of NH3/NH4+ on glucose-induced electrical activity in β-cells fr...
We studied the block of whole-cell ATP-sensitive K+ (KATP) currents in mouse pancreatic beta-cells p...
The effect of internal Cl- on the K-ATP channel of pancreatic beta-cells was examined. Reducing Cl- ...
ATP-sensitive K(+) channels (K(ATP) channels) couple cell metabolism to electrical activity and ther...
1. The patch-clamp method has been used to study the selectivity of single ATP-sensitive potassium c...
AbstractWe have studied the effects of changes of intracellular ATP concentration ([ATP]i) on the ac...
The single-channel recording technique was employed to investigate the mechanism conferring ATP sens...
AbstractATP-sensitive K+ channels in inside-out membrane patches from dispersed rat pancreatic B-cel...
AbstractThe effects of bicarbonate buffer (HCO−3/CO2) on the activity of the two K+ channels propose...
The mechanisms by which nucleotides stimulate the activity of the ATP-regulated K(+)-channel (KATP-c...
The effects of glucose, diazoxide, K+, and tolbutamide on the activity of K+ channels, membrane pote...
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