Add to ORKGThe inwardly rectifying potassium conductance in frog skeletal muscle resides largely in the transverse tubular system (TTS). In voltage-clamp experiments, the membrane potential of the TTS will in general not be the same as the surface potential, owing to voltage drop across the tubular luminal resistance; hence the measured total conductance-voltage relation is liable to differ from the intrinsic rectifying function
The transverse-axial tubular system (TAT-system) of cardiac muscle is a structure that allows rapid ...
At the neuromuscular junction, the end-plate potential is generated by a conductance increase in the...
The low intracellular pH and membrane depolarization associated with repeated skeletal muscle stimul...
The inwardly rectifying potassium conductance in frog skeletal muscle resides largely in the transve...
The non-penetrating potentiometric dyes NK2367 and WW375 were used to investigate the effect of inwa...
Inwardly rectifying K+ currents were studied in cut muscle fibres from frogs using the Vaseline-gap ...
Frog skeletal muscle has a K+ channel called the inward rectifier, which passes inward current more ...
This paper presents the construction, derivation, and test of a mesh model for the electrical proper...
The transfer of intramembrane charge during an action potential at 4 degrees C was reconstructed for...
1. The degree of tubular potassium depletion and the decrease of potassium conductance due to hyperp...
A two-microelectrode voltage clamp and optical measurements of membrane potential changes at the tra...
The membrane models of Cannon et al. (1993) and Alberink et al. (1995) for mammalian skeletal muscle...
All in-text references underlined in blue are linked to publications on ResearchGate, letting you ac...
The transverse electrical impedance of single frog skeletal muscle fibers was measured at 31 frequen...
The cellular K content of frog ventricular strips is monitored using 42K. Cellular K loss evoked by ...
The transverse-axial tubular system (TAT-system) of cardiac muscle is a structure that allows rapid ...
At the neuromuscular junction, the end-plate potential is generated by a conductance increase in the...
The low intracellular pH and membrane depolarization associated with repeated skeletal muscle stimul...
The inwardly rectifying potassium conductance in frog skeletal muscle resides largely in the transve...
The non-penetrating potentiometric dyes NK2367 and WW375 were used to investigate the effect of inwa...
Inwardly rectifying K+ currents were studied in cut muscle fibres from frogs using the Vaseline-gap ...
Frog skeletal muscle has a K+ channel called the inward rectifier, which passes inward current more ...
This paper presents the construction, derivation, and test of a mesh model for the electrical proper...
The transfer of intramembrane charge during an action potential at 4 degrees C was reconstructed for...
1. The degree of tubular potassium depletion and the decrease of potassium conductance due to hyperp...
A two-microelectrode voltage clamp and optical measurements of membrane potential changes at the tra...
The membrane models of Cannon et al. (1993) and Alberink et al. (1995) for mammalian skeletal muscle...
All in-text references underlined in blue are linked to publications on ResearchGate, letting you ac...
The transverse electrical impedance of single frog skeletal muscle fibers was measured at 31 frequen...
The cellular K content of frog ventricular strips is monitored using 42K. Cellular K loss evoked by ...
The transverse-axial tubular system (TAT-system) of cardiac muscle is a structure that allows rapid ...
At the neuromuscular junction, the end-plate potential is generated by a conductance increase in the...
The low intracellular pH and membrane depolarization associated with repeated skeletal muscle stimul...