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Ca-Induced K+-Outward Current in Paramecium Tetraurelia
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ABSTRACT
Late K-outward currents upon membrane depolarization were recorded in Paramecium tetraurelia under a voltage clamp. A Ca-induced K-outward component is demonstrated by subtracting the value of the outward current in a pawn A mutant lacking functional Ca-channels (pwA500). The Ca-induced K-outward current activates slowly, reaching a peak after 100 to 1000 ms. The current then remains steady or reaches the steady state after a decline of several seconds.
EGTA2− injection experiments show that the Ca-induced K-outward current is dependent on the internal Ca2+ concentration. The current is shown to depend on the voltage-dependent Ca conductance, by study of the leaky pawn A mutant (pwA132), which has a lowered Ca conductance as well as a lowered Ca-induced K-current. The Ca-induced GK is thus indirectly dependent on the voltage. The maximal GK is about 40 nmho/cell at + 7 mV in 4 mm-K+.
The Ca-induced K current is sustained throughout the prolonged depolarization and the prolonged ciliary reversal.
Title: Ca-Induced K+-Outward Current in Paramecium Tetraurelia
Description:
ABSTRACT
Late K-outward currents upon membrane depolarization were recorded in Paramecium tetraurelia under a voltage clamp.
A Ca-induced K-outward component is demonstrated by subtracting the value of the outward current in a pawn A mutant lacking functional Ca-channels (pwA500).
The Ca-induced K-outward current activates slowly, reaching a peak after 100 to 1000 ms.
The current then remains steady or reaches the steady state after a decline of several seconds.
EGTA2− injection experiments show that the Ca-induced K-outward current is dependent on the internal Ca2+ concentration.
The current is shown to depend on the voltage-dependent Ca conductance, by study of the leaky pawn A mutant (pwA132), which has a lowered Ca conductance as well as a lowered Ca-induced K-current.
The Ca-induced GK is thus indirectly dependent on the voltage.
The maximal GK is about 40 nmho/cell at + 7 mV in 4 mm-K+.
The Ca-induced K current is sustained throughout the prolonged depolarization and the prolonged ciliary reversal.
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