Peter A. Getting scite author profile

1. Inactivation of delayed outward current was studied by voltage clamp of isolated neurone somata of the molluscs Archidoris and Anisodoris. During prolonged voltage clamp steps in normal artificial sea water delayed outward current rises to a peak and then declines to a non-zero steady-state. During repetitive clamp pulses at repetition rates slower than 2/sec, the amplitude of peak outward current in the second pulse is commonly less than the amplitude at the end of the preceding pulse, giving the impression of continued inactivation during the repolarized interval. We have termed this property cumulative inactivation. 2. Two components of delayed outward current were separated using tetraethyl ammonium ions (TEA) and cobalt ions (Co). External TEA blocks 90% of a voltage and time dependent outward current termed K current (IK). External Co blocks 85% of a Ca activated delayed outward current termed Ca current (ICa does not inactivate during prolonged or repetitive voltage clamp pulses. IK, however, inactivates during prolonged voltage clamp steps and shows cumulative inactivation during repetitive voltage clamp pulses. 3. Inactivation of IK is voltage and time dependent and does not require influx of Ca ions. 4. As measured by a prepulse method, the onset of inactivation is characterized by a two time constant process. Fast inactivation occurs with a time course comparable to the rate of rise of outward current and can account for 90% of total inactivation. 5. Recovery from inactivation is slow with a time constant approximately an order of magnitude slower than the onset of inactivation. 6. The current-voltage (I-V) curve for peak IK can be N-shaped, with a region of negative slope resistance in the range of +30 to +80 mV. The I-V curve for steady-state IK, however, shows little or no tendency to form a local maximum. 7. The pattern of delayed outward current varies considerably between cells. A major contributing factor to this variability appears to be the relative contributions of ICa and IK to delayed outward current.

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Mechanisms of pattern generation underlying swimming in Tritonia. I. Neuronal network formed by monosynaptic connections.

Getting¹

1981

Journal of Neurophysiology

127

106

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Mechanisms of pattern generation underlying swimming in Tritonia. III. Intrinsic and synaptic mechanisms for delayed excitation

Getting¹

1983

Journal of Neurophysiology

146

101

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Mechanism of frequency‐dependent broadening of molluscan neurone soma spikes.

Aldrich¹,

Getting²,

Thompson³

1979

The Journal of Physiology

159

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inward Ca currents show significant spike broadening. Spike broadening apparently results from the frequency dependent inactivation of 1K which increases the expression of inward Ca current as a prominent shoulder on the repolarizing phase of the action potential. In addition, the presence of a prolonged Ca current increases the duration of the first action potential thereby allowing sufficient time for inactivation of IK.

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Peter A. Getting

Emerging Principles Governing the Operation of Neural Networks

Inactivation of delayed outward current in molluscan neurone somata.

Mechanisms of pattern generation underlying swimming in Tritonia. I. Neuronal network formed by monosynaptic connections.

Mechanisms of pattern generation underlying swimming in Tritonia. III. Intrinsic and synaptic mechanisms for delayed excitation

Mechanism of frequency‐dependent broadening of molluscan neurone soma spikes.

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