Modelling the activation, opening, inactivation and reopening of the voltage–gated sodium channel

Modelling the activation, opening, inactivation and reopening of the voltage–gated sodium channel

A model of the voltage-gated sodium channel is put forward suggesting that the four S4 voltage-sensors behave as screw-helices making a series of discrete transitions that carry one elementary charge for each notch of the screw helix. After the channel has been activated by the first two steps R P A...

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Veröffentlicht in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 1998-02, Vol.265 (1393), p.263-270
Hauptverfasser: Keynes, R.D., Elinder, F.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Axons
Brackish
Dehydration
Electric current
Electric potential
Freshwater
Humans
Ion Channel Gating - physiology
Ion channels
Ion Channels - physiology
Kinetics
Marine
MEDICIN
Medicin och hälsovetenskap
MEDICINE
Model Of Ion Channels
Models, Biological
Models, Theoretical
Sensors
Sodium
Sodium Channel
Sodium channels
Time constants
Voltage Gating
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Zusammenfassung:A model of the voltage-gated sodium channel is put forward suggesting that the four S4 voltage-sensors behave as screw-helices making a series of discrete transitions that carry one elementary charge for each notch of the screw helix. After the channel has been activated by the first two steps R P A in all four domains, followed by a voltage-independent rearrangement, it is opened by a third cooperative step A B in domains I, II and III in conjunction with hydration. Inactivation is a voltage-dependent process controlled by the third step A I in sensor IVS4, and the closing of the channel is brought about its dehydration. From the inactivated steady state the channel may be reopened by a fourth step, I C in sensor IVS4 and rehydration. The computed kinetics of the model are shown to conform closely with those observed experimentally.
ISSN:0962-8452
1471-2954
1471-2954
DOI:10.1098/rspb.1998.0291