| Voltage-gated Ion Channel |
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Information AboutVoltage-gated Ion Channel |
| CATEGORIES ABOUT VOLTAGE-GATED ION CHANNEL | |
| ion channels | |
| electrophysiology | |
| integral membrane proteins | |
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They have a crucial role in excitable neuronal and muscle tissues, allowing a rapid and co-ordinated depolarisation in response to triggering Voltage Change . Found along the Axon and at the Synapse , voltage-gated ion channels directionally propagate electrical signals. STRUCTURE They generally are composed of several subunits arranged in such a way that there is a central pore through which ions can travel down their Electrochemical Gradient s. The channels tend to be quite ion-specific, although similarly sized and charged ions may also travel through them to some extent. EXAMPLES Examples include:
MECHANISM From Crystallographic structural studies of a Potassium Channel , assuming that this structure remains intact in the corresponding Plasma Membrane , it is possible to surmise that when a Potential Difference is introduced over the membrane, the associated Electromagnetic Field induces a conformational change in the potassium channel. The conformational change distorts the shape of the channel proteins sufficiently such that the cavity, or channel, opens to admit ion influx or efflux to occur across the membrane, down its electrochemical gradient. This subsequently generates an electrical Current sufficient to depolarise the cell membrane. Voltage-gated Sodium Channels and Calcium Channels are made up of a single polypeptide with four homologous domains. Each domain contains 6 membrane spanning alpha helices. One of these helices, S4, is the voltage sensing helix. It has many positive charges such that a high positive charge outside the cell repels the helix - inducing a conformational change such that ions may flow through the channel. Potassium channels function in a similar way, with the exception that they are composed of four separate polypeptide chains, each comprising one domain. EXTERNAL LINKS SEE ALSO
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