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Tryptofish (talk | contribs) →Overview of inward rectification: Actually, it's both ways, so this is simpler. |
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A channel that is "inwardly-rectifying" is one that passes current (positive charge) more easily in the inward direction (into the cell) than in the outward direction (out of the cell). It is thought that this current may play an important role in regulating neuronal activity, by helping to stabilize the [[resting membrane potential]] of the cell.
By convention, inward current (positive charge moving into the cell) is displayed in [[voltage clamp]] as a downward deflection, while an outward current (positive charge moving out of the cell) is shown as an upward deflection. At membrane potentials negative to potassium's [[reversal potential]], inwardly rectifying K<sup>+</sup> channels support the flow of positively charged K<sup>+</sup> ions into the cell, pushing the membrane potential back to the resting potential. This can be seen in figure 1: when the membrane potential is clamped negative to the channel's resting potential (e.g. -60 mV), inward current flows (i.e. positive charge flows into the cell). However, when the membrane potential is set positive to the channel's resting potential (e.g. +60 mV), these channels pass very little
These channels differ from the potassium channels that are typically responsible for repolarizing a cell following an [[action potential]], such as the [[Voltage-gated potassium channel#Delayed rectifier|delayed rectifier]] and [[Voltage-gated potassium channel#A-type potassium channel|A-type]] potassium channels. Those more "typical" potassium channels preferentially carry outward (rather than inward) potassium currents at depolarized membrane potentials, and may be thought of as "outwardly rectifying." When first discovered, inward rectification was named "anomalous rectification" to distinguish it from outward potassium currents.<ref>[[Bertil Hille]] (2001). ''Ion Channels of Excitable Membranes'' 3rd ed. (Sinauer: Sunderland, MA), p. 151. ISBN 0-87893-321-2.</ref>
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