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Uniporter carrier proteins work by binding to one molecule of solute at a time and transporting it with the solute gradient. Uniporter channels open in response to a stimulus and allow the free flow of specific molecules. Uniporters may not utilize energy other than the solute gradient. Thus they may only transport molecules with the solute gradient, and not against it.
There are several ways in which the opening of uniporter channels may be regulated:
Uniporters are involved in many biological processes, including impulse transmission in neurons. Voltage-gated sodium channels are involved in the propagation of a nerve impulse across the neuron. During transmission of the signal from one neuron to the next, calcium is transported into the presynaptic neuron by voltage-gated calcium channels. Calcium released from the presynaptic neuron binds to a ligand-gated calcium channel in the postsynaptic neuron to stimulate an impulse in that neuron. Potassium leak channels, also regulated by voltage, then help to restore the resting membrane potential after impulse transmission.
In the ear, sound waves cause the stress-regulated channels in the ear to open, sending an impulse to the vestibulocochlear nerve (VIII).
|This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Uniporter". A list of authors is available in Wikipedia.|