k Voltagegated potassium channel, molecular model Voltagegated potassium channel. Computer model showing the molecular structure of a voltagegated potassium Kv ion channel. Ion channels are membranespanning proteins that form pores in cell membranes and act as pathways for the movement of inorganic ions into and out of the cell. Kv channels are specific to potassium ions K and are sensitive to voltage changes in the cells membrane potential. During action potentials in nerve cells, they play a crucial role in returning the depolarised cell to a resting state. The channel is a tetramer, composed of four subunits. One subunit of this structure has been cutaway to reveal the potassium ions pink spheres in the selectivity filter centre in the upper part of the channel. This selectivity filter acts to prevent smaller sodium ions Na from passing through the Kv channel. Stock Photo - Afloimages
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Voltage gated potassium channel, molecular model Voltage gated potassium channel. Computer model showing the molecular structure of a voltage gated potassium Kv ion channel. Ion channels are membrane spanning proteins that form pores in cell membranes and act as pathways for the movement of inorganic ions into and out of the cell. Kv channels are specific to potassium ions K and are sensitive to voltage changes in the cell s membrane potential. During action potentials in nerve cells, they play a crucial role in returning the depolarised cell to a resting state. The channel is a tetramer, composed of four subunits. One subunit of this structure has been cut away to reveal the potassium ions pink spheres in the selectivity filter centre in the upper part of the channel. This selectivity filter acts to prevent smaller sodium ions Na from passing through the Kv channel.
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Voltage-gated potassium channel, molecular model

Voltage-gated potassium channel. Computer model showing the molecular structure of a voltage-gated potassium (Kv) ion channel. Ion channels are membrane-spanning proteins that form pores in cell membranes and act as pathways for the movement of inorganic ions into and out of the cell. Kv channels are specific to potassium ions (K+) and are sensitive to voltage changes in the cell's membrane potential. During action potentials in nerve cells, they play a crucial role in returning the depolarised cell to a resting state. The channel is a tetramer, composed of four subunits. One subunit of this structure has been cut-away to reveal the potassium ions (pink spheres) in the selectivity filter (centre) in the upper part of the channel. This selectivity filter acts to prevent smaller sodium ions (Na+) from passing through the Kv channel.

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