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The binding of acetylcholine to its receptor at the neuromuscular junction causes the opening of a A) Na+ channel. B) channel for both Na+ and K+. C) calcium channel. D) ryanodine receptor.
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The binding of acetylcholine to its receptor at the neuromuscular junction causes the opening of a

A) Na+ channel.
B) channel for both Na+ and K+.
C) calcium channel.
D) ryanodine receptor.

User Kev Wats
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Final answer:

Acetylcholine binds to receptors at the neuromuscular junction, leading to the opening of Na+ channels, depolarization of the postsynaptic membrane, and initiation of an action potential for muscle contraction.

Step-by-step explanation:

The binding of acetylcholine to its receptor at the neuromuscular junction causes the opening of a channel for both Na+ and K+. When acetylcholine is released at the synapse between a nerve and muscle, it causes postsynaptic Na+ channels to open. The Na+ enters the postsynaptic cell, causing the membrane to depolarize. This process leads to the creation of an action potential which ultimately triggers muscle contraction.

User Shlomi Noach
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