How does acetylcholine (ACh) influence the ion permeability of the sarcolemma?

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Multiple Choice

How does acetylcholine (ACh) influence the ion permeability of the sarcolemma?

Explanation:
Acetylcholine (ACh) influences the ion permeability of the sarcolemma primarily by binding to receptors located in the junctional folds of the motor end plate at the neuromuscular junction. When ACh is released from the motor neuron, it diffuses across the synaptic cleft and attaches to nicotinic acetylcholine receptors on the muscle cell's sarcolemma. This binding induces a conformational change in the receptors, which opens ion channels and allows specific ions, notably sodium (Na+), to flow into the muscle fiber. The influx of sodium ions leads to depolarization of the sarcolemma, generating an action potential that subsequently stimulates muscle contraction. This process is integral to voluntary muscle movement and highlights the critical role of ACh in neuromuscular transmission. By understanding this mechanism, one can appreciate how neurotransmitters directly interact with receptors to initiate physiological responses in muscle cells.

Acetylcholine (ACh) influences the ion permeability of the sarcolemma primarily by binding to receptors located in the junctional folds of the motor end plate at the neuromuscular junction. When ACh is released from the motor neuron, it diffuses across the synaptic cleft and attaches to nicotinic acetylcholine receptors on the muscle cell's sarcolemma. This binding induces a conformational change in the receptors, which opens ion channels and allows specific ions, notably sodium (Na+), to flow into the muscle fiber.

The influx of sodium ions leads to depolarization of the sarcolemma, generating an action potential that subsequently stimulates muscle contraction. This process is integral to voluntary muscle movement and highlights the critical role of ACh in neuromuscular transmission. By understanding this mechanism, one can appreciate how neurotransmitters directly interact with receptors to initiate physiological responses in muscle cells.

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