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The Neuromuscular Junction

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The Neuromuscular Junction. MMHS Anatomy and Physiology. NMJ General Information. Muscles move (contract) in response to a stimulus  nerve impulse from a motor neuron. One motor neuron may stimulate a few muscle cells or hundreds of them depending on the force required. - PowerPoint PPT Presentation
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The Neuromuscular Junction MMHS Anatomy and Physiology
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Page 1: The Neuromuscular Junction

The Neuromuscular Junction

MMHSAnatomy and Physiology

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NMJ General Information

• Muscles move (contract) in response to a stimulus nerve impulse from a motor neuron.

• One motor neuron may stimulate a few muscle cells or hundreds of them depending on the force required.

• When the axon of a neuron reaches the muscle, it branches into a number of axon terminals which forms junctions called neuro-muscular junction (nmj).

• The nerve and muscle don’t actually touch because there is a space b/w them called the synapse.

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1. Axon of motor neuron2. Motor end-plate3. Muscle fiber4. Myofibril

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The Presynaptic Terminal (Nerve)

1. When the impulse reaches the axon terminal (end of motor neuron), it stimulates vesicles to migrate towards the membrane.

2. When vesicles merge with the membrane, they release their neurotransmitters into the synapse.

3. NT’s, like Acetylcholine (Ach)diffuse across the synaptic gap, then bind to the receptor sites.

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The Postsynaptic Terminal (Muscle)4. When Ach docks at the receptor sites, this initiates

depolarization of the membrane.5. Depolarization causes sodium ions to rush into the

sarcolemma and potassium ions to rush out of the membrane.

6. This ion movement causes the membrane interior now to be positively charged and the exterior negative charge.

7. This polarity reversal generates an electrical current called the Action Potential.

8. The action potential moves over the surface of the membrane causing the skeletal muscle to contract.

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Changes in the Synapse

• Once the action potential has started, acetylcholine in the synapse is broken down.

• Ach broken down by an enzyme called Acetylcholineinterase (AchE).

• This breakdown prevents continued contraction of the muscle.

• The Ach parts then diffuse back into the presynaptic terminal and are reassembled by the Rough Endoplasmic Reticulum into new neurotransmitters.

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