Arrange the steps in the correct order to explain how a muscle fiber contracts.
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filament (MYOSIN) Thin Filament (Actin)

The 2 heads link the actin and myosin together during contraction.
The ends of a myosin filament contain the heads & there is a central bare area
The heads contain ATP binding sites.
Active sites are blocked when the muscle is relaxed

Initiation of Muscle Contraction
Step 1) Neuromuscular Control
The axons of the nerve cells of the spinal cord branch and attach to each muscle fiber forming a neuromuscular junction.
i). An action potential passes down the nerve.
ii). The nerve releases Ca++ that results in the release of Acetylcholine (ACh)
Step 2). ACh binds with the sarcolemma.
Step 3). Muscle Fiber Action Potential
i). ACh binds with receptors and opens Na+ channels
Na+ Channels open and Na+ inThere is a decrease in the resting potential
ii). Na + rushes in and the sarcolemma depolarizes.
iii). The regional depolarization spreads rapidly.
The positive patch in the membrane changes the adjacent patch of the membrane.Thus depolarization spreads.
iv). The K+ channels open and the region repolarizes
Immediately after the action potential passes the membrane permeability changes again.Na+ channels close and K+ channels open.K+ rushes out of the cell.Cell reploraizes
Step 4). Ca++ is released from the sarcoplasmic reticulum.
i). Ca++ is stored in thesarcoplasmic reticulum.
ii). Depolarization releases the Ca++.
iii). The Ca++ clears the actin binding sites.

Step 5). Sliding Filament Theory of Contraction
During muscle contraction the thin actin filaments slide over the thick myosin filament.
When Calcium is present the blocked active site of the actin clears.
Step A: Myosin head attaches to actin. (High energy ADP + P configuration)
Step B: Power stroke: myosin head pivots pulling the actin filament toward the center.
Step C: The cross bridge detaches when a new ATP binds with the myosin.
Step D: Cocking of the myosin head occurs when ATP à ADP + P. Another cross bridge can form.

The 2 heads link the actin and myosin together during contraction.
The ends of a myosin filament contain the heads & there is a central bare area
The heads contain ATP binding sites.
Active sites are blocked when the muscle is relaxed

Initiation of Muscle Contraction
Step 1) Neuromuscular Control
The axons of the nerve cells of the spinal cord branch and attach to each muscle fiber forming a neuromuscular junction.
i). An action potential passes down the nerve.
ii). The nerve releases Ca++ that results in the release of Acetylcholine (ACh)
Step 2). ACh binds with the sarcolemma.
Step 3). Muscle Fiber Action Potential
i). ACh binds with receptors and opens Na+ channels
Na+ Channels open and Na+ inThere is a decrease in the resting potential
ii). Na + rushes in and the sarcolemma depolarizes.
iii). The regional depolarization spreads rapidly.
The positive patch in the membrane changes the adjacent patch of the membrane.Thus depolarization spreads.
iv). The K+ channels open and the region repolarizes
Immediately after the action potential passes the membrane permeability changes again.Na+ channels close and K+ channels open.K+ rushes out of the cell.Cell reploraizes
Step 4). Ca++ is released from the sarcoplasmic reticulum.
i). Ca++ is stored in thesarcoplasmic reticulum.
ii). Depolarization releases the Ca++.
iii). The Ca++ clears the actin binding sites.

Step 5). Sliding Filament Theory of Contraction
During muscle contraction the thin actin filaments slide over the thick myosin filament.
When Calcium is present the blocked active site of the actin clears.
Step A: Myosin head attaches to actin. (High energy ADP + P configuration)
Step B: Power stroke: myosin head pivots pulling the actin filament toward the center.
Step C: The cross bridge detaches when a new ATP binds with the myosin.
Step D: Cocking of the myosin head occurs when ATP à ADP + P. Another cross bridge can form.
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