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What specific event triggers the uncovering of the myosin binding site on actin

Which event directly triggers the uncovering of the myosin binding site on actin?

The muscle contraction cycle is triggered by calcium ions binding to the protein complex troponin, exposing the active-binding sites on the actin. As soon as the actin-binding sites are uncovered, the high-energy myosin head bridges the gap, forming a cross-bridge.

What specific event triggers the uncovering of the myosin binding sites on Acton?

What specific event triggers the uncovering of the myosin binding site on actin? Calcium ions bind to troponin and change its shape. When does cross bridge cycling end?

What causes the myosin head to release its attachment to actin?

Calcium binds to myosin , causing the myosin head to release from the actin myofilament. Tropomyosin moves the actin filament relative to the myosin filament. The displacement of tropomyosin exposes the active sites of actin , allowing cross bridges to form.

What specific event initiates the contraction?

What specific event initiates the contraction ? Calcium release from the sarcoplasmic reticulum initiates the contraction . Sodium release from the sarcoplasmic reticulum initiates the contraction . Action potentials propagate into the interior of the skeletal muscle fiber.

Which muscle cells have the greatest ability to regenerate?

Cardiac muscle can also hypertrophy. However, there are no equivalent to cells to the satellite cells found in skeletal muscle. Thus when cardiac muscle cells die, they are not replaced. Smooth cells have the greatest capacity to regenerate of all the muscle cell types.

What are the 6 steps of muscle contraction?

Terms in this set (6) Ca2+ release from SR terminal Cisterinae binding site exposure. Myosin head binding to actin binding sites. Release of ADP & Pi Causes power stoke. ATP causes Myosin head to be released. ATP is hydrolyzed, re-energizes the Myosin head. Ca2+ pumped back into SR terminal cisterine.

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What are the three functions of ATP in muscle contraction?

The three important functions of ATP in muscle contraction are: It gets hydrolysed by ATPase that activates the myosin head so that it can bind to actin and rotate. It’s binding to myosin causes its detachment from actin after the power stroke.

What is the correct order of muscle contraction?

So, Correct answer is ‘Stimuli Neurotransmitter secretion →→ Excitation of T-system →→ Release of Ca2+ →→ Cross-bridges formation →→ Sliding of actin filaments →→ H band diminishes’

What is the correct order of the sliding filament sequence?

The correct order is: 6) Sarcoplasmic reticulum releases calcium ions, 2) Calcium ions bind to troponin, 5) Tropomyosin moves to expose active sites of actin, 4) ATP is split into ADP and P, 1) Myosin head binds to actin, 7) ADP and P released from myosin, 3) Myosin cross-bridges bend, pulling actin toward center of

What blocks the myosin binding site on actin?

Tropomyosin blocks myosin binding sites on actin molecules, preventing cross-bridge formation and preventing contraction in a muscle without nervous input. Troponin binds to tropomyosin and helps to position it on the actin molecule; it also binds calcium ions.

How do myosin and actin work together?

Muscle contraction thus results from an interaction between the actin and myosin filaments that generates their movement relative to one another. The molecular basis for this interaction is the binding of myosin to actin filaments, allowing myosin to function as a motor that drives filament sliding.

What structure has binding sites for ATP?

The N-terminal globular domain of myosin (called the head) contains all the functional domains (i.e., the ATP binding site, the actin-binding regions, and the rotating “converter” domain). It is able to hydrolyze ATP and move along an actin filament on its own (3).

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What causes intracellular calcium to be released just prior to a muscle contraction?

Action potentials reach the muscle cell and it triggers calcium to be released from he sarcoplasmic reticulum. Calcium flows into the sarcoplasm. Calcium binds to troponin and triggers it to change shape and pivot. This action pulls tropomyosin off the actin binding sites for myosin on the thin myofilament.

What changes permit a muscle fiber to relax after contraction?

Relaxation of a Skeletal Muscle ATP-driven pumps will move Ca++ out of the sarcoplasm back into the SR. This results in the “reshielding” of the actin-binding sites on the thin filaments. Without the ability to form cross-bridges between the thin and thick filaments, the muscle fiber loses its tension and relaxes.

What are the steps of excitation?

The sequence of events in skeletal twitch muscle fibres involves: (1) initiation and propagation of an AP along the plasma membrane, (2) radial spread of the potential along the transverse tubule system (T-tubule system), (3) dihydropyridine receptors (DHPR, L-type Ca2+ channel CaV1.1)-mediated detection of changes in

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