During the sliding filament theory, what triggers exposure of binding sites on actin?

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Multiple Choice

During the sliding filament theory, what triggers exposure of binding sites on actin?

Explanation:
Calcium ions binding to troponin is the trigger. In a resting muscle, the actin sites where myosin would bind are blocked by the troponin-tropomyosin complex. When calcium is released into the muscle cytoplasm, it binds to troponin, causing a conformational change that moves tropomyosin away from the binding sites on actin. With these sites exposed, energized myosin heads can attach to actin to form cross-bridges, initiating the contraction cycle. The other events listed—ATP binding to myosin, ADP release, or troponin releasing tropomyosin—are involved in later steps of cross-bridge cycling or its regulation, not the initial exposure of the actin binding sites.

Calcium ions binding to troponin is the trigger. In a resting muscle, the actin sites where myosin would bind are blocked by the troponin-tropomyosin complex. When calcium is released into the muscle cytoplasm, it binds to troponin, causing a conformational change that moves tropomyosin away from the binding sites on actin. With these sites exposed, energized myosin heads can attach to actin to form cross-bridges, initiating the contraction cycle. The other events listed—ATP binding to myosin, ADP release, or troponin releasing tropomyosin—are involved in later steps of cross-bridge cycling or its regulation, not the initial exposure of the actin binding sites.

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