[[protein]] of the thin filament of the [[muscle]]fiber. If [[calcium]]-[[ions]] are ejected to a high degree from the [[longitudinal tubules|longitudinal tubules]] (in case of stimulus via nerve), they bind to the [[tropomyosin]]. Thus the binding to the [[actin, actin threads|actin thread]] is released and the myosin heads of the [[myosin filaments]] can hook into the actin. When the energy carrier [[ATP]] is consumed to [[ADP]] from the mitochondrion, the myosin heads bend off and pull the actin filaments in. This is the basic mechanism of muscle contraction.
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[[Eiweißkörper/en|protein]] of the thin filament of the [[Muskel/en|muscle]]fiber. If [[Calcium/en|calcium]]-[[Ionen/en|ions]] are ejected to a high degree from the [[Longitudinale_Tubuli/en|longitudinal tubules]] (in case of stimulus via nerve), they bind to the [[Tropomyosin/en|tropomyosin]]. Thus the binding to the [[Aktin,_Aktinfäden/en|actin thread]] is released and the myosin heads of the [[Myosinfilamente/en|myosin filaments]] can hook into the actin. When the energy carrier [[ATP/en|ATP]] is consumed to [[ADP/en|ADP]] from the mitochondrion, the myosin heads bend off and pull the actin filaments in. This is the basic mechanism of muscle contraction.
Version vom 22. Mai 2019, 00:27 Uhr
protein of the thin filament of the musclefiber. If calcium-ions are ejected to a high degree from the longitudinal tubules (in case of stimulus via nerve), they bind to the tropomyosin. Thus the binding to the actin thread is released and the myosin heads of the myosin filaments can hook into the actin. When the energy carrier ATP is consumed to ADP from the mitochondrion, the myosin heads bend off and pull the actin filaments in. This is the basic mechanism of muscle contraction.