Muscle Contraction: ATP-driven Cross Bridges Slide Actin, Slides of Human Physiology

Download Muscle Contraction: ATP-driven Cross Bridges Slide Actin and more Slides Human Physiology in PDF only on Docsity! Sliding Filament theory Huxley, A. F. Niedergerke, R. ,Huxley H. E., Hanson, J. Molecular mechanism of muscle contraction Molecular mechanism of muscle contraction • Most accepted theory at present “ Sliding filament theory” • Proposes that a muscle shortens or lengthens because the myofibrillar filaments slide past each other without actually changing their length. • The molecular motor to drive this shortening process is the action of the of the Myosin cross bridges, which cyclically bind or attach, rotate and detach from the actin filaments with energy provided by ATP hydrolysis. Sliding filament theory When muscle is in the relaxed state • Ca ion conc. in the cytosol is low. • At this point actin and myosin filaments lie along each other in the sarcomere. • The Myosin head at this point is in a high energy condition “cocked up” with ADP and inorganic phosphate bound to it • Active sites on the G actin molecules are covered by the troponin tropomyosin complex. II Sliding Filament Theory Actin Filament Myosin Filament ADP + P Myosin head cocked up Sliding filament theory • Action potentials in the T tubule cause the release of Ca ions from SR into the muscle cytosol • Ca binds Troponin C. A conformational change is induced in the Troponin weakens the the bond between it and Actin. • This allows tropomyosin to move laterally and expose the active sites on G Actin. • The cocked up myosin molecule rapidly binds to the Actin: this link is a “cross bridge” V. Sliding Filament Theory Cross bridge forms, Connecting Myosin to Actin Sliding Filament Theory • Myosin head then undergoes a conformational change causing a “rachet action” and pulls the actin filament to the centre of the sarcomere. • ADP and Pi are released by this process • This is called the “power stroke” which causes the sliding action VI. Sliding Filament Theory Conformational Changes Myosin head: Actin Moves~ “power stroke” Release of ADP+P IX. Sliding Filament Theory ATP hydrolysed Myosin returns to cocked up position Fresh cycle starts ADP + P Sliding filament theory • Cycling continues until cytosolic Ca levels remain high • One Ca ion releases one Troponin which covers 7 active sites. • All myosin molecules do not move simultaneously but sequentially like oars on a boat and cause the myosin slide along the Actin filament Muscle relaxed Calcium pumped out of cytosol: active sites covered ADP + P