In: Anatomy and Physiology
Describe the steps of skeletal muscle contraction. Be as detailed as possible
When Action Potential responsible for muscle Contraction Reaches Pre synaptic Membrane---There is Release of Ca2+ from Voltage gated Ca2+ Channels in Pre Synaptic Membrane---this Causes fusion of Synaptic vesicle with pre synaptic Membrane ---which results in the Release of Neurotansmitter(Acetyl CHoline) into Synaptic Cleft---It Binds to Acetyl Choline receptors in the Post Synaptic Membrane---which leads to Opening of Voltage gated Na+ channels---this results in the Depolarisation in the Post Synaptic Membrane or Sarcolemma---This causes Release of Ca2+ from Sarcoplasmic Reticulum.
In a Relaxed muscle,Tropomyosin molecules masks the Myosin binding Site on actin molecule.But During Stimulus,When action potential Reach the Motor End plate,the released ca2+ Binds to Troponin molecules.This troponin molecules are in contact with Tropomyosin molecule,so Binding of Ca2+ on troponin molecule induces Change in shape of Troponin molecule so that Tropomyosin gets moved from the myosin binding sites on Actin molecule.
This exposes Myosin binding sites on actin ,So that Myosin heads
binds to Action------which form a cross bridge --now they contract
using ATP as energy---ATP is re-synthesised ,actin and myosin
maintain their binding state--During this the actin filaments are
pulled over myosin filament which causes muscle contraction--this
is called Sliding filament theory
when stimulation stops,Calcium is pumped back into the sarcoplasmic
reticulum which breaks the link between actin and myosin---now
Actin and myosin return to unbound state which leads the muscle to
relax. There is alternate contration and relaxation (Corss bridge
formation & Breakdown)