In: Anatomy and Physiology
Biological systems are not as effective if they lack regulation, meaning the ability to regulate certain processes. We have seen many examples of regulation this semester. Muscle cell relaxation is highly regulated. Describe the process(es) by which muscle cells relax and return to their resting length.
Muscle cell relaxation takes place when the stimulation of nerve stops. This is observed in the endoplasmic reticulum that breaks the link between actin and myosin. This leads to the causes of muscle to relax. This is composed of a different form of sarcomere that runs along its length of myofibrils and muscle cells are contracted in the form of sarcomas. Muscle relaxation is generally observed in erectile tissue bodies which are based on activation of the parasympathetic system. An important action of acetylcholine in which smooth muscle cells are not equipped with the cholinergic action. This inhibits the platelet aggregation in which at alternation of transmission represents the physiological functions. Dysfunction is responsible for implicated in the disease like arterial hypertension and cardiac hypertrophy.
The process by which muscles relax and turn towards their resting length are those component involved in the muscle contraction. The sodium ions triggered and action potential which spread to the rest and ran along their rest. The muscle cells figure out the metabolic processes in the muscle cells. ATP is pumped back in the terminal cisternae and myosin is combined with the binding site of the actin. ATP leads to cause the myosin had to be released with the myosin from the terminal cisternae.