Enzymes muscle physiology

Asghar, A. and Bhatti, A.R., Endogenous proteolytic enzymes in skeletal muscle their significance in muscle physiology and during postmortem aging events in carcasses, Adv. Food Res., 31, 343, 1987. 

Ml. Mann, W. S., and Salafsky, B., Enzymic and physiological studies on normal and diseased developing fast and slow cat muscles. J. Physiol. (London) 208, 33-47 (1970). 

In addition to these enzymes, whose physiological substrates are probably not nucleotides, but more likely sugar phosphates, there exist specific 5 -nucleotidases. One of these enzymes was detected in muscle and in the seminal fluid it splits optimally in slightly alkaline media (pH 8.5). 

Potassium is required for enzyme activity in a few special cases, the most widely studied example of which is the enzyme pymvate kinase. In plants it is required for protein and starch synthesis. Potassium is also involved in water and nutrient transport within and into the plant, and has a role in photosynthesis. Although sodium and potassium are similar in their inorganic chemical behavior, these ions are different in their physiological activities. In fact, their functions are often mutually antagonistic. For example, increases both the respiration rate in muscle tissue and the rate of protein synthesis, whereas inhibits both processes (42). 

Muscle phosphorylase is distinct from that of Hver. It is a dimer, each monomer containing 1 mol of pyridoxal phosphate (vitamin Bg). It is present in two forms phos-phoiylase a, which is phosphorylated and active in either the presence or absence of 5 -AMP (its allosteric modifier) and phosphorylase h, which is dephosphorylated and active only in the presence of 5 -AMP. This occurs during exercise when the level of 5 -AMP rises, providing, by this mechanism, fuel for the muscle. Phosphorylase a is the normal physiologically active form of the enzyme. 

Cyclic GMP is made from GTP by the enzyme gua-nylyl cyclase, which exists in soluble and membrane-bound forms. Each of these isozymes has unique physiologic properties. The atriopeptins, a family of peptides produced in cardiac atrial tissues, cause natriuresis, diuresis, vasodilation, and inhibition of aldosterone secretion. These peptides (eg, atrial natriuretic factor) bind to and activate the membrane-bound form of guanylyl cyclase. This results in an increase of cGMP by as much as 50-fold in some cases, and this is thought to mediate the effects mentioned above. Other evidence links cGMP to vasodilation. A series of compounds, including nitroprusside, nitroglycerin, nitric oxide, sodium nitrite, and sodium azide, all cause smooth muscle re-... 

Both the G- and V-agents have the same physiological action on humans. They are potent inhibitors of the enzyme acetylcholinesterase (AChE), which is required for the function of many nerves and muscles in nearly every multicellular animal. Normally, AChE prevents the accumulation of acetylcholine after its release in the nervous system. Acetylcholine plays a vital role in stimulating voluntary muscles and nerve endings of the autonomic nervous system and many structures within the CNS. Thus, nerve agents that are cholinesterase inhibitors permit acetylcholine to accumulate at those sites, mimicking the effects of a massive release of acetylcholine. The major effects will be on skeletal muscles, parasympathetic end organs, and the CNS. 

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