Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

AMP-deaminase (AMPDA) catalyzes the deamination of AMP to IMP and ammonia. Being an integral enzyme of the purine nucleotide cycle (PNC), AMPDA participates in catalytic deamination of amino acids and provides their involvement in a carbohydrate metabolism, fumarate being one of the end products of PNC. Since AMPDA competes with 5'-nucleotidase for AMP, it is responsible for regulation of a physiologically important active product of purine nucleotide metabolism, such as adenosine. Thus, this enzyme plays an important role in determining the physiological state of the organism in normal conditions as well as under the influence of some environmental factors and in some pathologies. The review sums up the information concerning the AMPDA participation in PNC operation in animal tissues, coding genes and enzyme activity regulation by various effectors, including, reversible phosphorylation and binding to myofibrils and myosin. Special attention is being given to a possible relationship of AMPDA activity deficiency to some neuromuscular pathologies.
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PMID:[Functional role and properties of AMP-deaminase]. 871 92

A previous study described an unusual influence of neutral salts on the behavior of trout muscle AMP-deaminase (AMPD) in its interactions with subcellular particulate matter (Lushchak and Storey 1994, Fish Physiol. Biochem. 13: 356-368). The present study shows that this behavior is also shared by the muscle enzyme of two other fish species, sea scorpion (Scorpaena porcus) and corb (Sciena umbra), indicating that this describes a principle for AMPD interaction with cellular particulate material. AMPD binding to particulate matter increased with increasing KCl concentration through the physiological range (100-200 mM), but at higher salt concentrations the amount of bound enzyme was reduced. The pattern of binding was not influenced by hydrophobic interactions since addition of the nonionic detergents, Triton X-100 or Tween-80, did not alter the distribution of bound versus free enzyme although both detergents, at low concentrations, enhanced enzyme maximal activity. AMPD binding to particulate matter was also influenced by pH, the amount of free enzyme rising by nearly 3-fold as pH fell within the physiological range from 7.5 to 6.5. It is concluded that neither electrostatic nor hydrophobic forces alone can account for the unusual solubilization of AMPD from fish muscle and it is possible that the effect is also related to ion-induced conformational changes in the structure of AMPD and/or of the myosin to which the enzyme binds.
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PMID:Unusual AMP-deaminase solubilization from teleost fish white muscle. 935 87

Administration of 100 and 200 microg/ml of cisplatin [cis -diammine dichloro platinum (II)] for 1 h to growing Dictyostelium discoideum cells severely affects folic acid chemotaxis and phagocytotic function in this organism. Following cisplatin treatment, cells show a much lower uptake of FITC labelled bacteria and a reduced plaque forming ability when plated on Eschericia coli seeded normal agar. Folic acid chemotaxis and folate deaminase activity are greatly inhibited in cisplatin-treated Dictyostelium cells. SDS-PAGE analysis shows a greater association of actin and myosin with the cell cortex of treated cells. These results have been discussed in relation to cisplatin's known ability to raise the levels of cytosolic calcium.
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PMID:Cisplatin inhibits folic acid chemotaxis and phagocytotic functions in Dictyostelium discoideum. 1056 44


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