EC:3.5.1.4 - FACTA Search

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Query: EC:3.5.1.4 (deaminase)
5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

AMP deaminase from sheep brain was purified to homogeneity on SDS-PAGE and its general properties were investigated. The native enzyme has a molecular weight of approximately 350,000 as estimated by gel filtration and it is composed of four identical subunits with a molecular weight of 85,000 each. The purified enzyme had a specific activity of 500 units/mg protein and shows a sigmoid-shaped AMP saturation curve in the presence of 100 mM KCl. This deaminase is strongly activated by ATP and inhibited by GTP. It slightly catalyzes the hydrolysis of adenosine monosulfate (AMS), dAMP, and adenosine phosphoramidate (APA). These catalytic properties resemble those of AMP deaminase from human liver.
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PMID:Purification and general properties of AMP deaminase from sheep brain. 337 89

1. During late foetal and early post-natal development of rabbit skeletal muscle the total protein increased more rapidly than the non-protein nitrogen content per g. wet wt. 2. AMP-deaminase activity of rabbit leg muscles increased rapidly over the period 5-15 days after birth. In diaphragm muscle from the same animal the rapid increase to the adult enzymic activity took place at about the time of birth. 3. The rapid increase in AMP-deaminase activity of leg muscle occurred earlier in animals born relatively mature, such as the chick and guinea pig, than in animals less well developed at birth, such as the rabbit and rat. 4. The pattern of enzymic activity shown by AMP deaminase during development in diaphragm, leg and cardiac muscles in a given species was closely paralleled by those of adenylate kinase and creatine phosphokinase. 5. When young rabbits were encouraged to become active at an earlier stage than is normal, the rise in creatine-phosphokinase activity occurred at an earlier age than in the control animals. 6. The results suggest that the activity pattern of the muscle is an important factor in determining the time at which the activities of the enzymes of special significance for muscle rise sharply to the adult values. 7. Development in rabbit leg muscle also involved an increase in aldolase activity. The pattern of change was similar to that obtained with other enzymes studied.
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PMID:The enzymes of adenine nucleotide metabolism in developing skeletal muscle. 603 59

Substrate- and co-factor-dependent kinetics of AMP deaminase were studied in normal and fatigued gastrocnemius muscles of frog. Normal muscle enzyme showed greater enzyme co-factor affinity than enzyme-substrate affinity as evinced by low Kp values. Fatigue phenomenon was found to decrease the catalytic efficiency of the enzyme by lowering the enzyme-substrate affinity more than the enzyme-co-factor affinity and enhancing activation energy values. Present study elucidates the low level of operation of adenine nucleotide deamination involving AMP-deaminase reacting-system during prolonged contractile stress.
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PMID:Variation in the catalytic potential of AMP deaminase during muscular fatigue. 616 7

Adenosine monophosphate (AMP) deaminase and 5'-nucleotidase, the two enzymes involved in the disposal of AMP, have been detected in different regions of normal rat brain and in animals subjected to heightened neuronal activity (leptazol-induced convulsions) and to depression of the central nervous system (CNS) by the administration of barbiturates. They have also been estimated in the CNS of animals subjected to anoxia or treated with lithium and ammonium salts. The AMP deaminase activity was found to be highest in cerebellum and lowest in cerebral cortex, while the 5'-nucleotidase activity was found to be highest in brain stem and lowest in cerebellum. The AMP deaminase activity was elevated in all the regions of brain during the preconvulsive and convulsive periods. The activity returned to normal during recovery. The activity of 5'-nucleotidase was found to be depressed in the preconvulsive and post-convulsive periods. The enzyme was also found to be depressed in all the three regions after the administration of barbiturates. Administration of lithium or ammonium salts of induction of anoxic states resulted in an increase in the activity of AMP deaminase in all the three regions of brain. These results are discussed in relation to the probable production of cyclic AMP and cyclic guanosine monophosphate (GMP) which may have depressive and excitatory roles, respectively, in brain. It appears that increased AMP deaminase activity is associated with increased neuronal activity while depression of 5'-nucleotidase activity is associated with conditions of decreased CNS excitability.
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PMID:Studies on AMP deaminase and 5'-nucleotidase in rat brain under different experimental conditions. 625 52

Expression of the enzyme terminal deoxynucleotidyl transferase (TdT) was studied in human thymus during ontogeny and development. In five fetal thymus samples, the enzyme activity was barely detectable. At birth, the terminal transferase activity remained low. Maximum expression of the enzyme activity occurred between 10 and 40 mo of age. Analysis of six other enzyme activities, adenosine kinase, deoxyadenosine kinase, AMP deaminase, dAMP deaminase, 5' nucleotidase, and adenosine deaminase confirmed the normal status of the thymic tissue. A careful analysis of thymic architecture revealed that involution did not occur as a result of the disease process that necessitated cardiac surgery. By immunofluorescence, the TdT antigen was localized exclusively in the nucleus of cortical thymocytes. Protein immunoblotting studies indicated that human thymic terminal transferase exists as a single high m.w. species in individuals under 30 mo of age. Thereafter, a variant m.w. species is detectable. The increase in expression of this enzyme coincides with the increase observed in serum immunoglobulin levels during maturation and precedes the maximum development of the human thymus.
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PMID:Expression of terminal deoxynucleotidyl transferase in human thymus during ontogeny and development. 640 69

SAMP lyase and AMP deaminase were determined in parenchymal and kupffer cells of rats fed either basal or carcinogen-enriched diets. Results were calculated on a U/mg protein and U/cell basis. Data indicated that although deaminase increased 1 1/2 to 2-fold in parenchymal cells on a U/mg protein and U/cell basis from rats fed carcinogen-enriched diets there was a greater increase in U/mg protein. In contrast, little to no increase was seen in kupffer cells. SAMP lyase, however, depicted a smaller increase in parenchymal cells of carcinogen-enriched diet fed rats, but a 4- to 5-fold elevation in kupffer cells regardless of whether the data were expressed in U/mg protein or U/cell. These data indicate that increased activity of AMP deaminase may be a result of resistance to degradation in parenchymal cells, whereas SAMP lyase elevations in kupffer cells may reflect an increase in enzyme concentration.
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PMID:SAMP lyase and AMP deaminase activity in rat parenchymal and kupffer cells in hepatocarcinogenesis. 647 36

The mechanisms for cell toxicity with adenosine deaminase inhibition by 2'-deoxycoformycin (dCF) in non replicating lymphoid cells include S-adenosylhomocysteine (SAH) hydrolase inactivation and reduction of cellular ATP content. These postulates were explored in a patient with T-CLL receiving dCF with a resultant fall in peripheral blood lymphocytes from 740 X 10(9)/1 to 90 X 10(9)/1 over 15 d. In red cells there was complete inhibition of adenosine deaminase and SAH hydrolase activities, progressive deoxyadenosine triphosphate (dATP) accumulation and ATP depletion but no significant alteration in adenosine monophosphate (AMP) deaminase activity or distribution in purine intermediates from radioactive adenosine. In T-CLL lymphocytes, there was incomplete lymphoid SAH hydrolase inactivation, reduced AMP deaminase activity and progressive dATP accumulation. The limited decrease in lymphocyte ATP content was related more to dCF administration than dATP accumulation, nor accompanied by significant changes in the distribution of purine intermediates from adenosine. These findings suggest that ATP depletion with dCF therapy does not reflect AMP deaminase activity modulation nor is of critical importance for cell toxicity. The exact role for elevated cellular dATP content and SAH hydrolase inactivation in this toxicity remains to be established.
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PMID:The biochemical and clinical consequences of 2'-deoxycoformycin in T cell chronic lymphocytic leukaemia. 660 10

AMP deaminase (adenylate deaminase; AMP aminohydrolase, EC 3.5.4.6), a large flat tetrameric enzyme found in skeletal muscle, binds strongly and specifically to the subfragment-2 region of rabbit skeletal muscle myosin. This allows its use as a structural probe in myosin and myosin rod aggregation studies. When mixed with a preparation of isolated native thick filaments, AMP deaminase decorates the entire filament backbone except for the central bare zone. Binding is particularly ordered in the banded region, where 11 stripes of about 43-nm spacing on either side of the bare zone have been observed in studies of isolated A-bands. No systematic absence of deaminase is seen here, indicating that the presence of the C-protein and H-protein bands does not make the binding site inaccessible to the tetramer. Optical diffraction patterns of the decorated filaments show the expected 42.9-nm periodicities and a reflection indexing at 28.6 nm. Because of the bulkiness of the tetramer relative to the number of available binding sites at each 14.3-nm interval along the filament shaft, the helix net is being sampled at a lower frequency than is the underlying myosin organization. As a result, reflections on layer lines other than orders of 42.9 nm are also observed (e.g., 57.2); these reflections strongly indicate a structure based on a 12/1 primitive helix. The results appear to eliminate the symmetric double two-fold and three-fold models of thick filament structure but are consistent with an asymmetric four-fold structure.
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PMID:Structural studies of isolated native thick filaments from rabbit psoas muscle with AMP deaminase decoration. 695 10

1. The liberation of ammonia from adenosine 5'-phosphate (AMP) and adenosine and the release of inorganic phosphate from AMP were investigated in homogenates of bovine and human parotid glands. 2. Adenosine phosphate deaminase (AMP deaminase) was purified from bovine and human parotid glands. The enzyme preparations obtained were free from adenosine deaminase and 5'-nucleotidase activities. 3. AMP incubated with human parotid gland homogenate produced inosine 5'-phosphate, adenosine, inosine and ammonia. The amount of ammonia accumulating in the incubation mixture was equal to the sum of inosine 5'-phosphate plus inosine. 4. These results demonstrate the presence in human parotid of AMP deaminase and adenosine deaminase.
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PMID:Deamination of adenosine 5'-phosphate and adenosine as a possible source of ammonia in human and bovine parotid glands. 724 42

Adenosine 5'-monophosphate (AMP) deaminase from baker's yeast is an allosteric enzyme containing a single AMP binding site and two ATP regulatory sites per polypeptide [Merkler, D. J., & Schramm, V. L. (1990) J. Biol Chem. 265, 4420-4426]. The enzyme contains 0.98 +/- 0.17 zinc atom per subunit. The X-ray crystal structure for mouse adenosine deaminase shows zinc in contact with the attacking water nucleophile using purine riboside as a transition-state inhibitor [Wilson, D. K., Rudolph, F. B., & Quiocho, F. A. (1991) Science 252, 1278-1284]. Alignment of the amino acid sequence for yeast AMP deaminase with that for mouse adenosine deaminase demonstrates conservation of the amino acids known from the X-ray crystal structure to bind to the zinc and to a transition-state analogue. On the basis of these similarities, yeast AMP deaminase is also proposed to use a Zn(2+)-activated water molecule to attack C6 of AMP with the displacement of NH3. The pKm and pKi profiles for AMP and a competitive inhibitor overlap in a bell-shaped curve with pKa values of 7.0 and 7.4. This pattern is characteristic of a rapid equilibrium between AMP and the enzyme, thus confirming the rapid equilibrium random kinetic patterns [Merkler, D. J., Wali, A. S., Taylor, J., Schramm, V. L. (1989) J. Biol. Chem. 264, 21422-21430]. The Vmax of the reaction requires one unprotonated and one protonated group with pKa values of 6.4 +/- 0.2 and 7.7 +/- 0.3, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Catalytic mechanism of yeast adenosine 5'-monophosphate deaminase. Zinc content, substrate specificity, pH studies, and solvent isotope effects. 850 99

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