EC:3.5.1.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Responses to norepinephrine (NE) before and after treatment with adenosine deaminase (ADA) were examined in anesthetized dogs. In four dogs repeatable changes in coronary blood flow, myocardial oxygen extraction and consumption, left ventricular +dP/dtmax, and heart rate (HR) were demonstrated during two successive intracoronary infusions of 0.13 micrograms.kg-1.min-1 NE. In eight dogs, the NE-induced hyperemia was decreased from +150 to +67%, the change in myocardial oxygen consumption (MVo2) was attenuated from +177 to +101% by ADA, and the increase in HR was reduced from +28 to +16%. In six dogs, the increase in HR caused by NE before ADA was maintained after ADA by atrial pacing. The NE-induced hyperemia and the increase in MVo2 were again decreased by ADA. Similar results were observed in 12 other dogs with hearts paced at a constant, elevated rate during control as well as during both infusions of NE. In all groups, the O2 extraction response to increased MVo2 increased and the flow response decreased after ADA. In six dogs nitroprusside was infused during NE after ADA. When coronary flow was restored to the same level observed before deaminase, MVo2 was not diminished. These results support a role for adenosine in the coronary functional hyperemia accompanying NE activation of the canine myocardium.
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PMID:Adenosine deaminase attenuates norepinephrine-induced coronary functional hyperemia. 334 22

A simpler method for purifying human red cell deaminase, using a mixture of n-butanol and chloroform, which denatures hemoglobin, followed by ammonium sulphate fractionation, heat treatment, Sephadex G-100 and DEAE-cellulose chromatography, yielding a 3400 fold purified enzyme is described. Some properties of purified deaminase were studied. The enzyme seems to have a strict requirement for oxygen, neither PBG consumption nor uroporphyrinogens formation were measured under anaerobiosis. Uroporphyrinogens formation was linear with both protein and time over a wide range of enzyme concentration and up to 2 h. The optimum pH was 7.4 and the mol. wt was 40,000 +/- 4000. The enzyme was heat-stable and increased its activity by heating. Ammonium and hydroxylamine ions inhibited the reaction. K+ and Na+ ions did not greatly affect activity, while most divalent cations tested significantly diminished uroporphyrinogen formation and to a lesser degree PBG consumption. Direct plots of velocity against PBG concentration were hyperbolic, however double-reciprocal plots were non-linear, Hill plots gave an n value of 2 and Eadie plots were bell-shaped, indicating the existence of weakly positive cooperative effect between 2 binding sites for PBG per molecule of deaminase.
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PMID:Human red cell porphobilinogen deaminase. A simpler method of purification and some unusual properties. 400 48

1. Porphobilinogenase was isolated and purified from soya-bean callus tissue; its components, porphobilinogen deaminase and uroporphyrinogen isomerase, were separated and purified. 2. The purified porphobilinogenase was resolved into two bands on starch-gel electrophoresis. The molecular weights of porphobilinogenase, deaminase and isomerase fractions were determined by the gel-filtration method. Porphobilinogenase activity was affected by the presence of air; uroporphyrinogens were only formed under anaerobic conditions, although substrate consumption was the same in the absence of oxygen as in its presence. 3. pH-dependence of both porphobilinogenase and deaminase was the same and a sharp optimum at pH 7.2 was obtained. Isomerase was heat-labile, but the presence of ammonium ions or porphobilinogen afforded some protection against inactivation. The action of several compounds added to the system was studied. Cysteine, thioglycollate, ammonium ions and hydroxylamine inhibited porphobilinogenase; certain concentrations of sodium and magnesium salts enhanced activity; some dicarboxylic acids and 2-methoxy-5-nitrotropone inhibited the deaminase. 4. delta-Aminolaevulate and ethionine in the culture media stimulated porphyrin synthesis and increased porphobilinogenase activity, whereas iron deficiency resulted in porphyrin accumulation. 5. The development of chlorophyll and porphobilinogenase on illumination of dark-grown callus was followed. 6. A hypothetical scheme is suggested for the enzymic synthesis of uroporphyrinogens from porphobilinogen.
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PMID:Studies on the porphobilinogen deaminase-uroporphyrinogen cosynthetase system of cultured soya-bean cells. 516 54

Enzyme preparations obtained from the mycelium of Aspergillus species broke down methionine by co-dissimilation. The deaminase and demethiolase activities of crude extracts were increased 100-fold by precipitation with (NH(4))(2)SO(4) and column chromatography on diethylaminoethyl cellulose. The enzyme acted on d-methionine but not on l-methionine. The enzyme was labile: it was inactivated by oxygen and ascorbic acid but ethylenediaminetetraacetic acid and mercaptoethanol preserved its activity. Enzyme activity decreased even at 4 and -30 C and was lost rapidly above 45 C. It was most rapid at 35 C and at pH 8.0 to 9.0. For the following reasons, it was concluded that deamination and demethiolation of methionine were effected by the same enzyme: both activities increased equally at each stage of purification; ammonia, methanethiol, and alpha-keto butyric acid were formed in amounts equivalent to the amount of methionine dissimilated; the K(m) and optimal pH for formation of both keto acid and methanethiol were the same; both activities remained in the same fractions that were separated by electrophoresis and the activities were equivalent. The purified enzyme demethiolated alpha-keto methionine and alpha-hydroxy methionine and split the sulfur linkage of ethionine but did not cleave cystathionine. Few amino acids were deaminated. The enzyme was sensitive to some carbonyl and sulfhydryl reagents and was relatively insensitive to heavy metals other than Hg(++). The K(m) was 1.3 x 10(-3) to 1.5 x 10(-3)m at pH 7.0. No requirement for cofactors was noted, and attempts to dissociate the enzyme, including dialysis with hydroxylamine, were unsuccessful.
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PMID:Dissimilation of methionine by a demethiolase of Aspergillus species. 537 Feb 77

Porphobilinogen is the substrate of two enzymes: porphobilinogen deaminase and porphobilinogen-oxygenase. The first one transforms it into the metabolic precursors of heme and the second diverts it from this metabolic pathway by oxidizing porphobilinogen to 5-oxopyrrolinones. Rat blood is devoid of porphobilinogen-oxygenase under normal conditions while it carries porphobilinogen-deaminase activity. When the rats were submitted to hypoxia (pO2 = 0.42 atm) for 18 days, the activity of porphobilinogen-oxygenase appeared at the tenth day of hypoxia and reached the maximum at the 14-16th day. It decreased to a half after 2 days (half-life of the enzyme) and disappeared after 4 days of return to normal oxygen pressure. Porphobilinogen-deaminase activity increased after the first day of hypoxia, reached a maximum at the 14-16th day and did not decrease to normal values until the 15th day after return to normal oxygen pressure. The activities of both porphobilinogen-oxygenase and porphobilinogen-deaminase were induced by administration of erythropoietin. When rats were made anaemic with phenylhydrazine, porphobilinogen-oxygenase activity also appeared in the blood cells. Although the reticulocyte concentration was higher when compared to that obtained under hypoxia, the activities of the oxygenase obtained under both conditions were comparable. Porphobilinogen-deaminase activity was always closely related to the reticulocyte content. The appearance of porphobilinogenase-oxygenase under the described erythropoietic conditions was due to a de novo induction of the enzyme, as shown by its inhibition with actinomycin D and cycloheximide. Porphobilinogen-oxygenase as well as porphobilinogen-deaminase were present in the rat bone marrow under normal conditions. Their activities increased in phenylhydrazine treated rats. The properties and kinetics of porphobilinogen-oxygenase from the rat blood and bone marrow were determined and found it differ in several aspects.
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PMID:Induction of porphobilinogen oxygenase and porphobilinogen deaminase in rat blood under conditions of erythropoietic stress. 726 Jan 10

Pseudomonas marginalis, capable of utilizing acetonitrile as the sole source of carbon and nitrogen, was isolated from an industrial waste site. P. marginalis metabolized acetonitrile into ammonia and acetate. The minimal inhibitory concentration values of different nitriles and amides for P. marginalis were in the range 5-300 mM. The bacterium was able to transform high-molecular-mass nitrile compounds and their respective amides into ammonia. The data from substrate-dependent kinetics showed that the Km and Vmax values of P. marginalis for acetonitrile were 33 mM and 67 nmol oxygen consumed min-1 (ml cell suspension)-1 respectively. The study with [14C]acetonitrile indicated that nearly 66% of the carbon was released as 14CO2 and 12% was associated with the biomass. The enzyme system involved in the hydrolysis of acetonitrile was shown to be intracellular and inducible. The specific activities of the enzymes nitrile aminohydrolase and amidase were determined in the cell-free extracts of P. marginalis. Both the enzymes could hydrolyze a wide range of nitriles and amides. The present study suggests that the biodegradation of organic nitriles and the bioproduction of organic acids may be achieved with the cells of P. marginalis.
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PMID:Pseudomonas marginalis: its degradative capability on organic nitriles and amides. 754 12

1. The effect of URO I on the activity of ALA-D, PBGase, deaminase and URO-D, both in aerobiosis and anaerobiosis, was studied. 2. Photoinactivation of the enzymes was much lower in an anaerobic than in an aerobic atmosphere. 3. Dark inactivation in the absence of oxygen was lower than its presence. 4. Preincubation in the presence of ALA or PBG protected the enzymic activity of ALA-D, PBGase and deaminase against URO I-inactivation both under u.v. light and in the dark. 5. Photoinactivating action of URO I would be mediated by reactive oxygen species generated by the excited porphyrin after its absorption of light. Dark inactivation, in aerobiosis, can also be partly mediated by amino acid oxidation, although to a lesser extent than that observed under u.v. light.
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PMID:How the atmosphere and the presence of substrate affect the photo and non-photoinactivation of heme enzymes by uroporphyrin I. 817 60

Aerobic and anaerobic studies have demonstrated that uroporphyrin I-induced inactivation of delta-aminolevulinic acid dehydratase, porphobilinogenase, deaminase and uroporphyrinogen decarboxylase was dependent on oxygen and mediated by reactive oxygen species. The mechanism of photoinactivation of those heme-enzymes from human erythrocytes by uroporphyrin I by u.v. light was investigated. Enzymes of the heme pathway were preincubated in the presence of specific scavengers for several reactive oxygen species and then exposed to uroporphyrin I and u.v. light. Upon exposure of the enzymes to the porphyrin under u.v. light, and in an aerobic atmosphere, the percentage of enzyme activities with respect to the corresponding controls were 50.2 +/- 5.1 (SD, n = 6), 25.3 +/- 3.0 (SD, n = 6), 25.9 +/- 2.8 (SD, n = 6) and 49.7 +/- 7.5 (SD, n = 8) for delta-aminolevulinic acid dehydratase, porphobilinogenase, deaminase and uroporphyrinogen decarboxylase, respectively. The presence of sodium azide, histidine or superoxide dismutase did not protect the enzymes against the effects of uroporphyrin I. However, both cysteine and potassium ferrycyanide prevented the enzyme photoinactivation induced by uroporphyrin I. In the presence of either catalase or GSH, the enzyme photoinactivation was lower. Ethanol, glucose and dimethylsulfoxide had no effect on enzyme activity, while ion chelators had variable effects. This study shows that the type II mechanism is not the predominant reaction mediating the uroporphyrin I effect and enzyme photoinactivation would involve an electron transfer. Hydrogen peroxide and hydroxyl radicals could possibly mediate the uroporphyrin I-induced enzyme photoinactivation.
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PMID:Mechanistic studies on uroporphyrin I-induced photoinactivation of some heme-enzymes. 902 52

Accumulation of delta-aminolevulinic acid (ALA), as it occurs in acute intermittent porphyria, is a potential endogenous source of reactive oxygen species (ROS) which can then produce oxidative damage to cell structures and macromolecules. This in vivo study investigated whether melatonin could prevent the deleterious effects of ALA. Rats were injected i.p. for 2 weeks with ALA (40 mg/kg on alternate days) and/or with melatonin (50 microg/kg or 500 microg/kg daily). Administration of pharmacological doses of melatonin reduced and/or prevented ALA-induced lipid peroxidation (LPO) in both cerebral cortex and cerebellum, providing further evidence of melatonin's action as a ROS scavenger. Administration of pharmacological concentrations of melatonin to ALA-injected rats showed the protective properties of melatonin on the activities of both porphobilinogen-deaminase and delta-aminolevulinate dehydratase (ALA-D) in the cerebral cortex; the effect on ALA-D activity was unexpectedly high (at least 6-fold), indicating that, besides acting as a scavenger of hydroxyl radicals, melatonin may exert its protection on ALA-D through other mechanisms, such as increasing mRNA levels of antioxidant enzymes or/and inducing glutathione peroxidase activity. The possibility that changes in the expression of antioxidant enzymes could affect the expression of other proteins, even those not related to the cellular ROS homeostasis, should also not be discarded. The potential use of melatonin as an antioxidant and for its reactivating properties in the treatment of acute porphyrias is considered.
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PMID:In vivo protection by melatonin against delta-aminolevulinic acid-induced oxidative damage and its antioxidant effect on the activity of haem enzymes. 946 12

By determining the formation amount of isonicotinic acid (INA) from isonicotinic acid hydrazide (isoniazid:INH) in isolated rat hepatocytes, we were able to identify the involvement of the oxidative cleavage of the acid hydrazide. INA formation from INH increased significantly using the isolated hepatocytes prepared from rats pretreated with phenobarbital (PB), 3-methylcholanthrene (3MC), dexamethazone (DEX) and rifampicin (RIF), respectively, in comparison to the control group. On the other hand, a remarkable decrease in INA formation from INH was observed by the addition of such P450 inhibitor as metyrapone or cimetidine as well as an amidase inhibitor bis(p-nitrophenyl)phosphate (BNPP) to the isolated hepatocytes prepared from PB-pretreated rats. By further experiments using rat hepatic microsomes, the oxidative pathway of INA formation in INH metabolism was determined to be P450-dependent, since NADPH and oxygen were both essential for the oxidative pathway of INH to INA and the amount of INA formation was also significantly increased by P450 inducers. Regarding acetylisoniazid (AcINH) and isonicotinic acid amide (INAA), however, INA formation by P450 was little observed in the microsomal experiments.
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PMID:Participation of P450-dependent oxidation of isoniazid in isonicotinic acid formation in rat liver. 958 87

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