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)

Fermentation parameters for the production of penicillin G acylase by Escherichia coli NCIM 2400 have been evaluated. The bacterium produced the enzyme intracellularly when grown in nutrient broth containing PAA. PAA stimulated the enzyme synthesis by 8-10 fold and reduced the lag period. The optimum concentration of PAA for induction was 20 mM and addition of PAA prior to inoculation gave maximum production of PGA. Glucose, lactose, sorbitol, acetate and lactate even at 0.1% concentration catabolically repressed the enzyme formation. Peptone was the best utilised 'N' source for the enzyme production. Phosphate and yeast extract were found to be essential for both the growth and for enzyme biosynthesis. Temperature between 22-24 degrees C was optimum and under ideal condition E. coli NCIM 2400 produced 0.45-0.55 U/ml of penicillin G acylase.
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PMID:Biosynthesis of benzylpenicillin acylase by Escherichia coli NCIM-2400. 269 12

By the use of spin trapping agents phenyl-t-butyl nitrone (PBN) and 4-pyridyl-1-oxide-t-butyl nitrone (4-POBN) free radical species were detected in isolated hepatocytes incubated with either isoniazid, iproniazid and their respective metabolites acetyl-hydrazine and isopropyl-hydrazine. The addition of bis-nitrophenyl phosphate, an inhibitor of the acylamidase enzymes, to isolated hepatocytes decreased the free radical activation of isoniazid and iproniazid, but not that of acetyl- and isopropyl-hydrazine, confirming that the radical species were originating from the biotransformation of these latter compounds. The ESR spectra were ascribed to the trapping of, respectively, acetyl and isopropyl free radicals on the basis of the analogies of the spectral feature with those of chemically-prepared spin adducts. Comparable ESR spectra were also observed during the metabolism of acetyl- and isopropyl-hydrazines by liver microsomes and their formation was inhibited by the omission of NADP+, anaerobic incubation and enzyme denaturation. In the microsomal preparations inhibitors of the mixed function oxidase system decreased to various extents the free radical formation and a similar effect was also observed following the destruction of cytochrome P-450 induced by pretreating the rats with CoCl2. The addition of reduced glutathione also decreased the radical trapping indicating that GSH can effectively compete with the spin traps for the reaction with the free radicals. The incubation of isolated hepatocytes with isoniazid or acetyl-hydrazine reduced by 20-25% the intracellular GSH content, while a 50% decrease in GSH was present in the cells exposed to iproniazid and isopropyl-hydrazine. In the same hepatocyte preparations stimulation of lipid peroxidation and leakage of LDH were also observed during cell incubation with iproniazid and isopropyl-hydrazine, but not with isoniazid or acetyl-hydrazine and the extent of both phenomena correlated with the susceptibility of the above compounds to the free radical activation.
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PMID:Spin trapping of free radical intermediates produced during the metabolism of isoniazid and iproniazid in isolated hepatocytes. 282 Apr 25

Glucosamine-6-phosphate isomerase deaminase (2-amino-2-deoxy-D-glucose-6-phosphate ketol isomerase (deaminating), EC 5.3.1.10) from Escherichia coli is an hexameric homopolymer that contains five half-cystines per chain. The reaction of the native enzyme with 5',5'-dithiobis-(2-nitrobenzoate) or methyl iodide revealed two reactive SH groups per subunit, whereas a third one reacted only in the presence of denaturants. Two more sulfhydryls appeared when denatured enzyme was treated with dithiothreitol, suggesting the presence of one disulfide bridge per chain. The enzyme having the exposed and reactive SH groups blocked with 5'-thio-2-nitrobenzoate groups was inactive, but the corresponding alkylated derivative was active and retained its homotropic cooperativity toward the substrate, D-glucosamine 6-phosphate, and the allosteric activation by N-acetyl-D-glucosamine 6-phosphate. Studies of SH reactivity in the presence of enzyme ligands showed that a change in the availability of these groups accompanies the allosteric conformational transition. The results obtained show that sulfhydryls are not essential for catalysis or allosteric behavior of glucosamine-6-phosphate deaminase.
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PMID:Sulfhydryl groups of glucosamine-6-phosphate isomerase deaminase from Escherichia coli. 282 23

A new purification procedure involving five column-chromatography steps is described for dihydro-orotase (L-5,6-dihydro-orotate amidohydrolase, EC 3.5.2.3) from Clostridium oroticum (A.T.C.C. 25750). The native purified enzyme is a dimer of Mr 102 000 and contains 4.0 +/- 0.3 g-atoms of zinc/mol of dimer. These observations agree with those reported previously [Taylor, Taylor, Balch & Gilchrist (1976) J. Bacteriol. 127, 863-873]. It is conclusively demonstrated that dihydro-orotase is a zinc metalloenzyme. Zinc is reversibly removed by treatment with chelators in phosphate buffer at pH 6.5, as demonstrated by atomic absorption spectrophotometry and decrease of enzyme activity. The specific activity is linearly dependent on zinc content. Addition of ZnSO4 to the chelator-treated enzyme results in regain of the normal complement of zinc and enzyme activity. Kinetic properties of the reconstituted enzyme are indistinguishable from those of the native enzyme. The amino acid composition of the homogeneous enzyme suggests that the zinc atoms occupy different environments.
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PMID:Dihydro-orotase from Clostridium oroticum. Purification and reversible removal of essential zinc. 286 18

In mice, the diethylglycineamide analogue of LY201116, DEGA (N-(2,6-dimethylphenyl)-4-[[(diethylamino)acetyl]amino]benzamide), is metabolized by consecutive N-deethylations for form MEGA and GA; the monoethylglycineamide and glycineamide analogues of LY201116, respectively. All of these compounds are in turn hydrolyzed to form LY201116 [4-amino-N-(2,6-dimethylphenyl)benzamide]. LY201116 is N-acetylated to form the N-acetyl metabolite, NAC. NAC is also deacetylated to reform LY201116. All of the above compounds inhibit maximal electroshock-induced seizures (MES) in mice. After oral administration, the potencies of these compounds were similar at their time of peak anticonvulsant effect. However, the MES ED50 values for the above compounds 5 min after iv dosing were 43, 13, 2, and 0.5 mg/kg for DEGA, MEGA, GA, and LY201116, respectively. Similar plasma levels of LY201116 were produced in mice 5 min after iv dosing with the respective ED50 values of the above compounds, which suggested that all of the compounds produced their anticonvulsant effects via LY201116. The in vivo metabolism of DEGA and MEGA but not GA to LY201116 was inhibited by the acylamidase inhibitor bis-(p-nitrophenyl) phosphate (BNPP). Mice predosed with BNPP were not protected by DEGA and MEGA from MES-induced seizures and the plasma samples contained little or no LY201116. The metabolism of GA to LY201116 was not inhibited by BNPP, and GA was an active anticonvulsant in BNPP-pretreated mice. The apparent iv potency of DEGA increased dramatically with time after dosing, again suggesting time-dependent, metabolically mediated liberation of the more potent anticonvulsant LY201116.
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PMID:Metabolism of the prodrug DEGA (N-(2,6-dimethylphenyl)-4-[[(diethylamino)acetyl]amino]benzamide) to the potent anticonvulsant LY201116 in mice. Effect of bis-(p-nitrophenyl)phosphate. 290 94

Enzymatic deacylation of the lipopolysaccharide isolated from a Salmonella Rd mutant by a cell-free preparation from Acanthamoeba castellanii has been studied. The degradation was found to be dependent on the presence of a surface-active component (Triton X-100) in the reaction mixture. The lipid A part of the lipopolysaccharide was the primary target of the enzymes, which cleaved with high efficiency the ester-bound long-chain nonhydroxylated and 3-hydroxylated acyl residues, i.e. lauric, myristic, palmitic and 3-hydroxymyristic acid. The cell-free preparation also exhibited amidase activity cleaving about 50% of the amide-bound 3-hydroxymyristic acid residues. In addition the extract proved to possess phosphatase activity liberating ester-bound and glycosidically bound phosphate groups of lipid A. On the other hand, the glucosaminyl-beta 1,6-glucosamine disaccharide was not degraded and remained bound to the oligosaccharide part (heptose/3-deoxyoctulosonic acid) of the lipopolysaccharide.
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PMID:In vitro deacylation of lipopolysaccharide of Salmonella minnesota by Acanthamoeba castellanii enzymes. 300 30

A21978C, produced by Streptomyces roseosporus NRRL 11379, is an acidic lipopeptide antibiotic complex that inhibits Gram-positive bacteria. Individual factors of the complex possess an identical peptide core or "nucleus", and are differentiated by the distinctive fatty acid acyl group attached to the N-terminus of the nucleus. Certain members of the family Actinoplanaceae deacylated A21978C to yield the unaltered nucleus, which was then reacylated to form new analogs. Actinoplanes utahensis NRRL 12052 was the most efficient of these cultures, producing up to 500 micrograms of nucleus per ml of culture broth per hour. Eacylation was also accomplished with semi-pure and tert-butoxycarbonyl (tert-BOC)-A21978C. In the latter, the ornithine amino group was blocked to prevent formation of diacyl analogs during reacylation. The acylase was an endoenzyme present in submerged cultures of A. utahensis from less than 18 to greater than 168 hours of incubation. Whole cells suspended in phosphate buffer or entrapped in polyacrylamide gel also deacylated A21978C efficiently.
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PMID:Deacylation of A21978C, an acidic lipopeptide antibiotic complex, by Actinoplanes utahensis. 317 Mar 44

This communication presents the results obtained in tubular aggregates of 24 enzyme histochemical techniques for demonstrating activity of oxidoreductases, transferases, hydrolases and isomerases. The activity characteristics of the tubular aggregates in m. gluteus medius of 18 patients with diseases of the neuromuscular system were almost identical. A high activity of the mitochondrial enzymes, NADPH: tetrazolium oxidoreductase, NADH:tetrazolium oxidoreductase and cytochrome c oxidase, could be shown in the pathological structures, whereas the activity of the mitochondrial enzymes, glycerol-3-phosphate:menadione oxidoreductase, succinate:PMS oxidoreductase, malate:NAD+ oxidoreductase and isocitrate:NAD+ oxidoreductase, and the partial mitochondrial enzymes, malate:NADP+ oxidoreductase and isocitrate:NADP+ oxidoreductase, was very slight or even absent. There was a moderate to strong activity of the glycolytic enzymes lactate:NAD+ oxidoreductase, glyceraldehyde-3-phosphate:NAD+ oxidoreductase, phosphofructokinase, phosphoglucomutase and glucose phosphate isomerase. In contrast, the activity of alpha-glucan phosphorylase was slight. The activity of phosphogluconate:NADP+ oxidoreductase, glucose-6-phosphate:NADP+ oxidoreductase and 5'-nucleotidase was slight, whereas there was no activity of myosin ATPase and mitochondrial ATPase, acid phosphatase or alkaline phosphatase. The high activity of AMP-deaminase was very striking. The activity of peroxidase was moderate. Results obtained with adsorption studies point to adsorption of some of the enzymes studied to the tubular aggregates in vivo and this phenomenon very probably determined the histochemical characteristics of these structures.
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PMID:Histochemical features of tubular aggregates in diseased human skeletal muscle fibres. 317 98

Inosinic acid (IMP) has been prepared by the deamination of adenosine monophosphate (AMP) with an immobilized adenosine (phosphate) deaminase extracted from the snail Biomphalaria glabrata. The enzyme has been immobilized in polyacrylamide beads. The preparation and characterization of this system are described.
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PMID:IMP synthesis using immobilized adenosine (phosphate) deaminase. 320 24

N-Hydroxy-2-acetamidofluorene (N-OH-AAF), a carcinogenic N-arylhydroxamic acid, is a selective and irreversible inhibitor of arylamine N-acetyltransferase (NAT) activity in vitro. The present study demonstrates that intraperitoneal administration of N-OH-AAF to hamsters caused an irreversible reduction of the hepatic transacetylase activity that catalyzes the transfer of the acetyl group from N-OH-AAF to 4-aminoazobenzene (AAB), but did not affect the acetyl coenzyme A (CoASAc) dependent NAT that is responsible for acetylation of p-aminobenzoic acid (PABA). A 40% loss of N-OH-AAF:AAB transacetylase activity occurred 4 hr after administration of 50 mg/kg of N-OH-AAF. To determine whether biotransformation of N-OH-AAF is a factor in determining its ability to inactivate N-OH-AAF:AAB transacetylase activity in vivo, the enzyme-inducing agent phenobarbital and the esterase/acylamidase inhibitor bis(p-nitrophenyl)phosphate (BNPP) were administered to the animals prior to the administration of N-OH-AAF. The loss of N-OH-AAF:AAB transacetylase activity was prevented by treatment of the animals with either phenobarbital or with BNPP. The ability of the esterase/acylamidase inhibitor, BNPP, to prevent the N-OH-AAF-mediated loss of transacetylase activity indicates that, in contrast to the inactivation process in vitro, esterase-catalyzed deacetylation of N-OH-AAF may be required for transacetylase inactivation in vivo. It is proposed that in vivo the endogenous acetyl donor, CoASAc, acetylates the enzyme and prevents the deacetylation of N-OH-AAF by NAT, thereby impeding the N-OH-AAF-mediated inactivation process, but facilitating enzyme inactivation by N-hydroxy-2-aminofluorene. The latter proposal was supported by the demonstration that CoASAc inhibited the in vitro inactivation of N-OH-AAF:AAB transacetylase activity by N-OH-AAF.
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PMID:Hepatic N-acetyltransferases: selective inactivation in vivo by a carcinogenic N-arylhydroxamic acid. 325 89

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