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)

An N-carbamyl-L-amino acid amidohydrolase was purified from cells of Escherichia coli in which the gene for N-carbamyl-L-amino acid amidohydrolase of Pseudomonas sp. strain NS671 was expressed. The purified enzyme was homogeneous by the criterion of SDS-polyacrylamide gel electrophoresis. The results of gel filtration chromatography and SDS-polyacrylamide gel electrophoresis suggested that the enzyme was a dimeric protein with 45-kDa identical subunits. The enzyme required Mn2+ ion (above 1 mM) for the activity. The optimal pH and temperature were 7.5 and around 40 degrees C, respectively, with N-carbamyl-L-methionine as the substrate. The enzyme activity was inhibited by ATP and was lost completely with p-chloromercuribenzoate (1 mM). The enzyme was strictly L-specific and showed a broad substrate specificity for N-carbamyl-l-alpha-amino acids.
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PMID:N-carbamyl-L-amino acid amidohydrolase of Pseudomonas sp. strain NS671: purification and some properties of the enzyme expressed in Escherichia coli. 882 26

A continuous assay for peptide deformylase has been developed using a formylated dipeptide, formyl-Met-Leu-p-nitroanilide, as substrate. Removal of the formyl group by a peptide deformylase renders the dipeptide product, which contains a free NH2 terminus, a substrate for an aminopeptidase from Aeromonas proteolytica. Sequential hydrolysis of the dipeptide by the aminopeptidase releases a p-nitroaniline, which is monitored spectrophotometrically at 405 nm. This assay was applied to determine the pH optimum and the catalytic activity of a peptide deformylase from Escherichia coli. The E. coli enzyme is most active near neutral pH (pH 7.0) and displays Michaelis-Menten kinetics toward the formylated dipeptide, with K(M) = 20.3 +/- 1.3 microM, k(cat) = 38 +/- 2 s(-1), and k(cat)/K(M) = 1.9 x 10(6) M(-1) s(-1). It also exhibits an acylase activity, capable of deacylating N-acetyl-Met-Leu-p-nitroanilide and N-trifluoroacetyl-Met-Leu-p-nitroanilide, albeit at drastically reduced rates. These results demonstrate that the current assay is a convenient, rapid, and sensitive method for kinetic studies of peptide deformylase. The strategy employed in this work should also be generally applicable to the characterization of other acylases.
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PMID:Continuous spectrophotometric assay of peptide deformylase. 923 95

The soluble acylase I (N-acylamino acid amidohydrolase, EC 3.5.1.14) from hog intestinal mucosa was 11,000-fold purified for the first time using a new four-step procedure involving an immunoaffinity chromatography. The resulting protein, which had an isoelectric point of 5.2 and a M(r) of 90,000 was composed of two apparently identical N-acylated polypeptide chains. Its amino acid composition was comparable to that of hog kidney acylase I. The enzyme had a pH optimum at 8.0 and required Zn2+ or Co2+. The optimal temperature for the acylase reaction was 40 degrees C and the activation energy of thermodenaturation was estimated at 260 kJ mol-1. The enzyme was strongly inhibited when preincubated with chelating agents, by diethyl pyrocarbonate under histidine-modifying conditions as well as by sulfhydryl compounds. The reaction of the purified enzyme with the synthetic substrate furylacryloyl-L-methionine was partly characterized as follows: Km = 0.22 +/- 0.03 mM, kcat = 128.0 +/- 17.8 s-1 and kcat/Km = 5.8 +/- 1.6 x 10(5) M-1 s-1. The L-stereoisomer of methionine competitively inhibited the enzyme reaction with a Ki of 3.4 +/- 0.2 mM. It is suggested that acylase I might not only be involved in the catabolism of intracellular N-acylated protein but also be responsible for the biological utilization of N-acylated food proteins.
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PMID:The hog intestinal mucosa acylase I: subcellular localization, isolation, kinetic studies and biological function. 925 35

Paecilomyces carneus carboxypeptidase sequentially liberated amino acids from the carboxy-terminus of neurotensin, angiotensin I, bradykinin, and delta sleep-inducing peptide, indicating that the sequential hydrolysis of peptides was limited by the occurrence of intermediates with the structure of -Gly-X (X = L-amino acid), -Pro-X, -X-Gly, and -X-Pro. The enzyme had carboxyamidase and/or amidase activities for the carboxy-terminally amidated peptides. The enzyme essentially acted as a carboxyamidase for the long carboxy-terminally amidated peptides; an amidase became dominant for the substrates in the presence of bulky amino acids such as Arg, Met, Leu, and Phe in the penultimate (P1) and P2 positions, corresponding with the S1 and S2 sites of the enzyme, and the P3 position of carboxy-terminally amidated peptides played a significant role in the action as a carboxyamidase or a amidase.
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PMID:Action of serine carboxypeptidase from paecilomyces carneus on oligopeptides containing carboxy-terminally amidated peptides 940 45

We investigated directed deviations from the universal genetic code. Mutant tRNAs that incorporate cysteine at positions corresponding to the isoleucine AUU, AUC, and AUA and methionine AUG codons were introduced in Escherichia coli K12. Missense mutations at the cysteine catalytic site of thymidylate synthase were systematically crossed with synthetic suppressor tRNACys genes coexpressed from compatible plasmids. Strains harboring complementary codon/anticodon associations could be stably propagated as thymidine prototrophs. A plasmid-encoded tRNACys reading the codon AUA persisted for more than 500 generations in a strain requiring its suppressor activity for thymidylate biosynthesis, but was eliminated from a strain not requiring it. Cysteine miscoding at the codon AUA was also enforced in the active site of amidase, an enzyme found in Helicobacter pylori and not present in wild-type E. coli. Propagating the amidase missense mutation in E. coli with an aliphatic amide as nitrogen source required the overproduction of Cys-tRNA synthetase together with the complementary suppressor tRNACys. The toxicity of cysteine miscoding was low in all our strains. The small size and amphiphilic character of this amino acid may render it acceptable as a replacement at most protein positions and thus apt to overcome the steric and polar constraints that limit evolution of the genetic code.
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PMID:Reassigning cysteine in the genetic code of Escherichia coli. 975 88

The ability of neurons to metabolize sulfur-containing compounds to cysteine was investigated using as indicator the glutathione content in neuron-rich primary cultures derived from the brains of embryonal rats. The-glutathione content of these cultures was doubled during a 4-h incubation in a minimal medium containing cysteine, glutamine and glycine. In contrast, absence of cysteine or replacement of cysteine by methionine or 2-oxothiazolidine-4-carboxylate failed to increase the glutathione content of cultured neurons. Besides cysteine, N-acetylcysteine (NAC) also caused in the millimolar range, a concentration-dependent increase in the neuronal glutathione content during a 4-h incubation. These data suggest that neurons in culture, contain an acylase activity which allows them to generate from extracellular NAC as precursor intracellular cysteine in concentrations sufficient for glutathione synthesis. In contrast, generation of cysteine from 2-oxothiazolidine-4-carboxylate by the reaction of 5-oxoprolinase or from methionine by the transsulfuration pathway appears not to take place in these cultured neurons.
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PMID:N-acetylcysteine, but not methionine or 2-oxothiazolidine-4-carboxylate, serves as cysteine donor for the synthesis of glutathione in cultured neurons derived from embryonal rat brain. 1002 62

An extracellular serine proteinase purified from cultures of a psychrotrophic Vibrio species (strain PA-44) belongs to the proteinase K family of the superfamily of subtilisin-like proteinases. The enzyme is secreted as a 47-kDa protein, but under mild heat treatment (30 min at 40 degrees C) undergoes autoproteolytic cleavage on the carboxyl-side of the molecule to give a proteinase with a molecular mass of about 36 kDa that apparently shares most of the enzymatic characteristics and the stability of the 47-kDa protein. In this study, selected enzymatic properties of the Vibrio proteinase were compared with those of the related proteinases, proteinase K and aqualysin I, as representative mesophilic and thermophilic enzymes, respectively. The catalytic efficiency (kcat/Km) for the amidase activity of the cold-adapted enzyme against succinyl-AAPF-p-nitroanilide was significantly higher than that of its mesophilic and thermophilic counterparts, especially when compared with aqualysin I. The stability of the Vibrio proteinase, both towards heat and denaturants, was found to be significantly lower than of either proteinase K or aqualysin I. One or more disulfide bonds in the psychrotrophic proteinase are important for the integrity of the active enzyme structure, as disulfide cleavage, either by reduction with dithiothreitol or by sulfitolysis, led to a loss in its activity. Under the same conditions, aqualysin I was also partially inactivated by dithiothreitol, but the activity of proteinase K was unaffected. The disulfides of either proteinase K or aqualysin I were not reactive towards sulfitolysis, except under denaturing conditions, while all disulfides of the Vibrio proteinase reacted in absence of a denaturant. The reactivity of the disulfides of the proteins as a function of denaturant concentration followed the order: Vibrio proteinase > proteinase K > aqualysin I. The same order of reactivity was also observed for the inactivation of the enzymes by H2O2-oxidation, as a function of temperature. The order of reactivity observed in these reactions most likely reflects the accessibility of the reactive cystine or methionine side chains present in the three related proteinases, and hence a difference in the compactness of their protein structures.
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PMID:Properties of a subtilisin-like proteinase from a psychrotrophic Vibrio species comparison with proteinase K and aqualysin I. 1010 4

1-Aminocyclopropane-1-carboxylic acid (ACC), which is a precursor of ethylene in plants, has never been known to occur in microorganisms. We describe the synthesis of ACC by Penicillium citrinum, purification of ACC synthase [EC 4.4.1.14] and ACC deaminase [EC 4.1.99.4], and their properties. Analyses of P. citrinum culture showed occurrence of ACC in the culture broth and in the cell extract. ACC synthase was purified from cells grown in a medium containing 0.05% L-methionine and ACC deaminase was done from cells incubated in a medium containing 1% 2-aminoisobutyrate. The purified ACC synthase, with a specific activity of 327 milliunit/mg protein, showed a single band of M(r) 48,000 in SDS-polyacrylamide gel electrophoresis. The molecular mass of the native enzyme by gel filtration was 96,000 Da. The ACC synthase had the Km for S-adenosyl-L-methionine of 1.74 mM and kcat of 0.56 s-1 per monomer. The purified ACC deaminase, with a specific activity of 4.7 unit/mg protein, showed one band in SDS-polyacrylamide gel electrophoresis of M(r) 41,000. The molecular mass of the native ACC deaminase was 68,000 Da by gel filtration. The enzyme had a Km for ACC of 4.8 mM and kcat of 3.52 s-1. The presence of 7 mM Cu2+ in alkaline buffer solution was effective for increasing the stability of the ACC deaminase in the process of purification.
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PMID:Synthesis and degradation of 1-aminocyclopropane-1-carboxylic acid by Penicillium citrinum. 1022 40

Penicillin G acylase is an important enzyme in the commercial production of semisynthetic penicillins used to combat bacterial infections. Mutant strains of Providencia rettgeri were generated from wild-type cultures subjected to nutritional selective pressure. One such mutant, Bro1, was able to use 6-bromohexanamide as its sole nitrogen source. Penicillin acylase from the Bro1 strain exhibited an altered substrate specificity consistent with the ability of the mutant to process 6-bromohexanamide. The X-ray structure determination of this enzyme was undertaken to understand its altered specificity and to help in the design of site-directed mutants with desired specificities. In this paper, the structure of the Bro1 penicillin G acylase has been solved at 2.5 A resolution by molecular replacement. The R-factor after refinement is 0.154 and R-free is 0.165. Of the 758 residues in the Bro1 penicillin acylase heterodimer (alpha-subunit, 205; beta-subunit, 553), all but the eight C-terminal residues of the alpha-subunit have been modeled based on a partial Bro1 sequence and the complete wild-type P. rettgeri sequence. A tightly bound calcium ion coordinated by one residue from the alpha-subunit and five residues from the beta-subunit has been identified. This enzyme belongs to the superfamily of Ntn hydrolases and uses Ogamma of Ser beta1 as the characteristic N-terminal nucleophile. A mutation of the wild-type Met alpha140 to Leu in the Bro1 acylase hydrophobic specificity pocket is evident from the electron density and is consistent with the observed specificity change for Bro1 acylase. The electron density for the N-terminal Gln of the alpha-subunit is best modeled by the cyclized pyroglutamate form. Examination of aligned penicillin acylase and cephalosporin acylase primary sequences, in conjunction with the P. rettgeri and Escherichia coli penicillin acylase crystal structures, suggests several mutations that could potentially allow penicillin acylase to accept charged beta-lactam R-groups and to function as a cephalosporin acylase and thus be used in the manufacture of semi-synthetic cephalosporins.
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PMID:Crystal structure of penicillin G acylase from the Bro1 mutant strain of Providencia rettgeri. 1054 42

The L-amino acid degrading enzyme gene from Proteus vulgaris was cloned and the nucleotide sequence of the enzyme gene was clarified. An open reading frame of 1,413 bp starting at an ATG methionine codon was found, which encodes a protein of 471 amino acid residues, the calculated molecular weight of which is 51,518. The amino acid sequence of P. vulgaris was 58.6% identical with the L-amino acid deaminase of P. mirabilis. A significantly conserved sequence was found around the FAD-binding sequence of flavo-proteins. The partially purified wild and recombinant enzymes had the same substrate specificity for L-amino acids to form the respective keto-acids, however not for D-amino acids.
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PMID:Cloning of L-amino acid deaminase gene from Proteus vulgaris. 1066 62

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