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)

The gene encoding cephalosporin acylase, which hydrolyzes 7-beta-(4-carboxybutanamido)-cephalosporanic acid (GL-7ACA) to 7-aminocephalosporanic acid (7ACA) and glutaric acid, was cloned from a Pseudomonas sp. strain V22 and expressed in Escherichia coli, in a two-cistron system, and the enzyme was purified and characterized. The purified enzyme was composed of two non-identical subunits, their molecular weights were estimated by SDS-PAGE to be 40,000 and 22,000, and had a pI of 4.6. The amino acid sequence of the enzyme, deduced from the nucleotide sequence, showed high similarity (97%) with that of a previously reported acyI-encoded cephalosporin acylase. Cephalosporin acylase also resembles the bacterial gamma-glutamyl transpeptidases (GGTs) with respect to their molecular organization and amino acid sequence, but differs from them with respect to catalytic and immunological properties. Purified enzyme exhibited not only cephalosporin acylase activity, but also GGT activity. The Km values of the enzyme for GL-7ACA and L-gamma-glutamyl-p-nitroanilide were 6.1 and 3.8 mM, respectively. Cephalosporin acylase was not recognized by antibodies prepared against bacterial GGTs.
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PMID:Nucleotide sequence and expression in Escherichia coli of the cephalosporin acylase gene of a Pseudomonas strain. 135 2

This paper presents the results about the restriction mapping of recombinant plasmids pMR5 and pMR6 containing GL-7-ACA acylase gene from Pseudomonas sp. 130, gene localization and its expression under the control of different promoters, tet, tac or lac/tac, in Escherichia coli. The analysis of gel electrophoresis of pMR5 cleaved with several kinds of restriction enzymes indicated that there is no sites of EcoRI, HindIII and ClaI but the presence of following sites: one HpaI, two XhoI, three EamHI and four PstI on the cloned gene fragment. The restriction maps of pMR5 and pMR6 were determined by comparative digestion of various endonucleases. The gene of GL-7-ACA acylase was localized on a 3.0kb fragment of B2-B3-HpaI from the studies on a serial subcloning. Expression of subclones pMR9, pMR10 and pMR11 in E. coli was compared. Higher yield of acylase was obtained when the gene fragment was placed downstream of the tac promoter. The expression of Pseudomonas gene in E. coli was also discussed.
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PMID:Restriction mapping and localization of GL-7-ACA acylase gene. 145 17

The synthesis of delta-(alpha-aminoadipoyl) aromatic amides and their use in screening for enzymes able to cleave delta-(alpha-aminoadipoyl) residues off the synthetic amides and cephalosporin C are described. A number of commercially available proteases and peptidases were not active with delta-(alpha-aminoadipoyl) chromogenic amides. Also, most tested microbial strains known to produce acylases did not hydrolyze these compounds. Only one microbial strain, Xanthomonas maltophila, had an appreciable activity toward the racemic form of chromogenic substrates. Activity measured in crude extracts from Xanthomonas cells indicated that this bacterium produces predominantly L-specific aminoadipoyl amidohydrolase and gamma-glutamyl hydrolase. A low level of cephalosporin C and glutaryl-cephalosporin acylase activities was also found.
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PMID:Use of delta-(alpha-aminoadipoyl) chromogenic amides in screening for aminoadipoyl amidohydrolases. 163 95

A novel method for detecting microorganisms capable of producing cephalosporin C (CPC) acylase and/or 7-(4-carboxybutanamido)cephalosporanic acid (GL-7-ACA) acylase has been developed. The method is based on the degradation of 2-nitro-5-(6-bromohexanoylamino)benzoic acid (NBHAB), a chromogenic substrate, into yellow 2-nitro-5-aminobenzoic acid by the action of the CPC acylase or the GL-7-ACA acylase. This method is very sensitive and quite specific, and has been successfully applied to screen the acylases from a variety of bacteria. A large number of colonies isolated on a plate surface from more than 67 samples and several known bacteria were tested by the NBHAB paper. Five NBHAB-positive strains and isolates were obtained. They were further examined by the reaction of their bacterial cells upon CPC and GL-7-ACA, respectively, and by thin-layer chromatography in order to distinguish the CPC acylase from the GL-7-ACA acylase.
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PMID:2-Nitro-5-(6-bromohexanoylamino)benzoic acid test paper method for detecting microorganisms capable of producing cephalosporin acylases. 177 68

Cephalosporin C acylase activity was studied using fluorescamine determination of free--NH2 groups produced in the deacylation of cephalosporin C by the enzyme. Fourteen fungi from different genera were studied and low extracellular cephalosporin C acylase activity was found in the genera Aspergillus, Fusarium and Penicillium. Forty one fungi of these genera were checked but not all presented acylase activity. The enzyme was generally found to be an extracellular enzyme and during the process of autolysis its activity increased with incubation time and with increasing pH of the medium. In no case was beta-lactamase activity detected. Penicillium rugulosum and Penicillium griseofulvum were identified as good cephalosporin C acylase producers. Deacetyl esterase activity was also detected in these fungi.
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PMID:Cephalosporin C acylase in the autolysis of filamentous fungi. 197 99

A cephalosporin acylase from Pseudomonas strain N176 hydrolyses both 7-beta-(4-carboxybutanamido)-cephalosporanic acid (glutarylcephalosporanic acid) and cephalosporin C to 7-amino-cephalosporanic acid. However, its productivity in the original host was low and its activity against cephalosporin C was not sufficient for direct large-scale production of 7-amino-cephalosporanic acid. In order to overcome these problems, we established a high-level expression system for the acylase in Escherichia coli. Tyr270 in the acylase is reported to play an important role in the interaction with glutarylcephalosporanic acid, as determined from the reaction with an affinity-label reagent, 7 beta-(6-bromohexanoylamido) cephalosporanic acid [Ishii, Y., Saito, Y., Sasaki, H., Uchiyama, F., Hayashi, M., Nakamura, S. & Niwa, M. (1994) J. Ferment. Bioeng. 77, 598-603] and modification with tetranitromethane [Nobbs, T. J., Ishii, Y., Fujimura, T., Saito, Y. & Niwa, M. (1994) J. Ferment. Bioeng. 77, 604-609]. From carbamoylation with potassium cyanate and site-directed point mutagenesis of the cephalosporin C acylase, we have deduced that Tyr270 exists at a position where it can interact with a residue (possibly Ser239) corresponding to inactivation by carbamoylation. We mutated Met269 and Ala271 of the acylase and found that mutation of Met269 to Tyr or Phe caused a 1.6-fold and 1.7-fold increase, respectively, of specific activity against cephalosporin C as compared to that of the wild-type enzyme. Kinetic studies of these mutants revealed that their kcat values increased, although their Km values against cephalosporin C were not changed. These data indicate that the mutation of Met269 near Tyr270 induces a minor conformational change to increase the stability of the activated complex with the enzyme and cephalosporin C. In particular, a mutant in which Met269 was replaced by Tyr was 2.5-fold more efficient in converting cephalosporin C to 7-amino-cephalosporanic acid than the wild-type enzyme under conditions similar to those in a bio-reactor system.
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PMID:High-level production, chemical modification and site-directed mutagenesis of a cephalosporin C acylase from Pseudomonas strain N176. 760 51

A cephalosporanic acid acylase from Pseudomonas strain N176 catalyzes hydrolysis of both glutarylcephalosporanic acid and cephalosporin C to 7-amino-cephalosporanic acid. Chemical modification of the enzyme with acidic hydrogen peroxide was performed to investigate residues which play important roles in enzymatic activity. The activity of the enzyme was reduced to 76% of the original by oxidation. From protein chemical analysis combined with site-directed point mutagenesis, modification of Met-164 was found to correspond to the reduction in activity. To study the effect of Met-164 on the enzymatic character, we prepared mutant acylases in which Met-164 was replaced with several other amino acids and obtained the following data: (i) there existed a trend of mutation to noncharged hydrophilic residues, resulting in an increase of activity against glutarylcephalosporanic acid; (ii) the mutation of Met-164 to Gly and Ala resulted in the lowering of both Km values and the optimal pHs against glutarylcephalosporanic acid; (iii) the mutation to Leu enhanced cephalosporin C acylase activity; and (iv) the mutation to Gln improved the k(cat) value for glutarylcephalosporanic acid. In particular, the mutation to Gln resulted in a high rate of conversion of glutarylcephalosporanic acid to 7-amino-cephalosporanic acid under conditions similar to those of a bioreactor system. These results may indicate that Met-164 is located in or near the cephalosporin compound binding pocket on the enzyme.
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PMID:Oxidative modification of a cephalosporin C acylase from Pseudomonas strain N176 and site-directed mutagenesis of the gene. 870 85

We have developed an efficient expression system for foreign genes in Acremonium chrysogenum. After inserting the foreign gene between the phosphoglycerate kinase (PGK) promoter and a terminator derived from A. chrysogenum, multiple copies of this expression unit are tandemly ligated into cosmids and the resultant cosmids are introduced into A. chrysogenum. We expressed Pseudomonas cephalosporin C acylase and a human thrombomodulin mutant protein containing the fourth, fifth, and sixth epidermal growth factor (EGF)-like structures (E456). The acylase activity in the transformants obtained using our system was several times higher than that in the transformants without the use of the system. The acylase proteins expressed had enzymatic and immunochemical properties identical to those of authentic acylase. The transformants with the expression plasmid for E456 secreted biologically active E456 protein into the culture medium. The amino terminal sequence of the purified E456 was identical to that of recombinant E456 obtained using mammalian cells.
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PMID:Heterologous protein production in Acremonium chrysogenum: expression of bacterial cephalosporin C acylase and human thrombomodulin genes. 921 52

Amino acids altered the production and activities of cephalosporin C acylase and penicillin V acylase from Aeromonas species ACY 95 to a varying degree. DL-Tryptophan enhanced the cephalosporin C acylase formation by 222% while suppressed the penicillin V acylase formation by 68%.
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PMID:Effect of amino acids on the production and activities of cephalosporin C acylase and penicillin V acylase from Aeromonas species ACY 95. 944 Feb 83

The enzyme glutaryl-7-ACA acylase from Pseudomonas sp. NCIMB 40474, produced by a recombinant Escherichia coli host, was purified to homogeneity. The enzyme is a tetramer composed of two couples of asymmetric dimers, each of them constituted of two subunits of mol wt 18 and 52 kDa, respectively. It was found that glutaric acid, one of the products of the substrate hydrolysis, is an effective acylase inhibitor. Between pH 6.0 and pH 10.0, the enzymatic activity is almost constant, but below pH 6.0 it progressively declines. The acylase activity decreased sharply as a function of guanidine HCl concentration. The loss is significant even at concentrations of denaturant lower than those causing unfolding, as suggested by UV spectroscopy and fluorescence emission studies. In these conditions (low denaturant concentration and low pH) the inactivation of the enzyme is caused by the tetramer dissociation into dimers. The lability of the quaternary structure of the enzyme is a key feature that must be taken into account for the improvement of the catalyst stability.
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PMID:Purification and stability of glutaryl-7-ACA acylase from Pseudomonas sp. 945 56

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