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 effects of various commercial and model surfactants of different structure and hydrophilicity were studied on water-in-oil (w/o) emulsion stability, potassium cation leakage and permeation of 6-nitro-3-phenylacetamide benzoic acid in a model system using Penicillin acylase (EC 3.5.1.11) immobilized in a liquid membrane. Both emulsion stability, potassium leakage and permeation of organic substances depend upon hydrophilicity of surfactants. Hydrophilic surfactants may be used to stabilize emulsions only in mixtures with hydrophobic emulsifiers. Additions of small quantities of hydrophilic surfactants to the system in which permeation occurs together within an enzymatic process may be advantageous. Both the rate of permeation and potassium transfer significantly increase when hydrophilic surfactants are present. There was no relationship observed between potassium cation transfer from the internal phase and emulsion stability in the storage test.
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PMID:Permeation of 6-nitro-3-phenylacetamide benzoic acid (NIPAB) and hydrolysis by penicillin acylase immobilized in emulsion liquid membranes. 136 99

Thermal inactivation kinetics of native and glutaraldehyde cross-linked forms of penicillin G acylase obtained from a mutant derivative of Escherichia coli ATCC 11105 were studied. Apparent activation energies for thermal inactivation of both native and cross-linked forms of enzyme were calculated to be [57.71 +/- 8.46] and [67.11 +/- 13.83] kcal mol-1 respectively. This slight increase in activation energy suggested that glutaraldehyde cross-linking did not markedly protect against thermal activation. Cross-linked enzyme did, however, have a significantly improved half-life at temperatures between 40 degrees C and 50 degrees C.
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PMID:Thermal inactivation kinetics of penicillin G acylase obtained from a mutant derivative of Escherichia coli ATCC 11105. 136

Macroporous weak cation-exchange methacrylate polymers were synthesized for the immobilization of penicillin G (Pen G) acylase. The role of certain factors such as pore-generating solvent, cross-linking agent, cross-linking density, and comonomer, in enzyme adsorption and expression was studied. Kerosene was a superior pore-generating solvent to paraffin oil. Ethylene glycol dimethacrylate and acrylic acid served as the best cross-linking agent and comonomer, respectively, in the systems studied. 80.3% of the activity of the enzyme adsorbed onto polymer beads prepared with 0.05 mol of acrylic acid (polymer PM-39) was expressed. Properties of the Pen G acylase, immobilized on PM-39 by adsorption and cross-linking with glutaraldehyde (IME-PM-39) were studied. The optimum pH, optimum temperature and Km of Pen G acylase shifted from 8.0 to 7.5-7.8, 50 degrees C to 55 degrees C and 0.038 mol dm-3 to 2.4-3.0 mol dm-3, respectively, as a result of immobilization on PM-39. IME-PM-39 was used repeatedly for 15 cycles in the production of 6-amino penicillanic acid (6-APA).
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PMID:Immobilization of penicillin G acylase on methacrylate polymers. 136 90

Highly purified penicillin G acylase from a mutant derivative of Escherichia coli ATCC 11105 was immobilized on oxirane-acrylic beads by covalent binding via oxirane groups. The highest specific activity, (322 U g-1 dry matrix at 40 degrees C and at pH 8.0) was obtained by using an enzyme solution having 13.8 U mg-1 specific activity and 72.73 mg total protein. The efficiency of immobilization was 95.8%. Kinetic parameters of immobilized penicillin G acylase were determined at the same pH and temperature by a preparation having 8.1 mg bound protein. The Km value and substrate inhibition constant of the enzyme were found to be 11.36 mmol dm-3 and 680 mmol dm-3 penicillin G respectively. Phenylacetic acid and 6-aminopenicillanic acid were estimated as the competitive and non-competitive inhibitors of the enzyme and their inhibition constants were found to be 90 mmol dm-3 phenylacetic acid and 76.1 mmol dm-3 for 6-aminopenicillanic acid. The activation energy of the hydrolytic reaction was calculated to be 7.75 kcal mol-1. The immobilized enzyme showed highest activity at pH 8.0 and at 55 degrees C. The enzyme was stable when incubated at 4 degrees C for one day at a pH range of 5.0 to 9.0. Thermal stability (over 30 min) was observed up to 40 degrees C but decreased at higher temperatures and was almost absent at 60 degrees C. A 95% conversion rate was observed at 28 degrees C and at 40 degrees C with 60 and 30 min operation times respectively. Operational stability of the enzyme was improved further with dithiothreitol treatment. Activity loss was around 5% following 20 cycles of repeated use of the enzyme at 40 degrees C. No significant loss of activity was observed at 28 degrees C when the enzyme was used for 20 cycles. 6-Aminopenicillanic acid in the reaction mixture was observed to be stable during conversion reactions which were carried out at both temperatures.
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PMID:Kinetic investigation of penicillin G acylase from a mutant strain of Escherichia coli ATCC 11105 immobilized on oxirane-acrylic beads. 136 8

The suitability of L-[3-3H]valine for measuring valine oxidation was studied by comparing its oxidation rate with that of L-[1-14C]valine in rats and pigs. L-[3-3H]valine was synthesized by removal of the tritium on carbon-2 of L-[2,3-3H]valine by acetylation. The acetyl group was removed enzymatically using pig renal acylase 1 (EC 3.5.1.14) and the product was purified by ion-exchange and paper chromatography. For the first rat experiment L-[3-3H]valine was synthesized in our laboratory; for the subsequent experiments it was produced by Amersham International plc. In the first experiment in rats the two tracers were given by injection and 14CO2 was collected for 2 h. The oxidation of tritiated valine was significantly higher than that of L-[1-14C]valine. In a second experiment there was no difference. This was probably due to the higher purity of the labelled valine which, for the second experiment, was shown by nuclear magnetic resonance to contain only one tritium atom. In a study with pigs in which the two tracers were given by continuous infusion there was no significant difference between them in flux or oxidation. The results of this experiment were used to evaluate a model to estimate amino acid requirements. With pigs given a methionine-limiting diet a reduction in methionine intake, by reducing protein accretion, increased valine oxidation by the same proportion.
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PMID:Valine oxidation: the synthesis and evaluation of L-[3-3H]valine as a tracer in vivo. 139 May 99

Aculeacin A acylase (AAC), produced by Actinoplanes utahensis, catalyzes the hydrolysis of the palmitoyl moiety of the antifungal antibiotic, aculeacin A. Using mixed oligodeoxyribonucleotide probes based on the N-terminal amino acid (aa) sequences of the two subunits of AAC, overlapping clones were identified in a cosmid library of A. utahensis DNA. After the sub-cloning of a 3.0-kb fragment into Streptomyces lividans, the recombinant produced AAC extracellularly. The nucleotide sequence of this fragment predicted an open reading frame of 2358 bp with GTG start and TGA stop codons. The deduced 786-aa sequence should correspond to a single polypeptide chain, indicating that this polypeptide is processed to the active form which is composed of the two subunits. Threefold more AAC was obtained from the S. lividans recombinant carrying the cloned gene than the original A. utahensis strain.
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PMID:Cloning and sequencing of the aculeacin A acylase-encoding gene from Actinoplanes utahensis and expression in Streptomyces lividans. 139 88

Penicillin G acylase from Escherichia coli ATCC 11105 is synthesized from its precursor polypeptide into a catalytically active heterodimer via a complex posttranslational processing pathway. Substitutions in the pair of aminoacyl residues at the cleavage site for processing the small and large subunits were made. Their processing phenotypes and penicillin G acylase activities were analyzed. By the introduction of a prolyl residue at either position, the processing of the small subunit was blocked without a change in enzymatic activity. Four other substitutions had no effect. At the site for processing the large subunit, four substitutions out of the seven examined blocked processing. In general, penicillin G acylase activity seemed to be proportional to the efficiency of the large-subunit-processing step. Ser-290 is an amino acid critical for processing and also for the enzymatic activity of penicillin G acylase. In the mutant pAATC, in which Ser-290 is mutated to Cys, the precursor is processed, but there is no detectable enzymatic activity. This suggests that there is a difference in the structural requirements for the processing pathway and for enzymatic activity. Recombination analysis of several mutants demonstrated that the small subunit can be processed only when the large subunit is processed first. Some site-directed mutants from which signal peptides were removed showed partial processing phenotypes and reduced enzymatic activities. Their expression showed that the prerequisite for penicillin G acylase activity is the efficient processing of the large subunit and that the maturation of the small subunit does not affect the enzymatic activity.
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PMID:Effects of site-directed mutations on processing and activities of penicillin G acylase from Escherichia coli ATCC 11105. 140 Jan 78

A recombinant plasmid p66B containing the midecamycin 4"-acylase gene was obtained by cloning this gene into plasmid vetor pIJ680 from the primary clone pCN6C5, presumably harboring the midecamycin biosynthetic gene. The expression of the midecamycin 4"-acylase gene (p66B) in spiramycin producing strains resulted mainly in the production of 4"-isovalerylspiramycin. Another positive clone pCN10F5 was discovered from the genomic library of S. mycarofacians 1748 by probing with p66B DNA BamHI-BamHI 2.3kb fragment. A BamHI-BamHI 8.0kb homologous region on pCN10F5 was determined by Southern hybridization and was subcloned into plasmids pWHM3 and pIJ680. Recombinant plasmids pWF5 and p6F5 with molecular size about 15.2kb and 13.3kb, respectively, were obtained. Transformation of spiramycin producing strains with these plasmids resulted in the production of two major components. Based on their physicochemical properties and spectral evidences, component I was identified as 4"-propionylspiramycin III, and component II as 4"-propionylspiramycin II. Southern hybridization confirmed that the BamHI-BamHI 8.0kb fragment was cloned in the spiramycin producing strain. Only pCN10F5 clone was identified from the genomic library of S. mycarofaciens 1748 when the 4"-isovaleryltransferase gene of carbomycin producing strain S. thermotolerans was used as a probe in colony hybridization. It suggests that there is a difference between the 4"-acyltransferase genes in the pCN6C5 and pCN10F5 clones.
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PMID:Cloning and expression of midecamycin 4"-acylase gene in spiramycin producing strains. 145 16

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 method of measuring enzyme deactivation by monitoring necessary addition of fresh enzyme to keep a constant degree of conversion in a CSTR at constant [E] x tau, the product of concentration of active enzyme [E] and residence time tau, was successfully applied to acylase I from porcine kidney and Aspergillus oryzae fungus. Fungal enzyme was found to be more stable than kidney enzyme. Activation by both Co2+ and Zn2+ ions also yielded increased operational enzyme stability: Co2+ and Zn2+ are better stabilizers than activators. Mg2+ and Ca2+ are found to be neither activators nor stabilizers. Fungal acylase partially deactivated by exposition to a metal-free medium in the CSTR was reactivated by addition of Zn2+, demonstrating that loss of Zn2+ from the enzyme molecule is mainly responsible for deactivation in a continuous reactor.
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PMID:Operational stability of enzymes. Acylase-catalyzed resolution of N-acetyl amino acids to enantiomerically pure L-amino acids. 147 69

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