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)

Purified human serum butyrylcholine esterase (approximately 90-kDa subunit), which also exhibits aryl acylamidase activity, was subjected to limited alpha-chymotrypsin digestion. Three major protein fragments of approximately 50 kDa, approximately 21 kDa and approximately 20 kDa were found to be produced, as observed by SDS-gel electrophoresis of the chymotryptic digest. The purified butyrylcholine esterase could fully bind to a Ricinus-communis-agglutinin-Sepharose column but after chymotryptic digestion about 15-20% of the enzyme activity remained unbound and was recovered in the run-through fractions. Sephadex G-75 chromatography of the chymotryptic digest showed an enzymatically active fragment eluted at an approximate molecular mass of 20 kDa, apart from the undigested butyrylcholine esterase eluted at the void volume. The butyrylcholine esterase fragment that did not bind to Ricinus communis agglutinin also was eluted at an approximate molecular mass of 20 kDa from a Sephadex G-75 column. This enzymatically active low-molecular-mass fragment from Sephadex G-75 chromatography showed a single protein band of approximately 20 kDa on SDS-gel electrophoresis. Neutral sugar analysis of the approximately 20 kDa fragment showed the presence of mannose only, whereas the undigested butyrylcholine esterase showed the presence of both mannose and galactose. Amino-terminal-sequence analysis of the approximately 20 kDa fragment showed the sequence Arg-Val-Gly-Ala-Leu, which agrees with amino acid residues 147-151 reported for human serum butyrylcholine esterase [Lockridge et al. (1987) J. Biol. Chem. 262, 549-557]. Both cholinesterase and aryl acylamidase activities were co-eluted in all chromatographic procedures. The results suggested that limited alpha-chymotrypsin digestion of human serum butyrylcholine esterase resulted in the formation of a approximately 20-kDa enzymatically active fragment with Arg147 as its N-terminal residue and which was devoid of galactose.
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PMID:Isolation of a galactose-free 20-kDa fragment exhibiting butyrylcholine esterase and aryl acylamidase activity from human serum butyrylcholine esterase by limited alpha-chymotrypsin digestion. 264 20

The structure of Eubacterium nodatum cell wall peptidoglycan was investigated. The peptide subunit of E. nodatum peptidoglycan has the following structure: L-Ala-D-Glu (Gly)-L-Orn-D-Ala. The carboxyl group of alanine occupying position 4 is attached to the delta-amino group of ornithine of an other subunit by the cross-linking bridge L-Ala-L-Ala-L-Orn. All glycine molecules are connected with the alpha-carboxyl group of glutamic acid with the ratio being 0.5-1. The hydrolysis of E. nodatum peptidoglycan by the S. albus G enzyme proceeds primarily due to the activity of alanyl-alanine endopeptidase, ornithyl-ornithine endopeptidase, ornithyl-alanine endopeptidase, N-acetyl-muramyl-alanine amidase, N-acetylmuramidase and N-acetylglucosaminidase.
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PMID:Chemical composition of Eubacterium nodatum cell wall peptidoglycan. 274 51

A new D-stereospecific amino acid amidase has been partially purified from Ochrobactrum anthropi SCRC SV3, which had been isolated and selected from soil. The Mr of the enzyme was estimated to be about 38,000, and its isoelectric point was 5.3. The enzyme catalyzes the stereospecific hydrolysis of D-amino acid amide to yield D-amino acid and ammonia. The major substrates included D-phenylalanine amide, D-tyrosine amide, D-tryptophan amide, D-leucine amide, and D-alanine amide.
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PMID:A new D-stereospecific amino acid amidase from Ochrobactrum anthropi. 275 65

The cell wall degradation products released from Escherichia coli during autolysis triggered by cephaloridine or trichloroacetic acid were isolated and characterized. Murein was selectively lost from the disaccharide tetrapeptides and the bisdisaccharide tetrapeptide components. Two major autolytic products accounted for more than 85% of the released material. Compound 1 (60 to 80% of released material) was a disaccharide tetrapeptide monomer containing a 1,6-anhydromuramic acid residue. Compound 2 (15 to 30% of released material) was a mixture of a tritripeptide and a tritetrapeptide without hexosamines. Taken together the findings suggest that autolytic cell wall degradation in E. coli is selective and involves the activity of both the hydrolytic transglycosylase and an endopeptidase. Upon release, at least some of the wall components were also exposed to the activity of the N-acetylmuramic acid-L-alanine amidase.
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PMID:Transglycosylase and endopeptidase participate in the degradation of murein during autolysis of Escherichia coli. 287 60

The phenotypes characteristic of the pleiotropic lytic-deficient Bacillus subtilis mutants have been attributed to reductions in N-acetyl-muramoyl-L-alanine amidase (EC 3.5.1.28) and endo-beta-N-acetyl-glucosaminidase (EC 3.2.1.30). It is reported here that these peptidoglycan hydrolases are secreted. The FJ3 (lyt-1), FJ6 (lyt-2), and Ni15 (lyt-15) mutants secreted the enzymes in amounts comparable to a Lyt+ strain. Thus, the Lyt- mutants appear not be as deficient in the enzymes' synthesis as their cell-bound activities indicated. Based on the levels of cell-bound and extracellular activities measured during growth, it is suggested that the Lyt- phenotype may be due to a deficiency of the enzymes' acceptor(s) in cell walls.
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PMID:Bacillus subtilis Lyt+ and Lyt- strains secrete peptidoglycan hydrolases. 288 72

The peptide network of Streptococcus pneumoniae cell walls was solubilized using the pneumococcal autolytic amidase (N-acetylmuramoyl-L-alanine amidase, EC 3.5.1.28). The peptide material was fractionated into size classes by gel filtration followed by reverse-phase high-performance liquid chromatography which resolved the peptide population into over 40 fractions. About 40% of the lysines present participate in cross-links between stem peptides. The main components (3 monomers, 5 dimers, and 2 trimers), accounting for 77% of all the wall peptides, were purified. Their structures were determined using a combination of amino acid and end-group analysis, mass spectrometry, and gas-phase sequencing. Two different types of cross-links between stem peptides were found. In the most abundant type there is an alanylserine cross-bridge between the alanine in position 4 of the donor stem peptide and the lysine at position 3 of the acceptor peptide, as in type A3 peptidoglycan. In the second type of cross-link there is no intervening cross-bridge, as in the type A1 peptidoglycan of Gram-negative bacteria. The data indicate that pneumococcal peptidoglycan has a structural complexity comparable to that recently shown in some Gram-negative species.
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PMID:Structure of the peptide network of pneumococcal peptidoglycan. 289 Jun 29

Peptidoglycan monomer, GlcNAc-beta-(1----4)-MurNAc-L-Ala-D-iGln[ (L)-meso-A2pm-(D)-amide-(L)-D-Ala-D-Ala] (PGM), from Brevibacterium divaricatum is composed of the disaccharide pentapeptide containing muramic acid with a reducing end (ca. 90-95%) and of the anhydromuramyl analogue (anhydromuranyl-PGM; ca. 5-10%), according to analysis by high-performance liquid chromatography (HPLC) and fast atom bombardment mass spectrometry (FAB-MS). The two peptidoglycan analogues cannot be separated by simple physico-chemical procedures. The enzyme N-acetylmuramyl-L-alanine amidase (mucopeptide amidohydrolase, E.C. 3.5.1.28) cleaves the bond between N-acetylmuramic acid and L-alanine in the PGM molecule. It is shown that anhydromuramyl-PGM is also a substrate for the amidase. In a preparation containing both analogues, the amidase hydrolyses preferentially PGM rather than anhydromuramyl-PGM. The experimental conditions for treatment with the amidase were adjusted with respect to time and enzyme concentration to allow hydrolysis to proceed for several hours. The course of hydrolysis was followed by analysis of the unhydrolyzed substrate by HPLC, and FAB-MS at predetermined time intervals; after 6 h, the amount of anhydromuramyl-PGM in the unhydrolyzed substrate increased to 25% as compared to the starting material containing only 6%. Such a mixture was suitable for separation of components by preparative thin-layer chromatography and for isolation of completely purified PGM and the corresponding anhydromuramyl analogue containing an intramolecular 1,6-anhydromuramyl end. The separated purified compounds were characterized by HPLC and their structure confirmed by FAB-MS-MS.
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PMID:Comparative susceptibility of a peptidoglycan monomer from Brevibacterium divaricatum and its anhydromuramyl analogue to hydrolysis with N-acetylmuramyl-L-alanine amidase. Isolation and characterization of anhydromuramyl-peptidoglycan monomer. 290 Feb 48

A phage-associated murein hydrolase activity (PAL) induced in an autolysis-defective mutant of Streptococcus pneumoniae infected with the bacteriophage Dp-1 has been recently isolated and purified to electrophoretic homogeneity as well as biochemically characterized as an endo-N-acetyl-muramyl-L-alanine amidase (1, 3, 4). The PAL and the inactive form (E-form) of the host cell autolysin show a remarkable biochemical similarity, although they differ in their immunological characteristics. The PAL was adsorbed onto a live, defective mutant of pneumococcus (cwl) and such cells reverted to the wild type phenotype ("cured" cells) in some important characteristics present in the wild type strain (R6), as: i) lysis of the culture in the stationary phase, ii) protoplast formation by hypertonic sucrose, and iii) bacteriolytic response against the penicillin in contrast with the bacteriostatic response of the "non-cured" cwl. The adsorbed enzyme segregates during growth of the "cured" cells. Our results demonstrate that PAL acts in the phenotypically "cured" cells in a similar way to that previously described for the host enzyme, and also confirm the finding that the autolysins play a direct role in the irreversible effects produced in S. pneumoniae by the betalactamic antibiotics.
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PMID:[Phenotypical curing of Streptococcus pneumoniae treated with amidase induced by the Dp-1 bacteriophage]. 290 22

Several commercially available enzymes were tested for their ability to hydrolyze amino acid carbamates. No activity was found with pig liver esterase, the hydantoinase from Pseudomonas fluorescens DSM 84, or the urease from jack beans. A stereoselective cleavage of the carbamyl group yielding L-amino acids was observed by acylase and acetylcholinesterases from bovine and human erythrocytes. Racemic mixtures of N-(methoxycarbonyl)-DL-alanine, N-(ethoxycarbonyl)-DL-alanine, and the corresponding valine carbamates are hydrolyzed to L-alanine and L-valine, respectively, by acylases leaving the D-amino acid carbamates unchanged. The lysine carbamates were not hydrolyzed by acylases. In contrast only the methoxycarbonyl amino acids were split by acetylcholinesterases, which, however, also cleave alpha, epsilon-(N-methoxycarbonyl)-DL-lysine stereoselectively at the alpha position, yielding epsilon-N-methoxycarbonyl-L-lysine. The optimum pH for enzymatic activity of hog kidney acylase was 7.5 and a Km value of 8.2 mM for N-(methoxycarbonyl)-DL-alanine was determined. For the acetylcholinesterases the reaction rate reaches an optimum between pH 7.5 and 8. The Km value was 68 mM for N-(methoxycarbonyl)-DL-alanine.
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PMID:Studies on the enzymatic hydrolysis of amino acid carbamates. 311 96

N-Carbamoylsarcosine amidohydrolase, a novel enzyme involved in the microbial degradation of creatinine in Pseudomonas putida 77, was purified 27-fold to homogeneity with a 63% overall recovery through simple purification procedures including successive ammonium sulfate fractionation, DEAE-cellulose chromatography, and crystallization. The relative molecular mass of the native enzyme estimated by the ultracentrifugal equilibrium method is 102,000 +/- 5000, and the subunit Mr is 27,000. The Km and Vm values for N-carbamoylsarcosine are 3.2 mM and 1.75 units/mg protein, respectively. Ammonia, carbon dioxide, and sarcosine were formed stoichiometrically from N-carbamoylsarcosine through the action of the purified enzyme preparation. N-Carbamoyl amino acids with a methyl group or hydrogen atom on the amino-N atom and possessing glycine, D-alanine, or one of their derivatives as an amino acid moiety served well as substrates for N-carbamoylsarcosine amidohydrolase. N-Carbamoylsarcosine, N-methyl-N-carbamoyl-D-alanine, N-carbamoylglycine, and N-carbamoyl-D-alanine were hydrolyzed at relative rates of 100, 12.8, 9.8, and 7.3, respectively, by the enzyme. N-Carbamoyl derivatives of D-tryptophan, D-phenylalanine, and those of some other amino acids including D-phenylglycine and p-hydroxy-D-phenylglycine were also hydrolyzed by the enzyme. For the L-isomers of all N-carbamoyl amino acids tested there was no production of ammonia, carbon dioxide, or the corresponding amino acids due to the action of the enzyme. Cupric, mercuric, and silver ions inhibited the enzyme strongly, and some thiol reagents were also found to be inhibitory.
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PMID:Purification and characterization of a novel enzyme, N-carbamoylsarcosine amidohydrolase, from Pseudomonas putida 77. 374 68

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