Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Allantoinase (allantoin amidohydrolase, EC 3.5.2.5) catalyzes the conversion of allantoin to allantoic acid in the final step of ureide biogenesis. We have purified allantoinase more than 4000-fold by immunoaffinity chromatography from root nodules and cotyledons of soybean (Glycine max [L] Merr.). We characterized and compared properties of the enzyme from the two sources. Seed and nodule allantoinases had 80% identity in the first 24 amino acid residues of the N terminus. Two-dimensional gel electrophoresis of the purified enzymes showed that multiple forms were present in each. Allantoinases from nodules and cotyledons had very low affinity for allantoin with a Km for allantoin of 17.3 mM in cotyledons and 24.4 mM in nodules. Both had activity in a broad range of pH values from 6.5 to 7.5. In addition, purified allantoinase from both sources was very heat stable. Enzyme activity was stable after 1 h at 70 degrees C, decreased gradually with heating to 85 degrees C, and was lost at 90 to 95 degrees C. Although these studies have revealed some differences between allantoinases in seeds and nodules, the differences were not reflected in key enzyme properties. The immunoaffinity approach enabled purification of allantoinase from soybean root nodules and simplified its purification from cotyledons, thereby allowing characterization and comparison of the enzyme from the two sources.
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PMID:Immunoaffinity purification and comparison of allantoinases from soybean root nodules and cotyledons. 772 72

Among 29 strains of zygomycetes screened for serine carboxypeptidases, Absidia zychae NRIC 1199 showed the highest enzyme production. Two serine carboxypeptidases, CPZ-1 and CPZ-2, were purified to a homogeneous state from an extract of koji culture of A. zychae NRIC 1199. Purified CPZ-1 and CPZ-2 showed similar properties except the isoelectric point (pI); The pI of CPZ-1 and CPZ-2 were 4.50 and 4.65, respectively. The molecular weights of the CPZ-1 and CPZ-2 were 48,000 by SDS-PAGE and gel filtration. Among the proteinase inhibitors tested, phenylmethylsulfonyl fluoride and monoiodoacetic acid strongly inhibited the enzyme activity. The optimum pHs of CPZ-1 and CPZ-2 were 4.2 towards Z-Glu-Tyr. It is shown that the substrate specificities of CPZ-1 and CPZ-2 were dependent on the presence of bulky amino acid residues in the penultimate position (P1) for the small Z-peptides. However, in spite of the presence of Gly, Asp, Arg, or Pro in the P1 position, oligopeptides were hydrolyzed rapidly. CPZ-1 and CPZ-2 had not only carboxypeptidase but also carboxyamidase and amidase activities, and acted preferentially as a carboxyamidase for C-terminal amidated peptides. The hydrophobicity of P2 and P3 positions and the bulkiness of P1 and P'1 positions of the substrate may be important for carboxyamidase and amidase activities.
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PMID:Purification and characterization of serine carboxypeptidases from Absidia zychae. 776 58

An extracellular protease has been isolated and partially purified from the extreme halophile Halobacterium halobium (ATCC 43214). The major enzyme component has a M(r) of 66,000 and is highly dependent upon salt concentrations near saturation for catalytic activity and stability. In aqueous solutions, a decrease in the NaCl concentration from 4 to 1 M results in an increase of nearly three orders of magnitude in the first-order rate constant of inactivation at 30 degrees C. Salt effects the stability of the enzyme in a cooperative manner, with a Hill coefficient of 4.1, which is similar to that of other enzymes from extreme halophiles. The enzyme activity is dramatically affected by the salt concentration, with a loss of 2.5 orders of magnitude in kcat/Km in going from 4 to 0 M NaCl. This loss in catalytic efficiency is primarily due to a dramatic increase in the Km for the substrate in low-salt media. Thermodynamic analysis revealed that this Km increase was mainly the result of increased solubility of the synthetic peptide substrate in low-salt media, which dramatically increases the ground-state stability of the substrate. This results in an effectively reduced substrate partitioning from the bulk solution into the enzyme's active site and an increased value of Km. The halophilic protease is also active in DMF/water mixtures, albeit with novel catalytic properties. In 33% (v/v) DMF in aqueous buffer, the esterase activity of the enzyme is ca. 80-fold higher than the corresponding amidase activity. This contrasts to the situation in pure aqueous buffer, in which the esterase activity is only fourfold higher than the amidase activity. The increased esterase activity relative to amidase activity prompted us to investigate the use of the protease in kinetically controlled peptide synthesis. The enzyme has a broad acyl donor substrate specificity and can effectively use amino acid esters of Phe, Tyr, Trp, Ser, Gly, and Ala. The enzyme is significantly more selective for the amino acid amide, preferring Gly in the P'1 site. A series of glycine-containing oligopeptides have been prepared in yields up to 76% without degradation due to secondary hydrolysis.
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PMID:Catalytic properties and potential of an extracellular protease from an extreme halophile. 776 32

Previous studies of amidase activity of human alpha-thrombin have yielded variable results and the decrease of this activity as a function of time and temperature has never been quantified. As this protease is an efficient tool in biochemistry and biotechnology thanks to its extreme selectivity, amidase activity and stability of thrombin were investigated with the synthetic substrate Tos-Gly-Pro-Arg-pNa. Enzyme activity as a function of temperature showed an optimum peak at 45 degrees C. The pH dependence of the activity showed a maximum around 9.5. The addition of NaCl promoted an increase of the activity. Stability of thrombin decreased rapidly when increasing the temperature from 25-45 degrees C and when diluting the enzyme. The presence of glycerol and ethylene glycol promoted a small increase of thrombin half life, whereas polyethylene glycol had a more pronounced positive effect even at very low concentrations.
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PMID:Amidase activity and thermal stability of human thrombin. 794 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

Ecamulin, a novel prothrombin activating enzyme, has been isolated and purified 63-fold with a 57% yield from the venom of the Middle-Asian sand viper Echis multisquamatus using three-step ion-exchange chromatography. The enzyme was shown to activate prothrombin similarly to Ecarin, a prothrombin-converting enzyme from Echis carinatus venom, however, differing from the latter by structural and physico-chemical properties. The enzyme is a Zn-proteinase: it contains 1 mol Zn per 1 mol of protein. The molecular mass of the enzyme as determined by Sephacryl S-200 chromatography is 93 +/- 2 kDa. Upon SDS-PAAG electrophoresis ecamulin produces two bands with Mr of 67 and 27 kDa under non-reducing conditions, and three bands with Mr of 67, 14 and 13 kDa in the presence of DTT. During native PAGE without SDS, the activator yields one slow mobility band: two bands are observed after addition of DTT or EDTA. Carbohydrates containing N-acetyl-alpha-D-glucosamine residues are localized in the 67 kDa chain. Ecamulin has two isoforms, S2 and S3, that are distinguished by the charge and partial coagulation activities: form S2 has 250 NIH units/mg, while the S3 form has 524 NIH units/mg. The amino acid sequences of the both isoforms are similar but the more active S3 form has 4 times higher content of Gln and 4 times less of Gly than the S2 form. The isoelectric point is 4.3-4.5; E280 of 1% solution is 10.2. Forms S2 and S3 of ecamulin hydrolyze chromogenic substrates of plasma kallikrein S2302 and glandular kallikrein 2266. Ecamulin does not hydrolyze BAEE, TAME, LEE, thrombin substrates Chromozym TH and S2160, factor Xa-S2222, protein Ca-Chromozym PCa and Plasmin S2251. The amidase activity is nonreversibly inhibited by EDTA, o-phenanthroline (the activity is recovered by addition of Zn2+), Cys or DTT, EGTA, DFP, PMSF or pCMB do not inhibit the enzyme activity. Ecamulin converts prothrombin to alpha-thrombin passing by a shunt via the meizothrombin stage. The reaction of prothrombin activation does not require Ca2+, phospholipids of factor Va. Part of this work was presented at the International Conference "Fibrinogen and fibrinolysis", Yalta, September 23-28, 1995.
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PMID:[Isolation and characteristics of ekamulin--a prothrombin activator from multiscaled viper (Echis multisquamatus) venom]. 901 Dec 45

Glutathionylspermidine (Gsp) is a metabolite common to Escherichia coli and protozoal parasites of the Trypanosoma family. Though its role in E. coli is unknown, Gsp is known to be an intermediate in the biosynthesis of N1,N8-bis(glutathionyl)spermidine (trypanothione), a metabolite unique to trypanosomatids that may allow the parasites to overcome oxidative stresses induced by host defense mechanisms. The bifunctional Gsp-synthetase/amidase from E. coli catalyzes both amide bond formation and breakdown between the N1-amine of spermidine [N-(3-aminopropyl)-1,4-diaminobutane] and the glycine carboxylate of glutathione (gamma-Glu-Cys-Gly), with net hydrolysis of ATP [Bollinger et al. (1995) J. Biol. Chem. 270 (23), 14031-14041]. Synthetase and amidase activities reside in separate domains of the protein, and liberation of the amidase domain from the synthetase domain activates the amidase activity as much as 70-fold in kcat/K(m) for a chromogenic substrate gamma-Glu-Ala-Gly-pNA [Kwon et al., (1997) J. Biol. Chem. 272 (4), 2429-2436]. When substrates for the Gsp-synthetase activity are present (GSH, ATP-Mg2+), Gsp-amidase is highly activated (15-fold). We provide kinetic and mutagenesis evidence suggesting that the amidase operates by a nucleophilic attack mechanism involving cysteine as the catalytic nucleophile. Stopped-flow studies on the 25 kDa Gsp-amidase fragment and the 70 kDa full-length Gsp-synthetase/amidase with gamma-Glu-Ala-Gly-ONp demonstrate burst kinetics characteristic of a covalent acyl-enzyme intermediate. Studies using various group-specific protease inhibitors, such as iodoacetamide, suggest an active-site cysteine or histidine as being relevant to amidase activity, and site-directed mutagenesis indicates that Cys-59 is essential for amidase activity.
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PMID:Evidence for a glutathionyl-enzyme intermediate in the amidase activity of the bifunctional glutathionylspermidine synthetase/amidase from Escherichia coli. 939 17

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 report here the isolation and characterization of a peptide-N4-(acetyl-beta-glucosaminyl) asparagine amidase (peptide: N-glycanase) from soybean (Glycine max) seeds. The enzyme was purified to homogeneity with 6.5% yield from defatted soybean meal extract by ion-exchange chromatography, gel filtration, hydroxyapatite chromatography, and hydrophobic chromatography. The purified enzyme, designated PNGase-GM, had the apparent molecular mass of 93 kDa by SDS-PAGE and 90 kDa by gel filtration, indicating this PNGase is a monomeric protein. The enzyme showed maximal activity at pH 4.5-5.0. PNGase-GM was capable of hydrolyzing the beta-aspartylglycosylamine linkage (GlcNAc beta 1-->Asn) of various glycopeptide substrates bearing high-mannose type, hybrid type, and xylose/fucose-containing plant complex type N-glycan units, while this amidase was far less active on the glycopeptides bearing sialylated animal complex-type glycans.
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PMID:A new peptide-N4-(acetyl-beta-glucosaminyl)asparagine amidase from soybean (Glycine max) seeds: purification and substrate specificity. 953 7

The DmpA (d-aminopeptidase A) protein produced by Ochrobactrum anthropi hydrolyses p-nitroanilide derivatives of glycine and d-alanine more efficiently than that of l-alanine. When regular peptides are utilized as substrates, the enzyme behaves as an aminopeptidase with a preference for N-terminal residues in an l configuration, thus exemplifying an interesting case of stereospecificity reversal. The best-hydrolysed substrate is l-Ala-Gly-Gly, but tetra- and penta-peptides are also efficiently hydrolysed. The gene encodes a 375-residue precursor, but the active enzyme contains two polypeptides corresponding to residues 2-249 (alpha-subunit) and 250-375 (beta-subunit) of the precursor. Residues 249 and 250 are a Gly and a Ser respectively, and various substitutions performed by site-directed mutagenesis result in the production of an uncleaved and inactive protein. The N-terminal Ser residue of the beta-subunit is followed by a hydrophobic peptide, which is predicted to form a beta-strand structure. All these properties strongly suggest that DmpA is an N-terminal amidohydrolase. An exploration of the databases highlights the presence of a number of open reading frames encoding related proteins in various bacterial genomes. Thus DmpA is very probably the prototype of an original family of N-terminal hydrolases.
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PMID:The DmpA aminopeptidase from Ochrobactrum anthropi LMG7991 is the prototype of a new terminal nucleophile hydrolase family. 1037 56


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