EC:3.5.1.4 - FACTA Search

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)

The linkage of corneal keratan sulfate to protein has been investigated. After exhaustive digestion of bovine corneas with papain and pronase, a product was obtained in which aspartic acid was the predominant amino acid and constituted 59% of the total amino acids. A carbohydrate-protein linkage fragment was isolated from this preparation by a relatively simple procedure involving the following steps: (1) partial acid hydrolysis, adsorption of glycopeptides and other cationic material on Dowex 50-X2 (H+) and elution with 0.25 M HCl: (2) paper electrophoresis of the eluted fraction at pH 6.5 and pH 1.9; (3) paper chromatography; and (4) final purification by column chromatography on Aminex A"-5 resin. The structure of the linkage fragment was established as 2-acetamido-1-(L-beta-aspartamido)-1,2-dideoxy-beta-D-glucose (Asn-GlcNAc). Evidence for this structure was obtained from qualitative and quantitative analyses as well as from the migration characteristics in several chromatographic anc electrophoretic systems. Further support for the identity of the isolated compound was provided by treatment with beta-aspartyl N-acetylglucosyl-amine amidohydrolase which specifically cleaves Asn-GlcNAc or asparaginyl-oligosaccharides. It is concluded that corneal keratan sulfate is bound to protein via a N-glycosylamine linkage between N-acetylglucosamine and asparagine: this type of linkage is common to many glycoproteins.
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PMID:The linkage of corneal keratan sulfate to protein. 12 42

Kinetic studies with adenylate deaminase have been performed by stopped flow methods at 20 degrees C in 0.01 M imidazole/HCl, pH 6.5. The data were analyzed using either the whole time course of the reaction or the initial portion of the full time course. At low KCl concentrations, activation by the product IMP complicates any interpretation. In the presence of 0.15 M KCl, the results are interpreted in terms of three types of purine nucleotide binding sites: an active site, an inhibitory site which appears to be relatively specific for nucleoside triphosphates, and an activating site which shows relatively little specificity for nucleoside phosphates. Nucleotide binding to the activating site weakens binding to the inhibitory site. Sigmoidal kinetic data observed as a function of AMP in the presence of the inhibitor GTP are interpreted in terms of AMP binding to the activating site and weakening GTP binding. A fragment of myosin, subfragement-2, which has previously been shown to form a tight complex with adenylate deaminase (Ashby, B., and Frieden, C. (1977) J. Biol. Chem. 252, 1869--1875) activates the deaminase reaction only slightly. Complex formation, however, makes the reaction less susceptible to inhibition by GTP, although high levels of this nucleotide will disrupt the complex. In the presence of GTP or GTP plus subfragment-2, hysteretic effects are observed.
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PMID:Adenylate deaminase. Kinetic and binding studies on the rabbit muscle enzyme. 72 7

alpha-N-acetyl-L-lysine methyl ester (NALME) is a lysine analogue that reportedly binds to low-affinity lysine binding sites in plasmin(ogen) and miniplasmin(ogen). In the studies presented here, we show that NALME has antifibrinolytic activity; however, unlike the therapeutic agents epsilon-amino-n-caproic acid (epsilon ACA) and tranexamic acid (TEA), the activity of NALME is based on inhibition of the plasmin active site. NALME (0.1-10 mM) significantly inhibited the amidase activity of plasmin, miniplasmin, and streptokinase-plasmin complex without affecting alpha-thrombin or tissue plasminogen activator. epsilon ACA and TEA (0.1-10 mM) did not affect the amidase activity of plasmin or miniplasmin. A kinetic analysis showed that NALME is a competitive inhibitor of D-Val-L-Lys-p-nitroanilide HCl (S-2251) hydrolysis by plasmin; NALME binding to plasmin completely prevented S-2251 binding. The Kl for the plasmin-NALME interaction was 0.4 mM. epsilon ACA and TEA inhibited fibrin monomer digestion by plasmin and miniplasmin without binding to the active site of either enzyme. This result suggests that epsilon ACA and TEA function as antifibrinolytics by disrupting the noncovalent association of fibrin monomer with a domain common to both plasmin and miniplasmin (probably kringle 5). NALME inhibited fibrin monomer digestion principally by decreasing amidase activity. NALME was the only lysine analogue that prevented fragment X formation; TEA and epsilon ACA primarily inhibited the formation of fragments Y and D. When plasmin was incubated simultaneously with alpha 2-antiplasmin and alpha 2-macroglobulin, epsilon ACA increased the fraction of plasmin reacting with alpha 2-macroglobulin; NALME had no effect on the plasmin distribution.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antifibrinolytic activities of alpha-N-acetyl-L-lysine methyl ester, epsilon-aminocaproic acid, and tranexamic acid. Importance of kringle interactions and active site inhibition. 137 8

Acyl-CoA: 6-APA acyltransferase (AT) from Penicillium chrysogenum Wis 54-1255 catalyzes the hydrolysis of different acyl-CoA derivatives generating, in the absence of 6-APA, free acid and CoA. The hydrolytic efficiency of AT is highest for acyl-CoA variants in which the acyl-moiety is higher than six carbon atoms. The maximal rate of catalysis was achieved in 50 mM Tris-HCl buffer, pH 8.5 at 35 degrees C. Unlike the AT activity, the acylase activity has a different optimum temperature and substrate specificity and dithiothreitol is not required for the reaction.
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PMID:Acyl-CoA: 6-APA acyltransferase from Penicillium chrysogenum studies on its hydrolytic activity. 184 14

Formiminotransferase-cyclodeaminase denatured in 6 M guanidine hydrochloride (Gdn.HCl) refolds and reassembles to the native octameric structure upon dilution into buffer. Both enzymic activities are recovered to greater than 90%, and the renatured enzyme "channels" the formiminotetrahydropteroylpentaglutamate intermediate. Under conditions where the two activities are recovered simultaneously, the rate-limiting step in reactivation is first order with respect to protein, with k = 1.9 X 10(-5) s-1 at 22 degrees C and delta E approximately equal to 15 kcal mol-1. In the presence of 1.5 M urea, renaturation is arrested at the level of dimers having only transferase activity. Subsequent dialysis to remove the urea leads to recovery of deaminase activity and formation of octamer. Kinetic studies with mono- and pentaglutamate derivatives of the folate substrates demonstrated that native and renatured enzyme as well as deaminase-active dimers [Findlay, W. A., & MacKenzie, R. E (1987) Biochemistry 26, 1948-1954] have much higher affinity for polyglutamate substrates, while the transferase-active dimers do not. These results indicate that the transferase activity is associated with one type of subunit-subunit interaction in the native tetramer of dimers and that the polyglutamate binding site and the deaminase activity are associated with the other interface. A dimeric transferase-active fragment generated by limited proteolysis of the native enzyme can also be renatured from 6 M Gdn.HCl, confirming that it is an independently folding domain capable of reforming one type of subunit interaction.
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PMID:Renaturation of formiminotransferase-cyclodeaminase from guanidine hydrochloride. Quaternary structure requirements for the activities and polyglutamate specificity. 339 Apr 40

This report documents attempts to mimic the rate enhancement effect of thrombomodulin on human alpha-thrombin-catalyzed activation of human protein C in the absence of exogenous calcium. Specifically the following tryptamine analogs at 1 mM concentration were shown to enhance the protein C activation rate relative to a control with no added effector at pH 8.3 (50 mM Tris-HCl, 0.1 M NaCl, 37 degrees C): serotonin, 1.2; tryptamine, 2.9; 5-fluorotryptamine, 4.4; 6-fluorotryptamine, 7.2. At much higher levels, e.g. 10 mM, all of the above effectors, as well as indole, showed a moderate inhibition of human protein C activation. ATP, a platelet release product, showed a sigmoidal inhibition pattern similar to that found previously for thrombin amidase, clotting, and esterase activity (Conery, B.G., and Berliner, L.J. (1983) Biochemistry 22, 369-375). Overall, the enhancement factors for human alpha-thrombin activation of protein C with the tryptamine analogs described above were remarkable when considering the effect of a simple ligand versus the natural activator, thrombomodulin.
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PMID:Ligands which effect human protein C activation by thrombin. 365 43

A standard procedure for the identification of the N-terminal amino acid in N alpha-acylated proteins has been developed. After exhaustive proteolysis, the amino acids with blocked alpha-amino groups are separated from positively charged, free amino acids by ion exchange chromatography and subjected to digestion with acylase I. Amino acid analysis before and after the acylase treatment identifies the blocked N-terminal amino acid. A survey of acylamino acid substrates showed that acylase will liberate all the common amino acids except Asp, Cys or Pro from their N-acetyl-and N-butyryl derivatives, and will also catalyze the hydrolysis of N-formyl-Met and N-myristyl-Val. Thus, the procedure cannot identify acylated Asp, Cys or Pro, nor, because of the ion exchange step, N alpha-acyl-derivatives of Arg, Lys or His. Whenever the protease treatment releases free acylamino acids, the remaining amino acids should be detected. When applied to several proteins, the procedure confirmed known N-terminal acylamino acids and identified acyl-Ser in enolases from chum and coho salmon muscle and in pyruvate kinase from rabbit muscle, and acyl-Thr in phosphofructokinase from rabbit muscle. The protease-acylase assay has been used to identify blocked peptides from CNBr- or protease-treated proteins. When such peptides were treated with 1 N HCl at 110 degrees for 10 min, sufficient yields of deacylated, mostly intact, peptide were obtained to permit direct automatic sequencing. The N-terminal sequences of rabbit muscle and coho salmon enolase were determined in this way and are compared to each other and to the sequence of yeast enolase.
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PMID:Studies on N alpha-acylated proteins: the N-terminal sequences of two muscle enolases. 391 71

The enzyme N-acetylmuramyl-L-alanine amidase (mucopeptide amidohydrolase, EC 3.5.1.28) has been detected in human, mouse, rabbit, bovine and sheep sera. A method for detection of amidase activity using [14C]peptidoglycan monomer as the substrate has been developed. Partial purification of human and mouse amidase was achieved by gel chromatography on Bio-Gel A-1.5 m, DEAE-Sephadex A-50 and Sephadex G-100. Both amidase preparations exhibited maximal activity at pH 9.0 in Tris-HCl buffer and required Mg2+ for maximal activity. Following digestion of peptidoglycan monomer, GlcNAc-MurNAc-L-Ala-D-isoglutaminyl-meso-diaminopimelyl-D-Ala-D-Ala, the disaccharide GlcNAc-MurNAc and the corresponding pentapeptide L-Ala-D-isoglutaminyl-meso-diaminopimelyl-D-Ala-D-Ala were formed and subsequently isolated and chemically characterized. The enzyme therefore acts as an N-acetylmuramyl-L-alanine amidase by cleaving the bond between N-acetylmuramic acid and L-alanine. The glycan linked, peptide-not-cross-linked peptidoglycan dimer was also shown to be a substrate for human and mouse amidase.
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PMID:Partial purification and characterization of N-acetylmuramyl-L-alanine amidase from human and mouse serum. 612 7

The use of high-performance liquid chromatography to identify and quantitate five purine-metabolizing enzymes from a partially purified subcellular fraction of the eucaryotic microorganism Dictyostelium discoideum is described. All HPLC separations were carried out in an isocratic manner using reverse-phase C18 as the stationary phase. The mobile phase consisted of a phosphate buffer with either methanol or acetonitrile as cosolvent, and optimal separation conditions were attained by varying the organic concentration or the pH of the buffer or by employing paired-ion chromatographic techniques. Substrates and products were detected at either 254 nm for the purines or 295 nm for the formycin analogs. An adenosine kinase activity was identified, and it was demonstrated that formycin A (FoA) could be substituted for adenosine as the phosphate acceptor, yielding FoAMP as the product. With FoA as the substrate an apparent Km of 18.2 microM and an apparent Vmax of 32.4 mmol min-1 mg-1 were observed for the activity. A purine-nucleoside phosphorylase activity was found to cleave adenosine to adenine and ribosylphosphate. FoA was not found to be a substrate for this activity due to the unusual formycin C-glycosyl bond which was not hydrolyzed by enzymes or chemically with either HCl or NaOH. An adenylate deaminase activity was found to be present in the cytosolic S-100 of cells harvested during the onset of development, and this deaminase activity was greatly stimulated by ATP. With FoAMP as the substrate, an apparent Km of 236 microM and Vmax of 2.78 mumol min-1 mg-1 were observed. The deamination of FoAMP could be inhibited by the addition of the natural substrate AMP. An apparent Ki value of 136 microM was determined from initial rate data. An adenylosuccinate synthetase activity was observed to have a Km value for GTP, IMP, and aspartic acid of 23, 34, and 714 microM, respectively. The formycin analog FoIMP was not a substrate with this activity but was a competitive inhibitor of IMP. Finally hypoxanthine-guanine phosphoribosyltransferase was found to have Km and Vmax values for hypoxanthine of 55.5 microM and 34.3 nmol-1 min-1 mg-1. When guanine was used as the substrate, the rate of nucleotide formation was 50% that with hypoxanthine as the substrate. The advantages of using HPLC to examine the interconnecting activities of a multienzyme complex in subcellular fractions are discussed, including the increased sensitivity obtained by using formycin analogs in the assay procedures.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Intermediary purine-metabolizing enzymes from the cytosol of Dictyostelium discoideum monitored by high-performance liquid chromatography. 642 68

Muscle actin is, in most cases, prepared from an acetone-dried powder of the myosin-removed myofibrils under low-salt conditions in the presence of ATP. In this paper, it is shown that G-actin can be directly extracted from the myosin-removed myofibrils without acetone treatment. The extraction conditions are the same as those used for the extraction of G-actin from the dried powder: extraction of the myosin-removed myofibrils for 1 h with 2 mM Tris-HCl, pH 8.0, in the presence of 0.5 mM ATP. However, the crude G-actin directly extracted from the myosin-removed myofibrils loses its polymerizability after prolonged extraction. Measurements of inorganic phosphate and thin layer chromatography of the adenine nucleotides of the crude G-actin solution show that free ATP added to the extraction buffer is sequentially hydrolyzed to ADP and AMP, and then finally converted to IMP. The instability of the G-(ADP)-actin, depolymerized from the ends of actin filaments, explains the loss in polymerizability of G-actin during the extraction. Residual ATPase, adenylate kinase, and deaminase contained in the myofibrils may account for the decomposition of ATP.
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PMID:Direct extraction of G-actin from the myosin-removed myofibrils under the conditions of low ionic strength. 716 Dec 61

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