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)

An enzyme, tentatively termed aculeacin A acylase, useful in preparing deacylated peptides which are used as starting material for semisynthetic antifungal antibiotics, was purified from the culture filtrate of Actinoplanes utahensis NRRL12052. The purification involved ultrafiltration and column chromatographies on DEAE-cellulose, hydroxyapatite, and Butyl-Toyopearl 650M. The purified enzyme was composed of two dissimilar subunits with molecular weights of 55,000 and 19,000. The subunits were dissociated in the presence of 0.1% SDS or 6 M guanidine hydrochloride; the dissociation accompanied loss of acylase activity. The enzyme was fully active at pH 7.0 and at 60 degrees C. Its pI was estimated to be above 10.25. The Km and Vmax for aculeacin A were 1.53 mM and 39.7 mumol/min/mg-protein, respectively.
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PMID:A deacylation enzyme for aculeacin A, a neutral lipopeptide antibiotic, from Actinoplanes utahensis: purification and characterization. 276 18

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

Allantoate amidohydrolase from Bacillus fastidiosus was purified 170-fold to homogeneity as judged by isoelectric focusing and nondenaturing and sodium dodecyl sulfate polyacrylamide gel electrophoresis. The molecular mass was estimated to be 128 kDa. The enzyme appeared to be a homodimer with a subunit molecular mass of 66 kDa. The enzyme has an isoelectric point of 5.6. Allantoate amidohydrolase is a Mn(2+)-dependent enzyme exhibiting a pH optimum around 8.8. Its Km value for allantoate was estimated to be 9 mM. Similar to other microbial allantoate amidohydrolases the enzyme can be reversibly activated and inactivated. No indication for the involvement of arginine, lysine, and cysteine residues in the catalytic action of the enzyme was obtained. Diethylpyrocarbonate strongly inhibited the enzyme activity, indicating the involvement of histidine or tyrosine residues in catalytic action. However, no recovery was obtained by treatment with hydroxylamine as would be expected if such residues were modified. The enzyme could be reversibly denatured by urea, guanidine, and sodium dodecyl sulfate.
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PMID:Purification and characterization of allantoate amidohydrolase from Bacillus fastidiosus. 750 67

The electron paramagnetic resonance (EPR) spin labeling technique has been employed to study the properties and conformation of the thiol protease papain in solution, using (1-oxyl-2,2,5,5-tetramethyl-delta 3-pyrroline-3-methyl) methanethiosulfonate (MTS) as the spin label. The measurements of papain's amidase activity corroborate the EPR results. The major findings are: (i) the motion of the MTS spin label is very sensitive to the active site conformation of papain, which may reflect the location of the pyrroline ring of the spin label near the narrow portion of the active site cleft of papain, and thus there may be intimate interactions between the spin label and its environment; (ii) the active site cleft of papain may have a more open structure at intermediate pH (pH 4.2 to 8.0) than at higher (pH > 8.0) or lower (pH < 4.2) pH, which is consistent with the bell-shape pH curve of the enzyme's amidase activity with the optimum pH at pH 7.00; and (iii) the motion of spin label at the active site of free papain in solution becomes slower upon addition of a denaturant (urea or guanidine hydrochloride), suggesting that the denatured enzyme may have a more closed active site cleft. Urea is more effective than guanidine hydrochloride in denaturing papain at low concentration. However, both urea and guanidine hydrochloride can completely inactivate papain at high concentrations. When an appropriate spin label is selected to label the active site of papain (such as MTS spin label), the EPR spin labeling technique may offer additional insight into the conformation of papain over that obtained by optical methods. These results are discussed in terms of possible studies of biofunctional membranes, opaque assemblies in which a biological molecule is attached to a polymeric membrane.
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PMID:Active site structure and stability of the thiol protease papain studied by electron paramagnetic resonance employing a methanethiosulfonate spin label. 816 Dec 1

An amidase capable of degrading acrylamide and aliphatic amides was purified to apparent homogeneity from Klebsiella pneumoniae NCTR 1. The enzyme is a monomer with an apparent molecular weight of 62,000. The pH and temperature optima of the enzyme were 7.0 and 65 degrees C, respectively. The purified amidase contained 11 5,5-dithiobis(2-nitrobenzoate) (DTNB)-titratable sulfhydryl (SH) groups. In the native enzyme 1.0 SH group readily reacted with DTNB with no detectable loss of activity. Titration of the next 3.0 SH groups with DTNB resulted in a loss of activity of more than 70%. The remaining seven inaccessible SH groups could be titrated only in the presence of 8 M guanidine hydrochloride. Titration of SH groups was strongly inhibited by carboxymethylation and KMnO4, suggesting the presence of SH groups at the active site(s). Inductively coupled plasma-atomic emission spectrometry analysis indicated that the native amidase contains 0.33 mol of cobalt and 0.33 mol of iron per mol of the native enzyme. Polyclonal antiserum against K. pneumoniae amidase was raised in rabbits, and immunochemical comparisons were made with amidases from Rhodococcus sp., Mycobacterium smegmatis, Pseudomonas chlororaphis B23, and Methylophilus methylotrophus. The antiserum immunoprecipitated and immunoreacted with the amidases of K. pneumoniae and P. chlororaphis B23. The antiserum failed to immunoreact or immunoprecipitate with other amidases.
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PMID:Physical, biochemical, and immunological characterization of a thermostable amidase from Klebsiella pneumoniae NCTR 1. 863 44

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

We established an efficient overproduction-purification system for blasticidin S deaminase (BSD) using the cDNA cloned from Aspergillus terreus. The estimated molecular mass of the purified enzyme indicated BSD was a tetramer. This tetrameric form was very resistant to denaturation by SDS and showed heat-modifiable behavior on SDS-PAGE; i.e., BSD migrated much slower (as a single band of 36 kDa) in its active conformation than its completely denatured polypeptide (13 kDa) if heat treatment in 2% SDS was not performed before electrophoresis. As predicted from the presence of the catalytic zinc-coordinating sequence motif conserved in the cytosine nucleoside/nucleotide deaminase family, BSD also contained one zinc per deaminase subunit. However, the predicted catalytic function appeared not to be the only role of this zinc in the enzyme. First, titration of the zinc-chelating -SH groups with p-hydroxymercuriphenylsulfonate led to dissociation of the BSD tetramer into unstable monomers or dimers. Second, depletion of zinc on reconstitution of chemically denatured BSD (with either guanidine-HCl or acidic pH) resulted in improper folding of the polypeptide. These results suggest that zinc also plays a structural role in maintenance of the protein structure. When we introduced mutations at Glu-56 (the proposed active site) and Cys-91 (a proposed catalytic zinc-binding Cys) in BSD, none of the resulting mutants (E56D, E56Q, C91A, C91S, and C91H) showed any detectable activity, as judged with the spectrophotometric assay. Replacements of Cys-91 resulted in gross perturbation of the enzyme structure although the catalytically essential Glu-56 was not necessarily required for proper folding of the enzyme. These results further support our proposal that the catalytic zinc coordinated by the conserved sequence motif is also structural in BSD.
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PMID:Expression, purification, and characterization of blasticidin S deaminase (BSD) from Aspergillus terreus: the role of catalytic zinc in enzyme structure. 1083 62

Previously, the lysozyme gene of the Klebsiella phage K11 was partially sequenced in our lab. Using the sequence information the lysozyme gene of the Klebsiella phage K11 was amplified and cloned using the polymerase chain reaction of the pfu DNA polymerase. The nucleotide sequence of phage K11 lysozyme gene was determined. The open reading frame corresponds to a polypeptide with 151 amino acids and molecular weight of 16,932 Da. The deduced amino acid sequence of this polypeptide shows 74-75% homologies to the T7 and T3 phage lysozymes. Although the gene was efficiently expressed under the control of tac promoter in Escherichia coli XL1-blue cells at 37 degrees C, most of the K11 lysozyme produced was insoluble. When the temperature of cell growth was lowered, however, solubility of the K11 lysozyme was increased gradually. The insoluble protein expressed at 37 degrees C was solubilized in 5 M guanidine-HCl and refolded in the presence of oxido-shuffling agent (GSH/GSSG). Through the refolding process the recombinant lysozyme was solubilized and purified. The purified K11 lysozyme showed transcription inhibition of K11 RNA polymerase as well as amidase activity. These results showed that the lysozyme of bacteriophage K11 is a bifunctional protein that cuts a bond in the bacterial cell wall and selectively inhibits K11 phage RNA polymerase. Also, transcription inhibition ability of K11 lysozyme with T7 or SP6 phage RNA polymerase was measured. T7 RNA polymerase was less inhibited than K11 RNA polymerase by K11 lysozyme. But SP6 RNA polymerase was not nearly inhibited by K11 lysozyme.
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PMID:Cloning and expression of Klebsiella phage K11 lysozyme gene. 1588 50

Histone deacetylases are major regulators of eukaryotic gene expression. Not unexpectedly, histone deacetylases are among the most promising targets in cancer therapy. However, despite huge efforts in histone deacetylase inhibitor design, very little is known about the impact of histone deacetylase inhibitors on enzyme stability. In this study, the conformational stability of a well-established histone deacetylase homolog with high structural similarity (histone deacetylase-like amidohydrolase from Bordetella/Alcaligenes species FB188) was investigated using denaturation titrations and stopped-flow kinetics. Based on the results of these complementary approaches, we conclude that the interconversion of native histone deacetylase-like amidohydrolase into its denatured form involves several intermediates possessing different enzyme activities and conformational structures. The refolding kinetics has shown to be strongly dependent on Zn(2+) and to a lesser extent on K(+), which underlines their importance not only for catalytic function but also for maintaining the correct conformational structure of the enzyme. Two main unfolding processes of histone deacetylase-like amidohydrolase were differentiated. The unfolding occurring at submolar concentrations of the denaturant guanidine hydrochloride was not affected by inhibitor binding, whereas the unfolding at higher concentrations of guanidine hydrochloride was strongly affected. It was shown that the known inhibitors suberoylanilide hydroxamic acid and cyclopentylpropionyl hydroxamate are capable of stabilizing the conformational structure of histone deacetylase-like amidrohydrolase. Judging from the free energies of unfolding, the protein stability was increased by 9.4 and 5.4 kJ.mol(-1) upon binding of suberoylanilide hydroxamic acid and cyclopentylpropionyl hydroxamate, respectively.
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PMID:Inhibitor-mediated stabilization of the conformational structure of a histone deacetylase-like amidohydrolase. 1762 67

Besides esterase activity, acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) hydrolyze o-nitroacetanilides through aryl acylamidase activity. We have reported that BuChE tetramers and monomers of human blood plasma differ in o-nitroacetanilide (ONA) hydrolysis. The homology in quaternary structure and folding of subunits in the prevalent BuChE species (G4(H)) of human plasma and AChE forms of fetal bovine serum prompted us to study the esterase and amidase activities of fetal bovine serum AChE. The k(cat)/K(m) values for acetylthiocholine (ATCh), ONA and its trifluoro derivative N-(2-nitrophenyl)-trifluoroacetamide (F-ONA) were 398 x 10(6) M(-1) min(-1), 0.8 x 10(6) M(-1) min(-1), and 17.5 x 10(6) M(-1) min(-1), respectively. The lack of inhibition of amidase activity at high F-ONA concentrations makes it unlikely that there is a role for the peripheral anionic site (PAS) in F-ONA degradation, but the inhibition of ATCh, ONA and F-ONA hydrolysis by the PAS ligand fasciculin-2 points to the transit of o-nitroacetalinides near the PAS on their way to the active site. Sedimentation analysis confirmed substrate hydrolysis by tetrameric 10.9S AChE. As compared with esterase activity, amidase activity was less sensitive to guanidine hydrochloride. This reagent led to the formation of 9.3S tetramers with partially unfolded subunits. Their capacity to hydrolyze ATCh and F-ONA revealed that, despite the conformational change, the active site architecture and functionality of AChE were partially retained.
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PMID:Hydrolysis of acetylthiocoline, o-nitroacetanilide and o-nitrotrifluoroacetanilide by fetal bovine serum acetylcholinesterase. 1929 75


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