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)

Anandamide (N-arachidonoylethanolamine) loses its cannabimimetic activity when it is hydrolyzed to arachidonic acid and ethanolamine by the catalysis of an enzyme referred to as anandamide amidohydrolase or fatty acid amide hydrolase. Cravatt's group and our group cloned cDNA of the enzyme from rat, human, mouse and pig, and the primary structures revealed that the enzymes belong to an amidase family characterized by the amidase signature sequence. The recombinant enzyme acted not only as an amidase for anandamide and oleamide, but also as an esterase for 2-arachidonoylglycerol. The reversibility of the enzymatic anandamide hydrolysis and synthesis was also confirmed with a purified recombinant enzyme. Several fatty acid derivatives like methyl arachidonyl fluorophosphonate potently inhibited the enzyme. The enzyme was distributed widely in mammalian organs such as liver, small intestine and brain. However, the anandamide hydrolyzing enzyme found in human megakaryoblastic cells was catalytically distinct from the previously known enzyme.
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PMID:Anandamide amidohydrolase (fatty acid amide hydrolase). 1078 39

The influence of ampicillin and chloramphenicol administered intraperitoneally singly or in combination on the protein content and the activities of hepatic esterase and amidase have been investigated in rats. The results have been compared to the effects of phenobarbitone (inducer) and p-nitrophenyl-phosphate (inhibitor) of hepatic hydrolases. Ampicillin pretreatment reduced protein level and amidase activity by 3.5% each but caused a significant increase (8.1%) in total esterase activity compared to controls. Chloramphenicol treatment caused an overall decrease in protein level, esterase and amidase activities respectively by 11%, 11%, and 35% over controls. Combined administration of both drugs resulted in a decrease in protein, esterase and amidase activities by 11.5%, 12.5%, and 41.2% respectively, thus mimicking the effects obtained with chloramphenicol alone. The changes induced by administration of the drugs particularly in combination on the constituent enzymes of rat hepatic hydrolases may affect the ability of the body to deal with exposure to environmental chemicals if extrapolated to man.
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PMID:Chloramphenicol and ampicillin-induced changes in rat hepatic esterase and amidase activities. 1088 7

Using site directed mutagenesis combined with chemical modification, we have developed a general and versatile method for the glycosylation of proteins which is virtually unlimited in the scope of proteins and glycans that may be conjugated and in which the site of glycosylation and the nature of the introduced glycan can be carefully controlled. We have demonstrated the applicability of this method through the synthesis of a library of 48 glycosylated forms of the serine protease subtilisin Bacillus lentus (SBL) as single, pure species. As part of our ongoing program to tailor the activity of SBL for use in peptide synthesis, we have screened these enzymes for activity against the esterase substrate succinyl-Ala-Ala-Pro-Phe-S-benzyl. Gratifyingly, 22 enzymes displayed greater than wild type (WT) activity. Glycosylation at positions 62, in the S2 pocket, resulted in five glycosylated forms of SBL that were 1.3- to 1.9-fold more active than WT. At position 217, in the S1' pocket, all glycosylations increased kcat/KM up to a remarkable 8.4-fold greater than WT for the glucosylated enzyme L217C-S-beta-Glc(Ac)3. Furthermore, the ratio of amidase to esterase activity, (kcat/KM)esterase/(kcat/KM)amidase (E/A), is increased relative to wild type for all 48 glycosylated forms of SBL. Again, the most dramatic changes are observed at positions 62 and 217 and L217C-S-beta-Glc(Ac)3 has an E/A that is 17.2-fold greater than WT. The tailored specificity and high activity of this glycoform can be rationalized by molecular modeling analysis, which suggests that the carbohydrate moiety occupies the S1' leaving group pocket and enhances the rate of deacylation of the acyl-enzyme intermediate. These glycosylated enzymes are ideal candidates for use as catalysts in peptide synthesis as they have greatly increased (kcat,KM)esterase and severely reduced (kcat/KM)amidase and will favor the formation of the amide bond over hydrolysis.
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PMID:Site-selective glycosylation of subtilisin Bacillus lentus causes dramatic increases in esterase activity. 1097 2

Methanethiosulfonate reagents may be used to introduce virtually unlimited structural modifications in enzymes via reaction with the thiol group of cysteine. The covalent coupling of enantiomerically pure (R) and (S) chiral auxiliary methanethiosulfonate ligands to cysteine mutants of subtilisin Bacillus lentus induces spectacular changes in catalytic activity between diastereomeric enzymes. Amidase and esterase kinetic assays using a low substrate approximation were used to establish kcat/KM values for the chemically modified mutants, and up to 3-fold differences in activity were found between diastereomeric enzymes. Changing the length of the carbon chain linking the phenyl or benzyl oxazolidinone ligand to the mutant N62C by a methylene unit reverses which diastereomeric enzyme is more active. Similarly, changing from a phenyl to benzyl oxazolidinone ligand at S166C reverses which diastereomeric enzyme is more active. Chiral modifications at S166C and L217C give CMMs having both high esterase kcat/KM's and high esterase to amidase ratios with large differences between diastereomeric enzymes.
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PMID:Covalent modification of subtilisin Bacillus lentus cysteine mutants with enantiomerically pure chiral auxiliaries causes remarkable changes in activity. 1100 41

Acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) from vertebrates, other than their predominant acylcholine hydrolase (esterase) activity, display a genuine aryl acylamidase activity (AAA) capable of hydrolyzing the synthetic substrate o-nitroacetanilide to o-nitroaniline. This AAA activity is strongly inhibited by classical cholinesterase (ChE) inhibitors. In the present study, benzalkonium chloride (BAC), a cationic detergent widely used as a preservative in pharmaceutical preparations, has been shown to distinctly modulate the esterase and AAA activities of BChEs. The detergent BAC was able to inhibit the esterase activity of human serum and horse serum BChEs and AChEs from electric eel and human erythrocyte. The remarkable property of BAC was its ability to profoundly activate the AAA activity of human serum and horse serum BChEs but not the AAA activity of AChEs. Thus BAC seem to preferentially activate the AAA activity of BChEs alone. Results of the study using the ChE active site-specific inhibitor diisopropyl phosphorofluoridate indicated that BAC binds to the active site of ChEs. Furthermore, studies using a structural homolog of BAC indicated that the alkyl group of BAC is essential not only for its interaction with ChEs but also for its distinct effect on the esterase and AAA activities of BChEs. This is the first report of a compound that inhibits the esterase activity, while simultaneously activating the AAA activity, of BChEs. Copyright 2000 Academic Press.
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PMID:Distinct Effect of Benzalkonium Chloride on the Esterase and Aryl Acylamidase Activities of Butyrylcholinesterase. 1103 85

Site-directed mutagenesis was used to investigate the effects of S221C/P225A, N118S/S221C/P225A, D60N/N118S/S221C/P225A and Q103R/N118S/S221C/P225A mutations on the properties of Subtilisin E. It was found that S221C/P225A mutant is 73,000-fold decreased in amidase activity than subtilisin E and 3-fold increased than subtiligase in the ratio of esterase/amidase; N118S/S221C/P225A mutant has 3.6-fold and 15-fold decreased in amidase and esterase activity respectively and as a result, it has a 4-fold lower in the ratio of amidase/esterase than S221C/P225A mutant; Although it has no effect on the esterase activity, D60N/N118S/S221C/P225A mutant enhanced its ratio of amidase/esterase by 15 fold, 3.3-fold and 10.3 fold compared to N118S/S221C/P225A mutant, S221C/P225A mutant and subtiligase respectively; Q103R/N118S/S221C/P225A mutant, however, has a 5-fold enhanced in the amidase activity and 55-fold and 1000-fold decrease in the esterase activity and the ratio of esterase/amidase compared to N118S/S221C/P225A.
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PMID:[Site-directed mutagenesis and effects on the enzymatic properties of subtilisin E]. 1105 77

An anionic trypsin from pyloric caeca of chum salmon (Oncorhynchus keta) was purified by ammonium sulfate and acetone fractionation followed by affinity chromatography, gel-filtration, and DEAE-anion exchange chromatography. The apparent molecular mass was about 24 kDa as determined by SDS-PAGE. The anionic chum salmon trypsin was moderately active toward esterase substrates such as tosyl-L-arginine methyl ester and tosyl-L-lysine methyl ester. Its amidase activity for benzoyl-L-arginine p-nitroanilide was comparative to those of bovine and Streptomyces griseus trypsins. Kinetic characteristics of anionic chum salmon, bovine, and Streptomyces griseus trypsins toward inverse substrate (p-amidinophenyl ester) were compared. Inverse substrate behaved as a specific substrate for anionic chum salmon trypsin with specific binding, efficient acylation, and relatively slow deacylation.
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PMID:Anionic trypsin from chum salmon: activity with p-amidinophenyl ester and comparison with bovine and Streptomyces griseus trypsins. 1112 64

The sequence has been determined of 80 888 bp of contiguous subtelomeric DNA, including the isp5 gene, from the right arm of chromosome I of Schizosaccharomyces pombe; 27 open reading frames (ORFs) longer than 100 codons are present, giving a density of one gene per 3.0 kb. Seven of the predicted proteins are members of the major facilitator superfamily (MFS) of transport proteins, including four amino acid permease homologues, bringing this family of amino acid permease sequences to 17 in Sz. pombe, and a phylogenetic analysis is presented. Also encoded is an allantoate permease homologue, a sulphate permease homologue and a probable urea active transporter. Predicted non-membrane proteins include a 1-aminocyclopropane-1-carboxylate deaminase (ACC deaminase), a class III aminotransferase, serine acetyltransferase, protein-L-isoaspartate O-methyltransferase, alpha-glucosidase, alpha-galactosidase, esterase/lipase, oxidoreductase of the short-chain dehydrogenase/reductase (SDR) family, aldehyde dehydrogenase, formamidase, amidase, flavohaemoprotein, a putative translation initiation inhibitor and a protein with similarity to a filamentous fungal conidiation-specific protein. The remaining six ORFs are likely to encode proteins, either because they have sequence similarity with hypothetical proteins or because they are known to be transcribed. Introns are scarce in the sequenced region: only three ORFs contain introns, with only one having multiple introns. The sequenced region also contains a single Tf1 transposon long terminal repeat (LTR). The sequence is derived from cosmid clones c869, c922 and c1039 and has been submitted to the EMBL database under entries SPAC869 (Accession No. AL132779), SPAC922 (AL133522) and SPAC1039 (AL133521).
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PMID:Subtelomeric sequence from the right arm of Schizosaccharomyces pombe chromosome I contains seven permease genes. 1122 45

Concomitant activity improvement of an evolved enzyme toward two very different ester substrates was achieved when a unique combination of functional periplasmic enzyme expression in Escherichia coli, random mutagenesis, DNA shuffling and cell-based kinetic screenings was applied. Specifically, we focused on the conversion of subtilisin E into an enzyme with broader esterase activity as opposed to its native amidase activity. Cell-based microtiter assays were performed on N-acetyl-D,L-phenylalanine p-nitrophenyl ester (Phe-NPE) and sucrose 1'-adipate (S1'A), as well as on the tetrapeptide amide substrate N-succinyl-L-Ala-L-Ala-L-Pro-L-Phe-p-nitroanilide. After a single modified cycle of directed molecular evolution, we isolated a number of clones exhibiting increased activity toward Phe-NPE. In the following rounds of screenings, mutants with improved activity on Phe-NPE were also tested on S1'A. Three mutants were identified with increased esterolytic activity on Phe-NPE and S1'A, while having similar amidase activity to that of the parental enzymes. Because the two ester substrates are structurally distinct, we have evolved a more general esterolytic subtilisin and this may have important applications in synthesis.
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PMID:Generation of a broad esterolytic subtilisin using combined molecular evolution and periplasmic expression. 1174 13

We developed a protocol for efficient expression of the functional serine protease, subtilisin E, in Escherichia coli periplasm that permits direct in vivo measurement of the enzyme's catalytic activity. Activity assays and SDS-PAGE/Western blot analysis showed that the levels of expressed subtilisin varied and were correlated with both the culture conditions and the induction procedures. The highest level of subtilisin expression was achieved at 0.10-0.15% (w/v) of arabinose as inducer and a temperature of 20-22 degrees C, and was ca. eightfold higher as compared to the expression level at 30 degrees C. Cultivation of bacterial cells to a steady state of balanced growth before induction was required for uniform subtilisin expression in cell cultures growing in wells of microtiter plates. Amidase and esterase cell-based kinetic assays on microtiter plates were developed based on the direct measurement of subtilisin activity in vivo. Intact E. coli cells displaying wild-type, dimethylformamide-resistant, and temperature-resistant subtilisins were assayed on N-succinyl-Ala-Ala-Pro-Phe-p-nitroanilide and N-acetyl-Phe-p-nitrophenyl ester for their amidase and esterase activity, respectively. Additionally, the periplasmic fractions were isolated from the three E. coli strains expressing the respective subtilisins and tested for amidase activity. The amidase activity of the three subtilisins was ca. 15-fold higher than the esterolytic activity when measured in both the intact cells and in the periplasmic fractions. The strategy combining periplasmic expression of subtilisins with two cell-based kinetic assays permits rapid screening of subtilisin mutant libraries for desired activities.
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PMID:A strategy for in vivo screening of subtilisin E reaction specificity in E. coli periplasm. 1200 Nov 68


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