EC:3.4.24.27 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A methodological study of practical importance to protein sequencing has been carried out. Peptide mapping and sequence analysis of the cleavage products of reduced and carboxymethylated ribonuclease have been applied to the study of the activity and specificity of trypsin, chymotrypsin, elastase, lysyl endopeptidase (Achromobacter protease I), endoproteinase Arg-C (from mouse submaxillary gland), Staphylococcus aureus V8 protease, pepsin, and thermolysin in the presence of 20% methanol, ethanol, 2-propanol, and acetonitrile at 22 and 37 degrees C. The peptide bond specificities were retained, and the activities were generally unaffected or moderately reduced at 22 degrees C and pH 8. At 37 degrees C the activity of chymotrypsin, endoproteinase Arg-C, V8 protease at pH 4, and pepsin was substantially reduced and decreased in the order methanol, ethanol, 2-propanol, and acetonitrile. The activity of thermolysin at 55 degrees C was reduced very little in the presence of 20% organic solvent and 50 mM Ca2+. In low calcium and 20% 2-propanol at 22 degrees C the activity of thermolysin was restricted to the complete and specific cleavage of peptide bonds N-terminally of Phe, Ile, and Leu. The experiments suggest that secondary proteolytic digestions can be carried out directly in reversed-phase-HPLC fractions, and that organic cosolvents can be applied to control the degree of proteolysis. Moreover, the denaturing potential of these solvents might be useful in the degradation of proteins resistant to proteolysis, for example, in studies aimed at identification of disulfide bridges.
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PMID:Generation of peptides suitable for sequence analysis by proteolytic cleavage in reversed-phase high-performance liquid chromatography solvents. 306 54

Direct comparison of the primary structure of neutral endopeptidase (NEP, EC 3.4.24.11) with that of thermolysin, a bacterial metalloendopeptidase with a similar specificity, has revealed very few similarities between the two sequences, except for two conserved short segments. In thermolysin, these segments contain several of the residues involved in catalysis, including two zinc coordinating histidines (His-142 and His-146) and a third histidine (His-231) involved in stabilizing the transition state through hydrogen bonding. The role of the corresponding histidines in NEP (His-583, His-587 and His-637) was explored by site-directed mutagenesis of NEP cDNA and expression of the mutated cDNA in COS-1 cells. Substitution of either His-583 or His-587 of NEP for Phe completely abolished the activity and Zn-directed inhibitor recognition of the recombinant enzyme, suggesting that these residues play a role similar to His-142 and His-146 of thermolysin as zinc ligands. In contrast, substitution of His-637 for a phenylalanine residue was without effect on enzyme activity.
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PMID:Exploration of the catalytic site of endopeptidase 24.11 by site-directed mutagenesis. Histidine residues 583 and 587 are essential for catalysis. 316 86

The amino acid sequence of the thioredoxin isolated from rabbit bone marrow was determined chiefly by high performance tandem mass spectrometry and fast atom bombardment mass spectrometry combined with manual Edman degradation. The sequences of peptides generated by digestion with trypsin alone or in combination with Staphylococcus aureus protease V8 or thermolysin were determined from their collision-induced dissociation mass spectra. Alignment of these sequences and additional sequence information were obtained from the collision-induced dissociation mass spectra of peptides obtained from digestion of the intact protein with S. aureus protease V8 and alpha-chymotrypsin. The resulting sequence of 104 residues is as follows: Val-Lys-Gln-Ile-Glu-Ser-Lys-Ser-Ala-Phe-Gln- Glu-Val-Leu-Asp-Ser-Ala-Gly-Asp-Lys-Leu-Val-Val- Val-Asp-Phe-Ser-Ala-Thr-Trp-Cys-Gly-Pro-Cys-Lys- Met-Ile-Lys-Pro-Phe-Phe-His-Ala-Leu-Ser-Glu-Lys- Phe-Asn-Asn-Val-Val-Phe-Ile-Glu-Val-Asp-Val-Asp- Asp-Cys-Lys-Asp-Ile-Ala-Ala-Glu-Cys-Glu-Val-Lys- Cys-Met-Pro-Thr-Phe-Gln-Phe-Phe-Lys-Lys- Gly-Gln-Lys-Val-Gly-Glu-Phe-Ser-Gly-Ala-Asn-Lys- Glu-Lys-Leu-Glu-Ala-Thr-Ile-Asn-Glu-Leu-Leu.
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PMID:Amino acid sequence of thioredoxin isolated from rabbit bone marrow determined by tandem mass spectrometry. 316 11

The amino acid sequence of the thioredoxin isolated from the photosynthetic green sulfur bacterium Chlorobium thiosulfatophilum was determined chiefly by fast atom bombardment mass spectrometry combined with Edman degradation and tandem mass spectrometry. For this purpose, the protein was digested with trypsin, alpha-chymotrypsin, thermolysin, and Staphylococcus aureus protease or combinations thereof. Chemical cleavage with cyanogen bromide was also used alone or in combination with trypsin. The resulting sequence of 108 amino acids is as follows: Ala-Gly- Lys-Tyr-Phe-Glu-Ala-Thr-Asp-Lys-Asn-Phe-Gln- Thr-Glu-Xle-Xle-Asp-Ser-Asp-Lys-(Ala-Val)-Xle- Val-Asp-Phe-Trp-Ala-Ser-Trp-Cys-Gly-(Pro-Cys)- Met-Met-Xle-Gly-Pro-Val-Xle-Glu-Gln-Xle-Ala-Asp- Asp-Tyr-Glu-Gly-Lys-Ala-Xle-Xle-Ala-Lys-Xle-Asn- Val-Asp-Glu-Asn-Pro-Asn-Xle-Ala-Gly-Gln-Tyr-Gly- Xle-Arg-Ser-Xle-Pro-Thr-Met-Xle-Xle-Xle-Ly s- (Gly-Gly-Lys)-Val-Val-Asp-Gln-Met-Val-Gly-Ala- Xle-Pro-Lys-Asn-Met-Xle-Ala-Lys-Lys-Xle-Asp-Glu-His-Il e-Gly (where Xle represents leucine or isoleucine; sequences in parentheses are based on homology considerations). It exhibits less than 53% homology with Escherichia coli thioredoxin.
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PMID:Mass spectrometrically derived amino acid sequence of thioredoxin from Chlorobium, an evolutionarily prominent photosynthetic bacterium. 329 35

Thermolysin-catalysed synthesis of p-nitroanilides of acylpeptides of general formula Z-A1-A2-pNA (A1 = Thr, Ala, Val, Leu; A2 = Leu, Phe) and stepwise synthesis of p-nitroanilides of acyltetrapeptides of general formula Z-A1-A2-A3-A4-pNA (A1, A2 = Gly,Ala; A3, A4 = Ala, Leu, Phe) from Z-A1-A2-OH and A3-pNA and then from Z-A1-A2-A3-OH and A4-pNA have been carried out; pNA group was eliminated enzymatically. Increase in solubility of the product in the reaction mixture diminishes its yield. Minimal amount of thermolysin providing a substantial yield of reaction product depends on structure of both amino and carboxylic components. In many cases the molar ratio of the enzyme and starting substances could be decreased to 1:10(6) as compared with the generally used ration 1:10(3)-1:10(4).
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PMID:[Synthesis of p-nitroanilides of acylated peptides catalyzed by thermolysin]. 330 98

Crystallographic analysis of the binding of mercaptoacetyl-L-valyl-L-tryptophan to thermolysin suggests that this inhibitor is hydrolyzed by the crystalline enzyme. The apparent product of hydrolysis, L-valyl-L-tryptophan (Val-Trp), occupies the S1'-S2' subsites of the active site, not the S1-S1' subsites as observed previously for the dipeptide L-alanyl-L-phenylalanine (Ala-Phe). The difference in binding of Val-Trp and Ala-Phe is consistent with the specificity requirements and preferences of thermolysin. The binding of Val-Trp illustrates the mode of interaction of one of the products of peptide hydrolysis. High resolution crystallographic refinement indicates that the valyl amino group makes three hydrogen bonds to the enzyme and to solvent and, in addition, is 2.8 A from the carboxylate of Glu-143. This is the first instance in which a direct interaction has been observed between Glu-143 and the scissile nitrogen. As such, the study directly supports the mechanism of action for thermolysin proposed by Hangauer et al. (Hangauer, D. G., Monzingo, A. F., and Matthews, B. W. (1984) Biochemistry 23, 5730-5741) and, by analogy, indirectly supports the similar mechanism proposed for carboxypeptidase A (Monzingo, A. F., and Matthews, B. W. (1984) Biochemistry 23, 5724-5729).
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PMID:The binding of L-valyl-L-tryptophan to crystalline thermolysin illustrates the mode of interaction of a product of peptide hydrolysis. 334 46

The modes of binding to thermolysin of two phosphonamidate peptide inhibitors, carbobenzoxy-GlyP-L-Leu-L-Leu (ZGPLL) and carbobenzoxy-L-PheP-L-Leu-L-Ala (ZFPLA), have been determined by X-ray crystallography and refined at high resolution to crystallographic R-values of 17.7% and 17.0%, respectively. (GlyP is used to indicate that the trigonal carbon of the peptide linkage is replaced by the tetrahedral phosphorus of a phosphonamidate group.). These inhibitors were designed to be structural analogues of the presumed catalytic transition state and are potent inhibitors of thermolysin (ZGPLL, Ki = 9.1 nM; ZFPLA, Ki = 0.068 nM) [Bartlett, P. A., & Marlowe, C. K. (1987) Biochemistry (following paper in this issue)]. ZFPLA binds to thermolysin in the manner expected for the transition state and, for the first time, provides direct support for the presumed mode of binding of extended substrates in the S2 subsite. The mode of binding of ZFPLA displays all the interactions that are presumed to stabilize the transition state and supports the postulated mechanism of catalysis [Hangauer, D. G., Monzingo, A. F., & Matthews, B. W. (1984) Biochemistry 23, 5730-5741]. The two oxygens of the phosphonamidate moiety are liganded to the zinc to give overall pentacoordination of the metal. For the second inhibitor the situation is different. Although both ZFPLA and ZGPLL have similar modes of binding in the S1' and S2' subsites, the configurations of the carbobenzoxy-Phe and carbobenzoxy-Gly moieties are different. For ZFPLA the carbonyl group of the carbobenzoxy group is hydrogen bonded directly to the enzyme, whereas in ZGPLL the carbonyl group is rotated 117 degrees, and there is a water molecule interposed between the inhibitor and the enzyme. For ZGPLL only one of the phosphonamidate oxygens is liganded to the zinc. Correlated with the change in inhibitor-zinc ligation from monodentate in ZGPLL to bidentate in ZFPLA there is an increase in the phosphorus-nitrogen bond length of about 0.25 A, strongly suggesting that the phosphonamide nitrogen in ZFPLA is cationic, analogous to the doubly protonated nitrogen of the transition state. The observation that the nitrogen of ZFPLA appears to donate two hydrogen bonds to the protein also indicates that it is cationic. The different configurations adopted by the respective inhibitors are correlated with large differences in their kinetics of binding [Bartlett, P. A., & Marlowe, C. K. (1987) Biochemistry (following paper in this issue)]. These differences in kinetics are not associated with any significant conformational change on the part of the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Slow- and fast-binding inhibitors of thermolysin display different modes of binding: crystallographic analysis of extended phosphonamidate transition-state analogues. 344 75

The inhibitory constants of a series of synthetic N-carboxymethyl peptide inhibitors and the kinetic parameters (Km, kcat, and kcat/Km) of a series of model synthetic substrates were determined for the membrane-bound kidney metalloendopeptidase isolated from rabbit kidney and compared with those of bacterial thermolysin. The two enzymes show striking similarities with respect to structural requirements for substrate binding to the hydrophobic pocket at the S1' subsite of the active site. Both enzymes showed the highest reaction rates with substrates having leucine residues in this position while phenylalanine residues gave the lowest Km. The two enzymes were also inhibited by the same N-carboxymethyl peptide inhibitors. Although the mammalian enzyme was more susceptible to inhibition than its bacterial counterpart, structural variations in the inhibitor molecules affected the inhibitory constants for both enzymes in a similar manner. The two enzymes differed significantly, however, with respect to the effect of structural changes in the P1 and P2' positions of the substrate on the kinetic parameters of the reaction. The mammalian enzyme showed the highest reaction rates and specificity constants with substrates having the sequence -Phe-Gly-Phe- or -Phe-Ala-Phe- in positions P2, P1, and P1', respectively, while the sequence -Ala-Phe-Phe- was the most favored by the bacterial enzyme. The sequence -Gly-Gly-Phe- as found in enkephalins was not favored by either of the enzymes. Of the substrates having an aminobenzoate group in the P2' position, the mammalian enzyme favored those with the carboxyl group in the meta position while the bacterial enzyme favored those with the carboxyl group in the para position.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Substrate and inhibitor studies of thermolysin-like neutral metalloendopeptidase from kidney membrane fractions. Comparison with bacterial thermolysin. 351 18

Using ion-exchange chromatography on QAE-Sephadex A-50, affinity chromatography on DNP-hexamethylenediamine-Sepharose and gramicidin S-Sepharose and gel filtration, a metalloproteinase was isolated from the cultural fluid of L. pneumophila (strain Philadelphia-1) grown for 20 hours. The enzyme was purified 1606-fold with a 31% yield. The enzyme has a Mr of 38,000, pI approximately 4.0 and optimum of proteolytic activity at pH 6.0-7.0, 55 degrees C. The proteinase is the most stable within the pH range of 6.0-9.0. The enzyme contains one atom of zinc per molecule. The amino acid composition of metalloproteinase is close to that of thermolysin and is characterized by a high methionine content--17 residues out of 348. In the B-chain of oxidized bovine insulin the enzyme hydrolyzes the bonds precedent to the amino groups of leucine, phenylalanine and tyrosine. The enzyme is inhibited by chelating agents--Na2-EDTA and o-phenanthroline as well as by diethylpyrocarbonate. The serine and thiol proteinase inhibitors do not influence the enzyme activity. Under the given conditions of cultivation metalloproteinase is the major endopeptidase produced by L. pneumophila. Thus, the proteolytic system of Legionelles is characterized by the combination of metalloproteinase and the earlier described phenylalanine aminopeptidase.
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PMID:[Extracellular metalloproteinase from Legionella pneumophila]. 366 68

The nicotinic acetylcholine receptor is a substrate for cAMP-dependent protein kinase both in vitro and in vivo. Recently, it has been demonstrated that phosphorylation of the nicotinic receptor by this kinase increases its rate of rapid desensitization. We now report the identification of the cAMP-dependent phosphorylation sites on the gamma and delta subunits. Two-dimensional phosphopeptide mapping of the phosphorylated gamma and delta subunits, after limit proteolysis with thermolysin, indicated that each subunit is phosphorylated on a single site. Phosphoamino acid analysis of the 32P-labeled subunits demonstrates that phosphorylation had occurred exclusively on serine residues. Purified phosphorylated subunits were cleaved with cyanogen bromide and the resultant phosphopeptides were purified by reverse-phase high performance liquid chromatography. Shorter phosphopeptides, obtained by secondary digestion with trypsin, were purified and subjected to both automated gas-phase sequencing and manual Edman degradation. The results demonstrate that the gamma subunit was phosphorylated at Ser-353, contained within the sequence Arg-Arg-Ser(P)-Ser-Phe-Ile and that the delta subunit was phosphorylated at Ser-361, contained within the sequence Arg-Ser-Ser(P)-Ser-Val-Gay-Tyr-Ser-Lys. Determination of the sites phosphorylated within the structure of the gamma and delta subunits should contribute to the molecular characterization of the regulation of desensitization of the nicotinic acetylcholine receptor by protein phosphorylation.
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PMID:Determination of the sites of cAMP-dependent phosphorylation on the nicotinic acetylcholine receptor. 368 Feb 73

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