EC:3.4.21.1 - FACTA Search

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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Soybean lipoxygenase 1 was studied using limited proteolysis and active-site labeling to begin the structural characterization of the enzyme in solution. The serine proteases trypsin and chymotrypsin cleaved the large monomeric protein (95 kDa) into two large polypeptides, a C-terminal fragment of about 30 kDa and an N-terminal fragment of about 60 kDa. Under conditions that led to complete cleavage of the protein as judged by SDS-polyacrylamide gel electrophoresis, the catalytic activity of the protein was either reduced slightly (chymotrypsin) or enhanced (trypsin). The characteristics of the cleaved enzymes were the same as for native lipoxygenase 1 in all aspects examined: insensitivity to cyanide, fluoride, and EDTA, regiochemical and stereochemical consequences of catalysis, and EPR spectroscopy upon oxidation by product. The two fragments apparently were tightly associated as they could not be resolved under conditions which preserved the catalytic activity. Both native and protease-cleaved lipoxygenase 1 formed covalent adducts when treated with either 14C-phenylhydrazine or 4-nitrophenylhydrazine. The label was found only in the 60-kDa fragment and following complete trypsin digestion was associated with a peptide beginning after Lys-482 in the primary sequence. Therefore labeling occurred in the vicinity of the conserved histidine cluster which has been postulated as the iron-binding site. From these observations it appears that lipoxygenase 1 exists as a pair of tightly associated domains with the iron-binding site located in the larger of the two.
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PMID:Limited proteolysis and active-site labeling studies of soybean lipoxygenase. 132 20

Buried water molecules in the structurally homologous family of eukaryotic serine proteases were examined to determine whether buried waters and their protein environments are conserved in these proteins. We found 16 equivalent water sites conserved in trypsin/ogen, chymotrypsin/ogen, elastase, kallikrein, thrombin, rat tonin and rat mast cell protease, and 5 additional water sites in enzymes which share the primary specificity of trypsin. Based on an alignment of 30 serine protease sequences, it appears that the protein environments of these 21 conserved buried waters are highly conserved. The protein environments of buried waters are comprised primarily of atoms from highly conserved residues or main chain atoms from nonconserved residues. In one instance, the protein environment of a water is conserved even in the presence of an unlikely Pro/Ala substitution. We also note 3 instances in which a histidine side chain substitutes for water, suggesting that the structural role of water at these sites is satisfied by the presence of an alternative hydrogen bonding partner. Buried waters appear to be integral structural components of these proteins and should be incorporated into protein structures predicted on the basis of sequence homology to this family, including the catalytic domains of coagulation proteases.
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PMID:Buried water in homologous serine proteases. 133 31

The self-association of proteolytic enzymes can be looked upon as an interesting possibility of the manifestation of enzyme-substrate complex. Hence the involvement of active site in such processes is a centre of investigation for many years. In the case of alpha-chymotrypsin, considerable controversy exists with regard to the involvement of active site of the enzyme in its self-association. A historical perspective of the problem and an overview of the available evidence, for and against, is presented and critically analysed. Despite contradicting observations, accumulated evidence indicates that His-57 and Ser-195 at the active site are involved, at least partially, in the self-association; a few other groups such as Tyr-146 and Met-192 are also involved in such processes.
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PMID:Involvement of active site in self-association of proteins: a case of alpha-chymotrypsin. 139 12

A series of renin inhibitors containing new P1-P1' dipeptide mimetics are presented. The P1-P1' mimetics were obtained from (4S,5S)-3-(tert-butoxycarbonyl)-4-(cyclohexylmethyl)-5-[(omega- mesyloxy)alkyl]-2,2-dimethyloxazolidines 5b, 9, and 11b by nucleophilic substitution of the mesylate groups with the sodium salts of mercapto- and hydroxyheterocycles. Removal of the protecting groups and stepwise acylations with amino acid derivatives provided renin inhibitors with a length of a tripeptide. Replacement of P2 histidine by other amino acids maintained or enhanced renin inhibitory potency. By alteration of P3 phenylalanine, compounds with IC50 values in the nanomolar range and stability against chymotrypsin were obtained. Finally, the effect of the C-terminal heterocycle on the renin inhibition was studied. Compound XVII was examined in vivo for its hypotensive effects. In salt-depleted cynomolgus monkeys, XVII inhibited plasma renin activity and lowered blood pressure after oral administration of a dose of 10 mg/kg.
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PMID:Renin inhibitors containing new P1-P1' dipeptide mimetics with heterocycles in P1'. 140 33

delta-Chymotrypsin has been alkylated by 1-13C- and 2-13C-enriched tosylphenylalanylchloromethane. In the intact inhibitor derivative, signals due to the 1-13C- and 2-13C-enriched carbon atoms have chemical shifts which titrate from 55.10 to 59.50 p.p.m. and from 99.10 to 103.66 p.p.m. respectively with similar pKa values of 8.99 and 8.85 respectively. These signals are assigned to a tetrahedral adduct formed between the hydroxy group of serine-195 and the inhibitor. An additional signal at 58.09 p.p.m. and at 204.85 p.p.m. in the 1-13C- and 2-13C-enzyme-inhibitor derivatives respectively does not titrate when the pH is changed and it is assigned to alkylated methionine-192. On denaturation/autolysis of the 1-13C-enriched enzyme-inhibitor derivative these signals associated with the intact inhibitor derivative are no longer detected, and a new signal, which titrates from 56.28 to 54.84 p.p.m. with a pKa of 5.26, is detected. The titration shift of this signal is assigned to the deprotonation of the imidazolium cation of alkylated histidine-57 in the denatured/autolysed enzyme-inhibitor derivative. Model compounds which form stable hydrates and hemiketals in aqueous solutions have been synthesized. By comparing the 13C titration shifts of these model compounds with those of the 13C enriched trypsin- and delta-chymotrypsin-inhibitor derivatives, we deduce that, in both of the intact enzyme-inhibitor derivatives, the zwitterionic tetrahedral adduct containing the imidazolium cation of histidine-57 and the hemiketal oxyanion predominates at alkaline pH values. It is estimated that in both the trypsin and delta-chymotrypsin-inhibitor derivatives the concentration of this zwitterionic tetrahedral adduct is 10,000-fold greater than it would be in water. We conclude that the pKa of the oxyanion of the hemiketal in the presence of the imidazolium cation of histidine-57 is 7.9 and 8.9 in the trypsin and delta-chymotrypsin-inhibitor derivatives respectively and that the pKa of the imidazolium cation of histidine-57 is greater than 7.9 and greater than 8.9 when the oxyanion is present as its conjugate acid, whereas, when the oxyanion is present, the pKa of the imidazolium cation is greater than 11 in both enzyme-inhibitor derivatives. We discuss how these enzymes preferentially stabilize zwitterionic tetrahedral adducts in the intact enzyme-inhibitor derivatives and how they could stabilize similar tetrahedral intermediates during catalysis. It is suggested that substrate binding could raise the pKa of the imidazolium cation of histidine-57 before tetrahedral-intermediate formation which would explain the enhanced nucleophilicity of the hydroxy group of serine-195.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A study of the stabilization of tetrahedral adducts by trypsin and delta-chymotrypsin. 141 49

Enzyme I, the first in the sequence of phosphocarrier proteins of the bacterial phosphoenolpyruvate:glycose phosphotransferase system, is a potential critical point for regulating sugar uptake. The thermal stability of Enzyme I was studied by high sensitivity differential scanning calorimetry. At pH 7.5, thermal unfolding of the protein exhibits two peaks with maxima (Tm) at 47.6 and 55.1 degrees C, indicating that the protein comprises two cooperative unfolding structures. Interaction between the two domains is markedly dependent on pH within the range 6.5-8.5. At pH 7.5, catalytic activity was unaffected by heating through the first transition but was lost by heating through the second. Cleavage of Enzyme I (63.5 kDa) by trypsin, chymotrypsin, or Staphylococcus aureus V8 protease yields a 30-kDa fragment, EI-N, containing the NH2 terminus and the active site, His-189. Protease and differential scanning calorimetry experiments show that EI-N is the structural domain corresponding to the cooperative region in the intact enzyme that unfolds at the higher Tm. EI-N catalyzes one activity of Enzyme I; it accepts a phosphoryl group from phosphohistidine-containing phosphocarrier protein but cannot be phosphorylated by phospho-Enzyme I or phosphoenolpyruvate. The phosphoryl transfer between EI-N and the histidine-containing phosphocarrier protein is reversible. Portions of the Salmonella typhimurium ptsI DNA sequence are known; the complete sequence is presented here and compared to Escherichia coli ptsI.
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PMID:Sugar transport by the bacterial phosphotransferase system. Structural and thermodynamic domains of enzyme I of Salmonella typhimurium. 165 88

An endopeptidase was isolated from Xenopus laevis skin secretions. This enzyme, which has an apparent molecular mass of 100 kDa, performs a selective cleavage at the Xaa-Phe, Xaa-Leu, or Xaa-Ile bond (Xaa = Ser, Phe, Tyr, His, or Gly) of a number of peptide hormones, including atrial natriuretic factor, substance P, angiotensin II, bradykinin, somatostatin, neuromedins B and C, and litorin. The peptidase exhibited optimal activity at pH 7.5 and a Km in the micromolar range. No cleavage was produced in vasopressin, ocytocin, minigastrin I, and [Leu5]enkephalin, which include in their sequence an Xaa-Phe, Xaa-Leu, or Xaa-Ile motif. The endopeptidase activity was inhibited by divalent cation chelators and by phosphoramidon only at high concentrations (IC50 = 50 microM), whereas it was insensitive to classical inhibitors of chymotrypsin, angiotensin convertase, and serine and cysteine peptidases, as well as carboxypeptidases. It is hypothesized that this enzyme, which is distinct from neutral endopeptidase (EC 3.4.24.11), constitutes the prototype of a family of related metalloendopeptidases that inactivate peptide substrates by cleavage at the Xaa-Phe, Xaa-Leu, or Xaa-Ile bond.
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PMID:A peptide-hormone-inactivating endopeptidase in Xenopus laevis skin secretion. 172 23

L-1-Chloro-4-phenyl-3-tosylamido[1-13C]butan-2-one (Tos-[1-13C]Phe-CH2Cl) and Tos-[1-13C,2H2]Phe-CH2Cl were prepared and used to alkylate delta-chymotrypsin. The relaxation parameters of the 13C-n.m.r. signal resulting from the alkylation of histidine-57 in both enzyme-inhibitor complexes were determined at 1.88 T and 6.34 T as well as the spin-lattice relaxation times of the backbone alpha-carbon atoms of the unenriched Tos-Phe-CH2-delta-chymotrypsin complex. It is concluded that the species examined do not have significant internal librational motions and that the rotational correlation time of the monomeric enzyme-inhibitor complex is 16.0 +/- 3.2 ns. The signal from the 13C-enriched atom of Tos-[1-13C,2H2]Phe-CH2Cl is split into a quintet (JCD = 23 Hz) whereas in the Tos-[1-13C,2H2]Phe-CH2-delta-chymotrypsin complex the signal from the 13C-enriched inhibitor carbon atom is decoupled. This decoupled signal had linewidths of 16 +/- 3 Hz and 52 +/- 2 Hz at 1.88 T and 6.34 T respectively, whereas linewidths at 40 +/- 2 Hz and 53 +/- 4 Hz were obtained for the same signal in the Tos-[1-13C]Phe-CH2-delta-chymotrypsin complex at 1.88 T and 6.34 T respectively. Therefore whereas deuteration produces a 2.5-fold reduction in linewidth at 1.88 T there is no significant decrease in the linewidth at 6.34 T. This result is explained by using the rigid rotor model, which predicts that the quadrupolar spin-lattice relaxation rate will be faster at low field strengths, resulting in more efficient deuterium decoupling by scalar relaxation of the second kind at lower field strengths. It is also predicted that deuterium decoupling by scalar relaxation will become less efficient as rotational correlation times increase. The consequences of these predictions for the detection of 13C-enriched atomic probes of proteins are discussed. It is also shown that a spin-echo pulse sequence can be used to remove signals due to protonated carbon atoms without attenuating the signal due to deuterated carbon atoms.
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PMID:A study of the relaxation parameters of a 13C-enriched methylene carbon and a 13C-enriched perdeuteromethylene carbon attached to chymotrypsin. 176 28

In order to elucidate the structure-function relationship of RNases belonging to the RNase T2 family (base non-specific and adenylic acid-preferential RNase), an RNase of this family was purified from Trichoderma viride (RNase Trv) to give three closely adjacent bands with RNase activity on slab-gel electrophoresis in a yield of 20%. The three RNases gave single band with the same mobility on slab-gel electrophoresis after endoglycosidase F digestion. The enzymatic properties including base specificity of RNase Trv were very similar to those of typical T2-family RNases such as RNase T2 from Aspergillus oryzae and RNase M from A. saitoi. The specific activity of RNase Trv towards yeast RNA was about 13-fold higher than that of RNase M. The complete primary structure of RNase Trv was determined by analyses of the peptides generated by digestion of reduced and carboxymethylated RNase Trv with Staphylococcus aureus V8 protease, lysylendopeptidase and alpha-chymotrypsin. The molecular weight of the protein moiety deduced from the sequence was 25,883. The locations of 10 half-cystine residues were almost superimposable upon those of other RNases of this family. The homologies between RNase Trv and RNase T2, RNase M, and RNase Rh (Rhizopus niveus) were 124, 132, and 92 residues, respectively. The sequences around three histidine residues, His52, His109, and His114, were highly conserved in these 4 RNases.
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PMID:Isolation, characterization, and primary structure of a base non-specific and adenylic acid preferential ribonuclease with higher specific activity from Trichoderma viride. 179 79

Pretreatment of the purified jack bean inhibitor with enterokinase activated human pancreatic preparation for 1 hr decreased its inhibitory capacity against crystalline bovine alpha-chymotrypsin by 30% but did not affect its trypsin inhibitory activity. Preincubation of the inhibitor with bovine chymotrypsin for 60 min resulted in partial loss of the inhibitory potency. Complex formation studies by gel chromatography on Sephadex G-100 indicated that the trypsin-inhibitor and chymotrypsin-inhibitor complexes dissociated to release inactivated inhibitor and active proteinases. Gel chromatography of the inhibitor in presence of 1.5 M ammonium sulphate indicated that the inhibitor showed a tendency to aggregate without loss of biological activity. However, in 4.2 M salt medium after 3 hr, antichymotryptic activity was lost completely without any effect on antitryptic activity. Treatment with methylamine, a nucleophile, caused a greater loss of antichymotryptic activity. Trinitrobenzene sulphonate and ethylacetamidate, the amino group modifiers, affected only the antichymotryptic activity. Treatment with ninhydrin, a specific arginine modifier, at pH 9.0 abolished the antitryptic activity whereas only 50% of the antichymotryptic activity was lost. Diethylpyrocarbonate, a histidine reagent, also decreased only the antitryptic activity. Modification of tryptophan and cysteine residues of the inhibitor had no effect on its inhibitory potency. Treatment with mercaptoethanol and sodium borohydride caused nearly 50% loss of antitryptic and antichymotryptic activities. Chloramine-T, a reagent that modifies methionine residues, inactivated the inhibitor.
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PMID:Chemical modification and complex formation studies with jack bean proteinase inhibitor. 181 77

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