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)

Cyanogen bromide treatment of thymidylate synthetase of Lactobacillus casei, which had been converted to a ternary complex with [2-14c] FdUMP and 5,10-methylene-tetrahydrofolate followed by S-carboxymethylation, yielded at least four visible peptide bands, the largest with a molecular weight of about 13,000, on polyacrylamide gel electrophoresis in sodium dodecyl sulfate-urea. Identical results were obtained with enzyme that had all four of its cysteinyl residues S-carboxymethylated with iodo [I-14C] acetate in the absence of FdUMP and cofactor. In each case, only the second band from the top of the gel (CN2), with an approximate molecular weight of 10,000= was labeled. Analysis of CN2 that had been labeled with [2-14C] FdUMP and nonradioactive iodoacetate and of that labeled only with iodo[1-14C] acetate revealed that their amino-acid contents were almost identical except for the presence of two S-carboxymethyl (Cm)-cysteinyl residues in the latter peptide and only one in FdUMP-CN2. A nonapeptide was isolated from (Cm)2-CN2 after chymotrypsin digestion that contained the following sequence by dansyl-Edman analysis: Ala-Leu-Pro-Pro-[Cm-Cys]-His-Thr-Leu-Tyr. This peptide was found to be located on the NH2-terminal end of CN2. Automatic sequence analysis of the first 13 residues of (Cm)2-CN2 and of the FdUMP-containing CN2 yielded identical results except for the fifth, or cysteinyl, residue, which could not be identified in the latter peptide. These findings strongly suggest that FdUMP is linked to a cysteinyl residue in thymidylate synthetase that has been inactivated irreversibly by this nucleotide.
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PMID:Amino acid sequence at the FdUMP binding site of thymidylate synthetase. 106 57

A chymotrypsin-like enzyme (EC 3.4.21.-) was purified from granules of human neutrophiles (polymorphonuclear leucocytes). The isolation procedure included differential salt extractions of the granules followed by affinity chromatography on 4-phenylbutylamine-Affi-Gel. This rapid purification method resulted in obtaining pure enzyme in relatively high yield in short time. The purified granulocyte chymotrypsin-like enzyme has a minimum Mr of 22 378, calculated from its amino acid composition. The Mr value obtained by sodium dodecyl sulphate gel electrophoresis was 20 000-23 000. The enzyme did not react with antibodies which are monospecific to granulocyte elastase. The granulocyte chymotrypsin-like enzyme was inactivated by Dip-F and by the chloromethyl ketone derivatives Z-PheCH2Cl and Z-(Gly)2-PheCH2Cl but not by Tos-PheCH2Cl. It therefore appears that the enzyme has serine and histidine side chains in its active site, like pancreatic chymotrypsin. The granulocyte enzyme substrate specificity is similar to that of pac-Tyr-Nan and Ac-Phe-1-ONap. It also has an intrinsic weak hydrolytic activity towards some classical elastase substrates such as Boc-Ala-ONp and Ac-DL-Ala-1-ONap. The granulocyte enzyme is inhibited by human serum and by human alpha1-antitrypsin. Its affinity for alpha1-antitrypsin is weaker than that of granulocyte elastase for the same inhibitor. The enzyme is stable at neutral pH at 37 degrees C, but unstable at pH 3.5 and at elevated temperature.
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PMID:A rapid method for purification of human granulocyte cationic neutral proteases: purification and characterization of human granulocyte chymotrypsin-like enzyme. 108 Oct 3

The amino acid sequences of two cyanogen bromide fragments from porcine pepsin have been determined. Fragment CB3 which represents the NH2-terminal 80 residues of pepsin was assembled from the peptides purified from proteolytic digests of this fragment using alpha-chymotrypsin, thermolysin, and staphylococcal protease. Two chymotryptic peptides were isolated from the NH2-terminal region of this fragment. One of these contains 2 extra residues, Ala-Leu-, at the NH2 terminus. This peptide is apparently derived from a different cleavage site of pepsinogen in its conversion to pepsin. The second cyanogen bromide fragment, CB4, contains 47 residues. The sequence was established from the peptides resulting from proteolytic digests using alpha-chymotrypsin, alpha-lytic protease, and thermolysin. An isoleucyl residue at position 29 of fragment CB4 appears to be absent in some molecules. This represents a structural variant of pepsin.
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PMID:Primary structure of porcine pepsin. II. Amino acid sequence of two cyanogen bromide fragments, CB3 and CB4. 109 37

The complete amino acid sequence of mohair protein, SCMKB-M1.2 (97 residues), was determined. The protein was isolated from reduced and carboxymethylated mohair by chromatography on DEAE-cellulose phosphate. Peptides for sequence determination were obtained by digestion with trypsin, pepsin, chymotrypsin, thermolysin and papain, and were fractionated by DEAE-cellulose chromatography, paper chromatography and electrophoresis. The sequence of the peptides were determined by the Edman degradation method (by use of both the Beckman Sequence and a non-automatic procedure), and by partial acid hydrolysis. The protein is closely homologous to wool protein SCMKB-IIIB2, and also contains acetylated alanine as N-terminal amino acid.
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PMID:Studies on the high-sulphur proteins of reduced mohair. The isolation and amino acid sequence of protein scmkb-m1.2. 109 56

1. RNAase (ribonuclease) U2, a purine-specific RNAase, was reduced, aminoethylated and hydrolysed with trypsin, chymotrypsin and thermolysin. On the basis of the analyses of the resulting peptides, the complete amino acid sequence of RNAase U2 was determined, 2. When the sequence was compared with the amino acid sequence of RNAase T1 (EC 3.1.4.8), the following regions were found to be similar in the two enzymes; Tyr-Pro-His-Gln-Tyr (38-42) in RNAase U2 and Tyr-Pro-His-Lys-Tyr (38-42) in RNAase T1, Glu-Phe-Pro-Leu-Val (61-65) in RNAase U2 and Glu-Trp-Pro-Ile-Leu (58-62) in RNAase T1, Asp-Arg-Val-Ile-Tyr-Gln (83-88) in RNAase U2 and Asp-Arg-Val-Phe-Asn (76-81) in RNAase T1 and Val-Thr-His-Thr-Gly-Ala (98-103) in RNAase U2 and Ile-Thr-His-Thr-Gly-Ala (90-95) in RNAase T1. All of the amino acid residues, histidine-40, glutamate-58, arginine-77 and histidine-92, which were found to play a crucial role in the biological activity of RNAase T1, were included in the regions cited here. 3. Detailed evidence for the amino acid sequence of the sequence of the proteins has been deposited as Supplementary Publication SUP 50041 (33 PAGES) AT THE British Library (Lending Division)(formerly the National Lending Library for Science and Technology), Boston Spa, Yorks. LS23 7BQ, U.K., from whom copies can be obtained on the terms indicated in Biochem. J. (1975), 145, 5.
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PMID:The amino acid sequence of ribonuclease U2 from Ustilago sphaerogena. 115 64

RNA identified by its base composition and T1 RNase oligonucleotide pattern as the message for silk fibroin was purified from mature posterior silk glands of Bombyx mori larvae and used to direct polypeptide synthesis in an Ehrlich ascites cell-free extract. Fibroin mRNA stimulated [3-H]alanine incorporation about 3- to 4-fold in the presence of 80 mM K+ and 4 mM Mg-2+. The stimulation was reduced in the presence of 5 times 10-minus 6 to 10-minus 4 M aurintricarboxylic acid, an inhibitor of the initiation of protein synthesis. The cell-free products were heterogeneous in size, including peptides as large as 100,000 daltons. They co-precipitated with carrier fibroin sequences after digestion with trypsin. A large fraction of the polypeptides synthesized in response to fibroin mRNA was precipitated by antiserum directed against amino acid sequences in noncrystalline region polypeptides of fibroin. Furthermore, after digestion with chymotrypsin, a major fraction of the cell-free products specifically co-precipitated with crystalline region sequences of native fibroin. The size and amino acid composition of the fibroin crystalline region polypeptides isolated from the cell-free products were similar to those from native fibroin.
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PMID:Translation of silk fibroin messenger RNA in an Ehrlich ascites cell-free extract. 117 Oct 97

The amino acid sequence for vitamin D-dependent bovine intestinal calcium binding protein has been established. It contains 85 amino acids in a single chain and lacks cysteine, tryptophan, methionine, histidine, and arginine. The NH2-terminal lysine is blocked by an N-acetyl group. Enzymatic digestion with trypsin, chymotrypsin, and pepsin yielded a number of peptides which were purified by two-dimensional high voltage paper electrophoresis. These peptides were examined by end group analysis and sequenced by the dansyl procedure. The absence of tryptophan permitted by a single cleavage of the molecule by N-bromosuccinimide at the tyrosine residue at position 8 and the larger fragment was subjected to automated Edman degradation. By these means, the following sequence was established: N-Ac-Lys-Gln-Ser-Pro-Leu-Glu-Tyr-Ala-Ala-Glu-Lys-Ser-Ile-Gln-Lys-Glu-Ile-Glu-Lys-Gly-Phe-Phe-Lys-Gln-Leu-Leu-Val-Ser-Val-Gln-Lys-Ala-Gly-Asp-Lys-Glu-Ser-Leu-Gln-Pro-Leu-Phe-Thr-Leu-Leu-Lys-Ser-Gly-Pro-Glu-Glu-Asn-Leu-Lys-Glu-Ser-Gln-Asn-Gly-Pro-Asp-Leu-Ls7-Ser-Gly-Pro-Gly-Asn-Asp-Leu-Glu-Glu-Lys-Gly-Thr-Asp-Val-Phe-Ser-Leu-Lys-Gln. Microheterogeneity may exist in the molecule at residue 76 in which position threonine may be replaced by serine. Comparison of the sequence of calcium-binding protein to the "test" sequence of Tufty and Kretsinger ((1975) Science 187, 167-169) proposed to identify E-F hands in muscle proteins suggests that intestinal calcium-binding protein may likewise contain one or possibly two E-F hands which could account for calcium-binding property. Dayhoff alignment scores, however, calculated for calcium-binding protein against nine E-F hands in muscle proteins parvalbumin, troponin and alkali light chains do not indicate that intestinal calcium-binding protein is homologous to these muscle protein chains.
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PMID:Calcium-binding protein of bovine intestine. The complete amino acid sequence. 117 41

The sequences of the coenzyme-binding peptide of both cytoplasmic and mitochondrial aspartate aminotransferases from sheep liver were determined. The holoenzymes were treated with NaBH4 and digested with chymotrypsin; peptides containing bound pyridoxal phosphate were then isolated. One phosphopyridoxyl peptide was obtained from sheep liver cytoplasmic aspartate aminotransferase. Its sequence was Ser-Ne-(phosphopyridoxyl)-Lys-Asn-Phe. This sequence is identical with that reported for the homologous peptide from pig heart cytoplasmic aspartate aminotransferase. Two phosphopyridoxyl peptides with different RF values were isolated from the sheep liver mitochondrial isoenzyme. They had the same N-terminal amino acid and similar amino acid composition. The mitochondrial phosphopyridoxyl peptide of highest yield and purity had the sequence Ala-Ne-(phosphopyridoxyl)-Lys-Asx-Met-Gly-Leu-Tyr. The sequence of the first four amino acids is identical with that already reported for the phosphopyridoxyl tetrapeptide from the pig heart mitochondrial isoenzyme. The heptapeptide found for the sheep liver mitochondrial isoenzyme closely resembles the corresponding sequence taken from the primary structure of the pig heart cytoplasmic aspartate aminotransferase.
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PMID:The sequences of the coenzyme-binding peptide in the cytoplasmic and the mitochondrial aspartate aminotransferases from sheep liver. 118 Aug 94

A number of peptide-ester substrates of the general structure Ac-Lxn-...-Lx2-Lx1-OMe have been synthesized and their alpha-chymotrypsin-catalyzed hydrolysis studied. The kinetic analysis involved varying the concentration of substrate and methanol product, and measuring rates along the entire progression curve. For the dipeptide esters Ac-Lx2-Lx1-OMe and the amino-acid derivatives Ac-Lx1-OMe the following constants could be determined: the dissociation constant of the enzyme-substrate complex, KEA, both rate constants of the acylation step, k23 and k32, and the forward rate constant of the deacylation step, k31. For the tripeptide ester Ac-Ala-Ala-Tyr-OMe it appears that the rate constant for the dissociation of the enzyme-substrate complex, k21, is smaller than the rate constant for acylation, k23. Thus, for this substrate only the association and dissociation rate constants k12 and k21 could be determined and the values of k23, k32 and k31 only indirectly estimated. The influence of structural changes in the peptide moiety of the substrates on reactivity has been established by comparing the rate constants of appropriate pairs of substrates. It was found that the substrate reactivity, as measured by k23/KEA, increase with the number and strength of the secondary interactions in a manner consistent with the binding scheme which has been proposed on the basis of crystallographic studies. The effect of a particular interaction on k23 and on KEA is dependent on the nature of the other interactions. However, the effect of k23/KEA appears to be independent of the presence of the other interactions and therefore characteristic of that particular interaction. The results for these substrates are compared with those found previously for a series of peptide substrates of the structure Ac-Lxn-... Lx2-...-Lx1-Gly-NH2 which have the same acyl moiety as the peptide esters studied in this work.
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PMID:Kinetic investigation of the alpha-chymotrypsin-catalyzed hydrolysis of peptide-ester substrates. The relationship between the structure of the peptide moiety and reactivity. 118 33

The canine submandibular inhibitor is double-headed with two independent reactive sites. Whereas the trypsin-reactive center (-Ala-Cys-Pro-Arg26-Leu-His-) is located in domain I, the chymotrypsin-reactive site (-Met-Cys-Thr-Met78-Asp-Tyr-) is located in domain II. The presence of a methionine residue in this inhibition center is supported by the findings that nitration with tetranitromethane abolishes neither trypsin nor chymotrypsin inhibition, whereas after alkylation of the methione residues, only trypsin inhibition is retained. Remarkably, another inhibitor from microbial sources [10] which also contains a methionine residue in the presumed reactive site also inhibits subtilisin but not chymotrypsin (or trypsin).
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PMID:[Identification of a methionine residue as the reactive site for chymotrypsin in the double-headed proteinase inhibitor from the canine submandibular gland (author's transl)]. 121 81

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