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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cyanogen bromide peptide alpha 1-(III)CB1,8,10,2 is 180 amino acid residues in length and occupies position 223 to 402 along the alpha 1(III) chain. In order to elucidate its amino acid sequence, alpha 1(III)CB1,8,10,2 was fragmented with hydroxylamine, protease from Staphylococcus aureus V8 and trypsin. Peptides necessary for sequence analysis with the automated Edman degradation were separated using molecular and ion exchange chromatography. Edman degradation of the hydroxylamine-derived fragments resulted in the elucidation of 80% of the entire sequence. The rest was completely established by sequence analysis of some protease V8 and trypsin-derived peptides.
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PMID:The covalent structure of calf skin type III collagen. II. The amino acid sequence of the cyanogen bromide peptide alpha 1(III)CB1,8,10,2(Positions 223--402). 48 7

Human liver type III collagen was prepared by limited pepsin digestion, differential salt precipitation, and carboxymethylcellulose chromatography. Cyanogen bromide digestion of purified type III collagen chains yielded nine distinct peptides. Three peptides, alpha1(III)-CB3, alpha1(III)-CB7, and alpha1(III)-CB6, were isolated by carboxymethylcellulose chromatography and Sephadex G-50 SF gel filtration. Automated Edman degradation together with selective hydroxylamine cleavage and chymotrypsin and trypsin digestion enabled determination of their complete amino acid sequence. Compared with type I collagen, the data show tentative homology of alpha1(III)-CB3 with alpha1(I)-CB1, alpha1(I)-CB2, and alpha1(I)-CB4; alpha1(III)-CB7 with alpha1(I)-CB5; and alpha1(III)-CB6 with the amino-terminal portion of alpha1(I)-CB8. Close interspecies homology was found between the sequences presented here with 90 residues of alpha1(III)-CB3 and 26 of alpha1(III)-CB8 of calf aorta. The present study establishes the amino acid sequence of 229 residues near the amino terminus or nearly one-quarter of the type III collagen chains. The disaccharide, Glc-Gal, was convalently bound to hydroxylysine at a position corresponding to the same location in the alpha1(I) chain.
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PMID:Covalent structure of collagen: amino acid sequence of cyanogen bromide peptides from the amino-terminal segment of type III collagen of human liver. 55 35

Bovine articular type II collagen was prepared by limited pepsin digestion, differential salt fractionation and carboxymethylcellulose chromatography. Cyanogen bromide digestion of purified type II collagen alpha chains yielded twelve distinct peptides designated CB1-12. The peptide alpha 1(II)-CB11 was isolated by carboxymethylcellulose chromatography and Sephadex G-75S gel filtration. Automated Edman degradation together with chymotrypsin, thermolysin and trypsin digestion enabled identification of its complete amino acid sequence. Compared with type I and type III collagen, the data show similarity with alpha 1(I)-CB8 and alpha 1(III)-CB6-1-8-10-2 peptides, respectively. The peptide is located within residues 124-402 of the alpha 1(II) collagen chain and with its identification, now extends the known amino acid sequence of bovine type II cartilage collagen to 660 amino acid residues including alpha 1(II)-CB1-2-6-12-11-8-10 (partial). This corresponds to alpha 1(I)-CB0-1-2-4-5-8-3-7 (partial; 1-660) and alpha 1(III)-CB3A-3B-3C-7-6-1-8-10-2-4-5 (partial; 1-660) of bovine alpha 1(I) and alpha 1(III) collagen chains.
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PMID:Covalent structure of collagen. Amino acid sequence of an arthritogenic cyanogen bromide peptide from type II collagen of bovine cartilage. 271 76

The stoichiometry of the phosphorylation of rabbit muscle glycogen synthase by casein/glycogen synthase kinase-1 (CK-1) depended on the concentration of protein kinase in the assay and reached values of 7-8 mol/mol subunit at high concentrations. Phosphorylation by CK-1 above 4 mol/mol subunit promoted a further decrease of glycogen synthase activity when determined by the low glucose-6-phosphate/high glucose-6-phosphate activity ratio assay. Analysis by limited proteolysis with trypsin and chymotrypsin showed that all of the regions in glycogen synthase phosphorylated by casein/glycogen synthase kinase-2 (CK-2), the catalytic subunit of cyclic AMP-dependent protein kinase (A-kinase), FA/glycogen synthase kinase-3 (FA/GSK-3) and phosphorylase b kinase were also phosphorylated by CK-1. Digestion with CNBr of glycogen synthase phosphorylated by CK-1 revealed the presence of the two phosphopeptides also labeled by the other protein kinases, the largest phosphopeptide (CB2) containing more phosphorylation sites for CK-1 than the smallest one (CB1). Three phosphopeptides (CB2-c, CB2-d and CB2-e) were obtained by trypsinization of CB2 phosphorylated by CK-1. None of them coincided with those labeled by A-kinase, a fact that was confirmed by the additivity of the effect of both protein kinases. In contrast, CB2-d comigrated with the peptide phosphorylated by FA/GSK-3, and CB2-e with that labeled by CK-2, whereas CB2-c would correspond to a new phosphopeptide.
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PMID:Phosphorylation of rabbit muscle glycogen synthase by casein/glycogen synthase kinase-1 (CK-1). Stoichiometry and distribution of the phosphorylation sites on the glycogen synthase subunit. 301 47

Casein kinase 1 phosphorylated rabbit skeletal muscle glycogen synthase at both seryl and threonyl residues. With glycogen synthase phosphorylated up to 7.5 mol phosphate/mol subunit, about 26% of the phosphate was present in the N-terminal cyanogen bromide fragment (CB1) and 74% in the C-terminal fragment (CB2). Both fragments contained phosphothreonine (11 to 14%) in addition to phosphoserine. When 32P-labeled glycogen synthase was totally digested with trypsin and chromatographed on reverse-phase high-performance liquid chromatography, seven phosphopeptides were observed. Peptide I eluted in the vicinity of the peptide containing site 1a, peptide II coincided with sites 4 + 5, peptides III and IV eluted in the region corresponding to sites 3a + 3b + 3c, peptide V appeared slightly after the peptide containing site 1b and peptide VII behaved as the peptide containing site 2, whereas peptide VI did not coincide with any of the known phosphopeptides. Limited trypsinization prior to analysis by HPLC led to the disappearance of peaks V and VI without altering peaks I to IV and VII. Only peaks I and VII remained when limited chymotrypsinization was performed prior to HPLC analysis. Chromatography on HPLC of the fragments derived from complete trypsinization of CB2 showed the presence of peaks II to VI. Phosphoamino acid analysis of the different peptides demonstrated the presence of quantitative amounts of phosphothreonine in peptides V, VI, and VII. These results indicate that multiple phosphorylation sites for casein kinase 1 must exist in both the N-terminal and C-terminal regions of glycogen synthase, some of which would only be labeled by casein kinase 1.
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PMID:Phosphorylation of rabbit skeletal muscle glycogen synthase by casein kinase 1: evidence of phosphorylation sites specific for casein kinase 1. 309 10

Cyanogen bromide (CB) cleavage of Neurospora tyrosinase resulted in four major fragments, CB1 (222 residues), CB2 (82 residues), CB3 (68 residues), and CB4 (35 residues), and one minor overlap peptide CB2-4 (117 residues) due to incomplete cleavage of a methionylthreonyl bond. The sum of the amino acid residues of the four major fragments matches the total number of amino acid residues of the native protein. The amino acid sequences of the cyanogen bromide fragments CB2, CB3, and CB4 were determined by a combination of automated and manual sequence analysis on peptides derived by chemical and enzymatic cleavage of the intact and the maleylated derivatives. The peptides were the products of cleavage by mild acid hydrolysis, trypsin, pepsin, chymotrypsin, thermolysin, and Staphylococcus aureus protease V8. The cyanogen bromide fragment CB1 was found to contain two unusual amino acids whose chemical structure will be presented in the following paper.
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PMID:Primary structure of tyrosinase from Neurospora crassa. I. Purification and amino acid sequence of the cyanogen bromide fragments. 621 Jun 95

Reverse-phase high-pressure liquid chromatography has been used for the purification of some large cyanogen bromide peptides from flavocytochrome b2 fragment alpha. Acetonitrile gradients at acid and/or neutral pH using mu Bondapak C18 columns were useful for the smaller peptides (43 and 67 residues). The two larger ones, alpha CB1 and alpha CB2, could only be separated from each other by trifluoroacetic acid/1-propanol gradients on mu Bondapak-CN columns. The various systems tested are presented and compared. The elucidation of the amino acid sequence of alpha CB2 (95 residues), alpha CB3 (67 residues) and alpha CB4 (43 residues) is described. The fragments were digested with trypsin, chymotrypsin and Staphylococcus aureus V8 protease as necessary. Fragment alpha CB2 was also cleaved at the unique tryptophanyl bond with cyanogen bromide. Peptides were fractionated by Sephadex chromatography, thin-layer finger-printing and/or high-pressure liquid chromatography. Peptides were sequenced mostly in the liquid phase sequenator. The cyanogen bromide peptides could be ordered using information obtained previously, as well as additional data obtained in this work. Together with the previous elucidation of cytochrome b2 core sequence and of the hinge region [Guiard, B. and Lederer, F. (1976) Biochimie (Paris) 58, 305--316; Ghrir, R. and Lederer, F. (1981) Eur. J. Biochem. 120, 279--287], the present results enable us to present the complete sequence of fragment alpha (314 residues) with only three overlaps missing between cyanogen bromide peptides. Sequence comparisons with other known flavoproteins do not indicate any noticeable similarity. Structural predictions indicate an alteration of alpha helices and beta structure. The possibility that the non-heme-binding portion of fragment alpha could constitute a flavin-binding domain is discussed.
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PMID:Primary structure of flavocytochrome b2 from baker's yeast. Purification by reverse-phase high-pressure liquid chromatography and sequencing of fragment alpha cyanogen bromide peptides. 636 48

Glycogen synthase is a substrate for five distinct protein kinases in skeletal muscle which phosphorylate seven different serine residues on the enzyme. Cyclic-AMP-dependent protein kinase phosphorylates sites 1a, 1b and 2, phosphorylase kinase, site 2, glycogen synthase kinase 3, sites 3a, 3b and 3c, glycogen synthase kinase 4, site 2 and glycogen synthase kinase 5 site 5. Site 2 is seven residues from the N-terminus of glycogen synthase and is located in a cyanogen bromide peptide termed CB1 (apparent Mr = 9000). The other six phosphorylation sites are located in a cyanogen bromide peptide termed CB2 (apparent Mr = 24 000) at the C-terminal end of the molecule. The sequence of the N-terminal 123 residues of peptide CB2, has been completed. Sites 3a, 3b, 3c, 5, 1a and 1b are located at residues 30, 34, 38, 46, 87 and 100 from the N-terminus of CB2 respectively. Site 1a is the next serine residue after site 5. The region surrounding sites 3a, 3b and 3c is very rich in proline residues while that surrounding sites 1a and 1b contains many serine and threonine residues. The 23 residues following site 5 contain 15 aspartic acid and glutamic acid residues, while the region immediately N-terminal to site 1a is very basic. The whole region is remarkably hydrophilic and is the region at which the native enzyme is attacked by proteinases. The sites at which glycogen synthase is cleaved by trypsin, chymotrypsin and thermolysin have been identified. The finding that trypsin cleaves the enzyme C-terminal to site 3c while chymotrypsin cleaves N-terminal to site 3a has formed the basis of a simple procedure for determining the state of phosphorylation of the seven serine residues in vivo [Parker, P.J., Embi, N., Caudwell, F.B., and Cohen, P. (1982) Eur. J. Biochem. 124, 47-55].
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PMID:Multisite phosphorylation of glycogen synthase from rabbit skeletal muscle. Organisation of the seven sites in the polypeptide chain. 680 97

The complete amino acid sequence of Fragment B obtained by the limited tryptic digestion of E. coli polypeptide chain elongation factor Tu (EF-Tu) was determined. Seven peptides formed from Fragment B by cleavage with cyanogen bromide (designated as CB1 to CB7 according to their order of alignment from N- to C-termini of Fragment B) were purified, and six of them were completely sequenced by the manual method of sequential Edman degradation with direct identification of the phenylthiohydantoin-amino acids. The remaining one cyanogen bromide peptide (CB6) containing 109 amino acid residues was further digested with trypsin. Twelve tryptic peptides (designated as T1 to T12 according to their order of alignment from N- to C-termini of CB6) were isolated, and their amino acid sequences were analyzed. The alignment of CB peptides was based on the results of the automated sequence analysis of Fragment B from its N-terminal, and the sequence analysis of the overlapping peptides containing sulfhydryl groups obtained by the complete tryptic digestion of Fragment B. The alignment of peptides T1 to T12 on CB6 was based on the result of the automated sequence analysis of CB6, and the sequence of the overlapping peptide obtained by the chemical cleavage of CB6 at the tryptophan residue using cyanogen bromide in heptafluorobutyric acid. The nucleotide sequence of the tuf A gene was also utilized for the alignment of these peptides. Fragment B comprises amino acid residues 59 to 263 of E. coli EF-Tu, which consists of 393 amino acids. It contains two functional (SH1 and SH2) and one non-functional (SH3) sulfhydryl groups of EF-Tu. All of the five histidine residues in Fragment B were distributed within the first N-terminal quarter, and three of them were found to be clustered around SH2. Although E. coli EF-Tu consists of two gene products (tuf A and tuf B), no microheterogeneity was found in the amino acid sequence of Fragment B.
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PMID:Primary structure of the polypeptide chain elongation factor Tu from E. coli. I. Amino acid sequence of fragment B. 704

The complete amino acid sequence of rye seed chitinase-a (RSC-a) has been analyzed. RSC-a was cleaved with cyanogen bromide and the resulting three fragments, CB1, CB2, and CB3, were separated by gel filtration. The amino acids of the N-terminal fragment CB1 were sequenced by analyzing the peptides produced by digestion with trypsin, lysylendopeptidase, or pepsin of reduced S-carboxymethylated or S-aminoethylated CB1. The sequences of fragments CB2 and CB3 were established by sequencing the tryptic peptides from reduced S-carboxymethylated CB2 and CB3, and by aligning them with the sequence of rye seed chitinase-c (RSC-c) to maximize sequence homology. The complete amino acid sequence of RSC-a was established by connecting these three fragments. RSC-a consists of 302 amino acid residues including hydroxyproline residues, and has a molecular mass of 31,722 Da. RSC-a is basic protein with a cysteine-rich amino terminal domain, indicating that this enzyme belongs to class I chitinases. The amino acid sequence of RSC-a showed that the sequence from Gly60 to C-terminal Ala302 in this enzyme corresponds to that of RSC-c belonging to class II chitinases with 92% identity, and that RSC-a has high similarity to other plant class I chitinases but a longer hinge region and an extra disulfide bond.
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PMID:The complete amino acid sequence of chitinase-a from the seeds of rye (Secale cereal). 776 43


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