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:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myeloma Protein Tro has been isolated from the plasma of a myeloma patient. Monomeric IgA was separated from its polymer (by chromatography on Sephadex G-200). Both the forms were split with pepsin or cyanogen bromide and, if necessary, with thermolysin and subtilisin. The cystin-containing peptides were isolated from the hydrolysates by chromatography on Sephadex, ion-exchange columns, preparative paper chromatography, thin-layer chromatography, electrophoresis or by a combination of these methods. They were characterized by amino acid analyses and by determination of the N-terminal amino acids using the Dansyl-Edman procedure. Thus all the disulfide bridges of an IgA1 immunoglobulin could be established. The monomer has all together 48 cysteins, seven in each L- and seventeen in each H-chain; all these are covalently bonded by SS-bridges. Free SH-groups were not detected. The J-chain could only be identified serologically in the polymeric form of the protein. It is shown that the subunits of the polymers are covalently attached through either Cysl3, Cysl7 or both these residues of the H-chain.
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PMID:[Rule of antibody structure. Primary structure of a human monoclonal IgA-immunoglobulin (myeloma protein Tro). VII. Purification and characterization of the disulfide bridges]. 39 7

By means of a monospecific antibody, dopamine beta-hydroxylase was monitored immunoelectrophoretically in various extracts of chromaffin granules. Approximately one-third of the dopamine beta-hydroxylase present was located in the membrane fraction and could only be liberated with detergent. The dopamine beta-hydroxylases of the buffer and membrane fractions were antigenically identical, but differed in their amphiphilicity, as demonstrated by the change in precipitation patterns on removal of Triton X-100 from the gel, on charge-shift crossed immunoelectrophoresis and on crossed hydrophobic interaction immunoelectrophoresis with phenyl-Sepharose. Furthermore, immunoelectrophoretic analysis in the presence of Triton X-100 plus the cationic detergent cetyltrimethylammonium bromide indicates additional heterogeneity of the membrane-bound dopamine-beta-hydroxylase. By limited proteolysis with chymotrypsin and thermolysin the amphiphilic form could be convered into its hydrophilic counterpart.
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PMID:Immunochemically identical hydrophilic and amphiphilic forms of the bovine adrenomedullary dopamine beta-hydroxylase. 48 54

The complete primary structure of the coat protein of strain VRU of alfalfa mosaic virus (AMV) is reported. The strain is morphologically different from all other AMV strains as it contains large amounts of unusually long virus particles. This is caused by structural differences in the coat protein chain. The amino acid sequence has mainly been established by the characterization of peptides obtained after cleavage with cyanogen bromide and digestion with trypsin, chymotrypsin, thermolysin or Staphylococcus aureus protease. The major sequencing technique used was the dansyl-Edman procedure. The VRU coat protein consists of 219 amino acid residues corresponding to a molecular weight of 24056. Compared to the coat protein of strain 425 [Van Beynum et al. (1977) Eur. J. Biochem. 72, 63-78], 15 amino acid substitutions were localized. Most of them have a conservative character and may be explained by single-point mutations. A correction is given for the AMV 425 coat protein: Asn-216 was shown to be Asp-216. The prediction of the secondary structure for the two viral coat proteins was not significantly influenced by the various amino acid substitutions except for the region containing residues 65-100. This led us to the hypothesis that the AMV coat protein may occur in two different conformations favouring its incorporation into either a pentagonal or hexagonal quasi-equivalent position in the lattice of the protein shell. The substitutions in the above-mentioned region of the VRU coat protein may have caused a strong preference for the hexagonal lattice conformation. The model is supported by preliminary sequence data of the same coat protein region in AMV 15/64, a strain morphologically intermediate between 425 and VRU.
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PMID:The primary structure of the coat protein of alfalfa mosaic virus strain VRU. A hypothesis on the occurrence of two conformations in the assembly of the protein shell. 52 Mar 17

Human fibrinogen contains 29 disulfide bridges per molecule. The amino acid sequences around all half-cystine residues are known. When fibrinogen is cleaved by cyanogen bromide five disulfide-containing fragments are formed. The second-largest of them is derived from the middle part of all three peptide chains, it is monomeric and contains 345 amino acid residues, 12 of which are half-cystines. The arrangement of the six disulfide bonds was determined by analysing sequences and amino acid compositions of subfragments isolated after cleavage with trypsin, thermolysin and staphylococcal protease and after clearage of the disulfide bonds. All half-cystine residues were found to be linked in unique pairs. Six half-cystine residues, two in each of the three peptide chains and forming the -Cys-X-X-X-Cys- sequences, were shown to connect the chains in a ring-like structure, similar to the one in the N-terminal part of the molecule. The remaining six half-cystine residues were found to connect two sections of the gamma-chain in a loop-like structure and four sections of the beta-chain in a loop-inside-a-loop-like structure, the inner beta-chain loop being homologous to the gamma-chain loop.
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PMID:Disulfide bridges in the middle part of human fibrinogen. 73 1

The primary structure of protein S8 from the 30-S ribosomal subunit of Escherichia coli was determined mainly by automatic Edman degradation using a modified Beckman protein sequenator and the solid-phase sequentor of Laursen. The complete sequence, containing 109 amino acids, was derived by analysing peptides from tryptic, chymotryptic, thermolysin, staphylococcal protease and cyanogen bromide digestion of the protein. The amino acid composition was found to be (aspartic acid)6, (asparagine)3, (threonine)5, (serine)5, (glutamic acid )7, (glutamine)6, (proline)5, (glycine)6, (alanine)11, (valine)9, (methionine)4, (isoleucine)7, (leucine)9, (tyrosine)3, (phenylalanine)3, (lysine)11, (arginine)8, (cysteine)1. S8 is a basic protein and binds to the 16-S RNA; knowledge of its sequence is necessary for a detailed study of its interaction with the ribosomal RNA.
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PMID:Determination of the amino-acid sequence of the ribosomal protein S8 of Escherichia coli. 78 83

1. When thermolysin was treated with a 100-fold molar excess of 2,4,6-trinitrobenzene-1-sulfonate at pH 8.0 and 37 degrees for 7 h, all 12 amino groups in the enzyme were almost completely trinitrophenylated. The fully trinitrophenylated enzyme still retained more than 80% of its original activity. The amino groups are therefore not essential for activity. 2. When treated with a 100- to 1,000-fold molar excess of N-acetylimidazole at pH 6.5 and 23 degrees for 2 h, thermolysin lost about 54% of its activity with concomitant acetylation of 21 tyrosine residues out of the total of 28 residues. The reaction did not easily proceed any further. This partially inactivated enzyme regained almost full activity upon treatment with hydroxylamine. These modified tyrosine residues are therefore not directly involved in the active site. 3. Thermolysin was not inactivated by treatment with about 100- to 150-fold molar excess of 2-hydroxy-5-nitrobenzyl bromide or dimethyl(2-hydroxy-5-nitrobenzyl)sulfonium bromide at pH 6.0 and room temperature for 1 h both in the presence and absence of 8 M urea. Thus the three tryptophan residues in the enzyme are not accessible to these reagents. When treated with a 4.3- to 43-fold molar excess of N-bromosuccinimide over tryptophan, the enzyme was inactivated to varying extents, depending on the reaction conditions used. In this case, the tyrosine residues appeared to be the most rapidly modified, but tryptophan and histidine residues were also modified with extensive inactivation at higher concentrations of the reagent. The presence of 8 M urea retarded the inactivation.
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PMID:Studies on thermolysin. I. Effects of chemical modifications on the activity of thermolysin. 84 38

The alfalfa mosaic virus protein was submitted to the action of cyanogen bromide. Four peptides were isolated. Study of these peptides allowed us to determine the order. Then protein was submitted, after S-carboxymethylation or S-aminoethylation, to the action of different proteolytic enzymes: trypsin, chymotrypsin, thermolysin and papain. The peptides issued from these different hydrolysis were separated on Dowex 50 X4 and Dowex 1 X2, and their amino acid composition was determined. The use of classical methods of sequence determination, of mass spectrometry and for one case the use of a sequencer, lead to the obtention of the primary structure of all the tryptic peptides. The studies of chymotryptic, thermolytic and papainic hydrolysates, and of cyanogen bromide rupture, allowed us to isolate the overlapping peptides which were necessary for the reconstitution of the complete proteic chain.
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PMID:[Determination of the primary structure of alfalfa mosaic virus (strain S) coat protein. II. Complete sequence of the protein (author's transl)]. 88 29

By combinations of selective chemical cleavage (cyanogen bromide), selective enzymatic cleavage (trypsin, thermolysin), and random cleavage (partial acid hydrolysis) a series of disulfide-containing peptides have been isolated from ovine lutropin beta subunit. These peptides suggest six disulfide linkages between half-cystine residues in positions 23-72, 26-110, 93-100, 34-88, 9-90, and 38-57. The latter pair was placed by elimination of other possibilities. The first three pairs are in agreement with a report by Chung, D., Sairam, M. R. and Li, C. H. (1975) Int. J. Peptide Protein Res. 7, 487-493; the pair 93-100 has also been detected by Reeve, J. R., Cheng, K. W. and Pierce, J. G. (1975) Biochem. Biophys. Res. Commun. 67, 149-155, using partial reduction and alkylation. In an attempt to improve the efficiency of enzymatic attack, a preliminary partial reduction as per Reeve et al. [16] was done. In this instance a peptide suggesting an additional disulfide linkage between half-cystines 23-26 was obtained as well as peptides consistent with the 23-72 and 26-110 placements. This was interpreted as an artifactual opening and recombining during partial reduction-reoxidation to produce the 23-26 linkage. The placement of three disulfide bonds (34-88, 9-90, and 38-57) is in disagreement with the pairings Chung et al. [15] suggest for these six half-cystine residues. Six reasons for uncertainty in the placement of disulfide bonds are discussed. It is concluded the definitive placement of the disputed three disulfide bonds in ovine lutropin beta subunit remains an open question.
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PMID:Studies of disulfide bond location in ovine lutropin beta subunit. 88 34

Myoglobin isolated from skeletal muscle of the platypus contains 153 amino acid residues. The complete amino acid sequence has been determined following cleavage with cyanogen bromide and further digestion of the four fragments with trypsin, chymotrypsin, pepsin and thermolysin. Sequences of the purified peptides were determined by the dansyl-Edman procedure. The amino acid sequence showed 25 differences from human myoglobin and 24 from kangaroo myoglobin. Amino acid sequences in myoglobins are more conserved than sequences in the alpha- and beta-globin chains, and platypus myoglobin shows a similar number of variations in sequence to kangaroo myoglobin when compared with myoglobin of other species. The date of divergence of the platypus from other mammals was estimated at 102 +/- 31 million years, based on the number of amino acid differences between species and allowing for mutations during the evolutionary period. This estimate differs widely from the estimate given by similar treatment of the alpha- and beta-chain sequences and a constant rate of mutation of globin chains is not supported.
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PMID:Studies on monotreme proteins. VII. Amino acid sequence of myoglobin from the platypus, Ornithoryhynchus anatinus. 96 22

The complete amino-acid sequence of rabbit skeletal troponin-T is reported. The protein consists of a single polypeptide chain of 259 amino acids; it has an acetylated amino terminus and a molecular weight of 30,503. The sequence was determined by manual and/or automated Edman degradation techniques on the six fragments obtained after cleavage with cyanogen bromide. The larger fragments were further digested with trypsin, chymotrypsin, alpha-lytic protease, thermolysin, or pepsin to obtain smaller fragments suitable for manual sequencing. About 50% of the residues are charged at neutral pH with highly acidic amino-terminal (residues 1-39) and highly basic carboxyl-terminal regions (residues 221-259). Predictions of secondary structure indicate 37% helical content with two long sections (residues 80-102 and 122-146) in that portion of the molecule implicated in binding to tropomyocin. Two of the three phosphorylated sites in the molecule are located at serine-1 and serine-149 or -150. The sequence about the latter site resembles somewhat the phosphorylase kinase phosphorylation sites in phosphorylase alpha and troponin-I.
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PMID:Amino-acid sequence of tropomyosin-binding component of rabbit skeletal muscle troponin. 106 62


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