Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.4.24.27 (
thermolysin
)
1,894
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The proteolytic enzyme,
thermolysin
, degraded the external segment of the membrane glycoprotein of intact vesicular stomatitis (VS) virions but left behind a small nonglycosylated fragment, presumably embedded in the virion membrane. Other proteases generated membrane-associated glycoprotein fragments differing somewhat in molecular weight. The
thermolysin
-resistant, virion-associated fragment, which can be selectively solubilized by either Triton X-100 or
chloroform
/methanol, has a molecular weight of 5,200. Amino acid analysis of the glycoprotein fragment reveals a preponderance of hydrophobic amino acids (64% of the residues); the amino-terminal amino acid is alanine as determined by dansylation. Cyanogen bromide digestion of the tail fragment generated two peptides, confirming the presence of one methionine residue per
thermolysin
-resistant glycoprotein fragment. The secondary structure of this glycoprotein tail peptide is maintained by at least one disulfide bridge. Thermolysin treatment is isolated VS viral glycoprotein in the presence of Triton X-100 also generated a hydrophobic peptide fragment which is very similar to the virion-associated glycoprotein fragment. The amino acid terminus of intact glycoprotein was also found to be alanine as was its dansylated Triton-micellar fragment that resisted thermolytic degradation; this finding suggests that the amino-terminal end of the VS viral glycoprotein is embedded in the virion membrane. These results suggest that the VS viral glycoprotein is an amphipathic molecule, the hydrophilic portion of which contains all the carbohydrate and a lipophilic tail segment which forms lipid or detergent micelles, thus rendering it resistant to proteolysis.
...
PMID:Association of vesicular stomatitis virus glycoprotein with virion membrane: characterization of the lipophilic tail fragment. 16
Selective binding of lipid to glycoprotein was detected when [3H]palmitate-labeled Sindbis virus particles or viral-infected cells were disrupted by heating with sodium dodecyl sulfate, and glycoproteins were isolated by electrophoresis in sodium dodecyl sulfate/10% polyacrylamide gels. The smaller glycoprotein (E2) retained 2 to 3 times more labeled lipid than did the larger EI glycoprotein, and the cell-associated glycoprotein precursor (PE2) bound even less lipid. No lipid was associated with the nonglycosylated glycoproteins that accumulated in infected cells treated with tunicamycin. The labeled lipid remained bound to the glycoproteins after exhaustive extraction with
chloroform
/methanol of virus particles, infected-cell extracts, or isolated glycoproteins, but it could be extracted by
chloroform
/methanol after treating glycoproteins with mild alkali. Analysis by gas/liquid chromatography showed that 60% of the label was in palmitate and the balance of label was distributed between oleate and stearate. There were approximately 2 mol of fatty acid bound per mol of E1 glycoprotein. Proteolysis of the fatty acid-labeled glycoprotein with pepsin,
thermolysin
, and Pronase degraded the polypeptide to fragments that retained the fatty acids in an alkali-labile state. These data suggest that a covalent attachment of fatty acid may occur during maturation of the viral glycoproteins.
...
PMID:Evidence for covalent attachment of fatty acids to Sindbis virus glycoproteins. 28 8
Proteolipid protein (PLP) was isolated from white matter of human brain by
chloroform
/methanol extraction and further purified by chromatography. Performic acid oxidation yielded a product homogeneous in NaDodSO4-polyacrylamide electrophoresis with a molecular mass of 30 kDa. The carboxymethylated PLP was chemically cleaved with cyanogen bromide into four fragments: CNBr I 22-24 kDa, CNBr II 5 kDa, CNBr III 1.4 kDa and CNBr IV 0.7 kDa. HBr/dimethylsulfoxide cleavage at tryptophan residues released four fragments: Trp I 14-16 kDa, Trp II 2.0 kDa, Trp III 5 kDa and Trp IV 7 kDa. Hydrophilic fragments were enriched in 50% formic acid (CNBr II, III, IV and Trp II and III), whereas hydrophobic peptides precipitated from this solvent were CNBr I, Trp I and IV. The fragments were separated by gel filtration with 90% formic acid as solvent and finally purified by gel permeation HPLC (Si 60 and Si 100) for automated liquid and solid-phase Edman degradation. Large fragments were further cleaved with different proteinases (trypsin, V8-proteinase, endoproteinase Lys-C and
thermolysin
). We used an improved strategy in the sequencing of the human proteolipid protein compared with our approach to the structural elucidation of bovine brain PLP. The amino-acid sequence of human PLP contains 276 residues, the same as found in bovine proteolipid protein. The two sequences proved to be identical. The possible importance of the conservative structure of this integral membrane protein is discussed.
...
PMID:Amino-acid sequence of human and bovine brain myelin proteolipid protein (lipophilin) is completely conserved. 404 Dec 37
Nonpenetrating proteolytic enzymes (such as
thermolysin
) were used to probe the cytosolic surface of the outer envelope membrane from spinach chloroplasts. Up to 20 different envelope polypeptides were susceptible to a mild digestion of isolated intact chloroplasts by
thermolysin
. Most of the
thermolysin
-sensitive envelope polypeptides were not extracted by a mixture of
chloroform
/methanol (2:1, v/v). A clear exception was E10 which is hydrophobic and, in addition, is an integral membrane polypeptide. Using antibodies to envelope polypeptides sensitive (E10 and E24) and insensitive (E30 and E37) to
thermolysin
, we demonstrated that only antibodies to E10 and E24, but not antibodies to E30 and E37, induced agglutination of intact chloroplasts. In addition, immunofluorescence experiments demonstrated that only antibodies to E10 and E24, but not antibodies to E30 and E37, gave a green fluorescence at the outer surface of intact chloroplasts. These experiments demonstrate that E10 and E24, and probably all the
thermolysin
-sensitive envelope polypeptides, are accessible from the cytosolic side of the outer membrane of the chloroplast envelope.
...
PMID:Localization of polypeptides to the cytosolic side of the outer envelope membrane of spinach chloroplasts. 635 Feb 79
Proteolytic enzyme activity releasing sialo glycopeptides from 3H-labeled human erythrocyte ghosts was detected in cytotoxic (leukotoxic) culture supernatants from 9 of 12 Pasteurella haemolytica serotypes. Microcrystalline cellulose thin-layer chromatograms of radioactive water-soluble products showed the following two radioactive peaks: a high-mobility minor peak (Rf, 0.54 to 0.74), identified as sialic acid, and a low-mobility major peak (Rf, 0.18 to 0.21), partially characterized as a trichloroacetic acid-soluble, sialic acid-rich fragment with a molecular weight of greater than 3,500, not extractable by
chloroform
. The sialic acid content of this fragment after treatment with Clostridium perfringens neuraminidase was estimated to be 7.2 X 10(-2) mumol mg-1. The presence of neuraminidase as a separate activity in some culture supernatants was confirmed. It is considered to be responsible for the observed release of free sialic acid. Preliminary studies with the crude enzyme showed that it has a broad pH optimum around pH 7.0 and that activity is not affected by inhibitors of trypsin, chymotrypsin,
thermolysin
, thio and serine enzymes, nor by an inhibitor of neuraminidase, 2,3-dehydro-2-deoxy-N-acetylneuraminic acid. Activity was, however, inhibited by o-phenanthroline at a high concentration after prolonged treatment. The enzyme hydrolyzed glycophorin at a rate four times higher than the rate for casein. Free glycophorin inhibited the enzyme-induced release of radioactive products from 3H-labeled ghosts. It is speculated that the novel enzyme is a neutral protease, probably metal-dependent, with specificity for sialoglycopeptides. The possible relationship of this protease to the previously reported host species-specific leukotoxicity of P. haemolytica and its potential role in virulence is discussed.
...
PMID:Proteolysis of sialoglycoprotein by Pasteurella haemolytica cytotoxic culture supernatant. 635 4
A dipeptide containing the binding site for retinal in bovine rhodopsin has been isolated and its sequence determined. Rhodopsin containing [11-3H]retinal was prepared in chromatographically pure form, and the [3H]retinal was reductively linked to its binding site on opsin by using borane--dimethylamine. The [3H]retinylopsin in octyl glucoside was exhaustively digested with Pronase, and its peptides were separated on silica gel in
chloroform
/methanol/ammonia [Bownds, D. (1967) Nature (London) 216, 1178--1181] followed by silica gel thin-layer chromatography in two solvent systems. The major retinyl peptide was shown to be alanyl-N epsilon-retinyllysine by amino acid composition, 3H content, and amino acid sequence analysis. The retinyl binding site is located in the carboxyl-terminal region of rhodopsin: when rod cell disk membranes containing [3H]retinal rhodopsin were digested with
thermolysin
and then reacted with sodium borohydride or borane--dimethylamine, [3H]retinal was reduced onto the F2 (Mr congruent to 6000) fragment, which derives from rhodopsin's carboxyl-terminal region.
...
PMID:Site of attachment of 11-cis-retinal in bovine rhodopsin. 645 Jun 10
The conformations of enzyme inhibitors in solution and bound to the enzyme
thermolysin
are investigated as a convenient model for understanding the relationship between the conformation of drugs in solution and at the receptor. The solution conformations of carbobenzoxy-L-phenylalanine (I) and beta-phenylpropionyl-L-phenylalanine (II) are determined using nuclear magnetic resonance spectroscopy. These studies show that I and II have essentially the same conformation about both the alpha-beta bond and the C alpha-N bond in Me2SO-d6, acetone-d6, methanol-d4,
chloroform
-d, and D2O. In addition, the conformations of I and II are similar to phenylalanine and other phenylalanine derivatives. Comparison of the lowest energy solution conformer to that bound by the enzyme
thermolysin
shows that the lowest energy conformer (in solution) of carbobenzoxy-L-phenylalanine is bound by
thermolysin
; on the other hand, it is the highest energy conformer (in solution) of beta-phenylpropionyl-L-phenylalanine which is bound to the enzyme. This, to our knowledge, is one of the first experimental conformations of the hypothesis that an enzyme does not always bind the lowest energy conformer of an inhibitor.
...
PMID:Solution conformation of the thermolysin inhibitors carbobenzoxy-L-phenylalanine and beta-phenylpropionyl-L-phenylalanine and comparison of the solution conformation to the enzyme-bound conformation. 706 18
A method of isolation of hydrophobic membrane-bound C-terminal domain of influenza virus A hemagglutinin (HA) is suggested. The method is based on the insertion of HA into octylglucoside micelles followed by pepsin or
thermolysin
hydrolysis. Subsequent treatment of proteolytic digests with
chloroform
-hexafluoroisopropanol mixture resulted in the extraction of a few hydrophobic peptides into organic phase. Mass-spectrometry (MALDI-TOF) analysis revealed that the peptides with ion masses corresponding to the anchoring C-terminal domain with or without modifications predominated in the organic solution. The data obtained confirmed our speculation on the possibility of the suggested isolation scheme following from the strong interactions of anchoring domains in compact trimeric structure of HA spikes combined with micelle protection effect. Several appropriate peptides presence in the organic phase apparently arises from the presence of a few accessible proteolytic sites in HA transmembrane region.
...
PMID:Isolation of influenza virus A hemagglutinin C-terminal domain by hemagglutinin proteolysis in octylglucoside micelles. 1710 Jun 46
