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)

Tosyl-triethylenetetramine-Sepharose (Tos-T-Sepharose) and carbenzoxytriethylenetetramine-Sepharose (Z-T-Sepharose) were found to be adsorbents utilizable in the purification of several microbial and animal proteases. The former Sepharose derivative adsorbed alpha-chymotrypsin, trypsin, subtilisin, thermolysin and neutral subtilopeptidase at neutral pH range, and acid proteases such as pepsin and Rhizopus niveus protease at pH 3.5-6.5. alpha-Chymotrypsin and trypsin were eluted with 0.1 N acetic acid and Rhizopus protease with 0.5 N acetic acid, thermolysin with 1 M guanidine-HCl or 33% ethyleneglycol, whilst pepsin was recovered by elution with 2 M guanidine-HCl at pH 3.5. The binding of neutral subtilopeptidase and subtilisin to this adsorbent was comparatively weak and both the enzymes were recovered by elution with 0.5 M NaCl at neutral pH. On the other hand, Z-T-Sepharose was found to bind tightly to these proteolytic enzymes except neutral subtilopeptidase. Trypsin and alpha-chymotrypsin were released from the adsorbent column with 1 M p-toluenesulfonate, and subtilisin with 1 M guanidine-HCl or 33% ethyleneglycol at neutral pH region. By these chromatographic procedures, the specific activities of these proteolytic enzymes increased effectively. Comparison of the binding abilities of acetyl-, benzoyl-, tosyl- and carbobenzoxy-T-Sepharoses to these enzymes suggests that hydrophobicity of tosyl and carbobenzoxy groups plays an important role in the enzyme-adsorbent interaction.
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PMID:Purification of several proteolytic enzymes by tosyl- and carbobenzoxy-triethylene-tetramine-sepharoses. 1 98

The apparent molecular weight of the purple membrane protein of Halobacterium halobium was found to be 20 000 by sodium dodecyl sulfate gel electrophoresis and by gel filtration in sodium dodecyl sulfate. However, the molecular weight value determined by gel filtration in 6 M guanidine was 28 000. To resolve this discrepancy, methods insensitive to or independent of the conformation of the protein were used to estimate the molecular weight. Analytical ultracentrifugation of the sodium dodecyl sulfate-protein complex, peptide mapping, and amino acid analysis all gave values of 25 000 +/- 1000, a figure in agreement with a recent x-ray study. Borohydride reduction was used to attach the retinal cofactor covalently to a lysine residue. After digestion with thermolysin, peptide maps were prepared of the protein labeled at lysine residues with [14C] succinic anhydride both before and after reduction. Comparison of the maps showed one radioactive peptide with changed mobility. This peptide was isolated and shown to have the sequence Val-Ser-Asp-Pro-Asp-Lys-Lys with only one of the two lysine residues alkylated. Solid-phase sequencing showed the succinyl group to be at position 6 and hence the retinal group to be at position 7. It was possible that a small amount of retinal was also bound to Lys-6. There was no apparent homology with the corresponding peptide of vertebrate rhodopsin. No evidence of chain heterogeneity was found by radiochemical peptide mapping and sequence analysis of peptides containing lysine residues indicating that all protein chains of purple membrane are very similar or identical.
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PMID:Photoreceptor protein from the purple membrane of Halobacterium halobium. Molecular weight and retinal binding site. 124 34

Circular dichroism (CD) and immunochemical measurements have been used to examine conformational properties of COOH-terminal fragments 121-316, 206-316 and 225(226)-316 of thermolysin, and to compare these properties to those of native thermolysin and thermolysin S, the stable partially active two-fragment complex composed of fragments 5-224(225) and 225(226)-316. In aqueous solution at neutral pH, all the COOH-terminal fragments attain a native-like conformation, as judged both by the content of secondary structure deduced from far-ultraviolet CD spectra and by the recognition of rabbit polyclonal antibodies specific for the COOH-terminal region in native thermolysin. The three fragments showed reversible cooperative unfolding transitions mediated by both heat and guanidine hydrochloride (Gdn X HCl). The phase transition curves were analyzed for Tm (temperature of half-denaturation) and Gibbs free energies (delta GD) of unfolding from native to denatured state. The observed order of thermal stability is 225(226)-316 less than or equal to 206-316 less than 121-316 less than thermolysin S less than thermolysin. The ranking of delta GD values for the three fragments correlates with the size of each fragment. Competitive binding studies by radioimmunoassay using 14C-labeled thermolysin and affinity purified antibodies specific for native antigenic determinants in segment 206-316 of native thermolysin indicate that the COOH-terminal fragments adopt native-like conformations which are in equilibrium with non-native conformations. These equilibria are shifted towards the native state as the fragment size increases from 225(226)-316, to 206-316, to 121-316. Fragment 225(226)-316, when combined with fragment 5-224(225) in the thermolysin S complex, adopts a more stable native-like conformation and becomes much more antigenic. It has been shown that the degree of antigenicity of COOH-terminal fragments towards thermolysin antibodies correlates directly with their conformational stability. The results of this study are discussed in relation to the recently proposed correlation between antigenicity and segmental mobility of globular proteins.
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PMID:Folding of thermolysin fragments. Correlation between conformational stability and antigenicity of carboxyl-terminal fragments. 241 52

We have studied susceptibility of basement membranes in a variety of tissues to solubility in guanidine hydrochloride and to proteolytic degradation by trypsin and thermolysin. Unfixed sections from embryonic and adult mouse tissues and the EHS tumor were subjected to solvent buffers or digested with enzymes. The retention or disappearance of the basement-membrane components nidogen, laminin, collagen IV, and heparan sulfate proteoglycan was subsequently assayed by immunofluorescence. Our data showed that in all tissues nidogen was the most readily solubilized component and the most susceptible to proteolytic degradation. With few exceptions, nidogen in embryonic tissues was more susceptible to degradation than that in adult tissues, and this correlated well with the susceptibility of the other basement-membrane components to be degraded. We conclude that basement membranes differ quite markedly in their solubility and their susceptibility to proteolytic degradation and that these properties reflect differences in their molecular structure.
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PMID:Differences in the solubility and susceptibility to proteolytic degradation of basement-membrane components in adult and embryonic mouse tissues. 252 98

Incubation of the neutral metalloendopeptidase thermolysin at pH 7.2 in the presence of EDTA and/or low concentrations of calcium ions produces fast enzyme inactivation as a result of autolysis. The 'nicked' protein is a folded species composed of three tightly associated protein fragments. Dissociation of this complex can be achieved under denaturing conditions, such as gel filtration on a column equilibrated with 5 M guanidine hydrochloride or reverse-phase high-performance liquid chromatography (HPLC) at acidic pH. The positions of the peptide bond cleavages were defined by isolation of the individual fragments by HPLC and their characterization by amino acid analysis after acid hydrolysis, end-group determination and partial amino acid sequencing. The results of these analyses indicated that the nicked protein is composed of fragments 1-196, 197-204 and 205-316 and thus that the corresponding sites of limited proteolysis occur at the polypeptide chain loop involved in the binding of Ca(4) in native thermolysin [Matthews, B. W., Weaver, L. H. and Kester, W. R. (1974) J. Biol. Chem. 249, 8030-8044]. The overall conformational properties of nicked thermolysin are quite similar to those of the intact protein, as judged by spectroscopic measurements and by the fact that rabbit antibodies against native thermolysin recognize and precipitate the nicked protein in immunodiffusion assays. The nicked protein was much less stable to heat and unfolding agents than intact thermolysin. These results contribute to a better knowledge of the molecular mechanism of stabilization of native thermolysin by the four bound calcium ions and demonstrate that the function of Ca(4) is to stabilize the loop 190-205 on the surface of the molecule against autolysis.
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PMID:Autolysis of thermolysin. Isolation and characterization of a folded three-fragment complex. 308 49

Using cultured human fetal kidney cortical cells as antigen, two monoclonal antibodies (moAbs) against human glomeruli were produced. One of these moAbs, H-4, recognized the cell surface of glomerular epithelial cells, and the other, H-13, recognized the extracellular matrix present in the mesangial area. Both also reacted with liver, H-4 recognizing antigen present on the hepatocyte, and H-13 recognizing antigen distributed along the sinusoid. Species specificity for these moAbs was examined using mouse, rat, guinea pig and rabbit glomeruli, which revealed that H-4 reacted with rat glomerular epithelial cells and H-13 stained guinea pig glomerular mesangium. In the human fetal kidney, H-13 reacted with the mesangium, glomerular and tubular basement membrane and Bowman's capsule, and H-4 with the glomerular and tubular epithelial cells. Dot immunobinding assay of fibronectin purified from glomerular culture supernatant and plasma revealed that H-13 recognized both plasma and cellular fibronectin. Immunoblot analysis of 2.0 M guanidine HCl extract after dissociation in sodium dodecyl sulfate and electrophoresis demonstrated binding of H-4 to a 125 kd polypeptide. Immunoblot analysis of thermolysin-digested fibronectin exhibited binding of H-13 to 145 kd and 110 kd fragments, but not to 38 kd-29 kd fragments. In renal biopsy specimens from patients with membranous nephropathy. H-13 stained the glomerular basement membrane (GBM), but not the mesangium, whereas anti-fibronectin antisera stained both the GBM and the mesangium. In those from patients with minimal change nephrotic syndrome (MCNS), IgA glomerulonephritis (IgAGN) and membranoproliferative glomerulonephritis (MPGN), the staining pattern with H-13 was similar to that with polyclonal anti-fibronectin antisera. These results indicate that H-4 recognizes a 125 kd polypeptide constituent of the glomerular epithelial cell membrane and that H-13 recognizes the cell binding domain of fibronectin as well as revealing structural alterations in the mesangium and GBM.
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PMID:Monoclonal antibodies to human glomerular antigens. 312 68

Two mouse protamines, denoted as P1 and P2, have been purified directly from mature sperm nuclei and characterized as distinct polypeptide species. The complete primary structure of P2 was determined by peptide sequencing analyses. P1 and P2 were purified by a sequence of cation-exchange chromatography on Bio-Rex 70 and permeation chromatography on Bio-Gel P10, both in the presence of guanidine hydrochloride. Biochemical analyses demonstrate P1 has a molecular weight of 7400 and is characterized by the presence of arginine, cysteine, lysine, and tyrosine. By contrast, P2 is unusual in containing an abundance of arginine, histidine, lysine, and cysteine, but no tyrosine. The primary structure of P2 was determined from the sequencing of overlapping, high-pressure liquid chromatography purified peptides generated by thermolysin and endoproteinase Lys-C digestions and by chemical cleavage at each of four serine residues. Sequence analyses have demonstrated that P2, with a molecular weight of 8841, contains 62 amino acids, in the sequence NH2-Arg-Gly-His-His-His-His-Arg-His-Arg-Arg-Cys- Ser-Arg-Lys-Arg- Leu-His-Arg-Ile-His-Lys-Arg-Arg-Arg-Ser-Cys-Arg-Arg-Arg-Arg-Arg-His-Ser- Cys-Arg - His-Arg-Arg- Arg-His-Arg-Arg-Gly-Cys-Arg-Arg-Ser-Arg-Arg-Arg-Arg-Arg-Cys-Arg-Cys-Arg- Lys-Cys - Arg-Arg- His-His-COOH. Thus, the primary structure includes six clusters of arginine and histidine, distributed throughout the polypeptide, each ranging from five to eight amino acids in length. Sequence comparisons of mouse and human protamines by the Dayhoff program have revealed greater homology exists between human P2 and mouse P2 than within the P1 family from the two mammalian species.
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PMID:Purification and characterization of mouse protamines P1 and P2. Amino acid sequence of P2. 340 54

The major stallion protamine was isolated from sperm cell nuclei by extraction with 6M guanidine/5% mercaptoethanol, alkylation with 4-vinylpyridine and subsequent reversed-phase high-performance liquid chromatography. The primary structure of stallion protamine was determined by N-terminal sequencing of the intact protein and of the fragments obtained from thermolysin cleavage of the S-pyridylethylated and from endoproteinase Lys-C cleavage of the S-aminoethylated protein. Stallion protamine consists of 49 amino-acid residues and shows 49% identity with all other sequenced mammalian type 1 protamines.
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PMID:The major protamine from stallion sperm. Isolation and amino-acid sequence. 344 6

The two protamines of human sperm cell nuclei, P1 and P2, were isolated in pure form after extraction with 6M guanidine/5% mercaptoethanol and alkylation with vinyl pyridine by reversed-phase high-performance liquid chromatography. The amino-acid sequence of protamine P1 was determined by analysing the intact protein and the fragments obtained by cyanogen bromide cleavage. Out of the 50 amino-acid residues 24 are arginines and 6 are cysteines. The sequence of protamine P2 was determined by analysing the intact protein and the fragments resulting from cleavage with endoproteinase Lys-C and thermolysin. Protamine P2 was found to occur in two forms which only differ in their N-terminal regions. The form P2' is three amino-acid residues longer at the N-terminus than the form P2''. Out of the 57 amino-acid residues in the longer form 27 are arginines and 5 are cysteines. Human protamine P1 is highly homologous with the protamines isolated from bull, boar, ram and mouse sperm cells, but human protamine P2 shows a novel type of structure, although also here the dominant amino acids are arginine and cysteine.
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PMID:Isolation and amino-acid sequence analysis of human sperm protamines P1 and P2. Occurrence of two forms of protamine P2. 352 26

Equilibrium and kinetic studies of the unfolding and autolysis of the two domain protein thermolysin in guanidine hydrochloride are described. Enzyme activity, circular dichroism, fluorescence, sedimentation, size exclusion chromatography, and viscosity measurements were used to monitor conformational transitions and characterize the native and denatured states. The observation of biphasic transitions for the unfolding of apothermolysin and the spectroscopic changes associated with each phase of the overall unfolding process suggest unfolding of the N-terminal domain at less than 1 M guanidine hydrochloride, followed by the unfolding of the C-terminal domain, with the transition midpoint at 3 M guanidine hydrochloride. The refolding of the C-terminal domain is reversible; however, refolding of the N-terminal domain could not be demonstrated owing to protein aggregation. A quantitative analysis of the two transitions suggest that the unfolding of the two structural domains of thermolysin is not completely independent. Attempts to measure the unfolding of holothermolysin were hampered by autolysis. However, it was possible to show that at least three calcium ions serve to stabilize thermolysin against autolysis or unfolding in guanidine hydrochloride. Similar stabilization was observed for thermolysin with a single terbium ion bound at calcium site S(1). This result is consistent with our earlier findings, which suggest that calcium bound at sites S(1)-S(2) are located at a critical point on the unfolding pathway of thermolysin and serve to act as an interdomain lock.
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PMID:Domain unfolding and the stability of thermolysin in guanidine hydrochloride. 380 Nov 83


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