EC:3.4.24.27 - FACTA Search

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)

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

Limited proteolysis of streptokinase (Sk) by trypsin and thermolysin was performed under various incubation conditions and analysed by polyacrylamide gel electrophoresis. Several fragments (Sk1, Tr27, Tr17, Th26, and Th16) were isolated and characterized further. The N-terminal sequences of Tr27, Tr17, Th26, Th16 and the C-terminal sequences of Tr27 and Th26 were determined by partial sequencing. The evidence available allows the positioning of these fragments within the Sk sequence. Fragment Sk1 is obtained by carefully standardized tryptic digestion of Sk and gel chromatography under non-denaturing conditions. Sk1 is formed by a large polypeptide Ser60-Lys293 and non-covalently bonded smaller polypeptides composed of amino acids from the N-terminal region Ile1-Lys59 of Sk. Fragment Tr27 consists of the large polypeptide Ser60-Lys293 of Sk1, and can be obtained from Sk1 by removal of the smaller N-terminal polypeptides under denaturing conditions. Fragment Th26 is composed of amino acids Phe63-His291. The N-termini of fragments Tr17 and Th16 start with Glu148 and Ile151. From their electrophoretically-determined sizes it can be concluded that they most probably have the same C-terminal amino acids, Lys293 and His291, as fragments Tr27 and Th26, respectively. Secondary structure elements of similar composition were found in all the fragments studied using circular dichroism (c.d.) and infrared (i.r.) measurements. Differential scanning calorimetric (d.s.c.) measurements were performed in order to correlate the sequence regions of Sk to energetic folding units of the protein. Fragments Sk1, Tr27, Th26, Tr17, and Th16 show one melting peak in the temperature range from 42.8 to 46.1 degrees C (thermal unfolding stage). For fragment Sk1, this melting peak can be separated by deconvolution into two transitions at T1 = 46.1 degree C and T2 = 47.3 degrees C with delta H1 = 450 kJ/mol and delta H2 = 219 kJ/mol, respectively. Fragments Tr17 and Th16 show one two-state transition at T = 42.8 degrees C with delta H = 326 kJ/mol.
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PMID:Limited proteolysis of streptokinase and properties of some fragments. 151

Enzyme-catalyzed synthesis of two polypeptide fragments, one of which is obtained by chemical synthesis, in the presence of proteolytic enzymes and in aqueous organic solvents constitutes a convenient procedure for the synthesis of proteins and their analogs. This novel semisynthetic procedure was investigated for preparing COOH-terminal fragments of the metallo-protease thermolysin. Fragment 205-316, obtained by autolysis of the protein in the presence of EDTA, was first cleaved selectively with Staphylococcus aureus V8 protease at the level of the single Glu302 residue into fragments 205-302 and 303-316. Upon incubation for 2-5 days of fragment 205-302 with a 5-fold excess of peptide 303-316, prepared by solid phase synthesis, with V8-protease in 0.1 M ammonium acetate, pH 6.0, containing 50% glycerol as organic cosolvent, enzyme-catalyzed reformation of the peptide bond was achieved in yields up to approximately 90% (based on fragment 205-302). The same procedure was used to prepare also the thermolysin fragments 205-315 and 205-311 by enzymatic coupling of fragment 205-302 to peptide 303-315 or 303-311, these last prepared by proteolytic digestion of the synthetic peptide 303-316. This procedure of semisynthesis opens up an approach for the site-directed modification of the tetrahelical COOH-terminal fragment 205-316 of thermolysin at the level of its helical segment encompassing residues 301-312 in the native, intact protein. Such analogs will be useful for examining structure-folding-stability relationships in this folded fragment possessing domain-like characteristics.
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PMID:Semisynthesis of carboxy-terminal fragments of thermolysin. 211 42

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

Sedimentation analysis in the analytical ultracentrifuge has been used to characterize the size and shape of thermolysin and a number of its fragments obtained by chemical or enzymatic cleavage of the protein. Four fragments (121-316, 206-316, 225/226-316 and 255-316) originate from the C-terminal domain, and two (1-155 and 1-205) from the N-terminal domain of the intact molecule. In aqueous solution at neutral pH the hydrodynamic properties of the C-terminal fragments, except 255-316, are consistent with compact homogeneous monomers. Fragment 255-316 is a monomeric species below 0.08 mg/ml concentration and forms a dimer above this concentration. Dimerization does not lead to changes in fragment conformation, as determined by far-ultraviolet circular dichroic measurements, but to an increase of 5.6 degrees C (to 68.2 degrees C at 1.0 mg/ml) in the temperature for thermal unfolding and a corresponding increase of 4.6 kJ/mol in the free energy of unfolding. Fragments derived from the N-terminal domain show a strong tendency to form high-molecular-mass aggregates. Previous experiments utilizing circular dichroic measurements and antibody binding data suggested that the C-terminal fragments listed above are able to refold in aqueous solution at neutral pH into a stable conformation of native-like characteristics [Dalzoppo, D., Vita, C. & Fontana, A. (1985) J. Mol. Biol. 182, 331-340] (and references cited therein). Present data establish that all these C-terminal fragments are globular monomeric species in solution (at concentrations approximately 0.1 mg/ml) and thus represent 'isolated' domains (or subdomains) with intrinsic conformational stability typical of small globular proteins.
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PMID:Folding of thermolysin fragments. Hydrodynamic properties of isolated domains and subdomains. 277 48

The primary structure of the cholesterol side-chain cleavage cytochrome P-450 (P-450scc) from bovine adrenocortical mitochondria has been determined. At the initial stage an exhaustive chymotryptic digestion of carboxymethylated P-450scc was performed, and the amino acid sequence of 66 peptides was determined. At the second stage an investigation of the amino acid sequence of individual fragments I (Mr 29 800) and II (Mr 26 600) of the limited trypsinolysis of P-450scc was carried out. Fragment I was digested with trypsin, Staphylococcus aureus V8 proteinase and thermolysin; fragment II was cleaved with trypsin and S. aureus V8 proteinase. In addition, the amino acid sequence of some CNBr peptides of P-450scc has been investigated. The primary structure of cytochrome P-450scc determined with protein chemistry methods proved the multistage cholesterol transformation to pregnenolone to be catalyzed by a single species of cytochrome P-450scc which consists of 481 amino acids. The results from protein sequencing of P-450scc are in good agreement with those obtained recently from nucleotide sequencing. The localization of peptide bonds cleaved under limited proteolysis of P-450 with trypsin to fragments I and II, I and III (Mr 16 800) is presented. It is shown that the transformation of P-450scc to P-420 is accompanied by the appearance of an additional trypsin-sensitive peptide bond in the N-terminal part of P-450scc.
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PMID:Primary structure of the cholesterol side-chain cleavage cytochrome P-450 from bovine adrenocortical mitochondria and some aspects of its functioning on a structural level. 351 2

Fragment-based drug discovery has gained a foothold in today's lead identification processes. We present the application of in silico fragment-based screening for the discovery of novel lead compounds for the metalloendoproteinase thermolysin. We have chosen thermolysin to validate our screening approach as it is a well-studied enzyme and serves as a model system for other proteases. A protein-targeted virtual library was designed and screening was carried out using the program AutoDock. Two fragment hits could be identified. For one of them, the crystal structure in complex with thermolysin is presented. This compound was selected for structure-based optimization of binding affinity and improvement of ligand efficiency, while concomitantly keeping the fragment-like properties of the initial hit. Redesigning the zinc coordination group revealed a novel class of fragments possessing K(i) values as low as 128 microM, thus they provide a good starting point for further hit evolution in a tailored lead design.
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PMID:Fragment-based lead discovery: screening and optimizing fragments for thermolysin inhibition. 2039 6