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)

Guanylate cyclase activity (GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2.), measured in purified rat liver plasma membranes, was markedly increased by treatment with various purified proteases. The effect was maximal with trypsin, alpha-chymotrypsin, papain, and thermolysin (6- to 8-fold increase with 5 to 20 microgram of protease/ml) and lower with subtilisin and elastase (3- to 4-fold increase). The activation was due to an increase in the maximal velocity of the cyclizing reaction. No modification was observed either in the apparent affinity for the substrate MnGTP or in the cooperative behavior of the enzyme kinetics which displayed Hill coefficients of 1.6 for both basal and activated states. The Triton X-100-dispersed guanylate cyclase remained sensitive to papain, which suggests that the action of proteases was not restricted to an indirect action upon the membranous environment of the guanylate cyclase. In contrast, the cytosolic soluble guanylate cyclase, assayed in the presence or absence of sodium azide, was absolutely insensitive to papain. Thus, proteolysis represents a previously undescribed mechanism for activating membranous guanylate cyclase systems, which might be of importance in the physiological regulation of this enzyme.
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PMID:Activation of rat liver guanylate cyclase by proteolysis. 3 29

Bovine liver glutamate dehydrogenase reacts with the bifunctional affinity label 5'-(p-(fluorosulfonyl)benzoyl)-8-azidoadenosine (5'-FSBAzA) in a two-step process: a dark reaction yielding about 0.5 mol of -SBAzA/mol of subunit by reaction through the fluorosulfonyl moiety, followed by photoactivation of the azido group whereby covalently bound -SBAzA becomes cross-linked to the enzyme [Dombrowski, K. E., & Colman, R. F. (1989) Arch. Biochem. Biophys. 275, 302-308]. We now report that the rate constant for the dark reaction is not reduced by ADP or GTP, but it is decreased 7-fold by 2 mM NADH and 40-fold by 2 mM NADH + 0.2 mM GTP, suggesting that 5'-FSBAzA reacts at the GTP-dependent NADH inhibitory site. The amino acid residues modified in each phase of the reaction have been identified. Modified enzyme was isolated after each reaction phase, carboxymethylated, and digested with trypsin, chymotrypsin, or thermolysin. The digests were fractionated by chromatography on a phenylboronate agarose column followed by HPLC. Gas-phase sequencing of the labeled peptides identified Tyr190 as the major amino acid which reacts with the fluorosulfonyl group; Lys143 was also modified but to a lesser extent. The predominant cross-link formed during photolysis is between modified Tyr190 and the peptide Leu475-Asp476-Leu477-Arg478, which is located near the C-terminus of the enzyme. Thus, 5'-FSBAzA is effective in identifying critical residues distant in the linear sequence, but close within the regulatory nucleotide site of glutamate dehydrogenase.
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PMID:Identification of amino acids modified by the bifunctional affinity label 5'-(p-(fluorosulfonyl)benzoyl)-8-azidoadenosine in the reduced coenzyme regulatory site of bovine liver glutamate dehydrogenase. 156 33

The affinity label 8-[(4-bromo-2,3-dioxobutyl)thio]adenosine 5'-triphosphate (8-BDB-TA-5'-TP) has been shown to react with bovine liver glutamate dehydrogenase in the region of the GTP-dependent NADH inhibitory site with incorporation of about 1 mol of reagent/mol of subunit [Ozturk, D. H., Safer, D., & Colman, R. F. (1990) Biochemistry 29, 7112-7118]. The modified enzyme was shown to contain only 5 free sulfhydryl groups upon 5,5'-dithiobis (2-nitrobenzoate) titration as compared with 6 in the unmodified enzyme. In the unmodified enzyme digested with trypsin, 6 cysteinyl peptides were detected by high-performance liquid chromatography upon treatment with iodo [3H]acetic acid. In contrast, only 5 (carboxymethyl)cysteinyl peptides were detected in 8-BDB-TA-5'-TP-modified enzyme. When carboxymethylated modified and unmodified enzymes were digested with thermolysin, 6 peptide sequences containing (carboxymethyl)cysteine were obtained in the unmodified enzyme, but only 5 were observed in the modified enzyme. The (carboxymethyl)cysteine which was absent in the modified enzyme was determined to be Cys-319, leading to the conclusion that 8-BDB-TA-5'-TP reacts with Cys-319, thereby preventing it from subsequent reaction with radioactive iodoacetate. It was previously reported that 6-[(4-bromo-2,3-dioxobutyl)thio]-6-deaminoadenosine 5'-diphosphate (6-BDB-TA-5'-DP) modifies Cys-319 in this enzyme [Batra, S. P., & Colman, R. F. (1986) Biochemistry 25, 3508-3515].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of cysteine-319 as the target amino acid of 8-[(4-bromo-2,3-dioxobutyl)thio]adenosine 5'-triphosphate in bovine liver glutamate dehydrogenase. 185 24

A new GTP-binding protein, which serves as a substrate for pertussis toxin, was prepared from porcine brain. The new G protein was separated from other GTP-binding proteins, Gi and Go, by an anion-exchange column chromatography. The mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the alpha subunit of the new G protein was between those of alpha subunits of Gi and Go. Evidence that the alpha subunit is not a proteolytic fragment of the alpha subunit is not a proteolytic fragment of the alpha subunit of Gi or Go was provided by experiments involving partial hydrolysis of these G proteins with thermolysin and their interaction with an antibody raised against the amino terminal peptide of the alpha subunit of Gi. In addition, the gamma subunit of the new G protein was indicated to be different from the gamma subunits of Gi and Go, because the latter were found to be phosphorylated by protein kinase C but the former was not. GTP-sensitive high affinity binding of muscarinic receptors with acetylcholine was observed when muscarinic receptors purified from porcine cerebrum were reconstituted in phospholipid vesicles with the new G protein as well as with Gi or Go. The proportion of the high affinity sites increased with the concentrations of the G proteins, the potency of the new G protein being similar to that of Gi but a little lower than that of Go. This GTP-sensitive high affinity binding was not observed when each G protein was pretreated with pertussis toxin and then reconstituted with muscarinic receptors. Acetylcholine accelerated the dissociation of [3H]GDP from the new G protein as well as from Gi and Go, which were reconstituted with muscarinic receptors. These results indicate that muscarinic receptors interact with at least the above three kinds of G proteins, in a pertussis toxin-sensitive manner.
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PMID:Cerebral muscarinic acetylcholine receptors interact with three kinds of GTP-binding proteins in a reconstitution system of purified components. 249 27

The functional and biochemical characteristics of somatostatin (somatotropin release-inhibiting factor) (SRIF) receptor subtypes were examined in the clonal pituitary cell lines AtT-20 and GH3. SRIF inhibits evoked calcium influx into each of these cell lines. The rank order of potencies of structural analogues of SRIF to inhibit calcium influx into GH3 versus AtT-20 cells was different. Inhibitory actions of SRIF on calcium influx desensitized in AtT-20 cells but not GH3 cells. The biochemical properties of the SRIF receptor subtypes in AtT-20 and GH3 cells were assessed by photoaffinity labeling of each receptor with the nonreducible SRIF analogue [125I]CGP 23996 and the photocrosslinking agent n-hydroxysuccinimidyl-4-azidobenzoate. The covalently labeled receptors in both cell lines had the same size, 55 +/- 5 kDa, as assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The covalent binding of [125I]CGP-23996 to GH3 and AtT-20 cell membranes was blocked by 1 microM SRIF, somatostatin 28, Trp8-SRIF and was GTP sensitive. Analysis of the labeled receptors in GH3 and AtT-20 cell membranes by two-dimensional polyacrylamide gel electrophoresis indicated that they were of similar charge (pI = 6-6.5) and that they comigrate when applied together. Proteolysis of the GH3 and AtT-20 cell SRIF receptors with Staphylococcus aureus V-8 and thermolysin revealed similar peptide maps. Pretreatment of AtT-20 cells with different stable SRIF analogues abolished the subsequent equilibrium or covalent labeling of the SRIF receptor with [125I]CGP-23996. Similar treatment of GH3 cells did not reduce the covalent labeling of the SRIF receptor by [125I]CGP 23996. These studies indicate that the functional characteristics of SRIF receptors in GH3 and AtT-20 cells are different. However, clear differences in the biochemical properties of these receptor subtypes were not observed. Subtle variations in the structure of the SRIF receptors may therefore be responsible for the functional differences.
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PMID:Somatostatin receptor subtypes in the clonal anterior pituitary cell lines AtT-20 and GH3. 289 89

The removal of tightly bound GDP from the exchangeable nucleotide-binding site of tubulin has been performed with alkaline phosphatase under conditions which essentially retain the assembly properties of the protein. When microtubule protein is treated with alkaline phosphatase, nucleotide is selectively removed from tubulin dimer rather than from MAP (microtubule-associated protein)-containing oligomeric species. Tubulin devoid of E-site (the exchangeable nucleotide-binding site of the tubulin dimer) nucleotide shows enhanced proteolytic susceptibility of the beta-subunit to thermolysin and decreased protein stability, consistent with nucleotide removal causing changes in protein tertiary structure. Pyrophosphate ion (3 mM) is able to promote formation of normal microtubules in the complete absence of GTP by incubation at 37 degrees C either with nucleotide-depleted microtubule protein or with nucleotide-depleted tubulin dimer to which MAPs have been added. The resulting microtubules contain up to 80% of tubulin lacking E-site nucleotide. In addition to its effects on nucleation, pyrophosphate competes weakly with GDP bound at the E-site. It is deduced that binding of pyrophosphate at a vacant E-site can promote microtubule assembly. The minimum structural requirement for ligands to induce tubulin assembly apparently involves charge neutralization at the E-site by bidentate ligation, which stabilizes protein domains in a favourable orientation for promoting the supramolecular protein-protein interactions involved in microtubule formation.
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PMID:Tubulin-nucleotide interactions. Effects of removal of exchangeable guanine nucleotide on protein conformation and microtubule assembly. 303 51

Soluble enzymes, extracted from bovine retinal rod outer segments (ROS), were recombined with native ROS discs and discs which had been modified either by protease treatment or phosphorylation with rhodopsin kinase. The effect of these modifications on rhodopsin's ability to light-activate the ROS phosphodiesterase was determined. Trypsin, short-term thermolysin, and papain-digested discs were more effective in activating the phosphodiesterase than were undigested discs, whereas phosphorylated discs showed reduced ability to activate the phosphodiesterase. When a non-hydrolyzable analogue was employed in place of GTP in the assay, the same differences in the activation of phosphodiesterase as described above were observed between control discs and discs which were digested with thermolysin or phosphorylated. The proteolysis treatments remove various segments of amino acids from the carboxyl terminus of rhodopsin. In addition, at least seven phosphorylation sites are located in the terminal 15 amino acid residues of the carboxyl terminus of rhodopsin. Hence, it would appear from these studies that modifications of rhodopsin which affect the carboxyl terminus result in marked changes in the level of light-activatable phosphodiesterase activity, strongly suggesting a regulatory involvement in the light-activation process for this portion of rhodopsin.
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PMID:Activation of rod outer segment phosphodiesterase by enzymatically altered rhodopsin: a regulatory role for the carboxyl terminus of rhodopsin. 608 65

GTP-dependent light activation of cyclic GMP phosphodiesterase in bovine rod disc membranes was quenched by ATP. ATP reduced both initial velocity (V0) and turn off time (toff) of phosphodiesterase activated by a flash that bleached 1.5 X 10(-5) of the rhodopsin present. In the absence of rhodopsin kinase, ATP had no effect on either V0 or toff of reconstituted preparations containing phosphodiesterase and GTP*-binding protein. Addition of partially purified rhodopsin kinase to such reconstitutions again permitted ATP to quench both initial velocity and turn off time. It is thus likely that kinase-mediated phosphorylation of bleached rhodopsin reduces and arrests light-induced phosphodiesterase activation. Thermolysin cleavage of rhodopsin's COOH-terminal dodecapeptide eliminated ATP's effect on toff, but did not diminish its effect on V0. Thus, the effects of ATP and kinase on V0 may be mediated by sites proximal to and effects on toff by sites distal to the thermolysin cleavage point at rhodopsin's COOH-terminal end.
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PMID:Mechanism of ATP quench of phosphodiesterase activation in rod disc membranes. 629 72

Toc34 is a member of the outer membrane translocon complex that mediates the initial stage of protein import into chloroplasts. Toc34, like most outer membrane proteins, is synthesized in the cytosol at its mature size without a cleavable transit peptide. The majority of outer membrane proteins do not require thermolysin-sensitive components on the chloroplastic surface or ATP for their insertion into the outer membrane. However, different results have been obtained concerning the factors required for Toc34 insertion into the outer membrane. Using an Arabidopsis homologue of pea Toc34, atToc34, we show that the insertion of atToc34 was greatly reduced by thermolysin pretreatment of chloroplasts as assayed either by protease digestion or by alkaline extraction. The insertion was also dependent on the presence of ATP or GTP. A mutant of atToc34 with the GTP-binding domain deleted still required ATP for optimal insertion, indicating that ATP was used by other protein components in the import system. The ATP-supported insertion was observed even in thermolysin-pretreated chloroplasts, suggesting that the protein component responsible for ATP-stimulated insertion is a different protein from the thermolysin-sensitive component that assists atToc34 insertion.
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PMID:Insertion of atToc34 into the chloroplastic outer membrane is assisted by at least two proteinaceous components in the import system. 1037 88

Chloroplast transit peptides are necessary and sufficient for the targeting and translocation of precursor proteins across the chloroplast envelope. However, the mechanism by which transit peptides engage the translocation apparatus has not been investigated. To analyse this interaction, we have developed a novel epitope-tagged transit peptide derived from the precursor of the small subunit of pea Rubisco. The recombinant transit peptide, His-S-SStp, contains a removable dual-epitope tag, His-S, at its N-terminus that permits both rapid purification via immobilized metal affinity chromatography and detection by blotting, flow cytometry and laser-scanning confocal microscopy. Unlike other chimeric precursors, which place the passenger protein C-terminal to the transit peptide, His-S-SStp bound to the translocation apparatus yet did not translocate across the chloroplast envelope. This early translocation intermediate allowed non-radioactive detection using fluorescent and chemiluminescent reporters. The physiological relevance of this interaction was confirmed by protein import competitions, sensitivity to pre- and post-import thermolysin treatment, photochemical cross-linking and organelle fractionation. The interaction was specific for the transit peptide since His-S alone did not engage the chloroplast translocation apparatus. Quantitation of the bound transit peptide was determined by flow cytometry, showing saturation of binding yet only slight ATP-dependence. The addition of GTP showed inhibition of the binding of His-S-SStp to the chloroplasts indicating an involvement of GTP in the formation of this early translocation intermediate. In addition, direct visualization of His-S-SStp and Toc75 by confocal microscopy revealed a patch-like labeling, suggesting a co-ordinate localization to discrete regions on the chloroplast envelope. These findings represent the first direct visualization of a transit peptide interacting with the chloroplast translocation apparatus. Furthermore, identification of a chloroplast-binding intermediate may provide a novel tool to dissect interactions between a transit peptide and the chloroplast translocation apparatus.
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PMID:Cytometric analysis of an epitope-tagged transit peptide bound to the chloroplast translocation apparatus. 1120 26


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