Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of platelets in the maintenance of endothelial barrier is examined in an in vitro model of the microvasculature. Human platelets (6,000/microliters) perfused through a cell column of endothelial-covered microcarriers decrease paracellular permeability of sodium fluorescein (mol wt 342) to 63% of baseline values. This effect is reversible and a second application and removal of platelets produces a similar response. This effect occurs within 5 min and reverses within 10 min after platelet removal. The reduction in permeability is not due to mechanical obstruction of endothelial junctions, since the number of recirculating platelets is not reduced and releasate from unstimulated 2-h platelet incubations also decreases permeability. Releasate from platelets stimulated with 0.1 U/ml of thrombin for 15 min have the same permeability reducing effect. In this system, the platelet factors serotonin (10(-3) M) and ADP (10(-4) M) have no effect on permeability. However, the platelet factors adenosine (10(-4) M), ATP (10(-5) M), and beta-agonists decrease permeability. None of these appear to account for platelet permeability activity, since activity is not blocked by agents directed against these mediators (adenosine deaminase, apyrase, 8-phenyltheophylline, or propranolol). The active factor(s) is stable at -20 degrees C, heat stable, sensitive to trypsin, and has an apparent molecular weight > 100. We conclude that unstimulated platelets release a factor(s) that enhances endothelial barrier in vitro and may be important in maintenance of the normal in vivo barrier.
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PMID:Platelets and a platelet-released factor enhance endothelial barrier. 147 5

Starfish-oocyte maturation induced by 1-methyladenine (MeAde) was inhibited by microinjection of pertussis toxin (PTX). The inhibition appeared to result from PTX-catalyzed ADP-ribosylation of a 39-kDa guanosine-nucleotide-binding regulatory protein (G protein) in the oocyte. These results strongly support the hypothesis that the MeAde-induced signals operate via a membrane receptor and are carried by the PTX-sensitive G protein. When PTX-injected oocytes were treated with dithiothreitol, 85% of them reinitiated meiosis, suggesting that dithiothreitol did not act on the MeAde receptor. We constructed a cDNA library from the immature ovary of starfish, Asterina pectinifera, and screened it with the cDNA of the alpha subunit of an inhibitory rat G protein (Gi-2). A positive cDNA clone contained an open reading frame of 1062 bases which had 74% identity with the rat Gi-2 cDNA. The deduced amino acid sequence was 85% and 89% identical to rat Gi-2 and rat Gi-1, respectively. The alpha subunit of the G protein purified from cortices of starfish oocytes was digested by trypsin and the resulting four peptides were microsequenced. Comparison of these amino acid sequences with the predicted one indicated that the isolated cDNA clone encoded the alpha subunit of the PTX-sensitive G protein in oocytes. The C-terminal sequence, KNNLKDCGLF, was identical to that of Gi, suggesting that the cysteine residue is the site of ADP-ribosylation.
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PMID:The primary structure of the alpha subunit of a starfish guanosine-nucleotide-binding regulatory protein involved in 1-methyladenine-induced oocyte maturation. 149 60

The dissociation of mitochondrial F1-ATPase with 3 M LiCl at 0 degrees C, followed by reconstitution, has been analysed. FPLC over a gel filtration column in the dissociation buffer revealed the presence of two protein moieties, an alpha 3 gamma delta epsilon complex and single beta-subunits. When the dissociation and chromatography is performed at pH 6.2, the former protein moiety still contains some adenine nucleotides. Reconstitution of the dissociated complex is not possible any more after FPLC, probably due to the loss of residual adenine nucleotides. After a single column centrifugation step one nucleotide per F1 still remains bound. For reconstitution, additional ATP, or a suitable analog, is required. 2-Azido-ATP, but not 8-azido-ATP or ITP, can replace ATP during the reconstitution. F1, reconstituted in the presence of 2-azido-ATP, contains three tightly bound nucleotides, similar to freshly isolated F1, of which in this case one is an adenine nucleotide and two are azido-adenine nucleotides. One of the latter can be rapidly exchanged and is bound to a catalytic site. Covalent binding (at a beta-subunit) of the other tightly bound 2-azido-ATP by ultraviolet illumination does not result in inhibition of the enzyme. Digestion of F1 with trypsin, followed by HPLC, showed that the label is not bound to the fragment containing Tyr-368, nor to the fragment containing Tyr-345. This result was confirmed by CNBr digestion, followed by SDS-urea PAGE. We conclude that during dissociation of F1 one tightly bound nucleotide (ADP) remains bound at an alpha/beta interface site and that for reconstitution binding of ATP to a (non-catalytic) beta-site is required. The conformation of this site differs from that of the two catalytic beta-sites.
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PMID:Characteristics of the non-exchangeable nucleotide binding sites of mitochondrial F1 revealed by dissociation and reconstitution with 2-azido-ATP. 153 23

Saccharomyces cerevisiae phospho enol pyruvate carboxykinase (EC 4.1.1.49), inactivated by N-(iodoacetyl)-N'-(5-sulfo-1-naphthyl)ethylenediamine, incorporated 0.95 mol of the fluorescent moiety per mol of enzyme subunit. Reagent incorporation was completely protected by the presence of ADP plus MnCl2. The labeled protein was digested with trypsin after carboxymethylation. Two labeled peptides were isolated by reverse-phase high-performance liquid chromatography and were sequenced by gas-phase automatic Edman degradation. Both peptides contained overlapping amino acid sequences from Asn-358 to Lys-375, thus identifying Cys-364 as the reactive amino acid residue. The position of the target amino acid residue is immediately preceding a putative phosphoryl-binding sequence proposed for some nucleotide-binding proteins.
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PMID:ATP-dependent Saccharomyces cerevisiae phospho enol pyruvate carboxykinase: isolation and sequence of a peptide containing a highly reactive cysteine. 154 Jun 32

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 folding of the peptide chain of the beef heart ADP/ATP carrier in the inner mitochondrial membrane was investigated by enzymatic and immunochemical approaches, using specific proteases and polyclonal antibodies directed against the whole protein and specific regions of the carrier. The accessibility of the membrane-bound ADP/ATP carrier to proteases was followed by immunodetection of the cleavage products, using mitochondria devoid of outer membrane (mitoplasts) and inside-out submitochondrial particles (SMP) in the presence of either carboxyatractyloside (CATR) or bongkrekic acid (BA), two specific inhibitors which are able to bind to the outer face or the inner face of the carrier, respectively. Four types of particles were investigated, namely, mitoplasts-CATR, mitoplasts-BA, SMP-CATR, and SMP-BA. Only the ADP/ATP carrier in SMP-BA was cleaved by two specific proteases, namely, trypsin and lysine C endoprotease, at low doses for short periods of time. Two initial cleavage sites were found between Lys-42 and Glu-43, and between Lys-244 and Gly-245. After a longer period of incubation, an additional cleavage site between Lys-146 and Gly-147 could be demonstrated. Despite cleavage of the membrane-embedded carrier, the binding capacity and affinity of SMP for BA were not altered. A number of other proteases tested, including V8 protease, proline C endoprotease, thrombin, alpha-chymotrypsin, and thermolysin had virtually no effect. These results are explained by a dynamic model of the arrangement of the peptide chain of the ADP/ATP carrier.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Topography of the membrane-bound ADP/ATP carrier assessed by enzymatic proteolysis. 156 52

Eel liver glutamate dehydrogenase (GDH) [EC 1.4.1.3] was eightfold activated by trypsin and the molecular weight of the subunit of the native GDH decreased from 54,000 to 50,000. The C-terminal amino acid of both subunits was Thr. One peptide was released after proteolysis of the native GDH by trypsin and purified by anhydrotrypsin agarose and reversed-phase HPLC. The isolated peptide consisted of 39 amino acids and its amino acid sequence was as follows: H2NS-E-A-V-E-K-E-D-D-P-N-F-F-K-M-V-E-G-F-F-D-K-G-A-A-I- V-E-N-K-L-V-E-E-D-L-K-T-R-COOH. The peptide contained the N-terminal of the native GDH and its molecular weight was calculated to be 4,413. We concluded that the trypsin-catalyzed activation was caused by release of this peptide from the native GDH. p-Chloromercuribenzoic acid inhibited the activity of the trypsin-treated GDH, but stimulated that of the native GDH. The response of trypsin-treated GDH to ADP and GTP was decreased compared with that of the native GDH.
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PMID:The trypsin-catalyzed activation of glutamate dehydrogenase purified from eel liver. 163 63

Atrial natriuretic factor (ANF-R1) receptor is a 130-kDa protein that contains a cytoplasmic guanylate cyclase domain. We report that ATP interacts in an allosteric manner with the ANF-R1 receptor, resulting in reduced ANF binding and enhanced ANF-stimulated guanylate cyclase activity. The modulatory properties of various nucleotides indicate a preference for the adenine family with a rank order of potency of ATP greater than App(NH)p greater than or equal to ADP greater than or equal to AMP while cyclic and guanine nucleotides except GTP are inactive. The negative modulation by ATP of ANF binding is specific for the ANF-R1 receptor subtype since the amount of ANF bound by the guanylate cyclase uncoupled ANF-R2 subtype is increased in the presence of ATP. Furthermore, the effects of ATP on ANF-R1 receptor binding function are still observed with the affinity-purified ANF-R1 receptor, suggesting an allosteric binding site for ATP on the ANF-R1 receptor. In intact membranes, limited proteolysis of the ANF-R1 receptor with trypsin dose-dependently prevents the ATP-induced decrease in ANF binding concomitantly with the formation of a membrane-associated ANF-binding fragment of 70 kDa. These results confirm the direct modulatory role of ATP on hormone binding activity of ANF-R1 receptor and suggest that the nucleotide regulatory binding site is located in the intracellular domain vicinal to the protease-sensitive region.
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PMID:Allosteric modulation by ATP of the bovine adrenal natriuretic factor R1 receptor functions. 165 83

We have initiated the characterization of the DNA helicases from HeLa cells, and we have observed at least 4 molecular species as judged by their different fractionation properties. One of these only, DNA helicase I, has been purified to homogeneity and characterized. Helicase activity was measured by assaying the unwinding of a radioactively labelled oligodeoxynucleotide (17 mer) annealed to M13 DNA. The apparent molecular weight of helicase I on SDS polyacrylamide gel electrophoresis is 65 kDa. Helicase I reaction requires a divalent cation for activity (Mg2+ greater than Mn2+ greater than Ca2+) and is dependent on hydrolysis of ATP or dATP. CTP, GTP, UTP, dCTP, dGTP, dTTP, ADP, AMP and non-hydrolyzable ATP analogues such as ATP gamma S are unable to sustain helicase activity. The helicase activity has an optimal pH range between pH8.0 to pH9.0, is stimulated by KCl or NaCl up to 200mM, is inhibited by potassium phosphate (100mM) and by EDTA (5mM), and is abolished by trypsin. The unwinding is also inhibited competitively by the coaddition of single stranded DNA. The purified fraction was free of DNA topoisomerase, DNA ligase and nuclease activities. The direction of unwinding reaction is 3' to 5' with respect to the strand of DNA on which the enzyme is bound. The enzyme also catalyses the ATP-dependent unwinding of a DNA:RNA hybrid consisting of a radioactively labelled single stranded oligodeoxynucleotide (18 mer) annealed on a longer RNA strand. The enzyme does not require a single stranded DNA tail on the displaced strand at the border of duplex regions; i.e. a replication fork-like structure is not required to perform DNA unwinding. The purification of the other helicases is in progress.
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PMID:A DNA helicase from human cells. 170 1

The peroxidation of rat liver microsomal lipids is stimulated in the presence of iron by the addition of NADPH or ascorbate and is inhibited by the addition of glutathione (GSH). The fate of GSH and the oxidative modification of proteins under these conditions have not been well studied. Rat liver microsomes were incubated at 37 degrees C under 95% O2:5% CO2 in the presence of 10 microM ferric chloride, 400 microM ADP, and either 450 microM ascorbic acid or 400 microM NADPH. Lipid peroxidation was assessed in the presence 0, 0.2, 0.5, 1, or 5 mM GSH by measuring thiobarbituric acid reactive substance (TBARS) and oxidative modification of proteins by measuring protein thiol and carbonyl groups. GSH inhibited TBARS and protein carbonyl group formation in both ascorbate and NADPH systems in a dose-dependent manner. Heat denaturing of microsomes or treatment with trypsin resulted in the loss of this protection. The formation of protein carbonyl groups could be duplicated by incubating microsomes with 4-hydroxynonenal. Ascorbate-dependent peroxidation caused a loss of protein thiol groups which was diminished by GSH only in fresh microsomes. Both boiling and trypsin treatment significantly decreased the basal protein thiol content of microsomes and enhanced ascorbate-stimulated lipid peroxidation. Protection against protein carbonyl group formation by GSH correlated with the inhibition of lipid peroxidation and appeared not to be due to the formation of the GSH conjugate of 4-hydroxynonenal as only trace amounts of this conjugate were detected. Ninety percent of the GSH lost after 60 min of peroxidation was recoverable as borohydride reducible material in the supernatant fraction. The remaining 10% could be accounted for as GSH-bound protein mixed disulfides. However, only 75% of the GSH lost during peroxidation appeared as glutathione disulfide, suggesting that some was converted to other soluble borohydride reducible forms. These data support a role for protein thiol groups in the GSH-mediated protection of microsomes against lipid peroxidation.
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PMID:Inhibition of protein carbonyl formation and lipid peroxidation by glutathione in rat liver microsomes. 173 26


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