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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostaglandin E1 is known to alter the structural and functional characteristics of red blood cells, yet, little is understood about the membrane receptors mediating this process. We therefore studied the binding of tritium-labeled prostaglandin E1 to the intact human erythrocyte membrane and demonstrated that the interaction is highly specific, rapid, saturable and reversible. Scatchard analysis of prostaglandin E1 binding to the membrane preparations showed the presence of two independent classes of prostaglandin E1 binding sites which differed in their affinity for the autacoid. The high-affinity class had Kd = 3.6 X 10(-9) M and the low-affinity class had Kd = 5.6 X 10(-5) M. The optimum pH for the binding of [3H]prostaglandin E1 to the erythrocyte membrane was found to be around 7.5 and maximum specific binding occurred at a concentration of 5 mM Mg2+ in the incubation mixture. [3H]Prostaglandin E1 bound to the membrane preparation could not be displaced by GTP or by its stable derivative Gpp[NH]p. However, prostaglandin E1 bound to the erythrocyte membrane preparation could be rapidly displaced by cyclic AMP. The IC50 (concentration of the nucleotide displacing 50% bound [3H]prostaglandin E1 from the membrane) was 75 nM. Other adenine nucleotides or cyclic GMP could not substitute for cyclic AMP. Unlike the right-side-out erythrocyte membrane, the inside-out membrane preparations do not bind [3H]prostaglandin E1. Treatment of right-side-out erythrocyte membrane preparation with neuraminidase markedly decreases the binding of prostaglandin E1. Incubation of the erythrocyte membrane preparation with trypsin resulted in total loss of the binding activity. These results indicate that the prostaglandin E1 binding sites located on the cell surface and sialic acid residues are required for prostaglandin E1 binding to the human erythrocytes. These results also indicated that the binding sites are glycoprotein in nature.
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PMID:Binding of prostaglandin E1 to human erythrocyte membrane. 298 99

In this report, we show that fluoride activates dark-adapted rod outer segment phosphodiesterase, and that this activation is mediated, in analogy with adenylate cyclase, through a GTP binding protein. The GTP binding protein is released from dark-adapted rod outer segment membranes by exposure to fluoride and subsequent centrifugation. The 39-kilodalton subunit of the GTP binding protein, released from the membrane by this procedure, exhibits altered susceptibility to limited trypsin proteolysis, identical to that seen when hydrolysis-resistant GTP analogs are bound to that subunit. Repeated exposure of dark-adapted rod outer segment membranes to fluoride and subsequent centrifugation results in maximal activation of the membrane-bound phosphodiesterase. Thus, activation of phosphodiesterase by fluoride in the dark appears similar to fluoride activation of adenylate cyclase.
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PMID:Photoreceptor GTP binding protein mediates fluoride activation of phosphodiesterase. 299 Dec 35

The nature of cytosolic factors which modulate the activity of rat liver phosphatidylethanolamine (PE) methyltransferase was investigated. The combined additions of cytosol, Mg X ATP, and NaF to incubations with rat liver microsomes produced a 1.6-fold activation of the methyltransferase at pH 9.2 and a 1.3-fold stimulation at pH 7.0. Nonhydrolyzable 5'-adenylylimidodiphosphate could not substitute for ATP, although GTP could. The activation was time dependent, stable to reisolation of the microsomes by ultracentrifugation, and partially preventable by other cytosolic components. Despite these indications that PE methyltransferase might be a substrate for cytosolic protein kinases, cAMP and Ca2+-calmodulin exerted little influence on the activation reaction. Furthermore, microsomal PE methyltransferase activity was unaffected by purified preparations of cAMP-dependent protein kinase, calmodulin-dependent protein kinase, and casein kinase II, nor was methyltransferase activity influenced by the purified catalytic subunits of protein phosphatases 1 and 2A. Cytosol also contained inhibitors of PE methyltransferase which could overcome the Mg X ATP X NaF-mediated activation of the enzyme, but were not affected by the thermostable phosphatase inhibitors 1 and 2. Part of this inhibitory activity (apparent molecular mass of 15 X 10(3) daltons) was insensitive to trypsin and chymotrypsin, stimulated by Mn2+, and partly inhibited by NaF. Therefore, regulation of methyltransferase by reversible phosphorylation, while still a tenable hypothesis, is apparently more complex than previously proposed.
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PMID:Regulation of rat liver phosphatidylethanolamine N-methyltransferase by cytosolic factors. Examination of a role for reversible protein phosphorylation. 301 87

The adenylyl cyclase system of the yeast Saccharomyces cerevisiae contains the CYR1 polypeptide, responsible for catalyzing formation of cAMP from ATP, and two RAS polypeptides, responsible for stimulation of cAMP synthesis by guanine nucleotides. We have determined hydrodynamic properties of yeast adenylyl cyclase in taurocholate extracts of wild type and RAS-deficient membranes. In taurocholate extracts of both kinds of membranes, the enzyme is insensitive to guanine nucleotide stimulation; in the presence of 0.5 M NaCl, the taurocholate-solubilized enzyme has a sedimentation coefficient of 12.5 S and a Stokes radius of 11 nm, consistent with a molecular weight of 594,000 for the protein-detergent complex. Treatment of particulate fractions with trypsin (less than 10 micrograms/ml) markedly activates membrane-bound adenylyl cyclase activity, abolishes stimulation by guanine nucleotides, and reduces the sedimentation coefficient of the detergent-solubilized enzyme; higher concentrations of trypsin release a still smaller water-soluble enzyme complex (7.5 S, 6.1 nm Stokes radius, calculated Mr = 190,000) from the membrane. In combination with genetic evidence (Kataoka, T., Broek, D., and Wigler M., (1985) Cell 43, 493-505), our data are consistent with a structural and functional model of yeast adenylyl cyclase in which GTP-activated RAS proteins stimulate cAMP synthesis by relieving an inhibitory constraint on the activity of the CYR1 gene product. This constraint may be mediated by the amino-terminal portion of the CYR1 polypeptide.
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PMID:Adenylyl cyclase in yeast. Hydrodynamic properties and activation by trypsin. 303 80

Eukaryotic initiation factor 2 (elF-2) was purified from the high-salt wash fraction of Drosophila melanogaster embryos. This factor, with a molecular mass of about 90 kDa, consists of two subunits of 47 kDa and 39 kDa on dodecylsulfate/polyacrylamide gel electrophoresis. The 39-kDa subunit is phosphorylated by the hemin-controlled inhibitor of rabbit reticulocytes in a terminal fragment which can be cleaved by mild treatment with trypsin. Drosophila elF-2 is not a substrate for protein kinases capable of phosphorylating the beta subunit of elF-2 from rabbit reticulocytes. It is also shown that Drosophila elF-2 can form a ternary complex with GTP and Met-tRNAi, which can be efficiently transferred to 40S ribosomes in the presence of AUG and Mg2+. This factor is able to form a binary complex with GDP. Furthermore, purified elF-2 contains about 0.3 mol bound GDP/mol suggesting a high affinity of the factor for this nucleotide. Data supporting the notion that this affinity is increased in the presence of Mg2+, which impairs the GDP/GTP exchange on elF-2, are presented. The properties of Drosophila elF-2 suggest that this factor may be susceptible to regulation by a mechanism like that operating on rabbit reticulocyte elF-2.
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PMID:Protein synthesis in Drosophila melanogaster embryos. Purification and characterization of polypeptide chain-initiation factor 2. 310 32

A GTP-binding protein serving as the specific substrate of islet-activating protein (IAP), pertussis toxin, was partially purified from human leukemic (HL-60) cells that had been differentiated into neutrophil type. The partially purified protein, referred to as GHL, predominantly consisted of at least two polypeptides with molecular masses of 40,000 daltons (alpha) and 36,000 or 35,000 daltons (beta). The structure was similar to Gi or Go previously purified from rat brain as an alpha beta gamma-heterotrimeric IAP substrate (Katada, T., Oinuma, M., and Ui, M. (1986) J. Biol. Chem. 261, 8182-8191), although the existence of the gamma of GHL was unclear. The 40,000-dalton polypeptide contained the site for IAP-catalyzed ADP-ribosylation and the binding site for guanine nucleotide with a high affinity. The 36,000- and 35,000-dalton polypeptides were cross-reacted with the affinity-purified antibody raised against the beta of brain Gi and Go. Limited proteolysis with trypsin and immunoblot analyses with the use of the affinity-purified antibodies raised against the alpha of brain Gi or Go indicated that the alpha of GHL was different from the alpha of Gi or Go. Kinetics of guanosine 5'-(3-O-thio)triphosphate (GTP gamma S) binding to GHL was also quite different from that to brain Gi or Go. Incubation of GHL with GTP gamma S resulted in a resolution into GTP gamma S-bound alpha and beta(gamma) thus purified had abilities to inhibit a membrane-bound adenylate cyclase activity and to associate with the alpha of brain IAP substrate in a fashion similar to the beta gamma of brain IAP substrates, suggesting that there were no significant differences in the biological activities between the beta(gamma) of GHL and those of Gi or Go. Physiological roles of the new GTP-binding protein, GHL, purified from the neutrophil-like cells in receptor-mediated signal transduction are discussed.
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PMID:A new GTP-binding protein in differentiated human leukemic (HL-60) cells serving as the specific substrate of islet-activating protein, pertussis toxin. 311 Jan 46

Type II heat-labile enterotoxin (LT-II) from Escherichia coli causes characteristic morphological changes and accumulation of cyclic AMP in Y-1 adrenal cells, but it is not neutralized by antisera against choleragen (CT) or the classical type I heat-labile enterotoxin (LT-1) from E. coli. The action of purified LT-II on CT- and LT-I-responsive human fibroblasts was investigated and compared with that of CT. Fibroblasts incubated with LT-II or CT had an increased cyclic AMP content as well as a fourfold elevation of membrane adenylate cyclase activity. In membranes, activation of cyclase by toxin was enhanced by NAD, GTP, and dithiothreitol. The effect of LT-II on intact fibroblasts or membranes was increased by trypsin treatment of toxin. Since activation of adenylate cyclase by LT-II was stimulated by NAD, the ability of LT-II to catalyze the [32P]ADP-ribosylation of membrane proteins in the presence of [32P]NAD from control and LT-II- and CT-treated fibroblasts was investigated. Similar proteins were [32P]ADP-ribosylated in membranes exposed to LT-II or CT; LT-II- and CT-specific labeling was significantly decreased in membranes prepared from cells preincubated with either LT-II or CT. These studies are consistent with the hypothesis that LT-II, similar to CT and LT-I, increases cyclic AMP by activating adenylate cyclase through the GTP-dependent ADP-ribosylation of specific membrane proteins.
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PMID:Type II heat-labile enterotoxin of Escherichia coli activates adenylate cyclase in human fibroblasts by ADP ribosylation. 311 12

The rate of trypsin cleavage of elongation factor 1 alpha having bound GDP is low and increases on exchange of GDP for GTP. The cleavage occurs at a unique position of the protein chain, namely at arginine-68 of Artemia EF-1 alpha. This increase in trypsin sensitivity is enhanced further in the presence of charged or uncharged transfer RNA. The local unfolding of EF-alpha at residue 68 is discussed in terms of a model in which GTP hydrolysis controls the positioning of a short 3'-terminal section of transfer RNA near the centre of peptide bond synthesis.
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PMID:A conserved amino acid sequence around Arg-68 of Artemia elongation factor 1 alpha is involved in the binding of guanine nucleotides and aminoacyl transfer RNAs. 312 36

The guanine nucleotide-binding proteins (G proteins), which transduce hormonal and light signals across the plasma membrane, are heterotrimers composed of alpha, beta, and gamma subunits. Activation of G proteins by guanine nucleotides is accompanied by dissociation of the heterotrimer: G + alpha.beta.gamma in equilibrium alpha G + beta.gamma. Brain contains several G proteins of which the most abundant are alpha 39.beta.gamma and alpha 41.beta.gamma. We have used proteolysis by trypsin to study the functional domains of the alpha subunits. In the presence of guanosine 5'-(3-O-thio)triphosphate, trypsin removes a 2-kDa peptide from the amino terminus of these proteins (Hurley, J. B., Simon, M. I., Teplow, D. B., Robishaw, J. D., and Gilman, A. G. (1984) Science 226, 860-862; Winslow, J. W., Van Amsterdam, J. R., and Neer, E. J. (1986) J. Biol. Chem. 261, 7571-7579). Tryptic cleavage does not affect the GTPase activity of the truncated molecule nor the apparent Km for GTP. However, removal of the 2-kDa amino-terminal peptide prevents association of the alpha subunits with beta.gamma. Since the apparent substrate for pertussis toxin-catalyzed ADP-ribosylation is the alpha.beta.gamma heterotrimer, the trypsin-cleaved alpha subunit is not a substrate for the toxin. Digestion of the carboxyl terminus of alpha 39 with carboxypeptidase A prevents ADP-ribosylation by pertussis toxin but does not interfere with the formation of alpha 39.beta.gamma heterotrimers. We do not yet know whether the amino-terminal region of alpha 39 interacts with beta gamma directly or whether it is necessary to maintain a conformation of alpha 39 which is required for heterotrimer formation. Further studies are needed to define the nature of the contracts between alpha and beta gamma subunits since understanding the structural basis for their reversible interaction is fundamental to understanding their function.
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PMID:The amino terminus of G protein alpha subunits is required for interaction with beta gamma. 313 54

Cytoplasmic elongation factor 1 alpha (EF-1 alpha) [corrected] was purified to homogeneity in high yield from the two different yeasts Saccharomyces carlsbergensis (S. carls.) and Schizosaccharomyces pombe (S. pombe). The purification was easily achieved by CM-Sephadex column chromatography of the breakthrough fractions from DEAE-Sephadex chromatography of cell-free extracts. The basic proteins have a molecular weight of 47,000 for the S. carls. factor and of 49,000 for the S. pombe factor. While the purified yeast EF-1 alpha s function analogously to other eukaryotic factors and the E. coli EF-Tu in Phe-tRNA binding and polyphenylalanine synthesis, the yeast factor unusually hydrolyzed GTP on yeast ribosomes upon addition of Phe-tRNA in the absence of poly(U) as mRNA. This novelty is probably owing to the yeast ribosomes, which are assumed to lack elongation factor 3-equivalent component(s). Trypsin and chymotrypsin selectively cleaved the two yeast factors to generate resistant fragments with the same molecular weight of 43,000 (by trypsin) and of 44,000 (by chymotrypsin), respectively. Those cleavage sites were characteristically protected by the presence of several ligands bound to EF-1 alpha such as GDP, GTP, and aminoacyl-tRNA. Based on the sequence analysis of the fragments generated by the two proteases, the partial amino acid sequence of the S. carls. EF-1 alpha was deduced to be in accordance with the N-terminal region covering positions (1) to 94 and two Lys residues at the C-terminal end of the predicted total sequence of the Saccharomyces cerevisiae (S. cerev.) factor derived from DNA analysis, except for a few N-terminal residues, confirming the predicted S. cerev. sequence at the protein level. EF-1 beta and EF-1 beta gamma were isolated and highly purified as biologically active entities from the two yeasts. EF-1 beta s from the two yeasts have the same molecular weight of 27,000, whereas component gamma of the S. carls. EF-1 beta gamma showed a higher molecular weight (47,000) than that of the S. pombe factor (40,000). It was also shown that a stoichiometric complex was formed between EF-1 alpha and EF-1 beta gamma from S. pombe. Furthermore, a considerable amount of Phe-tRNA binding activity was distributed in the EF-1H (probably EF-1 alpha beta gamma) fraction from freshly prepared cell-free extracts of yeast.
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PMID:Peptide elongation factor 1 from yeasts: purification and biochemical characterization of peptide elongation factors 1 alpha and 1 beta (gamma) from Saccharomyces carlsbergensis and Schizosaccharomyces pombe. 321 89


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