EC:2.5.1.18 - FACTA Search

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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two protein tyrosine phosphatase genes, PTP1 and PTP2, are known in Saccharomyces cerevisiae. However, the functions of these tyrosine phosphatases are unknown, because mutations in either or both phosphatase genes have no clear phenotypic effects. In this report, we demonstrate that although ptp2 has no obvious phenotype by itself, it has a profound effect on cell growth when combined with mutations in a novel protein phosphatase gene. Using a colony color sectoring assay, we isolated 25 mutants in which the expression of PTP1 or PTP2 is required for growth. Complementation tests of the mutants showed that they have a mutation in one of three genes. Cloning and sequence determination of one of these gene, PTC1, indicated that it encodes a homolog of the mammalian protein serine/threonine phosphatase 2C (PP2C). The amino acid sequence of the PTC1 product is approximately 35% identical to PP2C. Disruption of PTC1 indicated that the PTC1 function is nonessential. In contrast, ptc1 ptp2 double mutants showed a marked growth defect. To examine whether PTC1 encodes an active protein phosphatase, a glutathione S-transferase (GST)-PTC1 fusion gene was constructed and expressed in Escherichia coli. Purified GST-PTC1 fusion protein hydrolyzed a serine phosphorylated substrate in the presence of the divalent cation Mg2+ or Mn2+. GST-PTC1 also had weak (approximately 0.5% of its serine phosphatase activity) protein tyrosine phosphatase activity.
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PMID:Mutations in a protein tyrosine phosphatase gene (PTP2) and a protein serine/threonine phosphatase gene (PTC1) cause a synthetic growth defect in Saccharomyces cerevisiae. 839 5

Protein farnesyltransferase (FTase) catalyses the addition of a farnesyl group to a cysteine within the so-called 'CAAX box' at the C-terminus of various proteins. In the present paper we report purification of Saccharomyces cerevisiae FTase to near-homogeneity. This was accomplished by constructing a yeast strain overproducing FTase approx. 100-fold. The purified enzyme was a heterodimer of approx. 90 kDa and consisted of 43 kDa and 34 kDa subunits. The 43 kDa subunit was shown to be the product of the DPR1 gene by using antibody raised against baculovirus-produced DPR1 polypeptide. The purified enzyme required Mg2+, showed a pH optimum of 7.8 and was most active at 50 degrees C. The Km values for farnesyl pyrophosphate and GST-CIIS (glutathione S-transferase fused to the C-terminal 12 amino acids of yeast RAS2 protein), KmFpp and KmGST CIIS, were 8.1 and 5.1 microM respectively. The enzyme was capable of farnesylating GST-CIIL (the same as GST-CIIS, except that the C-terminal serine is changed to leucine), a substrate protein for the enzyme geranylgeranyltransferase, although with a higher apparent Km than for GST-CIIS. Like its mammalian counterpart, yeast FTase activity was inhibited by peptides containing the C-terminal CAAX sequence (that is, one where C = cysteine, A = aliphatic amino acid and X = any amino acid). These results provide direct evidence for the idea that the yeast and mammalian FTases are structurally and functionally very similar.
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PMID:Purified yeast protein farnesyltransferase is structurally and functionally similar to its mammalian counterpart. 842 64

Each chick liver glutathione S-transferase CL 3 subunit contains three histidine residues: His142, His158 and His228. CL 3-3 can be inactivated by treating with diethylpyrocarbonate. The inactivation process is pH dependent and the pKa of the modified residue is 6.4. The second-order inhibition rate constant is 741 M-1min-1 at pH 7.0. Based on difference-spectrum and kinetic analysis, inactivation coincides with the modification of one histidine residue. However, hydroxylamine treatment of the diethylpyrocarbonate-modified enzyme only partially restored the activity (30-50%) of CL 3-3. By tryptic mapping and amino acid sequence analysis, His228 and Lys14 have been identified as the modified residues. Mutants with histidine to serine replacement (H142S and H158S) or C-terminal histidine deletion (des-H228) were constructed and over-expressed in Spodoptera frugiperda cells using a baculovirus system. The mutants are enzymically active. Furthermore, the des-H228 mutant can be inactivated by diethylpyrocarbonate. These results support the conclusion that histidines are not involved in the enzymic mechanism of CL 3-3.
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PMID:Site-directed mutagenesis and chemical modification of histidine residues on an alpha-class chick liver glutathione S-transferase CL 3-3. Histidines are not needed for the activity of the enzyme and diethylpyrocarbonate modifies both histidine and lysine residues. 843 37

NIMA is the protein product of the nimA gene of the filamentous fungus Aspergillus nidulans, required for progression of cells from G2 into mitosis. The protein kinase activity of NIMA, assayed by phosphorylation of beta-casein, varies during the nuclear division cycle, reaching a maximum in late G2 and M. To investigate the biochemical properties of this cell cycle-regulated protein kinase, we have expressed nimA cDNA that encodes full-length NIMA in Escherichia coli as a fusion product with glutathione S-transferase. Purified NIMA phosphorylated beta-casein, with a Km of 38 microM and Vmax of 156 nmol/min/mg. NIMA also demonstrated a Km of 69 microM for ATP. Both recombinant and cellular NIMA kinases behaved as oligomers on gel filtration chromatography, and their kinase activities were strongly inhibited by various salts. By using both protein and peptide substrates, NIMA demonstrated a serine/threonine-specific protein kinase activity. Cellular NIMA exists as a phosphoprotein, and bacterially expressed NIMA was also phosphorylated on multiple serine/threonine residues. Some of these phosphorylations appeared essential for NIMA activity as the enzyme could be dephosphorylated and inactivated in vitro by protein serine/threonine phosphatases. Use of a kinase-negative mutant of NIMA revealed that the NIMA enzyme undergoes autophosphorylation when expressed at high concentrations in bacteria. Taken together, these data suggest that cellular mechanisms may exist to regulate the phosphorylation state and activity of the NIMA protein kinase during the nuclear division cycle in A. nidulans.
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PMID:Properties and regulation of the cell cycle-specific NIMA protein kinase of Aspergillus nidulans. 847 20

A specific antiserum against the human m3-muscarinic receptor subtype was made by subcloning a variant region of the third intracellular loop of the m3-receptor (Ser345-Leu463) into a bacterial expression plasmid that produced a fusion protein with glutathione S-transferase. In immunoblot studies this anti-serum identified the human m3-receptor expressed in transfected Chinese hamster ovary (CHO) cells (CHO-m3 cells, 1343 fmol/mg protein) as a diffuse band at approximately 97-110 kDa. In vivo labeling of the ATP pool in CHO-m3 cells with [32P]orthophosphate followed by immunoprecipitation of solubilized m3-receptors revealed that the unstimulated receptor existed in a phosphorylated form. Incubation of CHO-m3 cells with the cholinergic agonist carbachol (1 mM) increased the phosphorylated state of the receptor dramatically, primarily at serine. The time course for agonist-dependent phosphorylation was very rapid occurring within seconds of agonist addition and was maintained for at least 30 min. The muscarinic antagonist atropine (10 microM) inhibited agonist-stimulated phosphorylation. Neither forskolin (10 microM) nor the calcium ionophore, ionomycin (1 microM), had any effect on the state of phosphorylation of the m3-receptor, eliminating a role for cAMP-dependent protein kinase and Ca2+/calmodulin-dependent protein kinase in the agonist-dependent phosphorylation of m3-receptors. 4 beta-Phorbol 12 beta-myristate 13 alpha-acetate (100 nM) did increase m3-receptor phosphorylation, an effect that was inhibited by the selective protein kinase C inhibitor RO-318220 (10 microM). However, agonist-stimulated m3-receptor phosphorylation was not inhibited by RO-318220 indicating that protein kinase C was not involved in agonist-induced m3-receptor phosphorylation. In conclusion the phosphorylation of m3-receptors, in vivo, was increased following the application of muscarinic agonist or PMA. The response to agonist was mediated via a kinase distinct from protein kinase C, protein kinase A and Ca2+/calmodulin dependent protein kinase, whereas the effect of 4 beta-phorbol 12 beta-myristate 13 alpha-acetate was mediated by protein kinase C.
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PMID:Rapid agonist-mediated phosphorylation of m3-muscarinic receptors revealed by immunoprecipitation. 848 62

Histatin 1 is a histidine-rich phosphoprotein present in human parotid saliva that possesses candidacidal activity and functions in mineralization by adsorbing to hydroxyapatite. The objective of the present study was to develop a system for recombinant production of histatin 1 and to examine the role of phosphorylation in the functional activities of this molecule. Native histatin 1 (containing a phosphoserine at residue 2) was purified from parotid saliva, whereas a bacterial expression system was used to produce a recombinant form of histatin 1 (re-Hst1) that lacked phosphorylated serine. Histatin 1 cDNA was inserted into the vector pGEX-3X, which expresses foreign genes as soluble fusion proteins attached to the carboxyl-terminus of glutathione S-transferase (GST). The GST/re-Hst1 fusion protein was isolated from cell lysates by affinity chromatography on glutathione (GSH)-Sepharose and digested with cyanogen bromide to separate re-Hst1 from the GST fusion partner. The digest was subjected to reversed-phase high-performance liquid chromatography on a C18 column, and re-Hst1 was eluted as a well-defined peak. The yield of re-Hst1 was 4 mg/L of bacterial culture. Amino-terminal sequencing and amino acid analysis confirmed the final product as re-Hst1. Sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) showed that native histatin 1 and re-Hst1 had the same apparent molecular weights, while cationic PAGE showed that re-Hst1 was more basic. Phosphate analysis indicated 1 mol phosphate/mol of native histatin 1, while re-Hst1 lacked any detectable phosphate. Re-Hst1 demonstrated candidacidal activity comparable to that of native histatin 1, but displayed substantially lower binding to hydroxyapatite. These results show that phosphorylation of histatin 1 at residue 2 contributes significantly to its ability to bind to hydroxyapatite.
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PMID:Functional comparison of native and recombinant human salivary histatin 1. 860 Jan 79

Cytokines regulate cell growth by inducing the expression of specific target genes. Using the differential display method, we have cloned a cytokine-inducible immediate early gene, DUB-1 (for deubiquitinating enzyme). DUB-1 is related to members of the UBP superfamily of deubiquitinating enzymes, which includes the oncoprotein Tre-2. A glutathione S-transferase-DUB-1 fusion protein cleaved ubiquitin from a ubiquitin-beta-galactosidase protein. When a conserved cysteine residue of DUB-1, required for ubiquitin-specific thiol protease activity, was mutated to serine (C60S), deubiquitinating activity was abolished. Continuous expression of DUB-1 from a steroid-inducible promoter induced growth arrest in the G1 phase of the cell cycle. Cells arrested by DUB-1 expression remained viable and resumed proliferation upon steroid withdrawal. Our results suggest that DUB-1 regulates cellular growth by modulating either the ubiquitin-dependent proteolysis or the ubiquitination state of an unknown growth regulatory factor(s).
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PMID:DUB-1, a deubiquitinating enzyme with growth-suppressing activity. 862 27

The cDNA of a novel, ubiquitously expressed protein kinase (Dyrk) was cloned from a rat brain cDNA library. The deduced amino acid sequence (763 amino acids) contains a catalytic domain that is only distantly related to that of other mammalian protein kinases. Its closest relative is the protein kinase Mnb of Drosophila, which is presumably involved in postembryonic neurogenesis (85% identical amino acids within the catalytic domain). Outside the catalytic domain, the sequence comprises several striking structural features: a bipartite nuclear translocation signal, a tyrosine-rich hydrophilic motif flanking the nuclear localization signal, a PEST region, a repeat of 13 histidines, a repeat of 17 serine/threonine residues, and an alternatively spliced insertion of nine codons. A recombinant glutathione S-transferase-Dyrk fusion protein catalyzed autophosphorylation and histone phosphorylation on tyrosine and serine/threonine residues with an apparent Km of approximately 3.4 microM. Exchange of two tyrosine residues in the "activation loop" between subdomains VII and VIII for phenylalanine almost completely suppressed the activity and tyrosine autophosphorylation of Dyrk. Tyrosine autophosphorylation was also reduced by exchange of the tyrosine (Tyr-219) in a tyrosine phosphorylation consensus motif. The data suggest that Dyrk is a dual specificity protein kinase that is regulated by tyrosine phosphorylation in the activation loop and might be a component of a signaling pathway regulating nuclear functions.
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PMID:Dyrk, a dual specificity protein kinase with unique structural features whose activity is dependent on tyrosine residues between subdomains VII and VIII. 863 52

The rate-determining steps in the phosphorylation of four tyrosine-containing peptides by the kinase domain of the nonreceptor tyrosine protein kinase v-fps were measured using viscosometric methods. The peptides were phosphorylated by a fusion protein of glutathione-S-transferase and the kinase domain of v-fps (GST-kin) and the initial velocities were determined by a coupled enzyme assay. Peptides I (EEEIYEEIE), II (EAEIYEAIE), and III (DADIYDAID) were phosphorylated by GST-kin with similar kinetic constants. The viscosogens, glycerol and sucrose, were found to have intermediate effects on kcat and no effect on kcat/Kpeptide for the phosphorylation of these three peptides. The data are interpreted according to the Stokes-Einstein equation and a simple three-step mechanism involving substrate binding, phosphoryl group transfer, and net product release. Two competitive inhibitors (EAEIFEAIE and DADIFDAID) exhibited K1 values that are 6-10-fold higher than the Kpeptide values for their analogous peptide substrates. The data imply that peptides I-III are in rapid equilibrium with the enzyme and that kcat is partially limited by both phosphoryl group transfer (40-100 s-1) and product release (17-22 s-1). GST-kin phosphorylates peptide IV (R5AENLEYamide) with a low Km (100 microM) and a kcat that is 40-fold lower than that for peptide I. No effect of solvent viscosity was observed for the phosphorylation of this peptide on either kcat or kcat/Kpeptide. This suggests that highly viscous solutions do not perturb structure and that the rate-determining step for this poor substrate is phosphoryl group transfer. The data indicate that the kinase domain of v-fps phosphorylates its best substrate with a chemical rate constant that is at least 5-fold lower than that for the serine-specific cAMP-dependent protein kinase and its best substrate LRRASLG (Adams & Taylor, 1992). Interestingly, both enzymes exhibit a similar affinity for their substrates and both enzymes release their products at a similar rate. This implies that the differences in catalytic efficiency between serine- and tyrosine-specific protein kinases lie exclusively in the rate constants for phosphoryl group transfer and not in substrate absorption or product desorption.
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PMID:Rate-determining steps for tyrosine phosphorylation by the kinase domain of v-fps. 863 84

The function of the long propeptides of fungal proteinases is not known. Aspergillus fumigatus produces a 33-kDa serine proteinase of the subtilisin family and a 42-kDa metalloproteinase of the thermolysin family. These extracellular enzymes are synthesized as preproenzymes containing large amino-terminal propeptides. Recombinant propeptides were produced in Escherichia coli as soluble fusion proteins with glutathione S-transferase or thioredoxin and purified by affinity chromatography. A. fumigatus serine proteinase propeptide competitively inhibited serine proteinase, with a Ki of 5.3 x 10(-6) M, whereas a homologous serine proteinase from A. flavus was less strongly inhibited and subtilisin was not inhibited. Binding of metalloproteinase propeptide from A. fumigatus to the mature metalloenzyme was demonstrated. This propeptide strongly inhibited its mature enzyme, with a Ki of 3 x 10(-9) M, whereas thermolysin and a metalloproteinase from A. flavus were not inhibited by this propeptide. Enzymatically inactive metalloproteinase propeptide complex could be completely activated by trypsin treatment. These results demonstrate that the propeptides of the fungal proteinases bind specifically and inhibit the respective mature enzymes, probably reflecting a biological role of keeping these extracellular enzymes inactive until secretion.
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PMID:Specific inhibition of mature fungal serine proteinases and metalloproteinases by their propeptides. 863 20

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