Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Hantaviruses cause two severe diseases, haemorrhagic fever with renal syndrome in Eurasia and hantavirus pulmonary syndrome in the Americas. To understand more about the molecular mechanisms that lead to these diseases, the associations of Puumala virus nucleocapsid protein (PUUV-N) with cellular proteins were studied by yeast two-hybrid screening. Daxx, known as an apoptosis enhancer, was identified from a HeLa cDNA library and its interaction with PUUV-N was confirmed by GST pull-down assay, co-immunoprecipitation and co-localization studies. Furthermore, domains of interaction were mapped to the carboxyl-terminal region of 142 amino acids in Daxx and the carboxyl-terminal 57 residues in PUUV-N, respectively. In pepscan assays, the binding sites of Daxx to PUUV-N were mapped further to two lysine-rich regions, of which one overlaps the sequence of the predicted nuclear localization signal of Daxx. These data suggest a direct link between host cell machinery and a hantavirus structural component.
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PMID:Hantavirus nucleocapsid protein interacts with the Fas-mediated apoptosis enhancer Daxx. 1190 24

The carboxyl-terminal domain (CTD) of the p90 ribosomal S6 kinases (RSKs) is an important regulatory domain in RSK and a model for kinase regulation of FXXFXF(Y) motifs in AGC kinases. Its properties had not been studied. We reconstituted activation of the CTD in Escherichia coli by co-expression with active ERK2 mitogen-activated protein kinase (MAPK). GST-RSK2-(aa373-740) was phosphorylated in the P-loop (Thr(577)) by MAPK, accompanied by increased phosphorylation on the hydrophobic motif site, Ser(386). Activated GST-RSK2-(aa373-740) phosphorylates synthetic peptides based on Ser(386). The peptide RRQLFRGFSFVAK, which was termed CTDtide, was phosphorylated with K(m) and V(max) values of approximately 140 microm and approximately 1 micromol/min/mg, respectively. Residues Leu at p -5 and Arg at p -3 are important for substrate recognition, but a hydrophobic residue at p +4 is not. RSK2 CTD is a much more selective peptide kinase than MAPK-activated protein kinase 2. CTDtide was used to probe regulation of hemagglutinin-tagged RSK proteins immunopurified from epidermal growth factor-stimulated BHK-21 cells. K100A but not K451A RSK2 phosphorylates CTDtide, indicating a requirement for the CTD. RSK2-(aa1-389) phosphorylates the S6 peptide, and this activity is inactivated by S386A mutation, but RSK2-(aa1-389) does not phosphorylate CTDtide. In contrast, RSK2-(aa373-740) containing only the CTD phosphorylates CTDtide robustly. Thus, CTDtide is phosphorylated by the CTD but not the NH(2)-terminal domain (NTD). Epidermal growth factor activates the CTD and NTD in parallel. Activity of the CTD for peptide phosphorylation correlates with Thr(577) phosphorylation. CTDtide activity is constrained in full-length RSK2. Interestingly, mutation of the conserved lysine in the ATP-binding site of the NTD completely eliminates S6 kinase activity, but a similar mutation of the CTD does not completely ablate kinase activity for intramolecular phosphorylation of Ser(386), even though it greatly reduces CTDtide activity. The standard lysine mutation used routinely to study kinase functions in vivo may be unsatisfactory when the substrate is intramolecular or in a tight complex.
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PMID:Characterization of the p90 ribosomal S6 kinase 2 carboxyl-terminal domain as a protein kinase. 1201 17

Ntg2p is a DNA N-glycosylase/apurinic or apyrimidinic lyase involved in base excision repair of oxidatively damaged DNA in Saccharomyces cerevisiae. Using a yeast two-hybrid screen and a GST in vitro transcription and translation assay, the mismatch repair (MMR) protein Mlh1p was demonstrated to interact physically with Ntg2p. The Mlh1p binding site maps to amino acids residues 15-40 of Ntg2p. The Ntg2p binding site is localized in the C-terminal end (483-769) of Mlh1p. Overproduction of Ntg2p results in a mutator phenotype with enhanced frameshift reversion frequency, suggesting partial inhibition of the MMR pathway. In contrast, inactivation of NTG2 does not enhance mutagenesis, indicating that Ntg2p is not required for MMR. Site-directed mutagenesis of the Mlh1p binding domain of Ntg2p revealed three amino acids (Ser(24), Tyr(26), Phe(27)) that are absolutely required for Ntg2p-Mlh1p interaction. These residues are part of a motif found in Ntg2p (Arg(23)-Ser(24)-Lys(25)-Tyr(26)-Phe(27)), Exo1p (Arg(444)-Ser(445)-Lys(446)-Phe(447)-Phe(448)), and Sgs1p (Lys(1383)-Ser(1384)-Lys(1385)-Phe(1386)-Phe(1387)). In these three proteins, the motif is part of the domain that interacts with the C-terminal end of Mlh1p. Furthermore, S445A, F447A, and F448A mutants of Exo1p do not bind Mlh1p, but the wild type Exo1p does. Therefore, we propose that the R/K-S-R/K-Y/F-Y/F sequence could define a Mhl1 binding motif. The results also suggest that base excision repair and MMR can cooperate to prevent deleterious effects of oxidative DNA damage.
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PMID:Ntg2p, a Saccharomyces cerevisiae DNA N-glycosylase/apurinic or apyrimidinic lyase involved in base excision repair of oxidative DNA damage, interacts with the DNA mismatch repair protein Mlh1p. Identification of a Mlh1p binding motif. 1204 6

Human cytomegalovirus UL97 is an unusual protein kinase that can phosphorylate nucleoside analogs such as ganciclovir but whose specificity for exogenous protein substrates has remained unknown. We found that purified, recombinant glutathione S-transferase-UL97 fusion protein can phosphorylate histone H2B. Phosphorylation was abrogated by substitution of glutamine for a conserved lysine in subdomain II and inhibited by a new antiviral drug, maribavir. Sequencing and mass spectrometric analyses of purified (32)P-labeled tryptic peptides of H2B revealed that the sites of phosphorylation were, in order of extent, Ser-38, Ser-87, Ser-6, Ser-112, and Ser-124. Phosphorylation of synthetic peptides containing these sites, analyzed using a new, chimeric gel system, correlated with their phosphorylation in H2B. Phosphorylation of the Ser-38 peptide by UL97 occurred on Ser-38 and was specifically sensitive to maribavir, whereas phosphorylation of this peptide by cAMP-dependent protein kinase occurred on Ser-36. The extent of phosphorylation was greatest with peptides containing an Arg or Lys residue 5 positions downstream (P+5) from the Ser. Substitution with Ala at this position essentially eliminated activity. These results identify exogenous protein and peptide substrates of UL97, reveal an unusual dependence on the P+5 position, and may abet discovery of new inhibitors of UL97 and human cytomegalovirus replication.
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PMID:Specific phosphorylation of exogenous protein and peptide substrates by the human cytomegalovirus UL97 protein kinase. Importance of the P+5 position. 1204 83

Tastin was originally identified as an accessory protein for trophinin, a cell adhesion molecule that potentially mediates the initial attachment of the human embryo to the uterine epithelium. However, no information regarding tastin's function is available to date. The present study is aimed at understanding the role of tastin in mammalian cells. Hence, we examined the intracellular localization of tastin in human cell lines transfected with an expression vector encoding influenza virus haemagglutinin (HA)-tagged tastin. Ectopically expressed HA-tastin was seen as a pattern resembling the fibres that overlap the microtubular cytoskeleton. When HA-tastin-expressing cells were cultured with nocodazole to disrupt microtubule (MT) polymerization, tastin was dispersed to the entire cytoplasm and an MT sedimentation assay showed tastin in the supernatant; however, tastin was sedimented with polymeric MTs in cell lysates not treated with nocodazole. Sedimentation assays using HA-tastin mutants deleted at the N- or C-terminus revealed MT-binding activity associated with the N-terminal basic region of tastin. A yeast two-hybrid screen for tastin-interacting proteins identified Tctex-1, one of the light chains of cytoplasmic dynein, as a tastin-binding protein. Immunoprecipitation and Western-blot analysis confirmed binding of HA-tagged tastin and FLAG (Asp-Tyr-Lys-Asp-Asp-Asp-Asp-Lys epitope)-tagged Tctex-1 in human cells. Furthermore, in vitro assays have demonstrated the binding between a fusion protein, glutathione S-transferase-Tctex-1, and in vitro translated (35)S-labelled tastin. As Tctex-1 is a component of a MT-based molecular motor, these results suggest that tastin plays an important role in mammalian cells by associating with the microtubular cytoskeleton.
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PMID:Human tastin, a proline-rich cytoplasmic protein, associates with the microtubular cytoskeleton. 1204 30

It is a well known phenomenon that the occurrence of several distinct amino acids at the C-terminus of proteins is non-random. We have analysed all Saccharomyces cerevisiae proteins predicted by computer databases and found lysine to be the most frequent residue both at the last (-1) and at the penultimate amino acid (-2) positions. To test the hypothesis that C-terminal basic residues efficiently bind to phospholipids we randomly expressed GST-fusion proteins from a yeast genomic library. Fifty-four different peptide fragments were found to bind phospholipids and 40% of them contained lysine/arginine residues at the (-1) or (-2) positions. One peptide showed high sequence similarity with the yeast protein Sip18p. Mutational analysis revealed that both C-terminal lysine residues of Sip18p are essential for phospholipid-binding in vitro. We assume that basic amino acid residues at the (-1) and (-2) positions in C-termini are suitable to attach the C-terminus of a given protein to membrane components such as phospholipids, thereby stabilizing the spatial structure of the protein or contributing to its subcellular localization. This mechanism could be an additional explanation for the C-terminal amino acid bias observed in proteins of several species.
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PMID:Role of paired basic residues of protein C-termini in phospholipid binding. 1208 71

Cyclophilin 40 (CyP40) is a tetratricopeptide repeat (TPR)-containing immunophilin and a modulator of steroid receptor function through its binding to heat shock protein 90 (Hsp90). Critical to this binding are the carboxyl-terminal MEEVD motif of Hsp90 and the TPR domain of CyP40. Two different models of the CyP40-MEEVD peptide interaction were used as the basis for a comprehensive mutational analysis of the Hsp90-interacting domain of CyP40. Using a carboxyl-terminal CyP40 construct as template, 24 amino acids from the TPR and flanking acidic and basic domains were individually mutated by site-directed mutagenesis, and the mutants were coexpressed in yeast with a carboxyl-terminal Hsp90beta construct and qualitatively assessed for binding using a beta-galactosidase filter assay. For quantitative assessment, mutants were expressed as glutathione S-transferase fusion proteins and assayed for binding to carboxyl-terminal Hsp90beta using conventional pulldown and enzyme-linked immunosorbent assay microtiter plate assays. Collectively, the models predict that the following TPR residues help define a binding groove for the MEEVD peptide: Lys-227, Asn-231, Phe-234, Ser-274, Asn-278, Lys-308, and Arg-312. Mutational analysis identified five of these residues (Lys-227, Asn-231, Asn-278, Lys-308, and Arg-312) as essential for Hsp90 binding. The other two residues (Phe-234 and Ser-274) and another three TPR domain residues not definitively associated with the binding groove (Leu-284, Lys-285, and Asp-329) are required for efficient Hsp90 binding. These data confirm the critical importance of the MEEVD binding groove in CyP40 for Hsp90 recognition and reveal that additional charged and hydrophobic residues within the CyP40 TPR domain are required for Hsp90 binding.
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PMID:A structure-based mutational analysis of cyclophilin 40 identifies key residues in the core tetratricopeptide repeat domain that mediate binding to Hsp90. 1214 16

Mutations in the SALL1 gene on chromosome 16q12.1 cause Townes-Brocks syndrome (TBS). This autosomal dominantly inherited disorder is characterized by typical malformations of the thumbs, the ears, and the anus, and also commonly affects the kidneys and other organ systems. SALL1 has recently been shown to localize to chromocenters and other heterochromatin foci in murine fibroblasts and to interact with the telomere-repeat-binding factor TRF1/PIN2. Here, we show that the ubiquitin-conjugating enzyme 2I (UBE2I), the human homolog of S. cerevisiae UBC9, and the small ubiquitin-like modifier-1 (SUMO-1) interact with SALL1 in the yeast two-hybrid system. The interaction of SALL1 and UBE2I was confirmed in a glutathione S-transferase (GST) pull-down experiment. In an in vitro assay, it could be demonstrated that SALL1 is covalently modified by at least two SUMO-1 molecules in the presence of UBA2/AOS1 and UBE2I. Mutation of lysine 1086 of SALL1 to arginine abrogates SALL1 sumoylation, suggesting the presence of a polymeric SUMO-1 chain in the wild type state.
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PMID:Interaction of the developmental regulator SALL1 with UBE2I and SUMO-1. 1220 Jan 28

The current knowledge on biological protein acetylation is confined to acetyl CoA-dependent acetylation of protein catalyzed by specific acetyl transferases and the non-enzymatic acetylation of protein by acetylated xenobiotics such as aspirin. We have discovered a membrane-bound enzyme catalyzing the transfer of acetyl groups from the acetyl donor 7,8-diacetoxy-4-methyl coumarin (DAMC) to glutathione S-transferase 3-3 (GST3-3), termed DAMC:protein transacetylase (TAase). The purified enzyme was incubated with recombinant GST3-3 subunit and DAMC, the modified protein was isolated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) in gel digested with trypsin and the tryptic digest was analyzed by mass spectrometry. The N-terminus and six lysines, Lys-51, -82, -124, -181, -191 and -210, were found to be acetylated. The acetylation of GST3-3 described above was not observed in the absence of either DAMC or TAase. These results clearly establish the phenomenon of protein acetylation independent of acetyl CoA catalyzed by a hitherto unknown enzyme (TAase) utilizing a certain xenobiotic acetate (DAMC) as the active acetyl donor.
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PMID:Establishment of the enzymatic protein acetylation independent of acetyl CoA: recombinant glutathione S-transferase 3-3 is acetylated by a novel membrane-bound transacetylase using 7,8-diacetoxy-4-methyl coumarin as the acetyl donor. 1238 81

Application of an in vitro antioxidant assay to solvent fractions isolated from bread crust, bread crumb, and flour, respectively, revealed the highest antioxidative potential for the dark brown, ethanol solubles of the crust, whereas corresponding crumb and flour fractions showed only minor activities. To investigate whether these browning products may also act as antioxidants in biological systems, their modulating activity on detoxification enzymes was investigated as a functional parameter in intestinal Caco-2 cells. The bread crust and, in particular, the intensely brown, ethanolic crust fraction induced a significantly elevated glutathione S-transferase (GST) activity and a decreased phase I NADPH-cytochrome c reductase (CCR) activity compared to crumb-exposed cells. Antioxidant screening of Maillard-type model mixtures, followed by structure determination, revealed the pyrrolinone reductones 1 and 2 as the key antioxidants formed from the hexose-derived acetylformoin and N(alpha)-acetyl-L-lysine methyl ester or glycine methyl ester, chosen as model substances to mimic nonenzymatic browning reactions with the lysine side chain or the N terminus of proteins, respectively. Quantitation of protein-bound pyrrolinone reductonyl-lysine, abbreviated pronyl-lysine, revealed high amounts in the bread crust (62.2 mg/kg), low amounts in the crumb (8.0 mg/kg), and the absence of this compound in untreated flour. Exposing Caco-2 cells for 48 h to either synthetically pronylated albumin or purified pronyl-glycine (3) significantly increased phase II GST activity by 12 or 34%, respectively, thus demonstrating for the first time that "pronylated" proteins as part of bread crust melanoidins act as monofunctional inducers of GST, serving as a functional parameter of an antioxidant, chemopreventive activity in vitro.
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PMID:Structural and functional characterization of pronyl-lysine, a novel protein modification in bread crust melanoidins showing in vitro antioxidative and phase I/II enzyme modulating activity. 1242 50


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