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

The Rieske 2Fe-2S protein is a distinguishing subunit of the photosynthetic electron transport cytochrome b6f complex in chloroplast and cyanobacterial thylakoid membranes. We have constructed plasmids for overproduction in Escherichia coli of fusion, full-length, and truncated forms of the Rieske (PetC) protein from the cyanobacterium Nostoc sp. PCC 7906. A glutathione S-transferase/Rieske fusion protein was used to prepare specific chicken egg-yolk antibodies against the Rieske protein. Expression of the nonfusion petC gene in a T7 RNA polymerase promoter vector produced copious quantities of the full-length Rieske protein predominantly as inclusion bodies. The highly enriched, Rieske protein from inclusion bodies has been denatured in guanidine hydrochloride and refolded and the characteristic 2Fe-2S cluster reconstituted in vitro by incubation with iron and sulfide under reducing conditions. Purification by chromatography on Whatman DE52 cellulose and ultrafiltration through a 30000 molecular weight cutoff membrane yielded pure and predominantly monomeric Rieske protein. Reconstituted Rieske preparations showed intense and highly characteristic gx = 1.74, gy = 1.89, and gz = 2.03 "Rieske-type" electron paramagnetic resonance signals at 15 K. Two methods of reconstitution yielded Rieske preparations in which 20-60% of the protein contained 2Fe-2S clusters as determined by EPR spin quantitation. The reconstituted Rieske protein was soluble and stable at 4 degrees C in buffers containing nonionic detergents and showed a redox midpoint potential of +321 mV at pH 7.0 as determined by optical circular dichroism (CD) spectroscopy. These data demonstrate the in vitro restoration of a Cys and His liganded 2Fe-2S cluster and provide the basis for mutational and structural analysis of a PetC Rieske protein of oxygenic photosynthesis.
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PMID:Reconstitution of the 2Fe-2S center and g = 1.89 electron paramagnetic resonance signal into overproduced Nostoc sp. PCC 7906 Rieske protein. 895 2

An olfactory receptor has been expressed in bacterial cells as a fusion protein with glutathione S-transferase (GST). Overexpression of receptor protein yielding about 10% of the cell protein was achieved with mutants lacking the N-terminus and the first transmembrane region or with mutants carrying three positively charged residues in the first intracellular loop. The overexpressed fusion protein accumulated in inclusion bodies and could be solubilized in detergent. It was purified by metal chelation chromatography based on a C-terminal 6-histidine tag, and the GST portion was removed after proteolytic cleavage. The purified receptor was reconstituted into lipid vesicles and specific binding of odor ligands was shown by photoaffinity labeling and tryptophan fluorescence measurements. Thus, for the first time, an odorant receptor/ligand pair becomes available in large amounts for biophysical and screening studies.
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PMID:Expression of an olfactory receptor in Escherichia coli: purification, reconstitution, and ligand binding. 897 78

We previously compared the structure and motility suppressive capacity of nm23-H1 by transfection of wild type and site-directed mutant forms into breast carcinoma cells. Wild type nm23-H1 and an nm23-H1(S44A) (serine 44 to alanine) mutant suppressed motility, whereas the nm23-H1(P96S), nm23-H1(S120G), and to a lesser extent, nm23-H1(S120A) mutant forms failed to do so. In the present study wild type and mutant recombinant Nm23-H1 proteins have been produced, purified, and assayed for phosphorylation and phosphotransfer activities. We report the first association of Nm23-H1 mutations lacking motility suppressive capacity with decreased in vitro activity in histidine-dependent protein phosphotransferase assays. Nm23-H1(P96S), a Drosophila developmental mutation homolog, exhibited normal autophosphorylation and nucleoside-diphosphate kinase (NDPK) characteristics but deficient phosphotransfer activity in three histidine protein kinase assays, using succinic thiokinase, Nm23-H2, and GST-Nm23-H1 as substrates. Nm23-H1(S120G), found in advanced human neuroblastomas, exhibited deficient activity in several histidine-dependent protein phosphotransfer reactions, including histidine autophosphorylation, downstream phosphorylation on serines, and slightly decreased histidine protein kinase activity; significant NDPK activity was observed. The Nm23-H1(S120A) mutant was deficient in only histidine-dependent serine autophosphorylation. Nm23-H1 and Nm23-H1(S44A) exhibited normal activity in all assays conducted. Based on this correlation, we hypothesize that a histidine-dependent protein phosphotransfer activity of Nm23-H1 may be responsible for its biological suppressive effects.
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PMID:Site-directed mutation of Nm23-H1. Mutations lacking motility suppressive capacity upon transfection are deficient in histidine-dependent protein phosphotransferase pathways in vitro. 903 58

The human immunodeficiency virus type 1 Nef protein was expressed in Escherichia coli as a C-terminal fusion with glutathione S-transferase (GST). The ability of GST-Nef to act as a substrate for cellular kinases in vitro was examined by incubation of purified GST-Nef fusion proteins, immobilized on glutathione-agarose beads, with cytoplasmic extracts from a number of human cell lines. In the presence of [gamma32P]ATP, phosphorylation of Nef occurred predominantly on serine residues. Studies with protein kinase inhibitors suggested that protein kinase C (PKC) was involved in Nef phosphorylation. This was supported further by the demonstration that purified PKC was also able to phosphorylate Nef in the absence of cell extract. Serine/threonine phosphorylation of Nef was also observed in vivo when Nef was expressed with a C-terminal GST or 6-histidine tag in Spodoptera frugiperda insect cells by recombinant baculoviruses. In extracts from Jurkat T cells and U937 monocyte/macrophages Nef also associated with a 57 kDa cellular protein that was itself phosphorylated in vitro. Phosphorylation of this Nef-associated protein was inhibited by heparin and is thus likely to be mediated by casein kinase II. The observation that PKC can phosphorylate Nef in vitro raises the possibility that PKC might play a role in regulating both Nef function and the physical interactions between Nef and cellular components.
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PMID:The human immunodeficiency virus type 1 Nef protein functions as a protein kinase C substrate in vitro. 904 29

Phosphorylation of the p53 tumor suppressor protein is known to modulate its functions. Using bacterially produced glutathione S-transferase (GST)-p53 fusion protein and baculovirus-expressed histidine-tagged p53 ((His)p53), we have determined human p53 phosphorylation by purified forms of jun-N-kinase (JNK), protein kinase A (PKA), and beta subunit of casein kinase II (CKIIbeta) as well as by kinases present in whole cell extracts (WCEs). We demonstrate that PKA is potent p53 kinase, albeit, in a conformation- and concentration-dependent manner, as concluded by comparing full-length with truncated forms of p53. We further demonstrate JNK interaction with GST-p53 and the ability of JNK to phosphorylate truncated forms of GST-p53 or full-length (His)p53. Dependence of phosphorylation on conformation of p53 is further supported by the finding that the wild-type form of p53 (p53wt) undergoes better phosphorylation by CKIIbeta and by WCE kinases than mutant forms of p53 at amino acid 249 (p53(249)) or 273 (p53(273)). Moreover, shifting the kinase reaction's temperature from 37 degrees C to 18 degrees C reduces the phosphorylation of mutant p53 to a greater extent than of p53wt. Comparing truncated forms of p53 revealed that the ability of CKIIbeta, PKA, or WCE kinases to phosphorylate p53 requires amino acids 97-155 within the DNA-binding domain region. Among three 20-aa peptides spanning this region we have identified residues 97-117 that increase p53 phosphorylation by CKIIbeta while inhibiting p53 phosphorylation by PKA or WCE kinases. The importance of this region is further supported by computer modeling studies, which demonstrated that mutant p53(249) exhibits significant changes to the conformation of p53 within amino acids 97-117. In summary, phosphorylation-related analysis of different p53 forms in vitro indicates that conformation of p53 is a key determinant in its availability as a substrate for different kinases, as for the phosphorylation pattern generated by the same kinase.
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PMID:Conformation-dependent phosphorylation of p53. 905 Aug 39

The cDNA encoding human glutathione S-transferase (GST) T1 has been expressed as two recombinant forms in Escherichia coli that could be purified by affinity chromatography on either IgG-Sepharose or nickel-agarose; one form of the transferase was synthesized from the pALP 1 expression vector as a Staphylococcus aureus protein A fusion, whereas the other form was synthesized from the pET-20b expression vector as a C-terminal polyhistidine-tagged recombinant. The yields of the two purified recombinant proteins from E. coli cultures were approx. 15 mg/l for the protein A fusion and 25 mg/l for the C-terminal polyhistidine-tagged GST T1-1. The purified recombinant proteins were catalytically active, although the protein A fusion was typically only 5-30% as active as the histidine-tagged GST. Both recombinant forms could catalyse the conjugation of glutathione with the model substrates 1,2-epoxy-3-(4'-nitrophenoxy)propane,4-nitrobenzyl chloride and 4-nitrophenethyl bromide but were inactive towards 1-chloro-2,4-dinitrobenzene, ethacrynic acid and 1-menaphthyl sulphate. Recombinant human GST T1-1 was found to exhibit glutathione peroxidase activity and could catalyse the reduction of cumene hydroperoxide. In addition, recombinant human GST T1-1 was found to conjugate glutathione with dichloromethane, a pulmonary and hepatic carcinogen in the mouse. Immunoblotting with antibodies raised against different transferase isoenzymes showed that GST T1-1 is expressed in a large number of human organs in a tissue-specific fashion that differs from the pattern of expression of classes Alpha, Mu and Pi GST. Most significantly, GST T1-1 was found in only low levels in human pulmonary soluble extract of cells, suggesting that in man the lung has little capacity to activate the volatile dichloromethane.
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PMID:Evidence that human class Theta glutathione S-transferase T1-1 can catalyse the activation of dichloromethane, a liver and lung carcinogen in the mouse. Comparison of the tissue distribution of GST T1-1 with that of classes Alpha, Mu and Pi GST in human. 930 35

Recently a hybrid protein containing parts of the outer membrane proteins OprF (aa 190-342) and OprI (aa 21-83) from Pseudomonas aeruginosa fused to the glutathione-S-transferase was shown to protect mice against a 975-fold 50% lethal dose of P. aeruginosa. To omit the use of the GST-protein, the hybrid protein OprF-OprI was expressed in E. coli using distinct modifications which have not to be eliminated after its expression. Using different signal peptides, the yield of the hybrid protein OprF-OprI in E. coli could be increased to 30% of the total cell protein, however, only a very small amount of the hybrid preprotein was processed and could be isolated from the periplasm of the host. A construct containing an N-terminal extension of 11 amino acids from the original OprF gene gave rise to a significantly higher expression in the cytoplasm. Purification was facilitated by the addition of a five histidine tag at the C-terminus. An even higher expression was obtained by a construct in which a six histidine tag was attached to the N-terminus of the hybrid protein. The N-terminal extended OprF-OprI as well as the N-terminal his-tagged OprF-OprI hybrid antigens were purified by immobilized-metal affinity chromatography under native and denaturing conditions and can now be tested for protectivity against P. aeruginosa in animal model systems.
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PMID:A hybrid outer membrane protein antigen for vaccination against Pseudomonas aeruginosa. 938 54

A ligand-insensitive form of the human epidermal growth factor receptor (EGFR) was enriched by Ca2+-dependent calmodulin-affinity chromatography purification. The basic amphiphilic segment Arg645-Arg-Arg-His-Ile-Val-Arg-Lys-Arg-Thr654-Leu-Arg-Arg-Le u-Leu-Gln 660, located within the cytoplasmic juxtamembrane domain of this receptor, was purified as a fusion protein with glutathione S-transferase and shown to bind calmodulin in a Ca2+-dependent manner. An apparent dissociation constant of 0.4 microM calmodulin (Kd'(CaM)) and an apparent affinity constant of 0.5 microM free Ca2+ (Ka'(Ca)) were measured for this binding process. Binding of calmodulin at the juxtamembrane site prevented the phosphorylation of residue Thr-654 by protein kinase C, and an apparent inhibition constant of 0.5-1 microM calmodulin (Ki'(CaM)) was determined. Conversely, phosphorylation of this site by protein kinase C prevented its subsequent interaction with calmodulin. We therefore propose that cross talk between signaling pathways mediated by calmodulin and protein kinase C occurs at the juxtamembrane domain of the EGFR. This calmodulin-binding sequence is highly conserved among protein tyrosine kinases of the vertebrate EGFR family.
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PMID:The human epidermal growth factor receptor contains a juxtamembrane calmodulin-binding site. 942 43

The Crk proto-oncogene product is an SH2 and SH3 domain-containing adaptor protein. We have previously demonstrated that Crk-II becomes rapidly tyrosine-phosphorylated in response to stimulation with insulin-like growth factor I (IGF-I) and might be involved in the IGF-I receptor signalling pathway. To determine whether this involvement includes the direct interaction of Crk-II with the cytoplasmic region of the receptor, studies were performed in vitro with glutathione S-transferase (GST) fusion proteins containing various domains of Crk-II. The kinase assay in vitro showed that activated IGF-I receptors efficiently phosphorylated the GST-Crk-II fusion protein. This phosphorylation was dependent on the presence of the SH2 domain and Tyr-221 located in the spacer region between the two SH3 domains. Mutation of Tyr-221 not only prevented phosphorylation of GST-Crk in vitro, but also significantly increased the ability of GST-Crk proteins to co-precipitate activated IGF-I receptors from total cell lysates. Additional binding experiments in vitro showed that Crk-II might interact with the phosphorylated IGF-I receptor through its SH2 domain. To elucidate which region of the IGF-I receptor interacts with Crk-II, a peptide association assay was used in vitro. Different domains of the IGF-I receptor were expressed as (His)6-tagged fusion peptides, phosphorylated with activated wheat germ agglutinin-purified IGF-I receptors and tested for association with GST-Crk-II fusion proteins. Using wild-type as well as mutated peptides, we showed that the SH2 domain of Crk-II preferentially binds the peptide encoding the juxtamembrane region of the IGF-I receptor. Phosphorylation of Tyr-950 and Tyr-943 of the receptor is important for this interaction. These findings allow us to propose a model of direct interaction of Crk-II and the IGF-I receptor in vivo. On activation of the IGF-I receptor, Crk-II binds to phosphorylated tyrosine residues, especially in the juxtamembrane region. As a result of this binding, the IGF-I receptor kinase phosphorylates Tyr-221 of Crk-II, resulting in a change in intramolecular folding and binding of the SH2 domain to the phosphorylated Tyr-221, which causes rapid disassociation of the Crk-II-IGF-I receptor complex.
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PMID:Interaction in vitro of the product of the c-Crk-II proto-oncogene with the insulin-like growth factor I receptor. 948 Sep 11

Until quite recently, high-level expression of full-length cellular prion protein (Prp(c)) in bacterial cells was not possible. We describe here the effective purification of mature Syrian golden hamster PrPc (residues 23-231) as a C-terminal fusion to glutathione S-transferase (GST) from inclusion bodies expressed in Escherichia coli. Purification of the denatured fusion protein was simplified greatly by the introduction of a C-terminal histidine anchor, leading to 255 mg pure GST-PrPc-His6/l bacterial broth, which could be refolded easily by dilution in 20 mM Tris, 5 mM dithiothreitol, 1 mM EDTA, pH 9.0. Refolding was monitored by following GST activity. Mature Syrian hamster PrPc (residues 23-231) was released from the refolded fusion protein by thrombin digestion, yielding 73 mg homogeneous protein/l bacterial culture after purification. The recombinant protein was identified by monoclonal antibodies, Edman sequencing and matrix-assisted laser-desorption/ionization MS. Correct folding was confirmed by near-ultraviolet circular dichroism spectroscopy. Samples resulting from different purification steps were sensitive to proteinase K digestion and showed no signs of infectivity in animal experiments, demonstrating that the PrPc produced is identical with the cellular isoform. The presented purification procedure should prove useful for the production of other GST-fusion proteins.
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PMID:Large-scale production, purification and refolding of the full-length cellular prion protein from Syrian golden hamster in Escherichia coli using the glutathione S-transferase-fusion system. 949 19


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