EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Ralstonia sp. strain U2 metabolizes naphthalene via gentisate to central metabolites. We have cloned and sequenced a 21.6-kb region spanning the nag genes. Upstream of the pathway genes are nagY, homologous to chemotaxis proteins, and nagR, a regulatory gene of the LysR family. Divergently transcribed from nagR are the genes for conversion of naphthalene to gentisate (nagAaGHAbAcAdBFCQED) (S. L. Fuenmayor, M. Wild, A. L. Boyes, and P. A. Williams, J. Bacteriol. 180:2522-2530, 1998), which except for the insertion of nagGH, encoding the salicylate 5-hydroxylase, are homologous to and in the same order as the genes in the classical upper pathway operon described for conversion of naphthalene to salicylate found in the NAH7 plasmid of Pseudomonas putida PpG7. Downstream of nahD is a cluster of genes (nagJIKLMN) which are probably cotranscribed with nagAaGHAbAcAdBFCQED as a single large operon. By cloning into expression vectors and by biochemical assays, three of these genes (nagIKL) have been shown to encode the enzymes involved in the further catabolism of gentisate to fumarate and pyruvate. NagI is a gentisate 1,2-dioxygenase which converts gentisate to maleylpyruvate and is also able to catalyze the oxidation of some substituted gentisates. NagL is a reduced glutathione-dependent maleylpyruvate isomerase catalyzing the isomerization of maleylpyruvate to fumarylpyruvate. NagK is a fumarylpyruvate hydrolase which hydrolyzes fumarylpyruvate to fumarate and pyruvate. The three other genes (nagJMN) have also been cloned and overexpressed, but no biochemical activities have been attributed to them. NagJ is homologous to a glutathione S-transferase, and NagM and NagN are proteins homologous to each other and to other proteins of unknown function. Downstream of the operon is a partial sequence with homology to a transposase.
...
PMID:nag genes of Ralstonia (formerly Pseudomonas) sp. strain U2 encoding enzymes for gentisate catabolism. 1113 65

The kor regulon of broad host-range, incompatibility group P (IncP) plasmids uses the KorA, KorB, and KorC repressors to regulate expression of genes for replication, conjugation, segregation, and host range. One operon, kilC, encodes the KorC repressor and two genes of unknown function (klcA and klcB). The predicted sequences of the 51.1 kDa KlcB protein, the 11.3 kDa KorA repressor, and another small (13.5 kDa) regulatory protein, TrbA, show a highly related 35 amino acid residue segment (V-L-P domain). We found that induction of the klcB gene is toxic to Escherichia coli host cells harboring an IncP plasmid. We confirmed a model in which the V-L-P domain of KlcB interacts directly with the V-L-P domain of KorA to derepress KorA-regulated operons, thereby allowing expression of toxic genes. First, a lacZ reporter fused to the kleA promoter, which is regulated by KorA and KorC, revealed that klcB induction specifically releases KorA-repression but has no effect on KorC repression. Second, induced expression of the V-L-P domains from KorA or KlcB is sufficient to release KorA-repression at the kleA promoter. Third, purified GST-KlcB fusion protein interacts specifically with His-tagged KorA. Fourth, fusion of the V-L-P domains of KorA and TrbA and full-length KlcB polypeptide to the DNA-binding domain of bacteriophage lambda repressor leads to the formation of functional, dimeric repressors, and mutations that alter conserved residues of the V-L-P domain adversely affect dimerization. Fifth, crosslinking experiments demonstrated that the V-L-P domain of KorA is able to dimerize in solution and form heterodimers in mixtures with full-length KorA polypeptide. These findings show that the V-L-P domain is a protein-protein interaction module that is likely to be responsible for dimerization of KorA and TrbA, and important for KlcB dimerization. We speculate on the possible significance of KlcB-KorA heterodimers in IncP plasmid maintenance.
...
PMID:A small protein-protein interaction domain common to KlcB and global regulators KorA and TrbA of promiscuous IncP plasmids. 1141 36

Polycystin-1, the protein defective in a majority of patients with autosomal dominant polycystic kidney disease, is a ubiquitously expressed multi-span transmembrane protein of unknown function. Subcellular localization studies found this protein to be a component of various cell junctional complexes and to be associated with the cytoskeleton, but the specificity and nature of such associations are not known. To identify proteins that interact with the polycystin-1 C-tail (P1CT), this segment was used as bait in a yeast two-hybrid screening of a kidney epithelial cell library. The intermediate filament (IF) protein vimentin was identified as a strong polycystin-1-interacting partner. Cytokeratins K8 and K18 and desmin were also found to interact with P1CT. These interactions were mediated by coiled-coil motifs in polycystin-1 and IF proteins. Vimentin, cytokeratins K8 and K18, and desmin also bound directly to P1CT in GST pull-down and in in vitro filament assembly assays. Two observations confirmed these interactions in vivo: (i) a cell membrane-anchored form of recombinant P1CT decorated the IF network and was found to associate with the cytoskeleton in detergent-solubilized cells and (ii) endogenous polycystin-1 distributed with IF at desmosomal junctions. Polycystin-1 may utilize this association for structural, storage, or signaling functions.
...
PMID:Polycystin-1 interacts with intermediate filaments. 1158 Dec 69

The mTOR protein kinase is known to control cell cycle progression and cell growth through regulation of translation, transcription, membrane traffic and protein degradation. Known interactions of mTOR do not account for the multiple functions of this protein. Using a non-catalytic segment of mTOR (1-670) as bait in a yeast two-hybrid screen for interacting proteins, ubiquilin 1 (NM013438) was identified. Ubiquilin 1 is a member of a phylogenetically conserved gene family of unknown function, characterized by an N-terminal ubiquitin-like (Ubq) domain, a C-terminal ubiquitin associated (Uba) domain and a central region containing numerous NPXvar phi motifs (X, any; phi, hydrophobic amino acid). GST-ubiquilin 1 binds specifically to FLAG-mTOR (residues 1-670) in mammalian cells; residues 570-670 of mTOR and 226-323 of ubiquilin 1 are required for this interaction. Both mTOR and ubiquilin immunoreactivity appear as fine speckles throughout the cytoplasm; significant colocalization with cytoskeletal elements, early endosomes or proteasomes is not observed. As assessed by cell fractionation, mTOR is predominantly associated with low density membranes, along with 10% of ubiquilin 1. Ubiquilin 1 is a rapamycin-insensitive phosphoprotein. Overexpression of ubiquilin 1 does not alter the kinase activity of cotransfected mTOR or the phosphorylation of the mTOR target, p70 S6 kinase, in the presence or absence of rapamycin. Our data suggest that we have identified a novel mTOR interactor, ubiquilin 1. The biological significance of this, presumably membrane based, interaction, requires further study.
...
PMID:Characterization of ubiquilin 1, an mTOR-interacting protein. 1185 78

The p53-induced mouse wig-1 gene encodes a Cys2His2-type zinc finger protein of unknown function. The zinc fingers in wig-1 are connected by long (56-75) amino acid linkers. This distribution of zinc finger domains resembles that of the previously described double-stranded (ds)RNA-binding proteins dsRBP-ZFa and JAZ. Ectopically expressed FLAG-tagged mouse wig-1 protein localized to nuclei and in some cells to nucleoli, whereas GFP-tagged mouse wig-1 localized primarily to nucleoli. Electrophoretic mobility shift assay using a recombinant GST-wig-1 fusion protein showed that wig-1 preferentially binds dsRNA rather than single-stranded RNA or dsDNA. A set of deletion/truncation mutants of wig-1 was tested to determine the dsRNA-binding domain(s) or region(s) in wig-1 that is involved in the stabilization of wig-1-dsRNA complexes in vitro. This revealed that the first zinc finger in wig-1 is essential for binding to dsRNA, whereas zinc fingers 2 and 3 are dispensable. wig-1 protein expressed in mammalian cells also showed a high affinity for dsRNA. wig-1 represents the first confirmed p53-induced gene that encodes a dsRNA-binding protein. This suggests that dsRNA binding plays a role in the p53-dependent stress response.
...
PMID:The p53-induced mouse zinc finger protein wig-1 binds double-stranded RNA with high affinity. 1197 37

The proline-rich homeodomain protein (PRH), also known as Hex, is a transcriptional repressor expressed in a variety of cell types. The PRH protein contains a proline-rich N-terminal domain that can repress transcription when attached to a heterologous DNA binding domain, a central homeodomain that mediates sequence-specific DNA binding, and an acidic C-terminal domain of unknown function. Although individual domains of PRH have been expressed in bacterial cells as GST- and histidine-tagged fusion proteins, attempts to express and purify the full-length protein have met with little success. Here we describe the purification of a histidine-tagged full-length PRH fusion protein. The protein described here will allow us to determine the mechanisms whereby PRH represses transcription.
...
PMID:Purification of the proline-rich homeodomain protein. 1265 Sep 96

We describe a "protein knockout" technique that can be used to identify essential proteins in bacteria. This technique uses phage display to select peptides that bind specifically to purified target proteins. The peptides are expressed intracellularly and cause inhibition of growth when the protein is essential. In this study, peptides that each specifically bind to one of seven essential proteins were identified by phage display and then expressed as fusions to glutathione S-transferase in Escherichia coli. Expression of peptide fusions directed against E. coli DnaN, LpxA, RpoD, ProRS, SecA, GyrA, and Era each dramatically inhibited cell growth. Under the same conditions, a fusion with a randomized peptide sequence did not inhibit cell growth. In growth-inhibited cells, inhibition could be relieved by concurrent overexpression of the relevant target protein but not by coexpression of an irrelevant protein, indicating that growth inhibition was due to a specific interaction of the expressed peptide with its target. The protein knockout technique can be used to assess the essentiality of genes of unknown function emerging from the sequencing of microbial genomes. This technique can also be used to validate proteins as drug targets, and their corresponding peptides as screening tools, for discovery of new antimicrobial agents.
...
PMID:Intracellular expression of Peptide fusions for demonstration of protein essentiality in bacteria. 1293 88

Genome sequencing projects have uncovered many novel enzymes and enzyme classes for which knowledge of active site structure and mechanism is limited. To facilitate mechanistic investigations of the numerous enzymes encoded by prokaryotic and eukaryotic genomes, new methods are needed to analyze enzyme function in samples of high biocomplexity. Here, we describe a general strategy for profiling enzyme active sites in whole proteomes that utilizes activity-based chemical probes coupled with a gel-free analysis platform. We apply this gel-free strategy to identify the sites of labeling on enzymes targeted by sulfonate ester probes. For each enzyme examined, probe labeling was found to occur on a conserved active site residue, including catalytic nucleophiles (e.g., C32 in glutathione S-transferase omega) and bases/acids (e.g., E269 in aldehyde dehydrogenase-1; D204 in enoyl CoA hydratase-1), as well as residues of unknown function (e.g., D127 in 3 beta-hydroxysteroid dehydrogenase/isomerase-1). These results reveal that sulfonate ester probes are remarkably versatile activity-based profiling reagents capable of labeling a diversity of catalytic residues in a range of mechanistically distinct enzymes. More generally, the gel-free strategy described herein, by consolidating into a single step the identification of both protein targets of activity-based probes and the specific residues labeled by these reagents, provides a novel platform in which the proteomic comparison of enzymes can be accomplished in unison with a mechanistic analysis of their active sites.
...
PMID:Mapping enzyme active sites in complex proteomes. 1475 93

The herpes simplex virus UL56 gene product is a C-terminal-anchored, type II membrane protein of unknown function. UL56 was found to interact with KIF1A, a member of the kinesin-3 family, in a yeast two-hybrid screen and a GST pull-down assay. KIF1A mediates the transport of synaptic vesicle precursors and is essential for the function and viability of neurons. When overexpressed, KIF1A co-localized with full-sized UL56, but no clear co-localization was observed when co-expressed with the UL56 mutant protein lacking its C-terminal transmembrane domain (TMD). Although the C-terminal TMD was not essential for the interaction with KIF1A in the yeast two-hybrid screen and GST pull-down assays, these results indicate that the C-terminal TMD, as well as aa 69-217, of UL56 are important for the interaction with KIF1A in vivo. The hypothesis that the UL56 protein affects vesicular trafficking in infected cells, potentially by acting as a receptor for motor proteins in neurons, is discussed.
...
PMID:Herpes simplex virus type 2 membrane protein UL56 associates with the kinesin motor protein KIF1A. 1572 11

A collagen-degrading thermophile, Geobacillus collagenovorans MO-1, extracellularly produces a collagenolytic protease with a large molecular mass. Complete nucleotide sequencing of this gene after gene cloning revealed that the collagenolytic protease is a member of the subtilisin family of serine proteases and consists of a signal sequence for secretion, a prosequence for maturation, a catalytic region, 14 direct repeats of 20 amino acids at the C terminus, and a region with unknown function intervening between the catalytic region and the numerous repeats. Since the unusual repeats are most likely to be cleaved in the secreted form of the enzyme, the intervening region was investigated to determine whether it participates in collagen binding to facilitate collagen degradation. It was found that the mature collagenolytic protease containing the intervening region at the C terminus bound collagen but not the other insoluble proteins, elastin and keratin. Furthermore, the intervening region fused with glutathione S-transferase showed a collagen-binding ability comparable to that of the mature collagenolytic protease. The collagen-binding ability was finally attributed to two-thirds of the intervening region which is rich in beta-strands and is approximately 35 kDa in molecular mass. In the collagenolytic protease from strain MO-1, hydrogen bonds most likely predominate over the hydrophobic interaction for collagen binding, since a higher concentration of NaCl released collagen from the enzyme surface but a nonionic detergent could not. To the best of our knowledge, this is the first report of a thermophilic collagenolytic protease containing the collagen-binding segment.
...
PMID:Characteristic features in the structure and collagen-binding ability of a thermophilic collagenolytic protease from the thermophile Geobacillus collagenovorans MO-1. 1695 49

<< Previous 1 2 3 4 Next >>