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)

The ras GTPase-activating protein (GAP), identified and characterized in mammalian cells, stimulates the intrinsic GTPase activity of ras proteins. We have previously proposed that the IRA genes, negative regulators of RAS genes in Saccharomyces cerevisiae, encode yeast homologs of the mammalian GAP. In this paper, we present the following evidence that a product of the IRA2 gene exhibits GAP activity similar to that of the mammalian GAP protein. (i) Extracts of yeast cells overexpressing IRA2 stimulated the GTPase activity of the yeast RAS2 protein. (ii) An epitope for a monoclonal antibody (12CA5) was added to the N terminus of the IRA2 protein. The GAP activity of extracts prepared from cells expressing this fusion protein was shown to be immunoprecipitable by 12CA5. (iii) An IRA2 protein fused to glutathione S-transferase (GST) was produced and partially purified from Escherichia coli cells. GAP activity was detected with this purified GST-IRA2 fusion protein. (iv) The GAP activity of IRA2 proteins described above did not stimulate the GTPase activity of the RAS2Val19 protein, a protein having an amino acid alteration analogous to that found in mammalian oncogenic ras proteins. This result parallels studies showing that mammalian GAP is incapable of stimulating the GTPase activity of mammalian oncogenic proteins. The remarkable conservation between the GAP activity in mammalian and yeast cells supports the idea that the function of GAP is to negatively regulate ras proteins in mammalian cells.
...
PMID:IRA2, an upstream negative regulator of RAS in yeast, is a RAS GTPase-activating protein. 198 46

Sequencing of the neurofibromatosis gene (NF1) revealed a striking similarity among NF1, yeast IRA proteins, and mammalian GAP (GTPase-activating protein). Using both genetic and biochemical assays, we demonstrate that this homology domain of the NF1 protein interacts with ras proteins. First, expression of this NF1 domain suppressed the heat shock-sensitive phenotype of yeast ira1 and ira2 mutants. Second, this NF1 domain, after purification as a glutathione S-transferase (GST) fusion protein, strongly stimulated the GTPase activity of yeast RAS2 and human H-ras proteins. The GST-NF1 protein, however, did not stimulate the GTPase activity of oncogenic mutant ras proteins, H-rasVal-12 and yeast RAS2Val-19 mutants, or a yeast RAS2 effector mutant. These results establish that this NF1 domain has ras GAP activity similar to that found with IRA2 protein and mammalian GAP, and therefore may also regulate ras function in vivo.
...
PMID:The catalytic domain of the neurofibromatosis type 1 gene product stimulates ras GTPase and complements ira mutants of S. cerevisiae. 212 69

cDNA clones of two novel Ras-related GTP-binding proteins (RagA and RagB) were isolated from rat and human cDNA libraries. Their deduced amino acid sequences comprise four of the six known conserved GTP-binding motifs (PM1, -2, -3, G1), the remaining two (G2, G3) being strikingly different from those of the Ras family, and an unusually large C-terminal domain (100 amino acids) presumably unrelated to GTP binding. RagA and RagB differ by seven conservative amino acid substitutions (98% identity), and by 33 additional residues at the N terminus of RagB. In addition, two isoforms of RagB (RagBs and RagB1) were found that differed only by an insertion of 28 codons between the GTP-binding motifs PM2 and PM3, apparently generated by alternative mRNA splicing. Polymerase chain reaction amplification with specific primers indicated that both long and short form of RagB transcripts were present in adrenal gland, thymus, spleen, and kidney, whereas in brain, only the long form RagB1 was detected. A long splicing variant of RagA was not detected. Recombinant glutathione S-transferase (GST) fusion proteins of RagA and RagBs bound large amounts of radiolabeled GTP gamma S in a specific and saturable manner. In contrast, GTP gamma S binding of GST-RagB1 hardly exceeded that of recombinant GST. GTP gamma S bound to recombinant RagA, and RagBs was rapidly exchangeable for GTP, whereas no intrinsic GTPase activity was detected. A multiple sequence alignment indicated that RagA and RagB cannot be assigned to any of the known subfamilies of Ras-related GTPases but exhibit a 52% identity with a yeast protein (Gtr1) presumably involved in phosphate transport and/or cell growth. It is suggested that RagA and RagB are the mammalian homologues of Gtr1 and that they represent a novel subfamily of Ras-homologous GTP binding proteins.
...
PMID:Cloning of a novel family of mammalian GTP-binding proteins (RagA, RagBs, RagB1) with remote similarity to the Ras-related GTPases. 749 30

Rab3A is a small, Ras-like GTPase expressed in neuroendocrine cells, in which it is associated with secretory vesicle membranes and regulates exocytosis. Using the yeast two-hybrid system, we have identified a rat brain cDNA encoding a novel 50-kDa protein, which we have named Rabin3, that interacts with Rab3A and Rab3D but not with other small GTPases (Rab3C, Rab2, Ran, or Ras). Several independent point mutations in the effector domain of Rab3A (F51L, V55E, and G56D) which do not alter nucleotide binding by the GTPase abolish the interaction with Rabin3, while another mutation (V52A) appears to increase the interaction. These results demonstrate that the interaction is highly specific. However, a glutathione S-transferase-Rabin3 fusion protein associates only weakly in vitro with recombinant Rab3A and possesses no detectable GTPase-activating protein or nucleotide exchange activity, and Rabin3 overexpressed in adrenal chromaffin cells has no observable effect on secretion. The protein possess a sequence characteristic of coiled-coil domains and a second small region with sequence similarity to a Saccharomyces cerevisiae protein, Sec2p, Sec2p is essential for constitutive secretion in yeast cells and interacts with Sec4p, a close relative of the Rab3A GTPase. Rabin3 mRNA and protein are widely expressed but are particularly abundant in testes.
...
PMID:Interaction cloning of Rabin3, a novel protein that associates with the Ras-like GTPase Rab3A. 753 76

This work describes the biochemical characterization of the catalytic domain of Ira2p, a Saccharomyces cerevisiae GTPase-activating protein (GAP) regulating the RAS gene products. A fragment of 383 residues (amino acids 1644-2026) was produced in Escherichia coli as glutathione S-transferase fusion protein (GST-Ira2p-383) and highly purified (> 90%) by affinity chromatography. The affinity of Ras2p for the GST-fused Ira2p-383 was 18 microM and the maximal stimulation of the Ras2p GTPase activity 6,000 times. The Ira2p activity was confirmed to be strictly specific for Ras2p, no stimulatory effect on human c-H-ras p21 GTPase being detectable. Comparison with the GAP-like domain of mammalian p120-GAP and neurofibromin using yeast Ras2p as substrate showed that Ira2p-383 has an affinity and turnover intermediary between GAP-334 and NF1-414. The activity of Ira2p-383 was strongly inhibited by monovalent and divalent salts. The simultaneous presence of the catalytic domains of Ira2p and the yeast GDP/GTP exchange factor Cdc25p induced on Ras2p a multiple-round reaction of GTP hydrolysis and GDP/GTP exchange, showing that it is possible to reconstitute in vitro a S. cerevisiae system suitable for the study of the regulation of the Ras2p GDP/GTP cycle. The tubulin partially inhibited (25%) the GAP activity of the Ira2p-383. A larger Ira2p catalytic fragment, Ira2p-505 (amino acids 1549-2053), that showed the same Km for Ras2p as Ira2p-383, was also inhibited by tubulin to the same extent but with a higher affinity than Ira2p-383.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Properties and regulation of the catalytic domain of Ira2p, a Saccharomyces cerevisiae GTPase-activating protein of Ras2p. 757 70

RCC1 is an abundant, highly conserved, chromatin-associated protein whose function is necessary for the preservation of a properly ordered cell cycle. RCC1 is also necessary for numerous nuclear processes, including nuclear transport and RNA metabolism; and it functions enzymatically as a guanine nucleotide exchange factor for a small, ras-related GTPase called Ran. Studies in several organisms suggest that RCC1 may be part of a large complex containing multiple proteins. There is also evidence that RCC1 associates with chromatin through other proteins and that the binding of the complex to chromatin varies within the cell cycle. In order to characterize this putative complex, we have identified a number of other proteins as candidate components of the complex by their association with a GST-RCC1 fusion protein. Three of these proteins have previously been identified (Ran, RanBP1, and hsc70). The fourth protein is novel and has a molecular mass of 340 kDa. In this report, we discuss a preliminary characterization of the interactions between these proteins.
...
PMID:The RCC1 protein interacts with Ran, RanBP1, hsc70, and a 340-kDa protein in Xenopus extracts. 773 3

We have identified two components of a new protein kinase signaling cascade, MAPK/ERK kinase 5 (MEK5) and extracellular signal-regulated kinase 5 (ERK5). The MEK5 cDNA was isolated by degenerate PCR and encodes a 444-amino acid protein, which has approximately 40% identity to known MEKs. ERK5 was identified by a specific interaction with the MEK5 mutants S311A/T315A and K195M in the yeast two-hybrid system. The proteins were found to interact in an in vitro binding assay as well. ERK5 did not interact with MEK1 or MEK2. ERK5 is predicted to contain 815 amino acids and is approximately twice the size of all known ERKs. The C terminus of ERK5 has sequences which suggest that it may be targeted to the cytoskeleton. Sequences located in the N terminus of MEK5 may be important in coupling GTPase signaling molecules to the MEK5 protein kinase cascade. Both MEK5 and ERK5 are expressed in many adult tissue and are abundant in heart and skeletal muscle. A recombinant GST-ERK5 kinase domain displays autophosphorylation on Ser/Thr and Tyr residues.
...
PMID:Components of a new human protein kinase signal transduction pathway. 775 17

Previously, we have reported the molecular cloning of ara genes encoding a small GTP-binding protein from Arabidopsis thaliana. The criterion based on amino acid sequences suggest that such an ara gene family can be classified to be of the YPT/rab type. To examine the biochemical properties of ARA proteins, several deletions and point mutations were introduced into ara cDNAs. Mutant proteins were expressed in E. coli as GST-chimeric molecules and analyzed in terms of their GTP-binding or GTP-hydrolysing ability in vitro. The results indicate that four conserved amino acid sequence regions of ARA proteins are necessary for GTP-binding. A point mutation of Asn at position 72 for ARA-2, or 71 for ARA-4, to Ile decreased GTP-binding and a point mutation of Gln at position 126 for ARA-2, or 125 for ARA-4, to Leu suppressed GTP-hydrolysis activity. Furthermore, certain factors associated with the membrane fraction accelerated GTPase activities of ARA proteins, suggesting the presence of GTPase activating protein(s) (GAP(s)) in the vesicular transport system of higher plant cells.
...
PMID:In vitro mutation analysis of Arabidopsis thaliana small GTP-binding proteins and detection of GAP-like activities in plant cells. 801 29

The breakpoint cluster region gene product (Bcr) is a GTPase-activating protein (GAP) for members of the Rho family, Cdc42Hs, and Rac1, as is the brain protein n-chimaerin. At least 15 proteins have sequence identity to the GAP domain (150 amino acid residues) of Bcr. The widespread occurrence of proteins that possess sequence identity to the Bcr-related GAP domain makes it especially important to understand its structure/function relationships. Amino acid sequence alignment of these proteins reveals three blocks of conservation in the GAP domain. Here, we present a mutational analysis of this domain using n-chimaerin sequences. Ten mutations were constructed (at least two in each of the blocks of conservation), expressed as glutathione S-transferase fusion proteins in Escherichia coli, and purified. Seven of the mutants, including deletions, still possessed GAP activity for Rac1. Three of the mutants had no Rac1-GAP activity but were still able to bind Rac1. IC50 values obtained from competition experiments suggest that n-chimaerin and the mutants with no GAP activity bound Rac1 with similar apparent binding constants. Thus, this mutant analysis allows discrimination between Rac1-binding and Rac1 GTPase- activating residues.
...
PMID:Breakpoint cluster region gene product-related domain of n-chimaerin. Discrimination between Rac-binding and GTPase-activating residues by mutational analysis. 802 Dec 74

The Ras-like GTPase Cdc42 is essential for cell polarity and bud site assembly in Saccharomyces cerevisiae by regulating cell cycle-dependent reorganization of cortical cytoskeletal elements. However, its role in mammalian cells is unknown. To identify potential effectors of Cdc42Hs, we incubated lysates from NIH 3T3 fibroblasts or PC12 cells with immobilized glutathione S-transferase (GST)-Cdc42Hs fusion proteins bound to different guanine nucleotides and observed a specific association between the 85-kDa subunit (p85) of phosphatidylinositol 3-kinase (PI 3-kinase) and GTP gamma S (guanosine 5'-3-O-(thio)triphosphate)-bound GST-Cdc42Hs. Recombinant p85 formed a complex with GTP gamma S-bound GST-Cdc42Hs and with a GTPase-defective GTP-bound GST-Cdc42Hs-Q61L mutant, but not with a GTP gamma S-bound, effector domain GST-Cdc42HsT35A mutant. Both the Rho-GAP homology domain of p85 and the Cdc42Hs-GAP competitively inhibited the binding of recombinant p85 to Cdc42Hs. In addition, PI 3-kinase activity immunoprecipitated from cell lysates with anti-p85 antibody was stimulated 2-4-fold by GST-Cdc42-GTP gamma S. Similar interactions were observed between p85 and GST-Rac1-GTP gamma S but not between p85 and GST-RhoA-GTP gamma S. These findings suggest that PI 3-kinase, through the Rho-GAP homology domain of p85, can couple to the effector domain of Cdc42Hs and that p85 may be a target for the GTP-bound forms of Cdc42Hs and Rac1.
...
PMID:Activation of phosphoinositide 3-kinase activity by Cdc42Hs binding to p85. 803 24

1 2 3 4 5 6 7 8 9 10 Next >>