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 rat gene encoding the class theta glutathione S-transferase (GST) subunit Yrs has been isolated from a rat lambda EMBL4 DNA library and completely sequenced. The gene spans approximately 4 kb comprising 5 exons separated by 4 introns, the smallest number of the gene components among known rat genes encoding GST subunits. Sequence analysis of the 5' flanking region of the GST Yrs gene indicated the absence of both TATA and CAAT boxes. However, potential binding sites for the transcription factors SP1, PU1, PEA3, and AP-2 were present in this region. Primer extension and 5'-rapid amplification of cDNA ends studies demonstrated the existence of multiple transcription initiation sites distributed over 58 bp in the upstream sequence from the translation initiation codon. The present study provides the first evidence for the primary structure of the gene encoding a class theta GST subunit.
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PMID:Isolation and characterization of the gene encoding rat class theta glutathione S-transferase subunit yrs. 780 57

Human NAD(P)H:quinone oxidoreductase2 (NQO2) gene, 1336 base pairs (bp) of the 5'-flanking region and 165 bp of the 3'-flanking region, have been sequenced. NQO2 gene is 20 kilobase pairs in length and have seven exons interrupted by six introns as compared to the previously cloned NQO1 gene which contains six exons. 187 bp of the first exon in the NQO2 gene are noncoding and are absent in the NQO1 gene. 92 bp of the second exon in the NQO2 gene corresponded to the first exon of the NQO1 gene and so on. The sizes and nucleotide sequences of exons 3-6 are highly conserved between NQO2 and NQO1 genes. The last exon in the NQO2 gene is 1603 bp shorter than the last exon of the NQO1 gene and encodes for 58 amino acids as compared to 101 amino acids encoded by the NQO1 gene. This makes NQO2 protein 43 amino acids shorter than the NQO1 protein. The high degree of conservation between NQO2 and NQO1 gene organization and sequence confirmed that NQO2 gene encodes for a second member of the NQO gene family in human. Nucleotide sequence analysis of the 5'-flanking region of the NQO2 gene revealed presence of four SP1 binding sites at positions -214, -170, -106, and -75, a single copy of the antioxidant response element (ARE) at nucleotide -936, and three copies of xenobiotic response element (XRE) at positions -708, -557, and -51. ARE and XRE elements have previously been found in the promoters of the NQO1 and glutathione S-transferase Ya subunit genes and mediate increases in their expression in response to polycyclic aromatic compounds, phenolic antioxidants, and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), respectively. The NQO2 cDNA-derived protein in monkey kidney COS1 cells efficiently catalyzed nitroreduction of anti-tumor compound CB10-200, an analog of nitrophenylaziridine. Northern blot analysis indicates that NQO2 gene is expressed in human heart, brain, lung, liver, and skeletal muscle but does not express in placenta. In contrast, the NQO1 gene was expressed in all human tissues. Large variations were noticed for expression of the NQO2 and NQO1 genes among various tissues, 1336 bp of the 5'-flanking region of the NQO2 gene containing ARE and XRE was found sufficient to increase expression of the CAT gene in response to beta-naphthoflavone and tCDD in transfected human hepatoblastoma (Hep-G2) cells.
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PMID:Human NAD(P)H:quinone oxidoreductase2. Gene structure, activity, and tissue-specific expression. 818 56

Hsp47, an endoplasmic reticulum-resident heat shock protein in fibroblasts, has gelatin-binding properties. It had been hypothesized that it functions as a chaperone regulating procollagen chain folding and/or assembly, but the mechanism of the hsp47-procollagen I interaction was not clear. Hsp47 could bind to both denatured and native procollagen I. A series of competition studies were carried out in which various collagens and collagen domain peptides were incubated with 35[S]-methionine-labeled murine 3T6 cell lysates prior to mixing with gelatin-Sepharose 4B beads. The gelatin-bound proteins were collected and analyzed by gel electrophoresis and autoradiography. Collagenase digested procollagen I had the same effect as denatured intact procollagen, indicating that the propeptides were the major interaction sites. The addition of intact pro alpha 1(I)-N-propeptide at 25 micrograms/ml completely inhibited hsp47 binding to the gelatin-Sepharose. Even the pentapeptide VPTDE, residues 86-90 of the pro alpha 1(I)-N-propeptide, inhibits hsp47-gelatin binding. These data implicating the pro alpha 1(I)-N-propeptide domain were confirmed by examination of polysome-associated pro alpha chains. The nascent pro alpha 1(I)-chains with intact N-propeptide regions could be precipitated by monoclonal hsp47 antibody 11D10, but could not be precipitated by monoclonal anti-pro alpha 1 (I)-N-propeptide antibody SP1.D8 unless dissociated from the hsp47. GST-fusion protein constructs of residues 23-108 (NP1), 23-151 (NP2), and 23-178 (NP3) within the pro alpha 1 (I)- N-propeptide were coupled to Sepharose 4B and used as affinity beads for collection of hsp47 from 3T6 cell lysates. NP1 and NP2 both showed strong specific binding for lysate hsp47. Finally, the interaction was studied in membrane-free in vitro cotranslation systems in which the complete pro alpha 1(I)- and pro alpha 2(I)-chain RNAs were translated alone and in mixtures with each other and with hsp47 RNA. There was no interaction evident between pro alpha 2(I)-chains and hsp47, whereas there was strong interaction between pro alpha 1(I)-chains and nascent hsp47. SP1.D8 could not precipitate pro alpha 1(I)-chains from the translation mix if nascent hsp47 was present. These data all suggest that if hsp47 has a "chaperone" role during procollagen chain processing and folding it performs this specific role via its preferential interaction with the pro alpha 1 (I) chain, and the pro alpha 1(I) amino-propeptide region in particular.
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PMID:Endoplasmic reticulum protein Hsp47 binds specifically to the N-terminal globular domain of the amino-propeptide of the procollagen I alpha 1 (I)-chain. 856 53

A mouse cDNA clone, M96, encoding a metal-regulating-element (MRE)-binding protein, was analysed for its ability to act as a metal-regulated transcription factor. The metal depletion of a glutathione S-transferase (GST)-M96 fusion protein showed that Zn2+ ions modulate the MRE-binding activity, suggesting that the M96-encoded protein is a Zn2+-regulated factor (ZiRF1). The methylation interference assay showed the specific interactions of ZiRF1 with the MRE, MREd/c, present on the mouse metallothionein Ia promoter. Point mutations of the MREd/c nullified the metal-regulatory properties of this region. In mouse L-cell nuclear extracts, mobility-shift assays revealed a Zn2+-dependent MRE-binding complex (MBC) with DNA-recognition properties similar to those of ZiRF1. Antibodies raised against purified GST-ZiRF1 were able to specifically recognize MBC in Western-blot analyses. Competition analysis of MRE-binding proteins from mouse NIH3T3 cells with oligonucleotide matching the binding sites for SP1 and MTF1 confirmed that both the basal SP1 and the metal-regulated MBC/ZiRF1 interact with the MREd/c region. The significance of mutual interactions with the metal-responsive promoter regions of either metal-regulated or basal transcription factors is discussed.
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PMID:Interactions of the zinc-regulated factor (ZiRF1) with the mouse metallothionein Ia promoter. 917 5

The metal-dependent activation of metallothionein (MT) genes requires the interaction of positive trans-activators (MRFs) with metal-regulatory (MRE) regions of MT promoters. In this report, we examined the role of transition metals in modulating the MRE-binding activities of two different MRE-binding proteins: the metal-regulated factor ZiRF1 and the basal factor SP1. We showed the ability of both proteins to interact with a similar sequence specificity with the cognate target site (MRE-S) of another known MRE-binding protein, mMTF1. We next evaluated the role of metal ions in modulating the MRE-binding activity of recombinant ZiRF1 and basal SP1 proteins by measuring the effect of different metal chelators on DNA interaction. We observed a dose-dependent inhibition of the GST-ZiRF1/MRE-binding activity using three different metal chelators: EDTA, 1,10 PHE and TPEN. Interestingly, EDTA treatment failed to inhibit the recombinant SP1 MRE-binding activity while the effect of 1,10 PHE was comparable to that obtained analyzing 1,10 PHE-treated GST-ZiRF1. The MRE-binding complexes detected in cell extracts showed a response to metal chelator treatment very similar to that displayed by the recombinant ZiRF1 and SP1 proteins. The hypothesis of mutual interactions of both basal and metal-regulated transcription factors with the same metal-regulatory regions is discussed.
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PMID:Regulation of ZiRF1 and basal SP1 transcription factor MRE-binding activity by transition metals. 937 64

In this study, we have isolated the genomic clone of the murine GSTM2 gene and determined its sequence. Consistent with the class mu genefamily, the mGSTM2 gene consists of eight exons. The exon-intron boundaries and the distribution of coding sequences within the exons of the known GST class mu family members were found to follow a similar pattern suggesting that various members of this family have originated from a single primordial gene by duplication and the structure has been closely maintained through evolution. By primer extension, the start of transcription was determined to be 40 bp upstream of the initial AUG codon. To gain an understanding of the mGSTM2 regulation, we have also cloned and analyzed its promoter region. Maximal activity was observed in a 170 bp 5'-flanking region. The activity was decreased by 3-fold in a 402 bp 5'-flanking region suggesting the presence of repressor elements. While no TATA box was identified, the presence of an SP1 site at position -38 was noted. Deletion of this SP1 site completely abrogated promoter activity. The promoter contained eight putative Myb responsive elements and its transcriptional activity was upregulated by t-Myb but not by c-Myb.
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PMID:Genomic organization and characterization of the promoter region of murine GSTM2 gene. 1140 19

A new member of the Y-box protein family of the silkworm Bombyx mori (BYB) was co-purified with the fibroin gene enhancer-binding protein FMBP-1, and stimulated the binding of FMBP-1 to its cognate DNA element. However, the stimulatory effect was not specific to FMBP-1, BYB also enhancing the binding of mammalian transcription factors OTF2, SP1 and AP2 to their specific binding elements. Besides the above transcription regulatory factors, BYB facilitated the binding of basal transcription factor TBP, and enhanced transcription from the adenovirus 2 major late promoter in a reconstituted transcription system. Moreover, BYB stimulated the reactions of some restriction endonucleases under cold conditions. The C-terminal region of BYB was sufficient for these stimulatory effects, and the highly conserved cold shock domain (CSD) in the N-terminal region was dispensable. GST-pull down experiments showed that the C-terminal region could interact with DNA independently of the CSD. The above results suggest that the C-terminal region of BYB causes the active interaction of various DNA binding proteins with their targets. Such a function of the C-terminal region of BYB may partly explain the functional diversity of Y-box proteins.
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PMID:Bombyx Y-box protein BYB facilitates specific DNA interaction of various DNA binding proteins independently of the cold shock domain. 1521 43

The human alpha class glutathione S-transferases (GSTs) consist of 5 genes, hGSTA1-hGSTA5, and 7 pseudogenes on chromosome 6p12.1-6p12.2. hGSTA1-hGSTA4 have been well characterized as proteins, but hGSTA5 has not been detected as a gene product. hGSTA1-1 (and to a lesser extent hGSTA2-2) catalyzes the GSH-dependent detoxification of carcinogenic metabolites of environmental pollutants and tobacco smoke (e.g., polycyclic aromatic hydrocarbon diolepoxides) and several alkylating chemotherapeutic agents and has peroxidase activity toward fatty acid hydroperoxides (FA-OOH) and phosphatidyl FA-OOH. hGSTA3-3 has high activity for the GSH-dependent Delta(5)-Delta(4) isomerization of steroids, and hGSTA4-4 has high activity for the GSH conjugation of 4-hydroxynonenal. hGSTA4 is expressed in many tissues; hGSTA1-1 and hGSTA2-2 are expressed at high levels in liver, intestine, kidney, adrenal gland, and testis; and hGSTA3 is expressed in steroidogenic tissues. Functional, allelic, single nucleotide polymorphisms occur in an SP1-binding element of hGSTA1 and in the coding regions of hGSTA2 and hGSTA3. The main effects of these polymorphisms are the low hepatic expression of hGSTA1 in individuals homozygous for hGSTA1*B and the low specific activity of the hGSTA2E-2E variant toward FA-OOH. These properties suggest that alpha class GSTs will be involved in susceptibility to diseases with an environmental component (such as cancer, asthma, and cardiovascular disease) and in response to chemotherapy. Although hGSTM1, hGSTT1, and hGSTP1 have been associated with such diseases (on the basis of genetic polymorphisms as indicators of expression), alpha class GSTs have been little studied in this respect. Nevertheless, hGSTA1*B has been associated with increased susceptibility to colorectal cancer and with increased efficacy of chemotherapy for breast cancer. Methods for identification and quantitation of human alpha class GST protein, mRNA, and genotype are reviewed, and the potential for GST-alpha in plasma to be used as a marker for hepatic expression and induction is discussed.
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PMID:Human alpha class glutathione S-transferases: genetic polymorphism, expression, and susceptibility to disease. 1639 77

The human cytomegalovirus (HCMV) IE86 cDNA was cloned into pGEX-2T and fusion protein GST-IE86 was expressed inE. coli. SDS-PAGE and Western blot assay indicated that fusion protein GST-IE86 with molecular weight of 92 ku is soluble in the supernatant of cell lysate. Protein GST and fusion protein GST-IE86 were purified by affinity chromatography. The technology of co-separation and specific affinity chromatography was used to study the interactions of HCMV IE86 protein with some transcriptional regulatory proteins and transcriptional factors. The results indicated that IE86 interacts separately with transcriptional factor TFIIB and promoter DNA binding transcription trans-activating factors SP1, AP1 and AP2 to form a heterogenous protein complex. These transcriptional trans-activating factors, transcriptional factor and IE86 protein were adsorbed and retained in the affinity chromatography simultaneously. But IE86 protein could not interact with NF-kappaB, suggesting that the function of IE86 protein that can interact with transcriptional factor and transcriptional trans-activating factors has no relevance to protein glycosylation. IE86 protein probably has two domains responsible for binding transcriptional trans-activating regulatory proteins and transcriptional factors respectively, thus activating the transcription of many genes. The interactions accelerated the assembly of the transcriptional initiation complexes.
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PMID:Human cytomegalovirus IE2 protein interacts with transcription activating factors. 1876 92

Nuclear and cytoplasmic scaffold proteins have been shown to be essential for temporal and spatial organization, as well as the fidelity, of MAPK signaling pathways. In this study we show that nesprin-2 is a novel extracellular signal-regulated MAPK1 and 2 (ERK1/2) scaffold protein that serves to regulate nuclear signaling by tethering these kinases at promyelocytic leukemia protein nuclear bodies (PML NBs). Using immunofluorescence microscopy, GST pull-down and immunoprecipitation, we show that nesprin-2, ERK1/2, and PML colocalize and bind to form a nuclear complex. Interference of nesprin-2 function, by either siRNA-mediated knockdown or overexpression of a dominant negative nesprin-2 fragment, augmented ERK1/2 nuclear signaling shown by increased SP1 activity and ELK1 phosphorylation. The functional outcome of nesprin-2 disruption and the resultant sustained ERK1/2 signal was increased proliferation. Importantly, these activities were not induced by previously identified nuclear envelope (NE)-targeted nesprin-2 isoforms but rather were mediated by novel nuclear isoforms that lacked the KASH domain. Taken together, this study suggests that nesprin-2 is a novel intranuclear scaffold, essential for nuclear ERK1/2 signaling fidelity and cell cycle progression.
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PMID:Novel nuclear nesprin-2 variants tether active extracellular signal-regulated MAPK1 and MAPK2 at promyelocytic leukemia protein nuclear bodies and act to regulate smooth muscle cell proliferation. 1986 16


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