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)

ELP, the embryonal LTR binding protein, is a member of the nuclear receptor superfamily and a mouse homologue of Drosophila FTZ-F1. ELP is expressed specifically in undifferentiated mouse embryonal carcinoma cells and participates in suppression of the Moloney murine leukemia virus genome. The zinc finger domain of the protein was fused with glutathione S-transferase and was successfully used for isolating genomic targets. Sixteen genomic fragments were isolated and twelve of them strongly interacted with ELP. Six of the ELP binding fragments were analyzed further. All of these contained the multiple binding sites for ELP, which matched well with the consensus binding sequence for FTZ-F1, YCAAGGYCR. Among these, three fragments functioned as negative regulatory elements in response to ELP, when placed upstream to the promoter region of the Moloney leukemia virus. These results indicate that ELP may function as a negative transcription factor for a variety of cellular sequences, in addition to suppressing expression of Moloney leukemia virus in early embryonal cells. It was also shown that the procedure employed here works well for isolation of genomic targets of transcription factors.
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PMID:Isolation of high affinity cellular targets of the embryonal LTR binding protein, an undifferentiated embryonal carcinoma cell-specific repressor of Moloney leukemia virus. 157 38

The EVI1 gene is activated by chromosomal translocations and inversions in approximately 5% of human acute myeloid leukemia (AML) and by retroviral insertion in approximately 20% of murine myeloid leukemias. EVI1 encodes a nuclear DNA-binding protein having 10 zinc finger motifs in two noncontiguous domains consisting of an amino-terminal domain of seven fingers and a carboxyl domain containing three fingers. To evaluate the sequence specificity of Evi-1 binding and potentially identify genomic targets, whole-genome PCR was utilized to isolate multiple Sau3A fragments which specifically bind to the amino-terminal zinc finger domain. The majority of these clones represented single copy sequences and virtually all contained variable numbers of repeats of the GATA motif, the target sequence for the erythroid-specific transcription factor GATA-1. GST/Evi-1 fusion proteins containing the amino-terminal domain of zinc fingers bound the GATA motif in these clones as well as to those present in the human gamma-globin promoter, similar to the binding of purified GATA-1 protein. By obtaining corresponding large genomic clones for eight of these fragments, transcription units were found associated with two. One corresponded to the glyceraldehyde-3-phosphate dehydrogenase gene and its expression was not affected by Evi-1. The second is a novel gene whose expression is repressed in murine myeloid cell lines that express Evi-1.
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PMID:The Evi-1 zinc finger myeloid transforming protein binds to genomic fragments containing (GATA)n sequences. 762 27

A human gene encoding a protein that specifically binds to the intracellular domain of the 75 kDa type-2 tumour necrosis factor (TNF) receptor (TNFR-2IC) has been identified using the yeast-based two-hybrid system. The N-terminal half of the TNF receptor-associated protein (TRAP) contains RING finger and zinc finger motifs often found in DNA-binding proteins including transcription factors. The 2.4 kb TRAP mRNA was barely detectable, if present at all, in lung, and variably expressed in heart, liver, placenta, brain, skeletal muscle, kidney and the pancreas; interestingly, the TRAP was more highly expressed in transformed cell lines than in normal tissues. This observation may be consistent with a role for this TRAP in promoting or regulating cellular proliferation. After in vitro transcription/translation and 35S labelling the TRAP was precipitated using a fusion protein consisting of glutathione S-transferase and the intracellular domain of TNFR-2 (TNFR-2IC), which showed that the two proteins directly interact in a mammalian cell-free system and also that identification of the TRAP was not an artifact of the two-hybrid system. By using truncated TNFR-2ICs for in vitro precipitation of 35S-TRAP, it was shown that the C-terminal half of the TNFR-2IC contains the domain necessary for interaction with TRAP. The TRAP identified in the present study shares considerable homology with, and may be the human homologue of, a mouse protein, TNF receptor-associated factor 2 (TRAF2), that binds mouse TNFR-2.
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PMID:Association of a RING finger protein with the cytoplasmic domain of the human type-2 tumour necrosis factor receptor. 763 98

GATA-1, the founding member of a distinctive family of transcription factors, is expressed predominantly in erythroid cells and participates in the expression of numerous erythroid cell-expressed genes. GATA-binding sites are found in the promoters and enhancers of globin and nonglobin erythroid genes as well as in the alpha- and beta-globin locus control regions. To elucidate how GATA-1 may function in a variety of regulatory contexts, we have examined its protein-protein interactions. Here we show that GATA-1 self-associates in solution and in whole-cell extracts and that the zinc finger region of the molecule is sufficient to mediate this interaction. This physical interaction can influence transcription, as GATA-1 self-association is able to recruit a transcriptionally active but DNA-binding-defective derivative of GATA-1 to promoter-bound GATA-1 and result in superactivation. Through in vitro studies with bacterially expressed glutathione S-transferase fusion proteins, we have localized the minimal domain required for GATA-1 self-association to 40 amino acid residues within the C-terminal zinc finger region. Finally, we have detected physical interaction of GATA-1 with other GATA family members (GATA-2 and GATA-3) also mediated through the zinc finger domain. These findings have broad implications for the involvement of GATA factors in transcriptional control. In particular, the interaction of GATA-1 with itself and with other transcription factors may facilitate its function at diverse promoters in erythroid cells and also serve to bring together, or stabilize, loops between distant regulatory elements, such as the globin locus control regions and downstream globin promoters. We suggest that the zinc finger region of GATA-1, and related proteins, is multifunctional and mediates not only DNA binding but also important protein-protein interactions.
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PMID:Self-association of the erythroid transcription factor GATA-1 mediated by its zinc finger domains. 773 29

The BCL6 gene involved in the 3q27 translocation associated with B-cell lymphomas encodes a novel Cys2-His2 zinc finger protein. We generated a fusion protein of glutathione S-transferase and zinc finger domain of BCL6 to determine recognition sequences of BCL6 with polymerase chain reaction using random oligonucleotides of 26 bases as a ligand. A consensus of 14 nucleotides consisting of (T/A)NCTTTCNAGG(A/G)AT was identified in the recognition sequences. In a gel mobility shift assay, the probe containing the 14-nucleotide recognition sequence formed a complex with the fusion protein and nuclear proteins from Burkitt's cell lines overexpressing the BCL6 transcripts. The consensus sequence was protected from the digestion by nuclease in a DNase I footprinting assay. In conclusion, BCL6 may be involved in tumorigenesis by binding to the consensus sequences of the other genes.
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PMID:Recognition DNA sequence of a novel putative transcription factor, BCL6. 794 83

The 775-amino-acid IE110 (or ICP0) phosphoprotein of herpes simplex virus (HSV) functions as an accessory transcription factor during the lytic cycle and plays a critical role in reactivation from latent infection. By immunofluorescence analysis, IE110 localizes in a novel pattern consisting of several dozen spherical punctate granules in the nuclei of DNA-transfected cells. We constructed a hybrid version of IE110 that contained an epitope-tagged domain from the N terminus of the HSV IE175 protein and lacked the IE110 N-terminal domain that confers punctate characteristics. This hybrid IE175(N)/IE110(C) protein gave an irregular nuclear diffuse pattern on its own but was redistributed very efficiently into spherical punctate granules after cotransfection with the wild-type HSV-1 IE110 protein. Similar colocalization interactions occurred with internally deleted forms of IE110 that lacked the zinc finger region or large segments from the center of the protein, including both cytoplasmic and elongated punctate forms, but C-terminal truncated versions of IE110 did not interact. In all such interactions, the punctate phenotype was dominant. Evidence that C-terminal segments of IE110 could also form stable mixed-subunit oligomers in vitro was obtained by coimmunoprecipitation of in vitro-translated IE110 polypeptides with different-size hemagglutinin epitope-tagged forms of the protein. This occurred only when the two forms were cotranslated, not when they were simply mixed together. An in vitro-synthesized IE110 C-terminal polypeptide also gave immunoprecipitable homodimers and heterodimers when two different-size forms were cross-linked with glutaraldehyde and reacted specifically with a bacterial glutathione S-transferase/IE110 C-terminal protein in far-Western blotting experiments. The use of various N-terminal and C-terminal truncated forms of IE110 in the in vivo assays revealed that the outer boundaries of the interaction domain mapped between codons 617 and 711, although inclusion of adjacent codons on either side increased the efficiency severalfold in some assays. We conclude that the C-terminal region of IE110 contains a high-affinity self-interaction domain that leads to stable dimer and higher-order complex formation both in DNA-transfected cells and in in vitro assays. This segment of IE110 is highly conserved between HSV-1 and HSV-2 and appears to have the potential to play an important role in the interaction with the IE175 protein, as well as in correct intracellular localization, but it is not present in the equivalent proteins from varicella-zoster virus, pseudorabies virus, or equine abortion virus.
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PMID:Identification of a dimerization domain in the C-terminal segment of the IE110 transactivator protein from herpes simplex virus. 815 88

In order to investigate the mechanism of carbon catabolite repression in the industrially important fungus Trichoderma reesei, degenerated PCR-primers were designed to amplify a 0.7-bp fragment of the cre1 gene, which was used to clone the entire gene. It encodes a 402-amino acid protein with a calculated M(r) of 43.6 kDa. Its aa-sequence shows 55.6% and 54.7% overall similarity to the corresponding genes of Aspergillus nidulans and A. niger, respectively. Similarity was restricted to the aa-region containing the C2H2 zinc finger and several aa-regions rich in proline and basic amino acids, which may be involved in the interaction with other proteins. Another aa-region rich in the SPXX-motif that has been considered analogous to a region of yeast RGR1p, was instead identified as a domain occurring in several eucaryotic transcription factors. The presence of the cre1 translation product was demonstrated with polyclonal antibodies against Cre1, which identified a protein of 43 (+/- 2) kDa in cell-free extracts from T. reesei. A Cre1 protein fragment from the two zinc fingers to the region similar to the aa-sequence of eucaryotic transcription factors, was expressed in Escherichia coli as a fusion protein with glutathione S-transferase. EMSA and in vitro footprinting revealed binding of the fusion protein to the sequence 5'-GCGGAG-3', which matches well with the A. nidulans consensus sequence for CreA binding (5'-SYGGRG-3'). Cell-free extracts of T. reesei formed different complexes with DNA-fragments carrying this binding sites, and the presence of Cre1 and additional proteins in these complexes was demonstrated. We conclude that T. reesei Cre1 is the functional homologue of Aspergillus CreA and that it binds to its target sequence probably as a protein complex.
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PMID:Cre1, the carbon catabolite repressor protein from Trichoderma reesei. 852 52

The barley stripe mosaic virus (BSMV) gamma-b gene encodes a 17 kDa cysteine-rich protein known to affect virulence and to have a role in regulating viral gene expression. We have constructed recombinant gamma-b-glutathione S-transferase fusion proteins in Escherichia coli and have determined the ability of the purified fusion proteins and various mutant derivatives to bind nucleic acids in vitro. Gel-shift analyses revealed that the wild-type gamma-b-fusion protein is able to bind RNA cooperatively. The binding affinity is highly selective for single-stranded RNA because double-stranded RNA, single-stranded and double-stranded DNA, and transfer RNA were unable to compete for binding with the labelled RNA probes. However, BSMV-specific sequence binding was not observed since a chloroplast RNA competed for binding with 32P-labelled transcripts derived from the BSMV genome. The first 44 amino acids of the 152 amino acid gamma-b fusion protein encompassing one of two cysteine-rich 'zinc finger-like' motifs, and a basic region separating the finger-like motifs are required for RNA binding. Site- specific amino acid substitutions within two groups of lysine and arginine residues located in the basic motif reduced the binding affinity of the fusion protein greatly, but cysteine and histidine substitutions designed to disrupt the finger-like motifs failed to have appreciable effects on binding. These findings indicate that the regulatory properties of gamma-b may be mediated in part by RNA binding activities.
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PMID:RNA-binding activities of barley stripe mosaic virus gamma b fusion proteins. 860 84

Transcription enhancer factor-1 (TEF-1) has been implicated in transactivating a placental enhancer (CSEn) that regulates human chorionic somatomammotropin (hCS) gene activity. We demonstrated that TEF-1 represses hCS promoter activity in choriocarcinoma (BeWo) cells (Jiang, S.W., and Eberhardt, N.L. (1995) J. Biol. Chem. 270, 13609-13915), suggesting that TEF-1 interacts with basal transcription factors. Here we demonstrate that hTEF-1 overexpression inhibits minimal hCS promoters containing TATA and/or initiator elements, Rous sarcoma virus and thymidine kinase promoters in BeWo cells. Cotransfection of TEF-1 antisense oligonucleotides alleviated exogenous TEF-1-mediated repression and increased basal hCS promoter activity, indicating that endogenous TEF-1 exerts repressor activity. GST-TEF-1 fusion peptides fixed to glutathione-Sepharose beads retained in vitro-generated human TATA-binding protein, hTBP. The TEF-1 proline-rich domain was essential for TBP binding, but polypeptides also containing the zinc finger domain bound TBP with higher apparent affinity. TBP supershifted hTEF-GT-IIC DNA complexes, but TEF-1 inhibited in vitro binding of TBP to the TATA motif. Coexpression of TBP and TEF-1 in BeWo cells alleviated TEF-1-mediated transrepression, indicating that the TBP-TEF-1 interaction is functional in vivo. The data indicate that TEF-1 transrepression is mediated by direct interactions with TBP, possibly by inhibiting preinitiation complex formation.
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PMID:TEF-1 transrepression in BeWo cells is mediated through interactions with the TATA-binding protein, TBP. 862 23

The Gfi-1 proto-oncogene encodes a zinc finger protein with six C2H2-type, C-terminal zinc finger motifs and is activated by provirus integration in T-cell lymphoma lines selected for interleukin-2 independence in culture and in primary retrovirus-induced thymomas. Gfi-1 expression in adult animals is restricted to the thymus, spleen, and testis and is enhanced in mitogen-stimulated splenocytes. In this report, we show that Gfi-1 is a 55-kDa nuclear protein that binds DNA in a sequence-specific manner. The Gfi-1 binding site, TAAATCAC(A/T)GCA, was defined via random oligonucleotide selection utilizing a bacterially expressed glutathione S-transferase-Gfi-1 fusion protein. Binding to this site was confirmed by electrophoretic mobility shift assays and DNase I footprinting. Methylation interference analysis and electrophoretic mobility shift assays with mutant oliginucleotides defined the relative importance of specific bases at the consensus binding site. Deletion of individual zinc fingers demonstrated that only zinc fingers 3, 4, and 5 are required for sequence-specific DNA binding. Potential Gfi-1 binding sites were detected in a large number of eukaryotic promoter-enhancers, including the enhancers of several proto-oncogenes and cytokine genes and the enhancer of the human cytomegalovirus (HCMV) major immediate-early promoter, which contains two such sites. HCMV major immediate-early-chloramphenicol acetyltransferase reporter constructs, transfected into NIH 3T3 fibroblasts, were repressed by Gfi-1, and the repression was abrogated by mutation of critical residues in the two Gfi-1 binding sites. These results suggest that Gfi-1 may play a role in HCMV biology and may contribute to oncogenesis and T-cell activation by repressing the expression of genes that inhibit these processes.
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PMID:Gfi-1 encodes a nuclear zinc finger protein that binds DNA and functions as a transcriptional repressor. 875


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