EC:2.5.1.18 - FACTA Search

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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)

A plasmid vector has been constructed that allows the ligation-independent cloning of cDNAs in any reading frame and directs their synthesis in Escherichia coli as glutathione S-transferase-linked fusion proteins. The cloning procedure does not require restriction enzyme digestion of the target sequence and does not introduce any additional sequences between the thrombin cleavage site and the foreign protein. Extended single-stranded tails complementary between the vector and insert, generated by the (3'----5') exonuclease activity of T4 DNA polymerase, obviate the need for in vitro ligation prior to bacterial transformation. This cloning procedure is rapid and highly efficient, and has been used successfully to construct a series of fusion proteins to investigate the sequence requirements for efficient thrombin cleavage.
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PMID:Ligation-independent cloning of glutathione S-transferase fusion genes for expression in Escherichia coli. 133 64

The human multidrug-resistance gene (MDR1) encodes an energy-dependent multidrug efflux protein responsible for the cross-resistance of cultured cells to natural product chemotherapeutic agents such as the anthracyclines and vinca alkaloids. RNA transcript levels were measured in leukemia cells obtained from 15 adult acute nonlymphocytic leukemia (ANLL) cases and 15 cases of chronic myelogenous leukemia (CML). Expression of MDR1 RNA was common in ANLL, and appears to be most frequent in leukemic cells of patients with the poorest response to chemotherapy. Expression of the MDR1 gene was not detectable in the peripheral white blood cells of any of the CML cases during the chronic phase, but was detectable in the immature cells present during this phase of the disease. The cells of the three blastic crisis patients contained detectable levels of MDR1 RNA. These studies support the idea that expression of the MDR1 gene contributes to drug resistance in ANLL, and may play a role in some instances in the drug-resistance of CML in blastic crisis. In contrast, studies of the level of expression of anionic glutathione transferase and DNA polymerase B failed to show any relationship between the RNA transcript levels of these enzymes and responsiveness to chemotherapy.
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PMID:Expression of the multidrug resistance gene in myeloid leukemias. 230 54

The DNA-binding domain of Nuclear Factor I (NFIBD) enhances initiation of adenovirus DNA replication up to 50-fold by binding to the auxiliary region of the origin and positioning the viral DNA polymerase. To study if and when NFIBD dissociates from the template, we immobilized origin DNA to glutathione-agarose beads by means of a GST-NFIBD fusion protein. This immobilized template is active in replication. By analyzing the release of prelabeled templates from the beads under different conditions, we show that NFIBD dissociates already early during initiation. During preinitiation NFIBD remains bound, but as soon as dCTP, dATP or dTTP are added, efficient dissociation occurs. A much lower dissociation level was induced by addition of dGTP. Since dCTP, dATP and dTTP are required for formation of a pTP-CAT initiation intermediate, we explain our results by conformational changes occurring in the polymerase during initiation leading to disruption of both the interaction between the polymerase and NFI as well as the interaction between NFI and the DNA.
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PMID:Early dissociation of nuclear factor I from the origin during initiation of adenovirus DNA replication studied by origin immobilization. 781 11

The bipartite POU domain of transcription factor Oct-1 stimulates adenovirus DNA replication through an interaction with the octamer sequence present in the auxiliary origin. Employing an immobilized in vitro DNA replication system, we show that the POU domain enhances the formation of a pre-initiation complex composed of the viral precursor terminal protein-DNA polymerase (pTP-pol) complex and the origin. To investigate the mechanism of stimulation we have explored protein-protein interactions between the POU domain and the pTP-pol complex. Such an interaction could be detected using a GST-POU fusion protein bound to glutathione-agarose beads. Binding was also observed with the POU homeodomain (POUHD), albeit weaker than with the intact POU domain, but not with the POU specific subdomain. Four point mutations localized in the POUHD were analyzed for pTP-pol binding. Two of these, E22A and E30A, bound pTP-pol equally as well as the wild-type, while the other two, Q24A and E29A, were able to bind 2- to 4-fold better. These mutations are localized in the same region where the HSV transactivator VP16 binds, but did not coincide with the VP16 contacts. A direct correlation between pTP-pol binding and stimulation of DNA replication in vitro was observed for all mutants, suggesting that stimulation by the POU domain is caused by an interaction with the viral pTP-pol complex.
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PMID:The Oct-1 POU domain stimulates adenovirus DNA replication by a direct interaction between the viral precursor terminal protein-DNA polymerase complex and the POU homeodomain. 795 6

Initiation of adenovirus DNA replication is strongly enhanced by two cellular transcription factors, NFI and Oct-1, which bind to the auxiliary origin and tether the viral precursor terminal protein-DNA polymerase (pTP.pol) complex to the core origin. NFI acts through a direct contact with the DNA polymerase, but the mode of action of Oct 1 is unknown. Employing glutathione S-transferase-POU pull-down assays and protein affinity chromatography, we have established that the POU domain contacts pTP rather than pol. The POU homeodomain is responsible for this interaction. The protein-protein contacts lead to increased binding of pTP-pol to the core origin, which is caused by a reduced off-rate. The enhanced formation of a pTP.pol.POU complex on the origin correlates with stimulation of replication. Using an immobilized replication system, we have studied the kinetics of dissociation of the Oct-1 POU domain during replication. In contrast to NFI, which dissociates very early in initiation, Oct-1 dissociates only when the binding site is rendered single-stranded upon translocation of the replication fork. Our data indicate that NFI and Oct-1 enhance initiation synergistically by touching different targets in the preinitiation complex and dissociate independently after initiation.
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PMID:The Oct-1 POU homeodomain stabilizes the adenovirus preinitiation complex via a direct interaction with the priming protein and is displaced when the replication fork passes. 901 82

The gene for the human herpes virus 7 (HHV-7) glycoprotein B (gB) has been identified by sequencing a molecularly cloned HHV-7 DNA fragment. A 2.5-kb open reading frame (ORF) encoded a protein of 822 amino acids with characteristics of a transmembrane glycoprotein, and showed the strongest similarity (56.5%) with the human herpesvirus 6 (HHV-6) gB. The genes for the transport/capsid assembly protein (tp/cap) and the DNA polymerase (pol) existed upstream and downstream of the gB gene, respectively. This arrangement was the same as that of HHV-6. Antisera were generated by immunizing mice with a glutathione S-transferase-carboxy terminal gB fusion protein. Immunofluorescent tests demonstrated that the antisera reacted specifically with HHV-7 antigens in cytoplasm of infected cells. The antisera immunoprecipitated proteins with apparent molecular masses of 51, 63 and 112 kDa from HHV-7 infected cells by pulse-chase analysis. In the presence of tunicamycin, the protein with a molecular mass of 112 kDa was replaced by a protein with a molecular mass of 88 kDa, and this size was consistent with the predicted size of the primary translation product of the HHV-7 gB gene. These results suggested that the protein with a molecular mass of 112 kDa was a glycoprotein synthesized by addition of N-linked oligosaccharides to a non-glycosylated precursor of the protein with a molecular mass of 88 kDa and then cleaved into the proteins with molecular masses of 51 and 63 kDa in HHV-7 infected cells.
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PMID:Identification and analyses of glycoprotein B of human herpesvirus 7. 902 85

Interactions between the herpes simplex virus type 1 (HSV-1) origin (ori)-binding protein (UL9) and two other components of the functional DNA replication complex have been observed. However, to date, no interaction between UL9 and a component of the DNA polymerase holoenzyme has been demonstrated. In this report, we demonstrate that UL9 and the DNA polymerase accessory protein (UL42) can form a stable complex in vitro as determined by coimmunoprecipitation with specific antibodies to each protein and by affinity chromatography using glutathione S-transferase (GST) fusion proteins. Complex formation does not require the presence of other viral proteins and occurs in the presence of ethidium bromide, indicating that UL9-UL42 interaction is DNA independent. Affinity beads charged with increasing concentrations of GST-42 fusion protein up to 5 microM bound increasing amounts of UL9 expressed by in vitro transcription/translation in rabbit reticulocyte lysates. Binding of N- and C-terminal portions of UL9 to GST affinity matrices revealed that the N-terminal 533 amino acids were sufficient for binding to GST-42, albeit at approximately a four- to six-fold reduced affinity compared to the full-length protein. No binding of a polypeptide containing the remainder of the UL9 C-terminal residues was observed. Thus the ori-binding protein, UL9, can physically associate with at least one member of each of the complexes (helicase/primase, DNA polymerase holoenzyme, single-stranded DNA-binding protein) required for origin-dependent DNA replication. These specific interactions provide a means by which the ordered assembly of HSV-1 DNA replication proteins at origins of replication can occur in the infected cell for initiation of viral DNA synthesis.
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PMID:Interaction between the herpes simplex virus type 1 origin-binding and DNA polymerase accessory proteins. 945 23

The Epstein-Barr virus (EBV) DNA polymerase (pol) mRNA, which contains a noncanonical polyadenylation signal, UAUAAA, is cleaved and polyadenylated inefficiently (S. C. S. Key and J. S. Pagano, Virology 234:147-159, 1997). We postulated that the EBV early proteins SM and M, which appear to act posttranscriptionally and are homologs of herpes simplex virus (HSV) ICP27, might compensate for the inefficient processing of pol pre-mRNA. Here we show that the SM and M proteins interact with each other in vitro. In addition, glutathione S-transferase-SM/M fusion proteins precipitate the heterogeneous ribonucleoprotein (hnRNP) C1 splicing protein. Further, the SM protein is coimmunoprecipitated from SM-expressing cell extracts with an antibody to the hnRNP A1/A2 proteins, which are splicing and nuclear shuttling proteins. Finally, the amount of processed EBV DNA polymerase mRNA was increased three- to fourfold in a HeLa cell line expressing SM; this increase was not due to enhanced transcription. Thus, inefficient processing of EBV pol RNA by cellular cleavage and polyadenylation factors appears to be compensated for and may be regulated by the early EBV protein, SM, perhaps via RNA 3'-end formation.
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PMID:The Epstein-Barr virus (EBV) SM protein enhances pre-mRNA processing of the EBV DNA polymerase transcript. 976 85

Activation of transcription at bacteriophage T4 late promoters and coupling of late transcription to concurrent replication requires a peculiar transcriptional activator, the gp45 sliding clamp of the T4 DNA polymerase. In order to activate transcription, the topologically DNA-linked trimeric gp45 must interact with two T4-encoded RNA polymerase-binding proteins, the gp33 co-activator, and the gp55 late sigma factor. The carboxy termini of gp55 and gp33 share a similar sequence, which has been shown to be required for response of late transcription to activation by gp45. Alanine-scanning mutagenesis of the C terminus of gp55 shows that residues within the short hydrophobic sequence L(D/A)FLYE, are necessary for gp55 to bind to gp45, and to respond maximally to transcriptional activation by gp45. When fused to GST, the peptide SLDFLYE suffices for specific gp45 binding. Thus, it constitutes the main gp55 epitope for gp45 interaction.
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PMID:Activator-sigma interaction: A hydrophobic segment mediates the interaction of a sigma family promoter recognition protein with a sliding clamp transcription activator. 981 12

Mammalian polynucleotide kinases catalyze the 5'-phosphorylation of nucleic acids and can have associated 3'-phosphatase activity, predictive of an important function in DNA repair following ionizing radiation or oxidative damage. The sequences of three tryptic peptides from a bovine 60-kDa polypeptide that correlated with 5'-DNA kinase and 3'-phosphatase activities identified human and murine dbEST clones. The 57.1-kDa conceptual translation product of this gene, polynucleotide kinase 3'-phosphatase (PNKP), contained a putative ATP binding site and a potential 3'-phosphatase domain with similarity to L-2-haloacid dehalogenases. BLAST searches identified possible homologs in Caenorhabditis elegans, Schizosaccharomyces pombe, and Drosophila melanogaster. The gene was localized to chromosome 19q13.3-13.4. Northern analysis indicated a 2-kilobase mRNA in eight human tissues. A glutathione S-transferase-PNKP fusion protein displayed 5'-DNA kinase and 3'-phosphatase activities. PNKP is the first gene for a DNA-specific kinase from any organism. PNKP expression partially rescued the sensitivity to oxidative damaging agents of the Escherichia coli DNA repair-deficient xth nfo double mutant. PNKP gene function restored termini suitable for DNA polymerase, consistent with in vivo removal of 3'-phosphate groups, facilitating DNA repair.
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PMID:Molecular cloning of the human gene, PNKP, encoding a polynucleotide kinase 3'-phosphatase and evidence for its role in repair of DNA strand breaks caused by oxidative damage. 1044 92

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