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)

Almost all human malignant tumours exhibit strong telomerase activity, but normal adult tissues, with a few exceptions, do not. hTERT (human telomerase reverse transcriptase) is an essential component of telomerase, and hence it can serve as a parallel sign in the diagnosis and prognosis of cancers. In the present study, we selected a sequence of hTERT containing two antigenic epitopes that have high affinity for HLA-A2 (human leucocyte antigen-A2) as a TAA (tumour-associated antigen) based on a peptide-motif scoring system. The sequence was obtained by reverse-transcriptase PCR and cloned into the Escherichia coli expression vector pGEX-4T-1. The expression product appeared in the form of inclusion bodies. Denatured inclusion-body extract was subjected to SDS/PAGE, and the gel band corresponding to the putative 38 kDa fusion protein (GST-hTERT major tumour-associated antigen) was excised, ground with PBS, mixed with Freund's adjuvant and used to inoculate mice, generating anti-TERT polyclonal antibodies. Western blotting using the leukaemia cell line THP-1 demonstrated that the antibodies were able to detect hTERT expression, implying the potential applicability of the antigenic peptides derived from hTERT as a universal marker in the diagnosis and prognosis of tumours.
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PMID:Characterization of a human telomerase reverse transcriptase sequence containing two antigenic epitopes with high affinity for human leucocyte antigen. 1786 23

Three putative alkaline phosphatase genes, phoA, phoC and phoD, were identified in the genome of Streptomyces coelicolor by homology with the amino acid sequence obtained from the PhoA protein of Streptomyces griseus. PhoA and PhoC correspond to broad-spectrum alkaline phosphatases whereas PhoD is similar to a Ca(2+)-dependent phospholipase D of Streptomyces chromofuscus. The phoA and phoD genes were efficiently expressed in R5 medium under phosphate-limited conditions, as shown by studies using the xylE reporter gene, whereas phoC was poorly transcribed under the same conditions. Expression of phoA was clearly PhoP-dependent since it was not transcribed in the S. coelicolor DeltaphoP mutant and was strongly activated under low phosphate concentrations. Similarly, expression of phoD was PhoP-dependent and highly sensitive to phosphate availability. By contrast, expression of phoC was not PhoP-dependent. Electrophoretic mobility shift assays showed that PhoP binds to the phoA and phoD promoters, but not to that of phoC. Footprinting studies with GST-PhoP revealed the presence of a PHO box (two direct 11 nt repeats) in the phoA promoter and two PHO boxes in the promoter of phoD. The transcription start points of the three promoters were identified by primer extension. The transcription start point of phoD coincides with the G of its translation start codon, indicating that this gene is transcribed as a leaderless mRNA. The deduced -10 and -35 regions of phoD (but not those of phoA) overlapped with the PHO boxes in this promoter, suggesting that an excess of PhoP interferes with binding of the RNA polymerase to this promoter. In summary, the three promoters showed clear differences in the modulation of their expression by PhoP.
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PMID:Phosphate control of phoA, phoC and phoD gene expression in Streptomyces coelicolor reveals significant differences in binding of PhoP to their promoter regions. 1790 50

MKL1 (MRTF-A/MAL) is a member of the myocardin-related transcription factor family that plays a key role in the development and differentiation of smooth muscle cells (SMCs) via activation of serum response factor (SRF)-dependent SMC gene expression. MKL1 associates with SRF and stimulates its transcriptional activity. Here, by performing matrix-assisted laser desorption/ionization-time of flight mass spectrometric analysis combined with in vitro glutathione S-transferase pull-down assay, we identified 4 candidate proteins that associate with MKL1 through the N-terminus region of MKL1. SPT16, ATP citrate lyase, nucleolin and radixin were identified, and the physical and functional interactions between MKL1 and SPT16 were examined. SPT16 is a component of the FACT (facilitating chromatin transcription) complex that allows RNA polymerase II to traverse the nucleosomes. SPT16 associates with MKL1 in vitro and in vivo; moreover, SSRP1, another component of the FACT complex, associates with the N-terminus region of MKL1 in vitro. SPT16 synergistically activates the transcriptional activity of MKL1. These results show that the expression of nucleosomal SRF-dependent genes, including the SMC gene, is activated by MKL1 via activation of SRF and recruitment of the FACT complex.
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PMID:Modulation of SRF-dependent gene expression by association of SPT16 with MKL1. 1803 21

Using T-type maize cytoplasmic male sterile line (T-CMS) and maintainer line as experimental materials, we separated mitochondrial proteins from leaves at seedling, shooting, booting stages, mesocotyl, root and anther at meiosis of pollen mother cell, single-double nucleus stage of pollen grain by two-dimensional electrophoresis with immobilized pH3-10 gradients. About 150 mitochondrial protein spots in seedling leaves, 150 spots in mesocotyls, 150 spots in roots and 100 spots in meiosis anther were observed respectively in this investigation. 6 difference protein spots were identified by MALDI-TOF-MS analysis and NCBI database searching. r40c1 protein was present in mesocotyl of T-CMS and absent in maintainer line. Mature anther-specific protein, DNA-directed RNA polymerase 23kDa subunit, hexokinase II were present and glutathione S-transferase, putative polyprotein were absent in pollen aborted anther of T-CMS. Developmental changes in mitochondrial proteins were found in leaves but no differences were observed in T-CMS and its maintainer line. Obvious differences of mitochondrial proteins were found at single-double nucleus stage anther in T-CMS and maintainer line. These different proteins were considered to be associated to pollen aborted in T-CMS.
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PMID:[Different proteins in mitochondrial proteome of T-type maize cytoplasmic male-sterile line and its maintainer line]. 1819 83

The carboxyl-terminal domain (CTD) of eukaryotic RNA polymerase II is the staging platform for numerous proteins involved in transcription initiation, mRNA processing, and general coordination of nuclear events. Concordant with these central roles in cellular metabolism, the consensus sequence, tandemly repeated structure, and core functions of the CTD are conserved across diverse eukaryotic lineages; however, in other eukaryotes, the CTD has been allowed to degenerate completely. Even in groups where the CTD is strongly conserved, genetic analyses and comparative genomic investigations show that a variety of individual substitutions and insertions are permissible. Therefore, the specific functional constraints reflected by the CTD's conservation across much of eukaryotic evolution have remained somewhat puzzling. Here we propose a hypothesis to explain that strong conservation in budding yeast, based on both comparative and experimental evidence. Through genetic complementation for CTD function, we identify 2 sequence elements contained within pairs of heptapeptides, "Y(1)-Y(8)" and "S(2)-S(5)-S(9)," which are required for all essential CTD functions in yeast. The dual requirements of these motifs can account for strong purifying selection on the canonical CTD heptapeptide. Further, in vitro analysis of GST-CTD fusion proteins as substrates for multiple CTD-directed kinases show reduced phosphorylation efficiencies with increased distance between functional units. This indicates that requirements of the RNAP II phosphorylation cycle are most likely responsible for the strong purifying selection on tandemly repeated CTD structure.
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PMID:The essential sequence elements required for RNAP II carboxyl-terminal domain function in yeast and their evolutionary conservation. 1820 93

Poplar plants (Populus deltoides x nigra, DN34) growing under hydroponic conditions were exposed to 50 mg L(-1) of hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX) for 24 h. The expression of genes potentially involved in the metabolism of toxic explosives was analyzed by reverse-transcriptase (RT) real-time PCR. Genes under study were selected by reference to corresponding genes that were previously shown to be upregulated in the model plant Arabidopsis thaliana by exposure to 2,4,6-trinitrotoluene (TNT) (Ekman et al., 2003. Plant Physiol., 133, 1397-1406). The target genes investigated include several genes encoding for enzymes known to be involved in the detoxification of xenobiotic pollutants, such as glutathione S-transferases (GSTs), cytochrome P-450s (CYPs), NADPH-dependent reductases, and peroxidases. Starting from A. thaliana TNT-inducible genes, corresponding Populus sequences were retrieved from the JGI Poplar Genome Project database and were used to design gene-specific primers. 18S ribosomal DNA (rDNA) was used as an internal standard and recorded gene expression levels were normalized by reference to nonexposed plants. In three separate experiments, five genes were found to be significantly amplified in leaf tissues by exposure to RDX, including GST (9.7 fold), CYP (1.6 fold), reductases (1.6-1.7 fold), and peroxidase (1.7 fold). In root tissues, only a single GST gene was found to be significantly amplified by exposure to RDX (2.0 fold). These results show, for the first time, that the exposure of poplar plants to RDX results in the induction of several genes that are potentially involved in explosive detoxification.
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PMID:Analysis of gene expression in poplar trees (Populus deltoides x nigra, DN34) exposed to the toxic explosive hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX). 1824 12

Nhp6p is an architectural Saccharomyces cerevisiae non-histone chromosomal protein that bends DNA and plays an important role in transcription and genome stability. We used the split-ubiquitin system to isolate proteins that interact with Nhp6p in vivo, and we confirmed 11 of these protein-protein interactions with glutathione S-transferase pull-down experiments in vitro. Most of the Nhp6p-interacting proteins are involved in transcription and DNA repair. We utilized the ZDS1, PUR5 and UME6 genes, which are repressed by Nhp6p and its interacting partners Rpb4p and Med3p, to study the chromosomal localization of these three proteins in wild-type and gene deletion strains. Nhp6p, Med3p and Rpb4p were found at the promoters of ZDS1, PUR5 and UME6, indicating that the repressing effects the three proteins had on the expression of these three genes had been direct ones. We also found that Med3p inhibited promoter clearance of RNA polymerase II, which contained the dissociable subunit Rpb4p, while Nhp6p recruited Rpb4p to the basal promoters of ZDS1, PUR5 and UME6. Our results further suggest that Rpb4p inhibits transcription initiation but stimulates transcription elongation and that Nhp6p and Med3p regulate gene expression by controlling the local subunit composition of RNA polymerase II.
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PMID:Nhp6p and Med3p regulate gene expression by controlling the local subunit composition of RNA polymerase II. 1844 20

Actin, the major component of the cytoplasmic skeleton, has been shown to exist in the nucleus. Nuclear actin functions in several steps of the transcription process, including chromatin remodelling and transcription initiation and elongation. However, as a part of PICs (pre-initiation complexes), the role of actin remains to be elucidated. In the present study, we identified RHA (RNA helicase A) as an actin-interacting protein in PICs. Using immunoprecipitation and immunofluorescence techniques, we have shown that RHA associates with beta-actin in the nucleus. A GST (glutathione transferase) pulldown assay using different deletion mutants revealed that the RGG (Arg-Gly-Gly) region of RHA was responsible for the interaction with beta-actin, and this dominant-negative mutant reduced the recruitment of Pol II (RNA polymerase II) into PICs. Moreover, overexpression or depletion of RHA could influence the interaction of Pol II with beta-actin and beta-actin-involved gene transcription regulation. These results suggest that RHA acts as a bridging factor linking nuclear beta-actin with Pol II.
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PMID:RNA helicase A acts as a bridging factor linking nuclear beta-actin with RNA polymerase II. 1930 9

The respiratory syncytial virus (RSV) M2-1 protein is an essential cofactor of the viral RNA polymerase complex and functions as a transcriptional processivity and antitermination factor. M2-1, which exists in a phosphorylated or unphosphorylated form in infected cells, is an RNA-binding protein that also interacts with some of the other components of the viral polymerase complex. It contains a CCCH motif, a putative zinc-binding domain that is essential for M2-1 function, at the N terminus. To gain insight into its structural organization, M2-1 was produced as a recombinant protein in Escherichia coli and purified to >95% homogeneity by using a glutathione S-transferase (GST) tag. The GST-M2-1 fusion proteins were copurified with bacterial RNA, which could be eliminated by a high-salt wash. Circular dichroism analysis showed that M2-1 is largely alpha-helical. Chemical cross-linking, dynamic light scattering, sedimentation velocity, and electron microscopy analyses led to the conclusion that M2-1 forms a 5.4S tetramer of 89 kDa and approximately 7.6 nm in diameter at micromolar concentrations. By using a series of deletion mutants, the oligomerization domain of M2-1 was mapped to a putative alpha-helix consisting of amino acid residues 32 to 63. When tested in an RSV minigenome replicon system using a luciferase gene as a reporter, an M2-1 deletion mutant lacking this region showed a significant reduction in RNA transcription compared to wild-type M2-1, indicating that M2-1 oligomerization is essential for the activity of the protein. We also show that the region encompassing amino acid residues 59 to 178 binds to P and RNA in a competitive manner that is independent of the phosphorylation status of M2-1.
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PMID:The respiratory syncytial virus M2-1 protein forms tetramers and interacts with RNA and P in a competitive manner. 1938 1

To investigate novel NS1-interacting proteins, we conducted a yeast two-hybrid analysis, followed by co-immunoprecipitation assays. We identified heterogeneous nuclear ribonucleoprotein F (hnRNP-F) as a cellular protein interacting with NS1 during influenza A virus infection. Co-precipitation assays suggest that interaction between hnRNP-F and NS1 is a common and direct event among human or avian influenza viruses. NS1 and hnRNP-F co-localize in the nucleus of host cells, and the RNA-binding domain of NS1 directly interacts with the GY-rich region of hnRNP-F determined by GST pull-down assays with truncated proteins. Importantly, hnRNP-F expression levels in host cells indicate regulatory role on virus replication. hnRNP-F depletion by small interfering RNA (siRNA) shows 10- to 100-fold increases in virus titers corresponding to enhanced viral RNA polymerase activity. Our results delineate novel mechanism of action by which NS1 accelerates influenza virus replication by modulating normal cellular mRNA processes through direct interaction with cellular hnRNP-F protein.
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PMID:Direct interaction of cellular hnRNP-F and NS1 of influenza A virus accelerates viral replication by modulation of viral transcriptional activity and host gene expression. 2342 46

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