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 group of proteins containing a conserved ribonucleoprotein consensus sequence (RNP-CS)-type RNA-binding domain (CS-RBD) of approximately 80 amino acids is present in eukaryotic cells and binds specifically to a wide variety of RNA molecules. We have isolated 12 kDa single-stranded DNA binding proteins from the unicellular cyanobacterium Synechococcus 6301. The amino-terminal sequence was determined and two distinct genomic clones were isolated from a Synechococcus 6301 genomic library. Sequence analysis revealed that two closely related proteins contain a single CS-RBD of 82 amino acids and are named as 12RNP1 and 12RNP2. Both of the CS-RBDs share the highest amino acid identity with those of chloroplast ribonucleoproteins (40-51%). The 12RNP proteins were expressed in Escherichia coli bearing plasmids encoding glutathione S-transferase/12RNP fusion proteins and subjected to in vitro nucleic acid-binding assay. Both 12RNP1 and 12RNP2 bind to RNA homopolymers poly(U) and poly(G), indicating that they might be RNA-binding proteins. This is the first example of such proteins in prokaryotes. The 12RNP1 and 12RNP2 genes are transcribed as monocistronic mRNAs and the steady-state mRNA level of 12RNP1 is over 20-fold than that of 12RNP2. Due to the easiness of genetic manipulations the cyanobacterium will provide an excellent system to analyze the function of not only cyanobacterial but also plant RNA-binding proteins.
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PMID:The existence of eukaryotic ribonucleoprotein consensus sequence-type RNA-binding proteins in a prokaryote, Synechococcus 6301. 751 Mar 87

We have identified the major enzymatic activity responsible for the S-adenosyl-L-methionine-dependent methylation of arginine residues (EC 2.1.1.23) in proteins of the yeast Saccharomyces cerevisiae. The RMT1 (protein-arginine methyltransferase), formerly ODP1, gene product encodes a 348-residue polypeptide of 39.8 kDa that catalyzes both the NG-mono- and NG, NG-asymmetric dimethylation of arginine residues in a variety of endogenous yeast polypeptides. A yeast strain in which the chromosomal RMT1 gene was disrupted is viable, but the level of NG,NG-[3H]dimethylarginine residues detected in intact cells incubated with S-adenosyl-L-[methyl-3H]methionine is reduced to less than 15% of the levels found in the parent strain, while the NG-[3H]monomethylarginine content is reduced to less than 30%. We show that soluble extract from parent cell, but not from mutant rmt1 cells, catalyzes the in vitro methylation of endogenous polypeptides of 55, 41, 38, 34, and 30 kDa. The hypomethylated form of these five polypeptides, as well as that of several others, can be mono- and asymmetrically dimethylated by incubating the mutant rmt1 extract with a purified, bacterially produced, glutathione S-transferase-RMT1 fusion protein and S-adenosyl-L-[methyl-3H]methionine. This glutathione S-transferase-RMT1 fusion protein is also able to methylate a number of mammalian polypeptides including histones, recombinant heterogeneous ribonucleoprotein A1, cytochrome c, and myoglobin, but cannot methylate myelin basic protein. RMT1 appears to be a yeast homolog of a recently characterized mammalian protein-arginine methyltransferase whose activity may be modulated by mitotic stimulation of cells.
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PMID:The predominant protein-arginine methyltransferase from Saccharomyces cerevisiae. 864 69

Human cytomegalovirus (HCMV) is an ubiquitous pathogen which causes significant illness in immunocompromised individuals. The immediate-early gene 2 (IE2) protein of HCMV plays an important role in the regulation of virus replication. Previous studies have shown that the IE2 protein is able to interact with several cellular proteins, but many of the IE2 interacting partners remain unidentified. By utilizing the yeast two-hybrid system, the heterogeneous ribonucleoprotein A1 (hnRNP A1) was identified as an IE2 interacting protein. The interaction was confirmed via the in vitro binding of bacterial expressed glutathione S-transferase (GST) IE2 fusion protein with the in vitro translated hnRNP A1. The mutational analysis showed that both the N-terminal half (1-290 residues) and C-terminal half (291-579 residues) of IE2 protein can interact with the hnRNP A1, indicating that more than one region of IE2 protein are involved in the binding with hnRNP A1.
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PMID:The interaction between human cytomegalovirus immediate-early gene 2 (IE2) protein and heterogeneous ribonucleoprotein A1. 912 18

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

Telomerase is a ribonucleoprotein enzyme complex that adds DNA repeats at the ends of chromosomes. In an effort to establish an in vivo heterologous expression system for active human telomerase, we expressed human telomerase reverse transcriptase (hTERT) in Saccharomyces cerevisiae and affinity-purified the protein as a fusion with glutathione S-transferase (GST). Addition of the GST moiety to the N terminus of hTERT did not interfere with telomerase activity when GST-hTERT was expressed in rabbit reticulocyte lysate (RRL) in the presence of the human telomerase RNA (hTR). Active human telomerase was immunoprecipitated from yeast lysates that co-expressed GST-hTERT and hTR. In addition, telomerase activity could be reconstituted in vitro by the addition of hTR to GST-hTERT that was immunoprecipitated from either RRL or S. cerevisiae lysates. The expression and reconstitution of human telomerase activity in yeast will provide powerful biochemical and genetic tools to study the various components required for the assembly and function of this enzyme.
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PMID:Functional reconstitution of human telomerase expressed in Saccharomyces cerevisiae. 1060 71

To identify proteins that can bind the 3' untranslated region (UTR) of hepatitis C virus (HCV) we screened human cDNA libraries using the Saccharomyces cerevisiae three-hybrid system. Screening with an RNA sequence derived from the 3'-terminal 98 nucleotides (3'X region) of an infectious clone of HCV (H77c) yielded clones of human ribosomal proteins L22, L3, S3, and mL3, a mitochondrial homologue of L3. We performed preliminary characterization of the binding between the 3'X region and these proteins by a three-hybrid mating assay using mutant 3'X sequences. We have further characterized the interaction between 3'X and L22, since this protein is known to be associated with two small Epstein-Barr virus (EBV)-encoded RNA species (EBERs) which are abundantly produced in cells latently infected with EBV. The EBERs, which have similar predicted secondary structure to the HCV 3'X, assemble into ribonucleoprotein particles that include L22 and La protein. To confirm that L22 binds HCV 3'X we performed in vitro binding assays using recombinant L22 (expressed as a glutathione S-transferase [GST] fusion protein) together with a 3'X riboprobe. The 3'X region binds to the GST-L22 fusion protein (but not to GST alone), and this interaction is subject to competition with unlabeled 3'X RNA. To establish the functional role played by L22 in internal ribosome entry site (IRES)-mediated translation of HCV sequences we performed translational analysis in HuH-7 cells using monocistronic and bicistronic reporter constructs. The relative amount of core-chloramphenicol acetyltransferase reporter protein translated under the control of the HCV IRES was stimulated in the presence of L22 and La when these proteins were supplied in trans.
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PMID:Hepatitis C virus 3'X region interacts with human ribosomal proteins. 1115 8

Centaurin-alpha(1) was originally described as a binding partner for phosphoinositides. In spite of the presence of a putative ADP-ribosylation factor (ARF) GTPase-activating protein (GAP) domain, no ARF-GAP activity has been attributed to centaurin-alpha(1) so far. Thus the function of this protein remains to be determined. In order to better understand its intracellular role, we aimed to identify centaurin-alpha(1) partners. Using affinity chromatography followed by mass spectrometry analysis, we identified several potential centaurin-alpha(1) protein partners. Nucleolin, a nucleolar protein involved in ribosome biosynthesis, was the main centaurin-alpha(1) interacting protein. The interaction between centaurin-alpha(1) and nucleolin was confirmed by Western blot analysis and GST pull down assays. Moreover, we have shown that ectopically expressed centaurin-alpha(1) associates in vivo with endogenous nucleolin in human embryonic kidney 293 cells. In addition, the association between nucleolin and centaurin-alpha(1) was disrupted by RNAse treatment, indicating that RNA integrity was necessary for their binding. This suggested that centaurin-alpha(1) was part of a ribonucleoprotein complex.
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PMID:Centaurin-alpha 1 associates in vitro and in vivo with nucleolin. 1256 90

Telomerase is an important ribonucleoprotein enzyme involved in cellular proliferation and senescence. Activation of telomerase has been detected in a vast majority of human cancer cells. In this article, we demonstrated that Interleukin-2 (IL-2) which is the pivotal cytokine in the immune system could stimulate the activity of telomerase in the cultured BA/F3beta cells. It was also found that the level of IL-2-induced telomerase activity was decreased by the treatment with chemical oxidant in vitro. Since IL-2 stimulation produces a oxidative shift of the intracellular environment, the activation and maintenance of telomerase in this oxidative circumstance requires particular protection. Here we proved the redox factor-1 (Ref-1) protein was involved in this process. The addition of GST-Ref-1 protein increased the level of IL-2-induced telomerase activity in the TRAP assay, while elimination of the endogenous Ref-1 protein by immunodepletion decreased it. Consistent with these in vitro results, IL-2-induced telomerase activity could be enhanced by transient overexpression of Ref-1 protein in BA/F3beta cells. Taken together, these findings proved that Ref-1 protein benefits the activation of telomerase activity in the oxidative microenvironment of the BA/F3beta cells stimulated by IL-2.
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PMID:Ref-1 protein enhances the IL-2-stimulated telomerase activity. 1264 95

Cellular tubulin has been shown to activate in vitro transcription with Sendai virus (SeV) particles. In this study, the molecular basis for the transcriptional activation by tubulin was investigated. We showed that tubulin dissociates viral matrix (M) protein, which acts as a negative regulator for transcription, from viral ribonucleoprotein (RNP) consisting of L, P, N proteins, and the genome RNA. Both alpha and beta subunits of human tubulin, which were expressed as GST fusion proteins, were found to stimulate viral mRNA synthesis similar to native alpha/beta-heterodimer tubulin. Pull-down assay using GST-tubulin subunits demonstrated that M protein is released from the RNP as a complex with each tubulin subunit. In vitro-binding analyses revealed that M protein directly interacts with tubulin as well as microtubules. These findings suggest that interaction of M protein with tubulin may have an important role in the regulation of SeV transcription.
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PMID:Interaction of cellular tubulin with Sendai virus M protein regulates transcription of viral genome. 1459 11

The eukaryotic ribonuclease for mitochondrial RNA processing (RNase MRP) is mainly located in the nucleoli and belongs to the small nucleolar ribonucleoprotein (snoRNP) particles. RNase MRP is involved in the processing of pre-rRNA and the generation of RNA primers for mitochondrial DNA replication. A closely related snoRNP, which shares protein subunits with RNase MRP and contains a structurally related RNA subunit, is the pre-tRNA processing factor RNase P. Up to now, 10 protein subunits of these complexes have been described, designated hPop1, hPop4, hPop5, Rpp14, Rpp20, Rpp21, Rpp25, Rpp30, Rpp38 and Rpp40. To get more insight into the assembly of the human RNase MRP complex we studied protein-protein and protein-RNA interactions by means of GST pull-down experiments. A total of 19 direct protein-protein and six direct protein-RNA interactions were observed. The analysis of mutant RNase MRP RNAs showed that distinct regions are involved in the direct interaction with protein subunits. The results provide insight into the way the protein and RNA subunits assemble into a ribonucleoprotein particle. Based upon these data a new model for the architecture of the human RNase MRP complex was generated.
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PMID:Mutual interactions between subunits of the human RNase MRP ribonucleoprotein complex. 1509 76

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