| Item Type | Name |
|
Concept
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RNA, Transfer
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|
Concept
|
RNA Polymerase III
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Concept
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RNA Polymerase I
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Concept
|
RNA
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Concept
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RNA, Small Interfering
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|
Concept
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RNA, Ribosomal
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Concept
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RNA, Transfer, Ala
|
|
Concept
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RNA, Viral
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|
Concept
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RNA Polymerase II
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Concept
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RNA, Ribosomal, 5S
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|
Concept
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RNA Interference
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|
Concept
|
RNA, Transfer, Met
|
|
Concept
|
DNA-Directed RNA Polymerases
|
|
Concept
|
Single-Strand Specific DNA and RNA Endonucleases
|
|
Concept
|
RNA, Transfer, Amino Acid-Specific
|
|
Concept
|
RNA, Transfer, Ser
|
|
Concept
|
RNA-Binding Proteins
|
|
Concept
|
RNA, Messenger
|
|
Academic Article
|
Covalent small ubiquitin-like modifier (SUMO) modification of Maf1 protein controls RNA polymerase III-dependent transcription repression.
|
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Academic Article
|
Alcohol induces RNA polymerase III-dependent transcription through c-Jun by co-regulating TATA-binding protein (TBP) and Brf1 expression.
|
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Academic Article
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The JNKs differentially regulate RNA polymerase III transcription by coordinately modulating the expression of all TFIIIB subunits.
|
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Academic Article
|
Enhanced RNA polymerase III-dependent transcription is required for oncogenic transformation.
|
|
Academic Article
|
PTEN represses RNA polymerase III-dependent transcription by targeting the TFIIIB complex.
|
|
Academic Article
|
PNRC is a unique nuclear receptor coactivator that stimulates RNA polymerase III-dependent transcription.
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|
Academic Article
|
Mammalian Maf1 is a negative regulator of transcription by all three nuclear RNA polymerases.
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|
Academic Article
|
PTEN represses RNA Polymerase I transcription by disrupting the SL1 complex.
|
|
Academic Article
|
Epidermal growth factor enhances cellular TATA binding protein levels and induces RNA polymerase I- and III-dependent gene activity.
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|
Academic Article
|
The TATA-binding protein as a regulator of cellular transformation.
|
|
Academic Article
|
p53 represses RNA polymerase III transcription by targeting TBP and inhibiting promoter occupancy by TFIIIB.
|
|
Academic Article
|
Increased expression of TATA-binding protein, the central transcription factor, can contribute to oncogenesis.
|
|
Academic Article
|
RNA-Dependent replication and transcription of hepatitis delta virus RNA involve distinct cellular RNA polymerases.
|
|
Academic Article
|
A TATA element is required for tRNA promoter activity and confers TATA-binding protein responsiveness in Drosophila Schneider-2 cells.
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|
Academic Article
|
Regulation of RNA polymerase I-dependent promoters by the hepatitis B virus X protein via activated Ras and TATA-binding protein.
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|
Academic Article
|
Hepatitis B virus X protein induces RNA polymerase III-dependent gene transcription and increases cellular TATA-binding protein by activating the Ras signaling pathway.
|
|
Academic Article
|
An RNA polymerase III-defective mutation in TATA-binding protein disrupts its interaction with a transcription factor IIIB subunit in drosophila cells.
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Academic Article
|
TATA-binding protein is limiting for both TATA-containing and TATA-lacking RNA polymerase III promoters in Drosophila cells.
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|
Academic Article
|
GRIP1, a novel mouse protein that serves as a transcriptional coactivator in yeast for the hormone binding domains of steroid receptors.
|
|
Academic Article
|
Transcriptional activation of RNA polymerase III-dependent genes by the human T-cell leukemia virus type 1 tax protein.
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|
Academic Article
|
The hepatitis B virus X protein increases the cellular level of TATA-binding protein, which mediates transactivation of RNA polymerase III genes.
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|
Academic Article
|
The rat vault RNA gene contains a unique RNA polymerase III promoter composed of both external and internal elements that function synergistically.
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|
Academic Article
|
Induction of Drosophila RNA polymerase III gene expression by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) is mediated by transcription factor IIIB.
|
|
Academic Article
|
Vault ribonucleoprotein particles from rat and bullfrog contain a related small RNA that is transcribed by RNA polymerase III.
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|
Academic Article
|
Differential expression of oocyte-type class III genes with fraction TFIIIC from immature or mature oocytes.
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|
Academic Article
|
The phorbol ester, 12-O-tetradecanoylphorbol-13-acetate, induces specific transcription by RNA polymerase III in Drosophila Schneider cells.
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|
Academic Article
|
Analysis of the molecular mechanisms for the species-specific transcription of Drosophila and human tRNA gene transcription components.
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|
Academic Article
|
Interaction of yeast transcription factor IIIC with dimeric Schizosaccharomyces pombe tRNA(Ser)-tRNA(Met) genes.
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Academic Article
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Identification of a 150-kilodalton polypeptide that copurifies with yeast TFIIIC and binds specifically to tRNA genes.
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Academic Article
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Eukaryotic tRNA gene transcription is controlled by signals within and outside the mature coding sequence.
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|
Academic Article
|
Physiological roles for mafr-1 in reproduction and lipid homeostasis.
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|
Academic Article
|
Cell biology. RNA metabolism and oncogenesis.
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|
Academic Article
|
Maf1, A New PTEN Target Linking RNA and Lipid Metabolism.
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|
Academic Article
|
Elevated TATA-binding protein expression drives vascular endothelial growth factor expression in colon cancer.
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|
Grant
|
Novel targets that are deregulated by loss of PTEN
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|
Grant
|
REGULATION OF DROSOPHILA RNA POLYMERSE I AND III
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|
Grant
|
Maf1, a novel negative transcriptional regulator of the TATA binding protein
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|
Grant
|
CHARACTERIZATION OF THE DNA BINDING FUNCTION
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