Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

All nuclear transcription is interrupted during mitosis. We examined the role of human TTF2, an RNA polymerase (Pol) I and II termination factor, in mitotic repression of transcription elongation. We find that TTF2 levels rise in the cytoplasm in S and G2 and at the onset of mitosis TTF2 translocates into the nucleus. Consistent with a role in termination of all transcription, TTF2 is the only ATP-dependent termination activity associated with Pol II transcription elongation complexes, is largely unaffected by template position, and is impervious to the phosphorylation state of the polymerase. Cells in which TTF2 levels are knocked down showed dramatic retention of Ser2 phosphorylated Pol II on mitotic chromosomes and an increase in chromosome segregation defects.
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PMID:Involvement of transcription termination factor 2 in mitotic repression of transcription elongation. 1512 40

TTF2 is an RNA polymerase II termination factor that is responsible for mitotic repression of transcription elongation. Normally, all RNA polymerase II molecules are eliminated from condensed mitotic chromosomes, but siRNA-mediated knockdown of TTF2 causes a phenotype in which polymerases are retained on mitotic chromosomes. To prove that this phenotype is due to reduced TTF2 activity we have created an siRNA-resistant TTF2 replacement vector that expresses an mRNA encoding GFP-tagged TTF2 that contains silent mutations in the region that is targeted by the siRNA. Transient transfection experiments demonstrate that endogenous TTF2 and GFP-tagged wild-type TTF2 are both sensitive to the siRNA, but GFP-tagged TTF2 encoded by the cDNA containing mismatches is abundantly expressed in the presence of TTF2-siRNA. Importantly, the mitotic phenotype seen with TTF2-siRNA is rescued by expression of the siRNA-resistant GFP-tagged TTF2 proving that reduced TTF2 is responsible for the retention of RNA polymerase II on mitotic chromosomes.
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PMID:Rescue of the TTF2 knockdown phenotype with an siRNA-resistant replacement vector. 1546 45

The elongation phase of transcription by RNA polymerase II (RNAP II) is controlled by a carefully orchestrated series of interactions with both negative and positive factors. However, due to the limitations of current methods and techniques, not much is known about whether and how these proteins physically associate with the engaged polymerases. To gain insight into the detailed mechanisms involved, we established an experimental system for analyzing direct factor interactions to RNAP II elongation complexes on native gels, namely elongation complex electrophoretic mobility shift assay (EC-EMSA). This new assay effectively allowed detection of interactions of TFIIF, TTF2, TFIIS, DSIF and P-TEFb with elongation complexes generated from a natural promoter using an immobilized template. As an application of this assay system, we characterized the association of transcription elongation factor DSIF with RNAP II elongation complexes and discovered that the nascent transcript facilitated recruitment of DSIF. Examples of how the system can be manipulated to address different questions are provided. EC-EMSA should be useful for further investigation of factor interactions with RNAP II elongation complexes.
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PMID:Analysis of factor interactions with RNA polymerase II elongation complexes using a new electrophoretic mobility shift assay. 1883 75

Most human genes are loaded with promoter-proximally paused RNA polymerase II (Pol II) molecules that are poised for release into productive elongation by P-TEFb. We present evidence that Gdown1, the product of the POLR2M gene that renders Pol II responsive to Mediator, is involved in Pol II elongation control. During in vitro transcription, Gdown1 specifically blocked elongation stimulation by TFIIF, inhibited the termination activity of TTF2, and influenced pausing factors NELF and DSIF, but did not affect the function of TFIIS or the mRNA capping enzyme. Without P-TEFb, Gdown1 led to the production of stably paused polymerases in the presence of nuclear extract. Supporting these mechanistic insights, ChIP-Seq demonstrated that Gdown1 mapped over essentially all poised polymerases across the human genome. Our results establish that Gdown1 stabilizes poised polymerases while maintaining their responsiveness to P-TEFb and suggest that Mediator overcomes a Gdown1-mediated block of initiation by allowing TFIIF function.
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PMID:Functional association of Gdown1 with RNA polymerase II poised on human genes. 2224 25

We report a function of human mRNA decapping factors in control of transcription by RNA polymerase II. Decapping proteins Edc3, Dcp1a, and Dcp2 and the termination factor TTF2 coimmunoprecipitate with Xrn2, the nuclear 5'-3' exonuclease "torpedo" that facilitates transcription termination at the 3' ends of genes. Dcp1a, Xrn2, and TTF2 localize near transcription start sites (TSSs) by ChIP-seq. At genes with 5' peaks of paused pol II, knockdown of decapping or termination factors Xrn2 and TTF2 shifted polymerase away from the TSS toward upstream and downstream distal positions. This redistribution of pol II is similar in magnitude to that caused by depletion of the elongation factor Spt5. We propose that coupled decapping of nascent transcripts and premature termination by the "torpedo" mechanism is a widespread mechanism that limits bidirectional pol II elongation. Regulated cotranscriptional decapping near promoter-proximal pause sites followed by premature termination could control productive pol II elongation.
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PMID:mRNA decapping factors and the exonuclease Xrn2 function in widespread premature termination of RNA polymerase II transcription. 2257 38