EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 19q13 amplicon in pancreatic cancer cells contains a novel pancreatic differentiation 2 (PD2) gene (accession number AJ401156), which was identified by differential screening analysis. PD2 is the human homologue of the RNA polymerase II-associated factor 1 (hPaf1). In yeast, Paf1 is part of the transcription machinery, acting as a docking protein in between the complexes Rad6-Bre1, COMPASS-Dot1p, and the phosphorylated carboxyl terminal domain of the RNA polymerase II. As such, Paf1 is directly involved in transcription elongation via histone H2B ubiquitination and histone H3 methylation. The PD2 sequence is highly conserved from Drosophila to humans with up to 98% identity between rodent and human, suggesting the functional importance of PD2/hPaf1 to maintain cellular homeostasis. PD2 is a modular protein composed of RNA recognition motif, DEAD-boxes, an aspartic/serine (DS)-domain, a regulator of the chromosome condensation domain and myc-type helix-loop-helix domains. Our results further showed that PD2 is a nuclear 80 kDa protein, which interacts with RNA polymerase II. In addition, we have demonstrated that the overexpression of PD2 in the NIH 3T3 cells result in enhanced growth rates in vitro and tumor formation in vivo. Altogether, this paper presents strong evidence that the overexpression of PD2/hPaf1 is involved in cancer development.
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PMID:The human homologue of the RNA polymerase II-associated factor 1 (hPaf1), localized on the 19q13 amplicon, is associated with tumorigenesis. 1649 Nov 29

Previous biochemical studies have demonstrated that Lys-123 ubiquitination of histone H2B is globally required for up-regulation of mono-, di, and trimethylation of Lys-4 of histone H3. However, recent studies have implicated H2B-Lys-123 ubiquitination in the regulation of di- and trimethylation, but not monomethylation, of H3-Lys-4 in vivo. Using a formaldehyde-based cross-linking and chromatin immunoprecipitation assay, we show that H3-Lys-4 trimethylation, but not dimethylation, is up-regulated by H2B-Lys-123 ubiquitination in vivo at the coding sequences of a set of transcriptionally active genes such as ADH1, PHO84, and PYK1. Both the ubiquitination of H2B-Lys-123 and the methylation of H3-Lys-4 are dispensable for recruitment of RNA polymerase II to the coding sequences of these genes, and hence, their transcription is not altered in the absence of these covalent modifications. However, recruitment of RNA polymerase II to the coding sequence of a galactose-inducible gene, GAL1, is significantly reduced in the absence of H2B-Lys-123 ubiquitination but not H3-Lys-4 methylation. Consistently, transcription of GAL1 is altered in the H2B-K123R point mutant strain. Finally, we show that H3-Lys-4 methylation does not regulate H3-Lys-9/14 acetylation. Collectively, our data reveal a "trans-tail" regulation of H3-Lys-4 tri- but not dimethylation by H2B-Lys-123 ubiquitination, and these modifications are dispensable for transcription of a certain set of genes in vivo.
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PMID:Functional analysis of H2B-Lys-123 ubiquitination in regulation of H3-Lys-4 methylation and recruitment of RNA polymerase II at the coding sequences of several active genes in vivo. 1667 45

The factors required for the delivery of RNA polymerase II to class II promoters using naked DNA were all identified by 1998, yet their exact mechanisms of action were not fully understood in all cases, and in some instances, their precise function still remains unknown. Nonetheless, a complete understanding of the complexity of the RNA polymerase II transcription cycle necessitated the development of assays that include chromatinized DNA templates. At this time, the field was actively searching for factors that allow transcription initiation on chromatinized templates. We began studies using chromatin templates in an attempt to identify factor(s) that permit RNA polymerase II to traverse nucleosomes, i.e. that allow elongation on chromatinized DNA templates. The challenge herein was to develop an assay that directly measured the ability of transcriptionally engaged RNA polymerase II to traverse nucleosomes. This approach resulted in the isolation of FACT, a heterodimer in humans comprised of Spt16 and SSRP1. Defined functional biochemical assays corroborated genetic studies in yeast that allowed the elucidation of FACT function in vivo. Collectively, these approaches demonstrate that FACT is a factor that allows RNA polymerase II to traverse nucleosomes in vitro and in vivo by removing one H2A/H2B dimer. More recent studies using a fully defined chromatin reconstitution/transcription assay revealed that FACT activity is greatly stimulated by post-translational modification of the histone polypeptides, specifically by monoubiquitination of lysine 120 of human histone H2B.
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PMID:de FACTo nucleosome dynamics. 1676 22

A comparative global proteomic screen identified factors required for COMPASS (complex of proteins associated with Set1)-mediated mono-, di-, and trimethylation of the fourth lysine of histone H3 (H3K4), which included components of a cyclin-dependent protein kinase (Ctk complex) that phosphorylates the C-terminal domain of the largest subunit of RNA polymerase II (Pol II). Our results indicate that histone H3K4 methylation levels are regulated by the Ctk1, Ctk2, and Ctk3 components of the Ctk complex. We show that loss of Ctk1 kinase activity results in reduced histone H3K4 monomethylation levels, followed by a global increase in histone H3K4 trimethylation levels on chromatin. Ctk1 loss does not appear to have a substantial effect on histone H2B monoubiquitination levels or COMPASS and Paf1 complex phosphorylation. Our chromatin immunoprecipitation studies demonstrate that histone H3 eviction during active transcription is decelerated in a CTK1 deletion strain in response to reduced levels of Pol II recruitment. Our in vitro studies show that the onset of monomethylation on an unmethylated histone H3 by COMPASS is virtually immediate, while the onset of trimethylation occurs upon extended time of association between the histone tail and COMPASS. Our study suggests a role for the Ctk complex in the regulation of the pattern of H3K4 mono-, di-, and trimethylation via COMPASS.
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PMID:Ctk complex-mediated regulation of histone methylation by COMPASS. 1708 85

Octamer transcription factor-1 (Oct-1) has recently been shown to function as a stress sensor that promotes cell survival subsequent to DNA damage. Here, we show that the survival signal imparted by Oct-1 following exposure to ionizing radiation (IR) is dependent upon DNA-dependent protein kinase (DNA-PK)-dependent phosphorylation of a cluster of 13 specific ser/thr residues within the N-terminal transcriptional regulatory domain of Oct-1. Although IR treatment did not affect the recruitment of Oct-1 to the histone H2B promoter, the recruitment of RNA polymerase II, TATA-binding protein and histone H4 acetylation were strongly reduced, consistent with a decrease in Oct-1 transcriptional regulatory potential following IR exposure. Ser/Thr-Ala substitution of 13 sites present in Oct-1 transcriptional regulatory domain eliminated Oct-1 phosphorylation subsequent to IR exposure. Further, these substitutions prevented Oct-1 from rescuing the survival of IR-treated Oct-1-/- murine embryonic fibroblasts, providing a direct link between DNA-PK-dependent phosphorylation and the contribution of Oct-1 to cell survival. These results implicate Oct-1 as a primary effector in a DNA-PK-dependent cell survival pathway that is activated by double-stranded DNA breaks.
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PMID:DNA-PK phosphorylation sites on Oct-1 promote cell survival following DNA damage. 1721 19

Proper transcription by RNA polymerase II is dependent on the modification state of the chromatin template. The Paf1 complex is associated with RNA polymerase II during transcription elongation and is required for several histone modifications that mark active genes. To uncover additional factors that regulate chromatin or transcription, we performed a genetic screen for mutations that cause lethality in the absence of the Paf1 complex component Rtf1. Our results have led to the discovery of a previously unstudied gene, RKR1. Strains lacking RKR1 exhibit phenotypes associated with defects in transcription and chromatin function. These phenotypes include inositol auxotrophy, impaired telomeric silencing, and synthetic lethality with mutations in SPT10, a gene that encodes a putative histone acetyltransferase. In addition, deletion of RKR1 causes severe genetic interactions with mutations that prevent histone H2B lysine 123 ubiquitylation or histone H3 lysine 4 methylation. RKR1 encodes a conserved nuclear protein with a functionally important RING domain at its carboxy terminus. In vitro experiments indicate that Rkr1 possesses ubiquitin-protein ligase activity. Taken together, our results identify a new participant in a protein ubiquitylation pathway within the nucleus that acts to modulate chromatin function and transcription.
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PMID:Identification of Rkr1, a nuclear RING domain protein with functional connections to chromatin modification in Saccharomyces cerevisiae. 1728 62

Heterochromatin in fission yeast is targeted dynamically by opposing chromatin-modifying activities capable of alleviating or promoting transcriptional gene silencing. In this study, we report the biochemical and genetic characterization of a ubiquitin-conjugating enzyme Rhp6 (a homolog of budding yeast Rad6), which has been shown to negatively affect stability of heterochromatic structures. We show that Rhp6 is a component of the multisubunit protein complex (termed HULC) that also contains two RING finger proteins Rfp1 and Rfp2, sharing homology with budding yeast Bre1 protein and a unique serine-rich protein Shf1. HULC is required for ubiquitination of histone H2B at lysine 119 (H2B-K119), and it localizes to heterochromatic sequences. Moreover, our analyses suggest that Rhp6-induced changes in heterochromatic silencing are mediated predominantly through H2B ubiquitination (ubH2B), and they correlate with increased RNA polymerase II levels at repeat elements embedded within heterochromatin domains. Interestingly, heterochromatic derepression caused by Rhp6 occurs independently of the involvement of HULC subunits and ubH2B in methylation of histone H3 at lysine 4 (H3K4me). These analyses implicate ubH2B in modulation of heterochromatin, which has important implications for dynamics and many functions associated with heterochromatic structures.
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PMID:HULC, a histone H2B ubiquitinating complex, modulates heterochromatin independent of histone methylation in fission yeast. 1736 70

Transcription by RNA polymerase II (polII) is accompanied by dramatic changes in chromatin structure. Numerous enzymatic activities contribute to these changes, including ATP-dependent nucleosome remodeling enzymes and histone modifying enzymes. Recent studies in budding yeast document a histone modification pathway associated with polII transcription, whereby ubiquitylation of histone H2B leads to methylation of histone H3 on specific lysine residues. Although this series of events appears to be highly conserved among eukaryotes, its mechanistic function in transcription is unknown. Here we document a significant functional divergence between ubiquitylation of H2B and methylation of Lys 4 on histone H3 in the fission yeast Schizosaccharomyces pombe. Loss of H2B ubiquitylation results in defects in cell growth, septation, and nuclear structure, phenotypes not observed in cells lacking H3 Lys 4 methylation. Consistent with these results, gene expression microarray analysis reveals a greater role for H2B ubiquitylation in gene regulation than for H3 Lys 4 methylation. Chromatin immunoprecipitation (ChIP) experiments demonstrate that loss of H2B ubiquitylation alters the distribution of polII and histones in gene coding regions. We propose that ubiquitylation of H2B impacts transcription elongation and nuclear architecture through its effects on chromatin dynamics.
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PMID:Ubiquitylation of histone H2B controls RNA polymerase II transcription elongation independently of histone H3 methylation. 1740 75

Efficient transcription is linked to modification of chromatin. For instance, tri-methylation of lysine 4 on histone H3 (H3K4) strongly correlates with transcriptional activity and is regulated by the Bur1/2 kinase complex. We found that the evolutionarily conserved Ccr4-Not complex is involved in establishing H3K4 tri-methylation in Saccharomyces cerevisiae. We observed synthetic lethal interactions of Ccr4-Not components with BUR1 and BUR2. Further analysis indicated that the genes encoding the Not-proteins are essential for efficient regulation of H3K4me3, but not H3K4me1/2, H3K36me2 or H3K79me2/3 levels. Moreover, regulation of H3K4me3 levels by NOT4 is independent of defects in RNA polymerase II loading. We found NOT4 to be important for ubiquitylation of histone H2B via recruitment of the PAF complex, but not for recruitment or activation of the Bur1/2 complex. These results suggest a mechanism in which the Ccr4-Not complex functions parallel to or downstream of the Bur1/2 kinase to facilitate H3K4me3 via PAF complex recruitment.
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PMID:Regulation of histone H3K4 tri-methylation and PAF complex recruitment by the Ccr4-Not complex. 1739 37

Eukaryotic gene regulation is closely correlated with histone covalent modifications. Recently, histone H2B lysine-123 (H2B-K123) ubiquitination has been implicated in regulation of transcription as well as histone H3 lysine-4 (H3-K4) methylation which is further associated with active transcription. However, whether H2B-K123 ubiquitination controls transcription through regulation of H3-K4 methylation remains unknown under physiological conditions. Here, we show that H2B-K123 ubiquitination enhances the rate of elongating RNA polymerase II (RNAPII) recruitment to the coding sequence of an inducible yeast gene, GAL1. Consistently, GAL1 transcription is significantly impaired in absence of H2B-K123 ubiquitination. On the other hand, H3-K4 methylation does not alter the rate of elongating RNAPII recruitment at GAL1. Further, these covalent modifications do not regulate pre-initiation complex formation at GAL1. Collectively, our data demonstrate the function of H2B-K123 ubiquitination in regulation of transcriptional elongation independently of H3-K4 methylation in vivo, providing a new insight on epigenetic regulation of gene expression.
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PMID:H2B-K123 ubiquitination stimulates RNAPII elongation independent of H3-K4 methylation. 1754 90

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