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Query: UNIPROT:P23193 (
transcription elongation factor
)
739
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Elongation by RNA polymerase II (RNAPII) is a finely regulated process in which many elongation factors contribute to gene regulation. Among these factors are the polymerase-associated factor (PAF) complex, which associates with RNAPII, and several cyclin-dependent kinases, including positive
transcription elongation factor
b (P-TEFb) in humans and BUR kinase (Bur1-Bur2) and C-terminal domain (CTD) kinase 1 (CTDK1) in Saccharomyces cerevisiae. An important target of P-TEFb and CTDK1, but not BUR kinase, is the CTD of the Rpb1 subunit of RNAPII. Although the essential BUR kinase phosphorylates Rad6, which is required for
histone H2B
ubiquitination on K123, Rad6 is not essential, leaving a critical substrate(s) of BUR kinase unidentified. Here we show that BUR kinase is important for the phosphorylation in vivo of Spt5, a subunit of the essential yeast RNAPII elongation factor Spt4/Spt5, whose human orthologue is DRB sensitivity-inducing factor. BUR kinase can also phosphorylate the C-terminal region (CTR) of Spt5 in vitro. Like BUR kinase, the Spt5 CTR is important for promoting elongation by RNAPII and recruiting the PAF complex to transcribed regions. Also like BUR kinase and the PAF complex, the Spt5 CTR is important for
histone H2B
K123 monoubiquitination and histone H3 K4 and K36 trimethylation during transcription elongation. Our results suggest that the Spt5 CTR, which contains 15 repeats of a hexapeptide whose consensus sequence is S[T/A]WGG[A/Q], is a substrate of BUR kinase and a platform for the association of proteins that promote both transcription elongation and histone modification in transcribed regions.
...
PMID:Control of transcriptional elongation and cotranscriptional histone modification by the yeast BUR kinase substrate Spt5. 1936 74
Cyclin-dependent kinase-9 (CDK9) was originally characterized as a
transcription elongation factor
which regulates RNA Polymerase II (RNAPII) activity following transcriptional initiation. However, recent evidence from a number of studies have shown that CDK9 plays an important role in regulating not only RNAPII activity but also co-transcriptional histone modification and mRNA processing events such as splicing and 3' end processing. Importantly, our previous work and the work presented here demonstrate that CDK9 functions to guide a complex network of chromatin modifications including
histone H2B
monoubiquitination (H2Bub1), H3 lysine 4 trimethylation (H3K4me3) and H3K36me3. This function appears to be dependent upon not only the phosphorylation of the RNA Polymerase II C-terminal domain but also upon other CDK9 targets such as the Suppressor of Ty Homolog-5 (SUPT5H), Negative Elongation Factor-E (NELF-E) and probably the human Rad6 homolog UBE2A. We provide a working model by which CDK9 may control co-transcriptional replication-dependent histone mRNA 3' end processing in an H2Bub1 and H3K4me3-dependent manner and uncover new and important differences between the functions of human CDK9 and its yeast counterparts Ctk1 and Bur1.
...
PMID:Insights into the function of the human P-TEFb component CDK9 in the regulation of chromatin modifications and co-transcriptional mRNA processing. 1984 66
Transcription-coupled repair (TCR) and global genomic repair (GGR) are two pathways of nucleotide excision repair (NER). In Saccharomyces cerevisiae, Rad26 is important but not absolutely required for TCR. Rpb4, a nonessential RNA polymerase II (Pol II) subunit that forms a subcomplex with Rpb7, and the Spt4-Spt5 complex, a
transcription elongation factor
, have been shown to suppress Rad26-independent TCR. The Pol II-associated factor 1 complex (Paf1C) has been shown to function in transcription elongation, 3'-processing of mRNAs, and posttranslational modification of histones. Here we show that Paf1C plays a marginal role in facilitating Rad26-dependent TCR but significantly suppresses Rad26-independent TCR. The suppression of Rad26-independent TCR is achieved by cooperating with Spt4-Spt5. We propose a model that, in the absence of Rad26, a lesion is "locked" in the active center of a Pol II elongation complex, which is stabilized by the coordinated interactions of Rpb4-Rpb7, Spt4-Spt5, and Paf1C with each other and with the core Pol II. We also found that Paf1C facilitates GGR, especially in internucleosomal linker regions. The facilitation of GGR is achieved through enabling monoubiquitination of
histone H2B
lysine 123 by Bre1, which in turn permits di- and trimethylation of histone H3 lysine 79 by Dot1. To our best knowledge, among the NER-modulating factors documented so far, Paf1C appears to have the most diverse functions in different NER pathways or subpathways.
...
PMID:Diverse roles of RNA polymerase II-associated factor 1 complex in different subpathways of nucleotide excision repair. 2173 40
Transcript elongation by RNA polymerase II (RNAPII) is accompanied by conserved patterns of histone modification. Whereas histone modifications have established roles in transcription initiation, their functions during elongation are not understood. Mono-ubiquitylation of
histone H2B
(H2Bub1) plays a key role in coordinating co-transcriptional histone modification by promoting site-specific methylation of histone H3. H2Bub1 also regulates gene expression through an unidentified, methylation-independent mechanism. Here we reveal bidirectional communication between H2Bub1 and Cdk9, the ortholog of metazoan positive
transcription elongation factor
b (P-TEFb), in the fission yeast Schizosaccharomyces pombe. Chemical and classical genetic analyses indicate that lowering Cdk9 activity or preventing phosphorylation of its substrate, the transcription processivity factor Spt5, reduces H2Bub1 in vivo. Conversely, mutations in the H2Bub1 pathway impair Cdk9 recruitment to chromatin and decrease Spt5 phosphorylation. Moreover, an Spt5 phosphorylation-site mutation, combined with deletion of the histone H3 Lys4 methyltransferase Set1, phenocopies morphologic and growth defects due to H2Bub1 loss, suggesting independent, partially redundant roles for Cdk9 and Set1 downstream of H2Bub1. Surprisingly, mutation of the
histone H2B
ubiquitin-acceptor residue relaxes the Cdk9 activity requirement in vivo, and cdk9 mutations suppress cell-morphology defects in H2Bub1-deficient strains. Genome-wide analyses by chromatin immunoprecipitation also demonstrate opposing effects of Cdk9 and H2Bub1 on distribution of transcribing RNAPII. Therefore, whereas mutual dependence of H2Bub1 and Spt5 phosphorylation indicates positive feedback, mutual suppression by cdk9 and H2Bub1-pathway mutations suggests antagonistic functions that must be kept in balance to regulate elongation. Loss of H2Bub1 disrupts that balance and leads to deranged gene expression and aberrant cell morphologies, revealing a novel function of a conserved, co-transcriptional histone modification.
...
PMID:A positive feedback loop links opposing functions of P-TEFb/Cdk9 and histone H2B ubiquitylation to regulate transcript elongation in fission yeast. 2287 98
