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Query: UNIPROT:P23193 (
transcription elongation factor
)
739
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transcriptional elongation by RNA polymerase II (RNAPII) is regulated by the positive
transcription elongation factor
b (P-TEFb). P-TEFb is composed of Cdk9 and C-type cyclin T1 (CycT1), CycT2a, CycT2b, or CycK. The role of the C-terminal region of CycT1 and
CycT2
remains unknown. In this report, we demonstrate that these sequences are essential for the activation of transcription by P-TEFb via DNA, i.e., when CycT1 is tethered upstream or downstream of promoters and coding sequences. A histidine-rich stretch, which is conserved between CycT1 and
CycT2
in this region, bound the C-terminal domain of RNAPII. This binding was required for the subsequent expression of full-length transcripts from target genes. Thus, P-TEFb could mediate effects of enhancers on the elongation of transcription.
...
PMID:Interaction between P-TEFb and the C-terminal domain of RNA polymerase II activates transcriptional elongation from sites upstream or downstream of target genes. 1173 44
Different positive
transcription elongation factor
b (P-TEFb) complexes isolated from mammalian cells contain a common catalytic subunit (Cdk9) and the unique regulatory cyclins CycT1, CycT2a, CycT2b, or CycK. The role of CycK as a transcriptional cyclin was demonstrated in this study. First, CycK activated transcription when tethered heterologously to RNA, which required the kinase activity of Cdk9. Although this P-TEFb could phosphorylate the C-terminal domain (CTD) of RNA polymerase II (RNAPII) in vitro, in contrast to CycT1 and
CycT2
, CycK did not activate transcription when tethered to DNA. Interestingly, when the C termini of CycT1 and
CycT2
or only the histidine-rich stretch from positions 481 to 551 in CycT1 were added to CycK, the extended chimeras activated transcription equivalently via DNA. Moreover, these transcriptional effects required the CTD of RNAPII in cells. Thus, CycK functions as P-TEFb only via RNA, which suggests the presence of cellular RNA-bound activators that require CycK for their transcriptional activity.
...
PMID:P-TEFb containing cyclin K and Cdk9 can activate transcription via RNA. 1188 99
Acidic or type IIB transcriptional activation domains (AADs) increase rates of initiation as well as elongation of transcription. For the former effects, AADs bind general transcription factors and larger coactivator complexes, which position RNA polymerase II (RNAPII) at sites of initiation of transcription. For the latter effects, their ubiquitylation plays an important role. In this study, this posttranslational modification increased the binding between a prototypic AAD and the positive
transcription elongation factor
b (P-TEFb), which contains a C-type cyclin (CycT1,
CycT2
, or CycK) and Cdk9. By phosphorylating negative elongation factors and the C-terminal domain of RNAPII, P-TEFb modifies the transcription complex for efficient elongation and cotranscriptional processing of mRNA. Indeed, the activation domain of VP16 and ubiquitin bound the cyclin boxes and the C terminus in CycT1, respectively. Moreover, the artificial fusion of ubiquitin with VP16 not only increased its activity via DNA and RNA, which was reflected in increased ratios of elongated to initiated transcripts, but rescued the deleterious substitution of alanine for phenylalanine at position 442 in its AAD. Thus, the ubiquitylation of AADs increases their interaction with P-TEFb and augments rates of elongation of transcription.
...
PMID:VP16 and ubiquitin; binding of P-TEFb via its activation domain and ubiquitin facilitates elongation of transcription of target genes. 1529 79
Transcriptional elongation by RNA polymerase II (RNAPII) is regulated by the positive
transcription elongation factor
b (P-TEFb), which contains Cdk9 and a C-type cyclin (CycT1, CycT2a, CycT2b, or CycK). Whereas their N-terminal cylin boxes are almost identical, the C-terminal sequences of CycT1 and
CycT2
are divergent. Previously, a histidine-rich stretch in CycT1 was found to bind the CTD of RNAPII and direct the transcriptional activity of this P-TEFb complex when tethered artificially to DNA. The global repressor PIE-1 from C. elegans blocked its effects. In this study, C-terminal truncations of
CycT2
past its histidine-rich stretch, to a leucine-rich region next to its cyclin boxes, still maintained appreciable transcriptional activity. Moreover, this domain bound RNAPII via its CTD and PIE-1 blocked its effects. Thus,
CycT2
not only contains two domains that target RNAPII but this substrate recognition is necessary for its transcriptional activity via DNA.
...
PMID:Transcriptional activity and substrate recognition of cyclin T2 from P-TEFb. 1556 43
The positive
transcription elongation factor
b (P-TEFb) is essential for the elongation of transcription and cotranscriptional processing by RNA polymerase II. In mammals, it contains predominantly the C-type cyclin cyclin T1 (CycT1) or
CycT2
and cyclin-dependent kinase 9 (Cdk9). To determine if these cyclins have redundant functions or affect distinct sets of genes, we genetically inactivated the
CycT2
gene (Ccnt2) using the beta-galactosidase-neomycin gene (beta-geo) gene trap technology in the mouse. Visualizing beta-galactosidase during mouse embryogenesis revealed that
CycT2
is expressed abundantly during embryogenesis and throughout the organism in the adult. This finding was reflected in the expression of
CycT2
in all adult tissues and organs. However, despite numerous matings of heterozygous mice, we observed no
CycT2
(-/-) embryos, pups, or adult mice. This early lethality could have resulted from decreased expression of critical genes, which were revealed by short interfering RNAs against
CycT2
in embryonic stem cells. Thus, CycT1 and
CycT2
are not redundant, and these different P-TEFb complexes regulate subsets of distinct genes that are important for embryonic development.
...
PMID:Cyclin T2 is essential for mouse embryogenesis. 1936 21
By phosphorylating negative elongation factors and the C-terminal domain of RNA polymerase II (RNAPII), positive
transcription elongation factor
b (P-TEFb), which is composed of CycT1 or
CycT2
and CDK9, activates eukaryotic transcription elongation. In growing cells, it is found in active and inactive forms. In the former, free P-TEFb is a potent transcriptional coactivator. In the latter, it is inhibited by HEXIM1 or HEXIM2 in the 7SK small nuclear ribonucleoprotein (snRNP), which contains, additionally, 7SK snRNA, methyl phosphate-capping enzyme (MePCE), and La-related protein 7 (LARP7). This P-TEFb equilibrium determines the state of growth and proliferation of the cell. In this study, the release of P-TEFb from the 7SK snRNP led to increased synthesis of HEXIM1 but not HEXIM2 in HeLa cells, and this occurred only from an unannotated, proximal promoter. ChIP with sequencing revealed P-TEFb-sensitive poised RNA polymerase II at this proximal but not the previously annotated distal HEXIM1 promoter. Its immediate upstream sequences were fused to luciferase reporters and were found to be responsive to many P-TEFb-releasing compounds. The superelongation complex subunits AF4/FMR2 family member 4 (AFF4) and elongation factor RNA polymerase II 2 (ELL2) were recruited to this proximal promoter after P-TEFb release and were required for its transcriptional effects. Thus, P-TEFb regulates its own equilibrium in cells, most likely to maintain optimal cellular homeostasis.
...
PMID:Release of positive transcription elongation factor b (P-TEFb) from 7SK small nuclear ribonucleoprotein (snRNP) activates hexamethylene bisacetamide-inducible protein (HEXIM1) transcription. 2451 7
The positive
transcription elongation factor
b (P-TEFb), comprised of cyclin-dependent kinase 9 (CDK9) and cyclins T1 (CycT1) or T2 (
CycT2
), activates eukaryotic transcription elongation. In growing cells, P-TEFb exists in active and inactive forms. In the latter, it is incorporated into the 7SK small nuclear ribonucleoprotein, which contains hexamethylene bisacetamide-induced proteins (HEXIM) 1 or 2, La-related protein 7 (LaRP7), methyl phosphate capping enzyme, and 7SK small nuclear RNA (7SK). HEXIM1 inhibits the kinase activity of CDK9 via interactions between 7SK, HEXIM1, and CycT1. LaRP7 and methyl phosphate capping enzyme interact with 7SK independently of HEXIM1 and P-TEFb. To analyze genetic interactions between HEXIM1 and/or LaRP7 and 7SK using a cell-based system, we established artificial heterologous RNA tethering assays in which reporter gene expression depended on interactions between selected regions of 7SK and its cognate binding partners fused to a strong activator. This system enabled us to map the HEXIM1- and LaRP7- binding regions of 7SK. Assays with various mutant 7SK plasmid targets revealed that the 5'U-Ubulge and central loop of stem-loop I or RNA motif 3 of 7SK are required for transactivation, suggesting that HEXIM1 and CycT1 form a combinatorial binding surface for 7SK. Moreover, a region in HEXIM1 C-terminal to its previously mapped RNA-binding motif was also required for interactions between HEXIM1 and 7SK. Finally, a tyrosine-to-alanine mutation in HEXIM1, which is critical for its inhibitory effect on CDK9, changed HEXIM1 into an activator. These cell-based assays elucidate this important aspect of transcription elongation in vivo.
...
PMID:Genetic analysis of the structure and function of 7SK small nuclear ribonucleoprotein (snRNP) in cells. 2491 69
