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)

An unusual property of ribosomal gene transcription is its marked species specificity. This results from distinct promoter-recognition properties of the RNA polymerase I transcription apparatus. The purification and functional characterization of TIF-IB/SL1, a promoter-recognition factor containing the TATA-binding protein, as well as the recent cloning of cDNAs encoding the three subunits (TAF(I)s) of the respective human and mouse factor, will facilitate the molecular analysis of the mechanisms underlying species-specific rDNA transcription and reveal how the basal transcriptional machinery has evolved.
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PMID:Species specificity of transcription by RNA polymerase I. 866 54

Efficient transcription elongation by RNA polymerase I (Pol I) requires a specific Pol I-associated factor, termed TIF-IC. Here we show that TFIIS, a factor that has previously been shown to promote read-through past many types of blocks to elongation by RNA polymerase II, also enhances Pol I-directed transcription elongation. In a reconstituted transcription system containing purified proteins, TFIIS stimulates Pol I transcription by increasing the overall rate of RNA chain elongation. As with Pol II, ternary Pol I complexes cleave the 3' end of the nascent transcripts in response to TFIIS. The truncated RNAs remain bound to the template, are subject to pyrophosphorolysis, and can be chased into longer transcripts. Moreover, we show by immunoprecipitation and specific affinity chromatography that TFIIS physically interacts with Pol I. The results suggest that nascent transcript cleavage by TFIIS or a TFIIS-related factor may be a general mechanism by which both Pol I and Pol II can bypass transcriptional impediments.
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PMID:TFIIS binds to mouse RNA polymerase I and stimulates transcript elongation and hydrolytic cleavage of nascent rRNA. 887 42

A new ribosomal RNA promoter element with a functional role similar to the RNA polymerase II initiator (Inr) was identified. This sequence, which we dub the ribosomal Inr (rInr) is unusually conserved, even in normally divergent RNA polymerase I promoters. It functions in the recruitment of the fundamental, TATA-binding protein (TBP)-containing transcription factor, TIF-IB. All upstream elements of the exceptionally strong Acanthamoeba castellanii ribosomal RNA core promoter, to within 6 base pairs of the transcription initiation site (tis), can be deleted without loss of specific transcription initiation. Thus, the A. castellanii promoter can function in a manner similar to RNA polymerase II TATA-less promoters. Sequence-specific photo-cross-linking localizes a 96-kDa subunit of TIF-IB and the second largest RNA polymerase I subunit (A133) to the rInr sequence. A185 also photo-cross-links when polymerase is stalled at +7.
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PMID:Identification of previously unrecognized common elements in eukaryotic promoters. A ribosomal RNA gene initiator element for RNA polymerase I. 901 45

Promoter selectivity for all three classes of eukaryotic RNA polymerases is brought about by multimeric protein complexes containing TATA box binding protein (TBP) and specific TBP-associated factors (TAFs). Unlike class II- and III-specific TBP-TAF complexes, the corresponding murine and human class I-specific transcription initiation factor TIF-IB/SL1 exhibits a pronounced selectivity for its homologous promoter. As a first step toward understanding the molecular basis of species-specific promoter recognition, we cloned the cDNAs encoding the three mouse pol I-specific TBP-associated factors (TAFIs) and compared the amino acid sequences of the murine TAFIs with their human counterparts. The four subunits from either species can form stable chimeric complexes that contain stoichiometric amounts of TBP and TAFIs, demonstrating that differences in the primary structure of human and mouse TAFIs do not dramatically alter the network of protein-protein contacts responsible for assembly of the multimeric complex. Thus, primate vs. rodent promoter selectivity mediated by the TBP-TAFI complex is likely to be the result of cumulative subtle differences between individual subunits that lead to species-specific properties of RNA polymerase I transcription.
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PMID:Cloning of murine RNA polymerase I-specific TAF factors: conserved interactions between the subunits of the species-specific transcription initiation factor TIF-IB/SL1. 905 Aug 47

The retinoblastoma susceptibility gene product pRb restricts cellular proliferation by affecting gene expression by all three classes of nuclear RNA polymerases. To elucidate the molecular mechanisms underlying pRb-mediated repression of ribosomal DNA (rDNA) transcription by RNA polymerase I, we have analyzed the effect of pRb in a reconstituted transcription system. We demonstrate that pRb, but not the related protein p107, acts as a transcriptional repressor by interfering with the assembly of transcription initiation complexes. The HMG box-containing transcription factor UBF is the main target for pRb-induced transcriptional repression. UBF and pRb form in vitro complexes involving the C-terminal part of pRb and HMG boxes 1 and 2 of UBF. We show that the interactions between UBF and TIF-IB and between UBF and RNA polymerase I, respectively, are not perturbed by pRb. However, the DNA binding activity of UBF to both synthetic cruciform DNA and the rDNA promoter is severely impaired in the presence of pRb. These studies reveal another mechanism by which pRb suppresses cell proliferation, namely, by direct inhibition of cellular rRNA synthesis.
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PMID:Mechanism of repression of RNA polymerase I transcription by the retinoblastoma protein. 923 80

Transcription initiation of ribosomal RNA genes requires RNA polymerase I (Pol I) and auxiliary factors which either bind directly to the rDNA promoter, e.g. TIF-IB/SL1 and UBF, or are assembled into productive transcription initiation complexes via interaction with Pol I, e.g. TIF-IA, and TIF-IC. Here we show that all components required for specific rDNA transcription initiation are capable of physical interaction with Pol I in the absence of DNA and can be co-immunoprecipitated with antibodies against defined subunits of murine Pol I. Sucrose gradient centrifugation and fractionation on gel filtration columns reveals that approximately 10% of cellular Pol I elutes as a defined complex with an apparent molecular mass of > 2000 kDa. The large Pol I complex contains saturating levels of TIF-IA, TIF-IB and UBF, but limiting amounts of TIF-IC. In support of the existence of a functional complex between Pol I and basal factors, the large complex is transcriptionally active after complementation with TIF-IC. The results suggest that, analogous to class II gene transcription, a pre-assembled complex, the "Pol I holoenzyme", exists that appears to be the initiation-competent form of Pol I.
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PMID:Mammalian RNA polymerase I exists as a holoenzyme with associated basal transcription factors. 945 38

Mammalian ribosomal RNA genes (rDNA) are transcribed by RNA polymerase I and at least two auxiliary factors, UBF and SL1/TFID/TIF-IB. It has also been reported that an additional factor(s) is required to reconstitute efficient initiation of rDNA transcription in vitro, depending upon the procedures of chromatographic separation. In an attempt to elucidate the molecular identity of such yet uncertain activities, we have developed agarose gel shift and UV cross-linking assays to detect proteins directly bound to the core promoter region of murine rDNA. With these techniques, we identified a 70 kDa protein (p70) in the flow-through fraction of a phosphocellulose column (TFIA-fraction). Interestingly, the binding of p70 to the rDNA core promoter was observed only in the presence of the SL1-containing fraction. The probable human orthologue of p70 was also detected in HeLa cells. Consistent with the observation that p70 bound to the core promoter only in the presence of the TFIA- and SL1-fractions, alteration of DNase I footprint pattern over the core promoter element was demonstrated by cooperative action of the TFIA- and SL1-fractions. A reconstituted in vitro transcription assay with further purified p70 indicated that p70 was required for accurate initiation of rDNA transcription. These results indicate that the p70 identified recently by the current DNA-binding experiments represents a novel transcription factor in rDNA transcription.
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PMID:Identification of a novel 70 kDa protein that binds to the core promoter element and is essential for ribosomal DNA transcription. 1066 63

Ribosomal RNA transcription initiation requires the melting of DNA to form an open complex, formation of the first few phosphodiester bonds, commencement of RNA polymerase I movement along the DNA, clearance of the promoter, and the formation of a steady-state ternary elongation complex. We examined DNA melting and promoter clearance by using potassium permanganate, diethylpyrocarbonate and methidiumpropylEDTA.Fe(II) footprinting. In combination, these methods demonstrated: (1) TIF-IB and RNA polymerase I are the only proteins required for formation of an initial approximately 9 base-pair open promoter region. This finding contradicts earlier results using diethylpyrocarbonate alone, which suggested an RNA synthesis requirement for stable melting. (2) DNA melting is temperature-dependent, with a tm between 15 and 20 degrees C. (3) Temperature-dependency of melting, as well as stalling the polymerase at sites close to the transcription start site revealed that the melted DNA region initially opens upstream of the transcription initiation site, and enlarges in a downstream direction coordinate with initiation, eventually attaining a steady-state transcription bubble of approximately 19 base-pairs. (4) The RNA-DNA hybrid protects the template DNA from single-strand footprinting reagents. The hybrid is 9 bp in length, consistent with the longer hybrid estimated by some for the Escherichia coli polymerase and with the hybrids estimated for eukaryotic polymerases II and III.
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PMID:DNA melting and promoter clearance by eukaryotic RNA polymerase I. 1086 Jul 23

During the last decade, new data accumulated describing the early events during herpes simplex virus 1 (HSV-1) replication occurring before capsid formation and virion envelopment. The HSV virion carries its own specific transcription initiation factor (alpha-TIF), which functions together with other components of the cellular transcriptase complex to mediate virus-specific immediate early (IE) transcription. The virus-coded IE proteins are the transactivator and regulatory elements modulating early transcription and subsequent translation of nonstructural virus-coded proteins needed mainly for viral DNA synthesis and for the supply of corresponding nucleoside components. They also cooperate at the late transcription and translation of the virion (capsid, tegument and envelope) proteins. In addition, the transactivator IE proteins down-regulate their own transcription, while others facilitate viral mRNA processing or interfere with the presentation of newly synthesized virus antigens. Establishment of latency is closely related to the transcription of a separate category of transcripts, termed latency-associated (LAT). Formation of LATs occurs mainly in nondividing neurons which are metabolically less active and express lower levels of cellular transcription factors (nonpermissive cells). Expression of the stable non-spliced (2 kb), and especially of stable spliced (1.5 and 1.45 kb) LATs is a prerequisite for HSV reactivation. Different HSV genomes (from various HSV strains) do not undergo IE transcription at the same rate. Restricted IE transcription and the absence of viral DNA synthesis favors LAT formation and persistence of the silenced genome. Uneven levels of LAT expression and differences in the metabolic state of carrier neurons influence the reactivation competence. Under artificial or natural activation conditions, sufficient amounts of IE transactivator proteins and proteins promoting nucleoside metabolism are synthesized even in the absence of the viral alpha-TIF facilitating reactivation.
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PMID:Early expression of herpes simplex virus (HSV) proteins and reactivation of latent infection. 1120 Jun 75

Mammalian rRNA genes are preceded by a terminator element that is recognized by the transcription termination factor TTF-I. In exploring the functional significance of the promoter-proximal terminator, we found that TTF-I associates with the p300/CBP-associated factor PCAF, suggesting that TTF-I may target histone acetyltransferase to the rDNA promoter. We demonstrate that PCAF acetylates TAF(I)68, the second largest subunit of the TATA box-binding protein (TBP)-containing factor TIF-IB/SL1, and acetylation enhances binding of TAF(I)68 to the rDNA promoter. Moreover, PCAF stimulates RNA polymerase I (Pol I) transcription in a reconstituted in vitro system. Consistent with acetylation of TIF-IB/SL1 being required for rDNA transcription, the NAD(+)-dependent histone deacetylase mSir2a deacetylates TAF(I)68 and represses Pol I transcription. The results demonstrate that acetylation of the basal Pol I transcription machinery has functional consequences and suggest that reversible acetylation of TIF-IB/SL1 may be an effective means to regulate rDNA transcription in response to external signals.
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PMID:Acetylation of TAF(I)68, a subunit of TIF-IB/SL1, activates RNA polymerase I transcription. 1125 Sep 1

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