EC:2.7.7.6 - FACTA Search

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)

We have developed a method to determine directly the number of biotinylated (Bio) nucleotide analogs incorporated into RNA transcripts. Transcripts synthesized in vitro in the presence of [alpha 32-P]CTP and varying concentrations of Bio-4-UTP were subjected to alkaline hydrolysis and the resulting 2' and 3' nucleoside monophosphates separated by reverse-phase HPLC. The amount of 32P transferred to each monophosphate was indicative of the frequency of their incorporation into the transcript. Transcripts synthesized in the presence of equimolar concentrations of Bio-4-UTP and UTP resulted in 70 out of the 125 possible UTP sites occupied by Bio-4-UMP. This study agrees with kinetic data in suggesting that T7 RNA polymerase does not significantly discriminate between the natural and the biotinylated nucleotide. Therefore, the number of biotinylated residues that are incorporated into a transcript can be controlled by varying the ratio of Bio-4-UTP to UTP in the transcription reaction. We have shown that as few as 10 Bio-4-UMP residues per 486 nucleotide transcript still results in greater than 90% binding efficiency on a streptavidin/biotin-cellulose affinity column.
...
PMID:Direct quantitation of biotin-labeled nucleotide analogs in RNA transcripts. 170 88

Expression of the Escherichia coli pyrE gene is regulated by transcription attenuation in the intercistronic orfE-pyrE region and modulated by the distance between the transcribing RNA polymerase and the leading ribosome as a function of the supply of UTP and GTP. In this communication we show that pyrE expression is hyper-repressed in vivo following addition of uracil in strains carrying the nusAcs10 mutation. This phenotype, previously seen in rpsL1204 strains whose ribosomes are pseudodependent on streptomycin and work at suboptimal elongation rate, indicates that RNA polymerase escapes from the ribosomes in the pyrE attenuator region in the nusA mutant. In vitro transcription studies revealed that the build-up of the full-length attenuated orfE transcript occurred more slowly in the presence of the NusA protein than in its absence. Moreover, the NusA protein enhanced several transcription pauses through the orfE gene. These effects were more pronounced when low concentrations of either UTP or GTP were used than at low concentrations of either CTP or ATP. The results indicate that the NusA protein is required for proper regulation of pyrE gene expression and is involved, together with the NTP pools, in maintaining the coupling between transcription and translation in the pyrE attenuator region by inhibiting RNA chain elongation.
...
PMID:Role of transcription pausing in the control of the pyrE attenuator in Escherichia coli. 171 Mar 13

The region from position -154 to position -50 upstream from the start site of transcription of the Escherichia coli rrnB P1 promoter, the upstream activator region (UAR), is required for maximal promoter activity in vivo. Maximal activation (20 to 30-fold) requires the binding of Fis protein in vitro and in vivo. However, two- to fourfold activation remains in vivo even in the absence of Fis. Here, we demonstrate that the presence of the UAR increases the rate of formation of E sigma 70-promoter complexes in vitro in the absence of added protein factors (factor-independent activation). The UAR increases the rate of the RNA polymerase concentration-dependent step in the association pathway to a stable complex formed in the presence of the initiating nucleotides ATP and CTP (RPinit). The rate of dissociation from RPinit is not affected. In addition, a supercoiled template of native superhelical density increases both the association rate for the formation of RPinit and the lifetime of complexes formed in the absence of nucleotides (RPo or open complex), but does not affect factor-independent activation. The data are consistent with a model whereby the UAR affects only the initial recognition event (closed complex formation) without affecting either the rate or extent of isomerization to the locally denatured open complex. In the accompanying paper, a variety of chemical and enzymatic probes are used to characterize RPinit and RPo both with and without the UAR.
...
PMID:Factor-independent activation of Escherichia coli rRNA transcription. I. Kinetic analysis of the roles of the upstream activator region and supercoiling on transcription of the rrnB P1 promoter in vitro. 187 Jan 23

Interaction of purified eukaryotic RNA polymerase II with various synthetic palindromic DNA sequences is associated with the formation of transcriptional complexes of different stabilities, i.e. having different propensities for releasing the nascent transcript. This phenomenon was observed by using wheat-germ RNA polymerase II and a series of double-stranded template polymers containing palindromic repeating motifs of 6-16 bp, with regulatory alternating purine and pyrimidine bases such as d[ATA(CG)nC].d[TAT(GC)nG], with n = 1, 3 or 6 referred to as d(GC), d(GC)3 or d(GC)6, respectively. We also synthesized two double-stranded methylated polymers, containing the repeating units d(ATAm5CGm5C).d(TATGm5CG) and d[ATA(m5CG)6m5C].d[TAT(Gm5C)6G] [designated d(GmC) and d(GmC)6, respectively]. All of these polymers served as templates for the reaction of single-step addition of CTP to a CpG primer catalysed by wheat-germ RNA polymerase II, to an extent that seems well correlated with the number of potential initiation sites within the DNA molecules. Furthermore, in these reactions, the enzyme appears to form relatively stable transcriptional complexes, as trinucleotide product was released only very slowly. In marked contrast to the results with the CpG primer, the single-step addition reaction primed by UpA, i.e. the synthesis of UpApU proceeded at a much higher velocity and was strongly enhanced by increasing the d(G-C) content of the repeating units of the DNA polymers. Thus, taking into account the number of potential sites at which UpApU synthesis could occur, the extent of UpApU synthesis was increased about 12-fold with d(GC)6 compared to that with the d(GC) template. The catalytic nature of the reaction necessarily implies that the stability of the transcription complexes with the plant RNA polymerase II decreased as the d(G-C) content of the repeating motif increased. Furthermore, although the synthesis of CpGpC could be demonstrated with d(GmC)6 as template, the UpA-primed synthesis of UpApU could not be detected with this polymer. The results obtained in transcription of these polymers are discussed in relation to the potential involvement of palindromic DNA in transcription termination and attenuation in the presence of RNA polymerase II.
...
PMID:Transcription of synthetic DNA containing sequences with dyad symmetry by wheat-germ RNA polymerase II. Increased rates of product release in single-step addition reactions. 199 1

Specific transcription complexes were formed with yeast RNA polymerase I using a cognate oligoribotri-nucleotide primer (GCG) to initiate transcription on short synthetic single-stranded DNA templates. The templates were designed to limit the incorporation of a photoprobe, 4-thiouridine triphosphate, to a single unique position at the 3' terminus of the product RNA (position 12, 13, 14, or 15). The resulting transcription complexes were photolyzed to cross-link the bound transcript (radiolabeled with [alpha-32P]CTP) to the protein with the probe located at the catalytic site. Separation of the protein subunit components by 5% sodium dodecyl sulfate-polyacrylamide gel electrophoresis and analysis by autoradiography and silver staining revealed that the two largest subunits (A190 and A135) were radiolabeled. The ratio of subunit labeling (A190/A135) decreased as the RNA transcript increased from 12 to 15 nucleotides in length. This decrease in ratio resulted from a progressive reduction of A190 subunit labeling while the A135 subunit derivatization remained essentially constant. It was also observed that the DNA template was radiolabeled.
...
PMID:Yeast RNA polymerase I. Derivatization of the 190 and 135 subunits by 4-thiouridine monophosphate positioned uniquely at the 3' terminus of an enzyme-bound 32P-containing transcript initiated by a triribonucleotide primer on synthetic single-stranded DNA. 215 57

The diadenylate triphosphates ppp5'A2'p5'A and ppp5'A3'p5'A were found to inhibit the purified RNA polymerase ('nucleocapsid') complex from vesicular stomatitis virus (VSV). The corresponding diadenylate monophosphate p5'A2'p5'A did not inhibit, nor did the triadenylate triphosphate ppp5'A2'p5'A2'p5'A; the diadenylate diphosphate pp5'A2'p5'A had intermediate inhibitory activity. Increasing the concentration of ATP, GTP or CTP in the reaction mixture decreased inhibition by ppp5'A2'p5'A, while UTP had minimal or no protective effect. ppp5'A2'p5'A did not protect the RNA polymerase from inactivation by N-ethylmaleimide. This suggests that the action of ppp5'A2'p5'A occurs at a site on the enzyme that is distinct from the N-ethylmaleimide-protecting, ATP-binding site characterized previously.
...
PMID:Inhibition of the RNA polymerase of vesicular stomatitis virus by ppp5'A2'p5'A and related compounds. 216 Jul 97

HO-221, N-[4-(5-Bromo-2-pyrimidinyloxy)-3-chlorophenyl]-N'-(2-nitrobenzoyl ) urea is a novel benzoylphenylurea derivative. We previously reported HO-221 showed significant antitumor activities against various experimental tumor models, and was especially effective against the solid tumor. In this report we studied the mechanism of action of the compound. The inhibitory activity of HO-221 and 6 kinds of antitumor agents on DNA polymerase alpha was examined in vitro. HO-221 inhibited DNA polymerase alpha activity strongly. From the comparison with IC50 values of individual agents, the inhibitory activity of HO-221 was almost equivalent to aphidicolin and ara-CTP. By double reciprocal plot analysis, the inhibition of HO-221 was found to be non-competitive with the dCTP unlike that of aphidicolin and ara-CTP. Furthermore, HO-221 showed almost no effect on RNA polymerase activity and the protein synthesis. The effect of HO-221 on cell cycle progression of HL-60 cells was examined by flow cytometry analysis. The compound accumulated cells at S phase at a low concentration. The compound showed accumulation of cells in G1, G1-S and G2 + M phases. At higher concentrations, HO-221 increased the G1 phase of tumor cells, stopping the cell cycle progression. Therefore, G1 and S phase accumulation by HO-221 was considered to be correlated with the inhibition of DNA polymerase alpha dependent DNA synthesis. These results suggest that HO-221 is a novel antitumor agent with different mechanism of action from the known antitumor agents.
...
PMID:[Mechanism of antitumor effect of a benzoylphenylurea derivative, HO-221]. 226 Aug 70

The proteins contacting nascent RNA transcripts in RNA polymerase III transcription complexes have been examined using photoaffinity labeling techniques. The photoaffinity analog 4-S-UTP was incorporated along with [alpha-32P]CTP into VAI transcripts, using a phosphocellulose fractionated HeLa S-100 extract and DNA containing the adenovirus VAI gene. The photoreactive nascent RNA was cross-linked to proximal proteins in the transcription complex. The photoaffinity labeled proteins were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and detected by autoradiography. The specific photoaffinity labeling of RNA polymerase III was dependent on 4-S-UTP and on DNA containing a class III promoter. Photoaffinity labeling was inhibited by 200 micrograms/ml alpha-amanitin. Proteins of 140, 160, 270, and 310 kDa were labeled. These photoaffinity labeled proteins were shown to be stably associated with the DNA template by gel exclusion chromatography. The 160-kDa protein was cross-linked to RNAs approximately 14-18 nucleotides in length, whereas the greater than 250-kDa proteins were cross-linked to RNAs 18-30 nucleotides in length. The 140- and 160-kDa proteins correspond in molecular mass to the two large subunits of RNA polymerase III. The molecular masses of the 270- and 310-kDa proteins, and the length of the RNA cross-linked to them, suggest that these proteins are components of transcription factor (TF) IIIC. These results indicate that the nascent transcript contacts the two largest subunits of RNA polymerase III until the transcription complex reaches the TFIIIC binding site, at which point the nascent transcript contacts TFIIIC.
...
PMID:Photoaffinity labeling of RNA polymerase III transcription complexes by nascent RNA. 230 78

A transcription factor required for synthesis of accurately initiated run-off transcripts by RNA polymerase II has been purified and shown to have an associated DNA-dependent ATPase (dATPase) activity that is strongly stimulated by the TATA region of promoters. This transcription factor, designated delta, was purified more than 3000-fold from extracts of crude rat liver nuclei and has a native molecular mass of approximately 230 kDa. DNA-dependent ATPase (dATPase) and transcription activities copurify when delta is analyzed by hydrophobic interaction and ion-exchange HPLC, arguing that transcription factor delta possesses an ATPase (dATPase) activity. ATPase (dATPase) is specific for adenine nucleotides; ATP and dATP, but not CTP, UTP, or GTP, are hydrolyzed. ATPase (dATPase) is stimulated by both double-stranded and single-stranded DNAs, including pUC18, ssM13, and poly(dT); however, DNA fragments containing the TATA region of either the adenovirus 2 major late or mouse interleukin 3 promoters stimulate ATPase as much as 10-fold more effectively than DNA fragments containing nonpromoter sequences. These data suggest the intriguing possibility that delta plays a critical role in the ATP (dATP)-dependent activation of run-off transcription through a direct interaction with the TATA region of promoters.
...
PMID:An RNA polymerase II transcription factor has an associated DNA-dependent ATPase (dATPase) activity strongly stimulated by the TATA region of promoters. 255 40

Transcription termination in vitro by vaccinia RNA polymerase is dependent on a trans-acting factor, VTF, that is associated with, if not identical to, the vaccinia mRNA capping enzyme. VTF-induced termination occurs approximately 50 nucleotides downstream of a signal sequence TTTTTNT in the non-transcribed templated strand; thus the cognate sequence UUUUUNU is expressed in the nascent RNA. To address the role of the nascent RNA in chain termination, the effects of nucleotide base analog substitutions were studied. Incorporation of bromo- (Br) UMP or iodo- (I) UMP into RNA abrogated factor-dependent termination without preventing the synthesis of read-through transcripts. Substitution of either ITP or 7'-methylguanosine for GTP did not inhibit factor-dependent termination, nor did the substitution of BrCTP or ICTP for CTP. The early transcripts synthesized in vitro were sensitive to RNase T2 but resistant to RNase H, indicating an absence of extensive hybridization of RNA product to the DNA template. Substitution of BrUTP for UTP did not alter the nuclease sensitivity of the transcripts, suggesting that increased stability of RNA:DNA hybrid structures did not account for the analog effects. These results are consistent with a model in which recognition of the primary sequence UUUUUNU in nascent RNA by the polymerase and/or VTF is required for transcription termination.
...
PMID:Factor-dependent transcription termination by vaccinia virus RNA polymerase. Evidence that the cis-acting termination signal is in nascent RNA. 283 68

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>