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)

Nucleotide sequences of 188 promoter-containing DNA regions have been studied by the computer statistic analysis. Undecanucleotide NTT(G/C)TTGACA(A/T) or (G/C) X TT(G/C)A(G/C)A(A/T)TT(G/T) (recognition site) and heptanucleotide RTATATR or TATAATR (initiation site) separated by 12-19 base pairs are characteristic of a "generalized" promoter structure. Promoters can function if a minimal level of correspondence for their recognition and initiation sites to a generalized structure is attained (the correspondence function value for the whole structure is not lower than 0,61; for the most effective promoters it may be equal to 1). The transcription start is situated 3-9 base pairs after initiation site, 4-7 pairs distance being the most effective. Transcription can start from any nucleotide, preferably with A or G. The start from A is the most effective if it is contained within the CAC or CAT trinucleotides. The promoter efficiency is enhanced by some additional structural factors: the presence of an extended A-T rich region directly before the recognition site; availability of integral promoter structures or several RNA polymerase binding sites in the preceding nucleotide sequence. A characteristic feature of the promoter is the presence of either the dyadic axial symmetry elements in the initiation and recognition sites as well as in the intermediate region, or the A-T rich area in the latter.
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PMID:[Statistical study of the nucleotide sequence of a prokaryotic promoter. Structural elements determining the efficacy of the transcription initiation stages]. 623 57

The major promoters for bacteriophage T3 RNA polymerase on the T3 genome have been mapped by DNA.RNA filter hybridization. One promoter is located in a 300-base-pair Hpa I restriction fragment near the genetic "left" end of T3 DNA. The sequence in the vicinity of the major initiation site of transcription in this region has been determined. A part of the (-)strand sequence is 5' T-A-T-T-T-A-C-C-C-T-C-A-C-T-A-A-A-G-+1 G-G-A-A-U 3'. Comparison of this sequence with the prototype 23-base-pair promoter sequence for bacteriophage T7 RNA polymerase shows a striking pattern of homology and divergence. Between positions -9 and +4, the sequences are virtually identical, whereas between positions -17 and -10, the sequences are quite different. It is postulated that these sequence subsets may perform different functions in transcription initiation by the phage RNA polymerases.
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PMID:Location, function, and nucleotide sequence of a promoter for bacteriophage T3 RNA polymerase. 626 29

The nucleotide sequence(s) specifying RNA polymerase I initiation has been investigated by studying the transcription of deleted and nondeleted mouse ribosomal RNA gene (rDNA) templates in vitro. The deletion of 5'-flanking sequences upstream from position -- 39 did not affect transcriptional activity, but removal of sequences between positions -- 39 and -- 34 resulted in a 90% decrease of rDNA transcription. The template activity was completely eliminated by the further deletion of nucleotides -- 33 to -- 13. It is concluded that sequences between -- 34 and -- 12, upstream from the transcribed region, represent an essential control region for the initiation of transcription in vitro. Therefore, this region may be functionally analogous to the T-A-T-A box of RNA polymerase II promoters. In addition to this control region, sequences located further upstream (between positions -- 45 and -- 169) may also exert some function in efficient transcription initiation as revealed by competition experiments between wildtype and mutant rDNA templates.
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PMID:Nucleotide sequence requirements for specific initiation of transcription by RNA polymerase I. 629 65

Screening of a 129/J mouse genomic library under nonstringent hybridization conditions with a xenotropic virus-like long terminal repeat (LTR) probe revealed a family of sequences resembling insertion elements (IS) with structural features of solitary retroviral LTRs; these are called LTR-IS. They are interspersed among variable flanking regions of mouse DNA and lack any viral structural genes. LTR-IS elements start and end with 11-base-pair inverted repeats and contain signals implicated in RNA polymerase II transcriptional regulation: C-C-A-A-T, T-A-T-A-A-A, and A-A-T-A-A-A. The members of the family are homologous, but not identical, approximately equal to 500-base-pair-long elements with 4-base-pair target-site duplications on both sites of the element. There are 500 LTR-IS per mouse haploid genome.
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PMID:Family of middle repetitive DNA sequences in the mouse genome with structural features of solitary retroviral long terminal repeats. 630 7

Using both clones of mouse LMTK- cells cotransformed with various chimeric conalbumin promoter simian virus 40 (SV40) early gene recombinants and the herpes thymidine kinase gene, and HeLa cells transfected with the same chimeric recombinants, we show that the SV40 72 base pair (bp) repeat sequence is a bidirectional potentiator of initiation of transcription from adjacent T-A-T-A box-dependent and -independent start sites. These results are consistent with our previous model based mainly on the results of T antigen gene expression assays that the 72-bp repeat acts as a bidirectional entry site for RNA polymerase B. We also show that the conalbumin T-A-T-A box is an important element for efficient and accurate in vivo initiation of transcription.
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PMID:A novel eukaryotic promoter element: the simian virus 40 72 base pair repeat. 631 2

The DNA sequences of three major class III T3 RNA polymerase promoters located at 45.0, 55.0, and 64.8% on the standard T3 genetic map have been determined. The precise RNA initiation sites were also determined by 5'-terminal RNA sequence analysis of the transcripts synthesized from the promoter-containing DNA fragments. Alignment of these three class III promoters and a previously determined T3 RNA polymerase promoter at 1.05% on T3 genetic map, with start points of transcription (+1) in register, indicates a high degree of sequence conservation among the four T3 RNA polymerase promoters. The sequences are identical between positions -12 and +4 and are uniformly A-T between -12 and -17. The conserved portion of the (-) strand sequence is 5' (sequence in text) Upstream from -17 and downstream from +4 the sequences diverge. Comparison of this sequence with a prototype 23-base pair promoter sequence for T7 RNA polymerase shows overall homology between positions -17 and +4 with conserved divergence at residues -2 and between -10 and -12. Furthermore, careful examination of the nucleotide sequences around 45.0 and 64.8 T3 map units shows that the putative RNA sequences arising from these regions by overlapping transcription from upstream promoters can be arranged into stable stemloop structures thought to be required for RNase III cleavage. This pattern is similar to those reported for the corresponding T7 RNA polymerase promoters on T7 DNA (Dunn. J. J., and Studier, F. W. (1983) J. Mol. Biol. 166, 477-535).
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PMID:Locations and nucleotide sequences of three major class III promoters for bacteriophage T3 RNA polymerase on T3 DNA. 631 18

We have studied the rotational diffusion of Escherichia coli RNA polymerase free in solution and bound nonspecifically to DNA fragments. The rotational motion was measured by the decay in anisotropy of the triplet-triplet absorption by using as probes either the liganded enzyme inhibitor Rose Bengal or eosin 5'-isothiocyanate conjugated to the protein. The time resolution extended from 10 ns to 1 ms. Free RNA polymerase (holoenzyme) at high salt concentration (1 M NaCl) is monomeric and diffuses at 5 degrees C with a rotational correlation time of 0.66 microseconds, corresponding to an equivalent hydrodynamic sphere with a radius of 7.4 nm. These values and the known molecular weight are most compatible with a nonspherical shape, e.g., an oblate ellipsoid with an axial ratio of about 3. In 0.1 M NaCl, the holoenzyme is dimeric and has a rotational correlation time of 2 microseconds. The decay of anisotropy is at least biexponential upon binding RNA polymerase to calf thymus DNA or to poly[d(A-T)]. The fast component with half of the amplitude has decay kinetics comparable to those seen with the free monomeric enzyme. The slow component has a rotational correlation time of about 14 microseconds and is independent of DNA chain length in the range greater than 180 base pairs. Both rotational correlation times decrease with temperature, and the relative amplitudes change such that the faster component dominates at higher temperature. The rotational relaxation of the enzyme-DNA complexes is discussed in terms of alternative models involving rigid rod-sphere diffusion, conformational changes in the enzyme and/or DNA, sliding motions of the protein along the DNA, and torsional-bending motions of DNA envisioned as a deformable rod.
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PMID:Rotational diffusion of Escherichia coli RNA polymerase free and bound to deoxyribonucleic acid in nonspecific complexes. 634 79

The cleavable dinucleotide photoaffinity probe 5'-[[(4-azidophenacyl)thio]phosphoryl]adenylyl(3'-5')uridine was prepared and used to determine the 5' contacts of a trinucleotide in an Escherichia coli RNA polymerase/T7 DNA transcription complex. The probe was prepared by alkylating 5'-(thiophosphoryl)adenylyl(3'-5')uridine with azidophenacyl bromide. The 5'-(thiophosphorylyl(3'-5')uridine was prepared by the abortive initiation reaction of RNA polymerase on a poly[d(A-T)] DNA template, using adenosine 5'-O-(thiomonophosphate) and uridine triphosphate as substrates. A transcription complex containing a radiolabeled trinucleotide at the A1 promoter of bacteriophage T7 D111 or D123 DNA was prepared by using the dinucleotide photoaffinity probe as initiator and cytidine [alpha-32P]triphosphate as the other substrate. After photolysis, the labeled subunits and DNA were isolated, and the trinucleotide was removed in the presence of phenylmercuric acetate and analyzed by polyacrylamide gel electrophoresis. The 5' end of the trinucleotide was found to label the DNA (approximately 88%) and also the beta (approximately 10%) and sigma (approximately 3%) subunits of E. coli RNA polymerase. It was also shown that the order of migration of the beta and beta' subunits of E. coli RNA polymerase on polyacrylamide gel electrophoresis in sodium dodecyl sulfate is different from that in sodium dodecyl sulfate plus urea.
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PMID:Synthesis of a cleavable dinucleotide photoaffinity probe of ribonucleic acid polymerase: application to trinucleotide labeling of an Escherichia coli transcription complex. 635 6

A photoaffinity analogue of adenosine 5'-triphosphate (ATP), 8-azidoadenosine 5'-triphosphate (8-N3ATP), has been used to elucidate the role of the various subunits involved in forming the active site of Escherichia coli DNA-dependent RNA polymerase. 8-N3ATP was found to be a competitive inhibitor of the enzyme with respect to the incorporation of ATP with Ki = 42 microM, while uridine 5'-triphosphate (UTP) incorporation was not affected. UV irradiation of the reaction mixture containing RNA polymerase and [gamma-32P]-8-N3ATP induced covalent incorporation of radioactive label into the enzyme. Analysis by gel filtration and nitrocellulose filter binding indicated specific binding. Subunit analysis by sodium dodecyl sulfate and sodium tetradecyl sulfate gel electrophoresis and autoradiography of the labeled enzyme showed that the major incorporation of radioactive label was in beta' and sigma, with minor incorporation in beta and alpha. The same pattern was observed in both the presence and absence of poly[d(A-T)] and poly[d(A-T)] plus ApU. Incorporation of radioactive label in all bands was significantly reduced by 100-150 microM ATP, while 100-200 microM UTP did not show a noticeable effect. Our results indicate major involvement of the beta' and sigma subunits in the active site of RNA polymerase. The observation of a small extent of labeling of the beta and alpha subunits, which was prevented by saturating levels of ATP, suggests that these subunits are in close proximity to the catalytic site.
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PMID:Photoaffinity labeling of DNA-dependent RNA polymerase from Escherichia coli with 8-azidoadenosine 5'-triphosphate. 638 May 75

The effect of sucrose feeding on endogenous intestinal RNA polymerase activities and on chromatin structure was studied in rats. Adult rats were given a 70% sucrose solution for 15 hours following a 48-hour starvation period. Comparison was made with rats starved for 63 hours and with ad libitum nourished animals. Chromatin-bound RNA polymerase I activity was significantly reduced by starvation. Sucrose feeding provoked a significant rise in the activity, but the level found in the nourished rats was not reached. The free poly[d(A-T)]-dependent RNA polymerase I activity of the sucrose-fed rats exceeded that of the starved and the nourished animals. Chromatin-bound RNA polymerase II activity was enhanced most markedly by sucrose feeding. The balance between the chromatin-bound and free enzymes was shifted towards the chromatin-bound state when compared to the starved and nourished rats. Starvation caused a reduction in the size of oligonucleosomes but sucrose feeding restored almost entirely the original pattern obtained in the nourished animals. These results reflect modifications in the structure of chromatin after sucrose feeding. The present report demonstrates that the adaptive processes triggered in the intestine by dietary sucrose are associated with changes in gene expression.
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PMID:Modulation of RNA polymerase activities in the intestine of adult rats by dietary sucrose. 661 82

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