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)

Transcription in Archaea is initiated by association of a TATA box binding protein (TBP) with a TATA box. This interaction is stabilized by the binding of the transcription factor IIB (TFIIB) orthologue TFB. We show here that the RNA polymerase of the archaeon Methanococcus, in contrast to polymerase II, does not require hydrolysis of the beta-gamma bond of ATP for initiation of transcription and open complex formation on linearized DNA. Permanganate probing revealed that the archaeal open complex spanned at least the DNA region from -11 to -1 at a tRNA(Val) promoter. The Methanococcus TBP-TFB promoter complex protected the DNA region from -40 to -14 on the noncoding DNA strand and the DNA segment from -36 to -17 on the coding DNA strand from DNase I digestion. This DNase I footprint was extended only to the downstream end by the addition of the RNA polymerase to position +17 on the noncoding strand and to position +13 on the coding DNA strand.
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PMID:Events during initiation of archaeal transcription: open complex formation and DNA-protein interactions. 1132 29

Potassium permanganate oxidation of pyrimidine bases is often used to probe single-stranded regions in functional DNA-protein complexes. However, so far reactivity of these bases in double-stranded DNA has not been studied quantitatively. We have investigated the kinetics of oxidation of pyrimidines in supercoiled pDS3 plasmid dsDNA by quantitative KMnO4 footprinting, in connection with parallel studies on the effect of Mg2+ on kinetics of oxidation of individual thymines in the single-stranded region of the open transcription complex of Escherichia coli RNA polymerase at a cognate Pa promoter contained in this plasmid. Rate constants of oxidation for pyrimidines, kj, in selected regions of pDS3 DNA, including Pa promoter, were determined under single-hit reaction conditions in the absence and presence of 10 mM MgCl2. Their values appeared to be sequence-dependent and were: (i) the largest for Ts in 5'TA3' and 5'TC3' steps, while 2-4 times smaller for 5'-adjacent ones in TT(A,G,C) and TTT(A) runs, (ii) for Cs in 5'TC3' steps 2-4 fold smaller than for adjacent Ts, and (iii) in the presence of Mg2+ generally larger by a sequence-dependent factor: in 5'TC3' steps of about 2 and 4 for Ts and Cs, respectively, in 5'TA3' steps of TTA and TTTA sequences for 3'-terminal Ts of about 3, while for their 5'-neighbors o tinctly smaller value of about 2. Comparison of kj data for corresponding Ts located between +1 and -10 regions of Pa promoter in dsDNA and in ssDNA form in the open transcription complex, reported elsewhere, demonstrates that reactivity of pyrimidines in dsDNA is by 2-3 orders of magnitude smaller. The effect of Mg2+ in dsDNA is interpreted in terms of electrostatic barrier to diffusion of MnO4- on DNA surface, which is lowered by diffusive binding of these ions to backbone phosphates, involving also sequence-specific contacts with bases in the minor and major grooves of B-DNA.
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PMID:Effect of Mg2+ on kinetics of oxidation of pyrimidines in duplex DNA by potassium permanganate. 1173 20

Footprinting studies of prokaryotic open transcription complexes (RPO), based on oxidation of pyrimidine residues by KMnO4 and/or OsO4 at a single oxidant dose, have suggested that the extent of DNA melting in the transcription bubble region increases in the presence of Mg . In this work, quantitative KMnO4 footprinting in function of the oxidant dose of RPO, using Escherichia coli RNA polymerase (E(sigma)70) at a fully functional synthetic promoter Pa having -35 and -10 consensus hexamers, has been used to determine individual rate constants of oxidation of T residues in this region at 37degrees C in the absence of Mg2+ and in the presence of 10 mM MgCl2, and to evaluate therefrom the effect of Mg2+ on the extent of DNA melting. Population distributions of end-labeled DNA fragments corresponding to oxidized Ts were quantified and analyzed according to the single-hit kinetic model. Pseudo-first order reactivity rate constants, ki, thus obtained demonstrated that Mg2+ ions bound to RPO merely enhanced the reactivity of all 11 oxidizable thymines between the +3 and -11 promoter sites by a position-dependent factor: 3-4 for those located close to the transcription start point +1 in either DNA strand, and about 1.6 for those located more distantly therefrom. On the basis of these observations, we conclude that Mg2+ ions bound to RPO at Pa do not influence the length of the melted DNA region and propose that the higher reactivity of thymines results mainly from lower local repulsive electrostatic barriers to MnO4 diffusion around carboxylate binding sites in the catalytic center of RPO and promoter DNA phosphates.
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PMID:Mg2+ ions do not induce expansion of the melted DNA region in the open complex formed by Escherichia coli RNA polymerase at a cognate synthetic Pa promoter. A quantitative KMnO4 footprinting study. 1173 19

Phage T4 early promoters are transcribed in vivo and in vitro by the Escherichia coli RNA polymerase holoenzyme Esigma(70). We studied in vitro the effects of the T4 anti-sigma(70) factor AsiA on the activity of several T4 early promoters. In single-round transcription, promoters motB, denV, mrh.2, motA wild type and UP element-deleted motA are strongly resistant to inhibition by AsiA. The alpha-C-terminal domain of Esigma(70) is crucial to this resistance. DNase I footprinting of Esigma(70) and Esigma(70)AsiA on motA and mrh.2 shows extended contacts between the holoenzyme with or without AsiA and upstream regions of these promoters. A TG --> TC mutation of the extended -10 motif in the motA UP element-deleted promoter strongly increases susceptibility to inhibition by AsiA, but has no effect on the motA wild-type promoter: either the UP element or the extended -10 site confers resistance to AsiA. Potassium permanganate reactivity shows that the two structure elements are not equivalent: with AsiA, the motA UP element-deleted promoter opens more slowly whereas the motA TC promoter opens like the wild type. Changes in UV laser photoreactivity at position +4 on variants of motA reveal an analogous distinction in the roles of the extended -10 and UP promoter elements.
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PMID:Phage T4 early promoters are resistant to inhibition by the anti-sigma factor AsiA. 1513 Jan 21

Potassium permanganate (KMnO4) has widely been used in genomic footprinting assays to map unusual gene structures, including the melting DNA block in transcriptional elongation that results from promoter-proximal pausing of RNA polymerase (Pol) II complexes. Although it has been assumed that DNA-bound proteins do not protect underlying nucleic acids from KMnO4 modifications, we provide evidence herein that this chemical can readily be used to detect nuclear factor loading at a promoter when using optimized conditions. Moreover, by comparing parallel KMnO4 and dimethylsulfate (DMS) in vivo footprintings, we show that the utilization of KMnO4 in combination with another chemical probe maximizes the detection of factor occupancy at a DNA regulatory region, thus providing a better opportunity to define the actual profiles of DNA-protein contacts at given genomic sites in living cells.
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PMID:Potassium permanganate as a probe to map DNA-protein interactions in vivo. 1516 30

There is still a controversy over the mechanism of promoter DNA strand separation upon open transcription complex (RPo) formation by Escherichia coli RNA polymerase: is it a single or a stepwise process controlled by Mg2+ ions and temperature? To resolve this question, the kinetics of pseudo-first-order oxidation of thymine residues by KMnO4 in the -11 ... +2 DNA region of RPo at the lambdaP(R) promoter was examined under single-hit conditions as a function of temperature (13-37 degrees C) in the absence or presence of 10 mm MgCl2. The reaction was also studied with respect to thymidine and its nucleotides (TMP, TTP and TpT) as a function of temperature and [MgCl2]. The kinetic parameters, (ox)k and (ox)E(a), and Mg-induced enhancement of (ox)k proved to be of the same order of magnitude for RPo-lambdaP(R) and the nucleotides. Unlike the complex, (ox)E(a) for the nucleotides was found to be Mg-independent. The isothermal increase in (ox)k with increasing [Mg2+] was thus interpreted in terms of a simple model of screening of the negative charges on phosphate groups by Mg2+ ions, lowering the electrostatic barrier to the diffusion of MnO4- anions to the reactive double bond of thymine. Similar screening isotherms were determined for the oxidation of two groups of thymines in RPo at a consensus-like Pa promoter, differing in the magnitude of the Mg effect. Together, the findings show that: (a) the two DNA strands in the -11...+2 region of RPo-lambdaP(R) are completely separated over the whole range of temperatures investigated (13-37 degrees C) in the absence of Mg2+ (b) Mg2+ ions induce an increase in the rate of the oxidation reaction by screening negatively charged phosphate and carboxylate groups; and (c) the observed thymine reactivity and the magnitude of the Mg effect reflect variation in the strength of the electrostatic potential along the separated DNA strands, in agreement with the current structural model of RPo.
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PMID:Mg2+-modulated KMnO4 reactivity of thymines in the open transcription complex reflects variation in the negative electrostatic potential along the separated DNA strands. Footprinting of Escherichia coli RNA polymerase complex at the lambdaP(R) promoter revisited. 1594 16

A-factor (2-isocapryloyl-3R-hydroxymethyl-gamma-butyrolactone) triggers streptomycin production by inducing the transcription of strR, encoding the pathway-specific transcriptional activator, through signal transduction in the A-factor regulatory cascade in Streptomyces griseus. AdpA, one of the key transcriptional activators in the cascade, bound two upstream activation sites, approximately at nucleotide positions -270 and -50 with respect to the transcriptional start point of strR, as determined by gel mobility shift assays and DNase I footprinting. Transcriptional analysis of the strR promoter with mutated AdpA-binding sites showed that both sites were required for full transcriptional activation of strR by AdpA. Potassium permanganate footprinting showed that AdpA assisted RNA polymerase in forming an open complex at an appropriate position for transcriptional initiation of strR. Nine transcriptional units within the streptomycin biosynthesis gene cluster, including the strR-aphD operon, depended on StrR, indicating that StrR is the pathway-specific transcriptional activator for the whole gene cluster. Consistent with this, expression of strR under the control of a constitutively expressed promoter in an adpA null mutant caused the host to produce streptomycin.
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PMID:Transcriptional control by A-factor of strR, the pathway-specific transcriptional activator for streptomycin biosynthesis in Streptomyces griseus. 1607 4

Escherichia coli sigma70-dependent promoters have typically been characterized as either -10/-35 promoters, which have good matches to both the canonical -10 and the -35 sequences or as extended -10 promoters (TGn/-10 promoters), which have the TGn motif and an excellent match to the -10 consensus sequence. We report here an investigation of a promoter, P(minor), that has a nearly perfect match to the -35 sequence and has the TGn motif. However, P(minor) contains an extremely poor sigma70 -10 element. We demonstrate that P(minor) is active both in vivo and in vitro and that mutations in either the -35 or the TGn motif eliminate its activity. Mutation of the TGn motif can be compensated for by mutations that make the -10 element more canonical, thus converting the -35/TGn promoter to a -35/-10 promoter. Potassium permanganate footprinting on the nontemplate and template strands indicates that when polymerase is in a stable (open) complex with P(minor), the DNA is single stranded from positions -11 to +4. We also demonstrate that transcription from P(minor) incorporates nontemplated ribonucleoside triphosphates at the 5' end of the P(minor) transcript, which results in an anomalous assignment for the start site when primer extension analysis is used. P(minor) represents one of the few -35/TGn promoters that have been characterized and serves as a model for investigating functional differences between these promoters and the better-characterized -10/-35 and extended -10 promoters used by E. coli RNA polymerase.
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PMID:Escherichia coli RNA polymerase recognition of a sigma70-dependent promoter requiring a -35 DNA element and an extended -10 TGn motif. 1701 80

We previously reported that the P1 promoter of topA encoding topoisomerase I of Escherichia coli is activated in response to oxidative stress, in a Fis-dependent manner. Here we show that Fis regulation of topA varies with the intracellular concentrations of Fis. Thus, when Fis levels are low, hydrogen peroxide treatment results in topA activation, whereas at high Fis levels hydrogen peroxide treatment renders topA P1 inactive. In vivo DMS footprinting indicates that only at low Fis levels, when exposed to the stress, the region of the topA promoter changes and P1 becomes active. Potassium permanganate experiments indicate that low levels of Fis activate P1 transcription by facilitating the formation of open complexes, while high levels of this protein shut off the promoter. DNase I footprinting show that Fis binds the promoter region of topA at eight sites with different affinities. One low affinity site overlaps the -10, -35 hexamers of RNA polymerase. We propose that in response to oxidative stress, when present at low levels, Fis binds the promoter region of topA at its high affinity sites, thereby facilitating the recruitment of RNA polymerase to P1, while at high levels, Fis occupies the low affinity sites as well, and thus prevents the binding of RNA polymerase. Our results indicate that the oxidative stress response varies in response to changes in growth phase and nutritional environment.
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PMID:Differential regulation of Escherichia coli topoisomerase I by Fis. 1723 26

RNA polymerases from Archaea and Eukaryotes consist of a core enzyme associated with a dimeric E'F (Rpb7/Rpb4) subcomplex but the functional contribution of the two subunit subcomplexes to the transcription process is poorly understood. Here we report the reconstitution of the 11-subunit RNA polymerase and of the core enzyme from the hyperthermophilic Archaeon Pyrococcus furiosus. The core enzyme showed significant activity between 70 and 80 degrees C but was almost inactive at 60 degrees C. E' stimulated the activity of the core enzyme at 60 degrees C, dramatically suggesting an important role of this subunit at low growth temperatures. Subunit F did not contribute significantly to catalytic activity. Permanganate footprinting at low temperatures dissected the contributions of the core enzyme, subunit E', and of archaeal TFE to open complex formation. Opening in the -2 and -4 region could be achieved by the core enzyme, subunit E' stimulated bubble formation in general and opening at the upstream end of the transcription bubble was preferably stimulated by TFE. Analyses of the kinetic stabilities of open complexes revealed an unexpected E'-independent role of TFE in the stabilization of open complexes.
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PMID:The RPB7 orthologue E' is required for transcriptional activity of a reconstituted archaeal core enzyme at low temperatures and stimulates open complex formation. 1731 16

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