Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Singlet oxygen (1O2), generated by exciting an eosin-Tris complex with a high intensity beam of radiation at 532 nm, was used to chemically modify bases in fragments of DNA containing the lac UV5 promoter in the presence of the DNA binding proteins, RNA polymerase and CRP (cAMP receptor protein). Subsequent treatment with piperidine selectively cleaved the DNA at specific modified bases in the sequence. Using this technique we show first that the reactivity of DNA bound by CRP differs in the presence and absence of RNA polymerase. Hence the local conformation of CRP-bound DNA must change during the transition to the open complex. However, no reactivity is observed at the sites of the 40 degrees kinks described in the cocrystal structure (Steitz, 1990). Secondly we show that there is unique CRP-dependent reactivity at a specific site (position -46 on the upper strand) in the open complex. Finally, in the open complex, 1O2 also reacts with sites 90 bp upstream from the transcription start point. This reactivity is qualitatively CRP-independent. We infer that 1O2 reacts at sites where the promoter DNA is significantly distorted, and suggest that the pattern observed reflects the functional orientation of an active transcriptional complex in which the DNA is bent to form an extended loop.
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PMID:DNA deformation in nucleoprotein complexes between RNA polymerase, cAMP receptor protein and the lac UV5 promoter probed by singlet oxygen. 137 95

The possible regulatory interactions of purified ornithine decarboxylase with DNA-directed RNA polymerases in isolated macronuclei from the ciliated protozoan Tetrahymena thermophila were studied. It has been found that highly purified ODC (specific activity 10.2 mumols CO2 x h-1 x mg-1), even at activities of 37,500 nmol CO2 x h-1 per ml failed to alter RNA polymerase activity in the in vitro transcription assay in the presence or absence of the substrate L-ornithine at 20mM. The naturally occurring di- and polyamines putrescine, spermidine, and spermine stimulated in-vitro-transcription in isolated macronuclei more at optimal Mg2+/Mn(2+)-concentrations than at suboptimal concentrations, suggesting that polyamines act via a mechanism which is distinct from that of the inorganic cations. Of the monovalent amine compounds tested, (NH4)+ at high concentrations between 40 and 50mM slightly stimulated activity whereas the onset of stimulation by the organic amine compounds, piperidine and cyclohexylamine, was inversely related to the hydrophobicity of each particular compound. In the series of divalent amines, the correct distance between the N-atoms appeared to be very important since ethylenediamine and piperazine did not stimulate significantly but did inhibit at concentrations above 5 mM. 1,3-Diaminopropane stimulated slightly but inhibited above 10 mM, whereas the 1,4-diamino compounds putrescine and 1,4-diaminocyclohexane (DAC) were equally potent stimulators with the more hydrophobic one, DAC, reaching the maximum at lower concentrations than putrescine. For the trivalent amines, the influence of correct spacing seems not to be as important: N-(2-aminoethyl)piperazine stimulated very similar to spermidine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of DNA-directed RNA polymerases in isolated macronuclei of the ciliated protozoan Tetrahymena thermophila. Effects of purified ornithine decarboxylase and amine compounds. 153 93

The long-wavelength ultraviolet (lambda approximately 420 nm) radiation induced reaction between 6-azido-2-methoxy-9-acridinylamines and supercoiled plasmid DNA results in single strand scissions and formation of covalent adducts (ratio approximately 1:10). By treating azidoacridine-photomodified DNA with piperidine at 90 degrees C, additional strand scissions are observed in a complex sequence dependent manner with an overall preference for T greater than or equal to G greater than C much greater than A. The resulting DNA fragments migrate as 5'-phosphates in polyacrylamide gels. Photofootprinting of the binding site of RNA-polymerase on promoter DNA is demonstrated with an azido-9-acridinylamino-octamethylene-9-aminoacridine. Similar experiments using 9-amino-6-azido-2-methoxyacridine indicate that this reagent recognizes changes in the DNA conformation induced by RNA polymerase binding, in relation to open complex formation.
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PMID:Photocleavage of DNA and photofootprinting of E. coli RNA polymerase bound to promoter DNA by azido-9-acridinylamines. 304 68

In order to detect mutations in the core region of the RNA polymerase B (rpoB) subunit gene of Mycobacterium tuberculosis that are known to be associated with resistance to rifampin, we applied rapid chemical cleavage of mismatches (CCM) to heteroduplexes formed between the DNA of M. tuberculosis H37Rv and strains resistant to rifampin. DNA fragments amplified from normal and mutant rpoB genes by polymerase chain reaction were mixed, denatured and re-annealed to create heteroduplexes containing mispaired bases reactive to modification by hydroxylamine (cytosine mismatches) or osmium tetroxide (thymine mismatches) and cleavage of DNA by piperidine at the position of modified base. The cleaved products and the heteroduplexes were separated by polyacrylamide-urea gel electrophoresis and detected by autoradiography. The position of mutations was confirmed by DNA sequencing of the amplified DNA fragments. The results suggest further applicability of the CCM method as a means to screen M. tuberculosis isolates for mutations associated with drug resistance.
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PMID:Chemical cleavage of mismatches in heteroduplexes of the rpoB gene for detection of mutations associated with resistance of Mycobacterium tuberculosis to rifampin. 1095 47

Squaramides constitute a novel class of RNA polymerase inhibitors of which genetic evidence and computational modeling previously have suggested an inhibitory mechanism mediated by binding to the RNA polymerase switch region. An iterative chemistry program increased the fraction unbound to human plasma protein from below minimum detection levels, i.e., <1% to 4-6%, while retaining biochemical potency. Since in vitro antimicrobial activity against an efflux-negative strain of Haemophilus influenzae was 4- to 8-fold higher, the combined improvement was at least 20- to 60-fold. Cocrystal structures of Escherichia coli RNA polymerase with two key squaramides showed displacement of the switch 2, predicted to interfere with the conformational change of the clamp domain and/or with binding of template DNA, a mechanism akin to that of natural product myxopyronin. Furthermore, the structures confirmed the chemical features required for biochemical potency. The terminal isoxazole and benzyl rings bind into distinct relatively narrow, hydrophobic pockets, and both are required for biochemical potency. In contrast, the linker composed of squarate and piperidine accesses different conformations in their respective cocrystal structures with RNA polymerase, reflecting its main role of proper orientation of the aforementioned terminal rings. These observations further explain the tolerance of hydrophilic substitutions in the linker region that was exploited to improve the fraction unbound to human plasma protein while retaining biochemical potency.
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PMID:X-ray crystal structures of Escherichia coli RNA polymerase with switch region binding inhibitors enable rational design of squaramides with an improved fraction unbound to human plasma protein. 2579 59