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)

We report the effect of novel synthetic polymers on deoxyribonucleic acid (DNA) directed ribonucleic acid (RNA) synthesis in vitro. Polymers contained base-selective monomers, including a GC-specific phenazine derivative and an AT-specific triphenylmethane dye. Radical chain polymerization was carried out in aqueous solution by using monomers bound to a template DNA, which was obtained from either lambda or T7 bacteriophage. Polymers were isolated and reannealed with DNA samples, including competitive mixtures of T7 and lambda DNAs. We measured transcription from DNA-polymer complexes by using Escherichia coli RNA polymerase and determined not only the reduction in total transcription levels but also the relative inhibition of lambda- or T7-specific transcription by using a hybridization assay. The results show that micromolar concentrations of individual dyes are sufficient to cause substantial inhibition of transcription when the dyes are incorporated into polymers. More significantly, a number of the polymers inhibited more strongly transcription from the DNA which had served as template for polymer synthesis than from the DNA present as competitor in the annealing process. We conclude that template synthesis of DNA-binding polymers can lead to preferential inhibition of function of the original template. The apparent relative affinity of polymer for competing DNAs can be altered by at least an order of magnitude depending on which DNA was used as the synthesis template. The results offer a new approach to improving the specificity of DNA-binding drugs.
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PMID:Selective repression of transcription by base sequence specific synthetic polymers. 39 Dec 75

RNA synthesis in yeast is rapidly inhibited by 8-hydroxyquinoline and the phenazine antibiotic lomofungin (5-formyl-1-methoxycarbonyl-4,6,8-trihydroxyphenazine). It is shown that lomofungin, like 8-hydroxyquinoline, is a chelating agent for bivalent cations. The mechanism of inhibition of RNA synthesis by lomofungin and 8-hydroxyquinoline was investigated in experiments with isolated Escherichia coli RNA polymerase. The results show that both inhibitors are capable of inhibiting polymerase activity solely by chelating the dissociable cations Mn2+ and Mg2+. Evidence is presented which shows that inhibition may occur in the absence of any direct contact between the RNA polymerase or DNA template and the inhibitor. The possibility that inhibition might also occur by chelation of the Zn2+, which is tightly bound to the polymerase, is discussed: it is concluded that lomofungin or 8-hydroxyquinoline is likely to inhibit the enzyme by removal of Mn2+ and Mg2+ before chelating the Zn2+. On the basis of inhibition by chelation of Mn2+ and Mg2+, explanations are proposed for why lomofungin and 8-hydroxyquinoline inhibit synthesis of ribosomal and polydisperse RNA more than that of 5S RNA and tRNA, and for why protein synthesis is not immediately inhibited in the intact yeast cell.
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PMID:The mechanism of inhibition of ribonucleic acid synthesis by 8-hydroxyquinoline and the antibiotic lomofungin. 81 Jan 37

An in vitro transcription assay was used to probe the sequence specificity of the binding of phenazine-tethered platinum complexes to DNA. It was found that when compared to cis-dichloro(ethylenediamine)platinum(II), the number of RNA polymerase blockage sites was increased by approximately 50% and the blockage sites were broadened by 1-3 nucleotides by the presence of the phenazine ligand. The rate of platination was also enhanced by the presence of the intercalator, and the increase in the kinetics of platination resulted in increased levels of adducts formed (i.e. high drug occupancy) as detected under conditions of active transcription. The level of platination by derivative 3 was 20-fold greater than that of the reference compound, which lacked a tethered intercalating phenazine group.
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PMID:Sequence specificity and reactivity of the binding of phenazine-tethered platinum complexes to DNA. 1050 Apr 99

228 strains of soil and rhizosphere pseudomonads isolated in different geographic zones were screened, with the use of two tester systems, for the capacity to produce N-acetyl-homoserine lactones (AHLs), which are autoinducers involved in quorum-sensing (QS) regulation. AHL production was found in 11.4% of the strains investigated. In five Pseudomonas chlororaphis strains shown to be active AHL producers and chosen for further study, PCR identified two QS systems that involved the phzI, phzR, csaI, and csaR genes; this finding suggests the conservative nature of these regulation systems in P. chlororaphis. Strain P. chlororaphis 449, chosen as a model object and studied in greater detail, produced three AHL species including N-butanoyl-homoserine lactone and N-hexanoyl-homoserine lactone. This strain produced three types of phenazine antibiotics, as well as siderophores and cyanide; it also exhibited antagonistic properties toward a wide spectrum of phytopathogenic fungi. The phzI and csaI genes, coding for synthases of AHLs of two types, were cloned and sequenced; mutants with knocked-out phzI and csal genes were obtained. With the use of transposon mutagenesis and the gene substitution method, mutations were obtained in the global expression regulator genes gacS, coding for the GacA-GacS regulation system kinase, and rpoS, coding for the sigma S subunit of RNA polymerase. The effect of these mutations on the AHL synthesis and on the regulation of various metabolic processes in P. chlororaphis was studied.
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PMID:[Quorum-sensing regulation in soil pseudomonads]. 1702 70

Complex investigation of new phenazine-1-carboxylic acid (PCA-1) phenylamides allowed to reveal their ability for substantial growth retardation of three gram-positive bacterial strains--Micrococcus sp., Erysipelothrix rhusiopathiae and Staphylococcus aureus. The strong inhibitory activity of PCA-1 derivatives towards the RNA synthesis in in vitro T7-RNA-polymerase transcription system was also shown, and this property depended on concentration and structure of the tested compounds. The methods of computer modeling outlined the possible mechanism of RNA synthesis inhibition by PCA-1 amides: this process is arisen due to formation of stable complex of substances with enzyme at the position of substrate (rNTP) binding site. The revealed accordance of suppressor PCA-1 amides action in the enzymatic transcription system with antibacterial activity of these agents allows assuming that DNA-dependent RNA polymerase might be one of the cellular targets for tested bacteria. Such an approach permits to propose the use of such in vitro transcription model system to reveal biologically active substances among newly synthesized compounds, having close action mechanism.
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PMID:[New amides of phenazine-1-carboxylic acid: antimicrobial activity and structure-activity relationship]. 1895 39

Inactivation of the rpoS gene encoding for sigma S subunit of RNA polymerase of the rhizospheric strain Pseudomonas chlororaphis 449 results in a sharp decrease (5-8 fold) of phenazine antibiotics synthesis, decline of acid and alkaline phosphatases (pH 2.5 and 8.8, respectively) activities and antagonistic activity of this strain against phytopathogenic fungus Rhizoctonia solani. A mutation in the rpoS gene causes a small decrease of lipase and proteolytic activities in supernatants of Pseudomonas chlororaphis 449 cultures, as well as does not substantially affect the synthesis of three types of N-acyl-homoserinelactones that are signal molecules of Quorum Sensing regulation, and the capacity of bacteria to motility on the surface of the medium (swarming).
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PMID:[Synthesis of N-acyl-homoserine lactones, phenazines, some enzymatic activities and antifungal activity of Pseudomonas chlororaphis 449 cells carrying an inactivated rpoS gene]. 1928 8

A number of new hybrid heteroaromatic compounds, consisting of tricyclic fragments (acridone, thioxanthone and phenazine) and bicyclic fragments (benzimidazole, benzothiazole and benzoxazole) were synthesized using the method, developed by the authors. As a result of screening against the transcription model system of the phage T7 DNA-dependent RNA polymerase three effective inhibitors of the RNA syntheses with the IC50 value of 8.9, 5.7 and 19.8 microM were detected. To cast light on the mode of interaction between the synthesized compounds and the target, the molecular docking was applied to the model pocket of the phage T7 RNA polymerase transcription complex. It was established that these ligands form networks of H-bonds with residues of the pocket conservative amino acids and pi-interaction with the Mg2+ ion. A planar geometry of the hybrid molecules, realized due to the intramolecular H-bonds, proved to be an important structural feature, which correlates with an efficacious inhibitory activity.
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PMID:[Novel hybrid inhibitors of the phage T7 RNA polymerase: synthesis, docking and screening in vitro]. 2334 33

To investigate the relationship between the molecular structure and biological activity of polypyridyl Ru(II) complexes, such as DNA binding, photocleavage ability, and DNA topoisomerase and RNA polymerase inhibition, six new [Ru(bpy)(2)(dppz)](2+) (bpy=2,2'-bipyridine; dppz=dipyrido[3,2-a:2,',3'-c]phenazine) analogs have been synthesized and characterized by means of (1)H-NMR spectroscopy, mass spectrometry, and elemental analysis. Interestingly, the biological properties of these complexes have been identified to be quite different via a series of experimental methods, such as spectral titration, DNA thermal denaturation, viscosity, and gel electrophoresis. To explain the experimental regularity and reveal the underlying mechanism of biological activity, the properties of energy levels and population of frontier molecular orbitals and excited-state transitions of these complexes have been studied by density-functional theory (DFT) and time-depended DFT (TDDFT) calculations. The results suggest that DNA intercalative ligands with better planarity, greater hydrophobicity, and less steric hindrance are beneficial to the DNA intercalation and enzymatic inhibition of their complexes.
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PMID:Structure-activity relationship of polypyridyl ruthenium(II) complexes as DNA intercalators, DNA photocleavage reagents, and DNA topoisomerase and RNA polymerase inhibitors. 2349 54