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Target Concepts:
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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)
The TodS and TodT proteins form a previously unrecognized and highly specific two-component regulatory system in which the TodS sensor protein contains two input domains, each of which are coupled to a histidine kinase domain. This system regulates the expression of the genes involved in the degradation of
toluene
, benzene, and ethylbenzene through the toluene dioxygenase pathway. In contrast to the narrow substrate range of this catabolic pathway, the TodS effector profile is broad. TodS has basal autophosphorylation activity in vitro, which is enhanced by the presence of effectors.
Toluene
binds to TodS with high affinity (Kd = 684 +/- 13 nM) and 1:1 stoichiometry. The analysis of the truncated variants of TodS reveals that
toluene
binds to the N-terminal input domain (Kd = 2.3 +/- 0.1 microM) but not to the C-terminal half. TodS transphosphorylates TodT, which binds to two highly similar DNA binding sites at base pairs -107 and -85 of the promoter. Integration host factor (IHF) plays a crucial role in the activation process and binds between the upstream TodT boxes and the -10 hexamer region. In an IHF-deficient background, expression from the tod promoter drops 8-fold. In vitro transcription assays confirmed the role determined in vivo for TodS, TodT, and IHF. A functional model is presented in which IHF favors the contact between the TodT activator, bound further upstream, and the alpha-subunit of
RNA polymerase
bound to the downstream promoter element. Once these contacts are established, the tod operon is efficiently transcribed.
...
PMID:The TodS-TodT two-component regulatory system recognizes a wide range of effectors and works with DNA-bending proteins. 1670 39
A bacterium designated strain BD-a59, able to degrade all six benzene,
toluene
, ethylbenzene, and o-, m-, and p-xylene (BTEX) compounds, was isolated by plating gasoline-contaminated sediment from a gasoline station in Geoje, Republic of Korea, without enrichment, on minimal salts basal (MSB) agar containing 0.01% yeast extract, with BTEX as the sole carbon and energy source. Taxonomic analyses showed that the isolate belonged to Pseudoxanthomonas spadix, and until now, the genus Pseudoxanthomonas has not included any known BTEX degraders. The BTEX biodegradation rate was very low in MSB broth, but adding a small amount of yeast extract greatly enhanced the biodegradation. Interestingly, degradation occurred very quickly in slurry systems amended with sterile soil solids but not with aqueous soil extract. Moreover, if soil was combusted first to remove organic matter, the enhancement effect on BTEX biodegradation was lost, indicating that some components of insoluble organic compounds are nutritionally beneficial for BTEX degradation. Reverse
transcriptase
PCR-based analysis of field-fixed mRNA revealed expression of the tmoA gene, whose sequence was closely related to that carried by strain BD-a59. This study suggests that strain BD-a59 has the potential to assist in BTEX biodegradation at contaminated sites.
...
PMID:Influence of soil components on the biodegradation of benzene, toluene, ethylbenzene, and o-, m-, and p-xylenes by the newly isolated bacterium Pseudoxanthomonas spadix BD-a59. 1883 99
A cornerstone of Synthetic Biology is the engineering of gene regulatory networks. Construction of such biological circuits has been used not only to elucidate the dynamics of gene expression but also for designing whole-cell biosensors that translate environmental signals into quantifiable outputs. To this end, distinct components of given regulatory systems are rationally rewired in a way that translates an external stimulus (for instance, the presence of one chemical species) into a measurable readout typically fluorescence or luminescence. Various biosensors for BTEX (a mixture of benzene,
toluene
, ethylbenzene and xylenes) are based on XylR, the main transcriptional regulator of the TOL pathway of Pseudomonas putida mt-2. In the presence of its natural effectors (e.g., m-xylene,
toluene
or 3-methylbenzylalcohol), XylR triggers expression of the upper pathway genes by means of the Pu promoter. Available biosensors combine the xylR gene and a direct fusion between the cognate Pu promoter and the luxCDABE operon, all components stably integrated in the chromosome of P. putida. A versatile development of the same biosensing concept is described, aimed at increasing the sensitivity of the genetic circuit toward XylR inducers. The new platform utilizes mini-transposon vectors tailored for engineering an artificial expression cascade that operates as an amplifier of the signal/response ratio of the biosensor. This strategy was applied to the construction of a strain that carries a transcriptional fusion between the Pu promoter and T7
RNA polymerase
(which becomes under the control of XylR and its effectors), along with a T7 promoter controlling expression of the luxCDABE operon. This simple regulatory architecture produced a dramatic increase of bioluminescence emission in respect to the strain that carries only the direct fusion between the Pu promoter and the luxCDABE reporter.
...
PMID:Engineering whole-cell biosensors with no antibiotic markers for monitoring aromatic compounds in the environment. 2214 65
General and specific effects of molecular genetic responses to adverse environmental factors are not well understood. This study examines genome-wide gene expression profiles of Drosophila melanogaster in response to ionizing radiation, formaldehyde,
toluene
, and 2,3,7,8-tetrachlorodibenzo-p-dioxin. We performed RNA-seq analysis on 25,415 transcripts to measure the change in gene expression in males and females separately. An analysis of the genes unique to each treatment yielded a list of genes as a gene expression signature. In the case of radiation exposure, both sexes exhibited a reproducible increase in their expression of the transcription factors sugarbabe and tramtrack. The influence of dioxin up-regulated metabolic genes, such as anachronism, CG16727, and several genes with unknown function.
Toluene
activated a gene involved in the response to the toxins, Cyp12d1-p; the transcription factor Fer3's gene; the metabolic genes CG2065, CG30427, and CG34447; and the genes Spn28Da and Spn3, which are responsible for reproduction and immunity. All significantly differentially expressed genes, including those shared among the stressors, can be divided into gene groups using Gene Ontology Biological Process identifiers. These gene groups are related to defense response, biological regulation, the cell cycle, metabolic process, and circadian rhythms. KEGG molecular pathway analysis revealed alteration of the Notch signaling pathway, TGF-beta signaling pathway, proteasome, basal transcription factors, nucleotide excision repair, Jak-STAT signaling pathway, circadian rhythm, Hippo signaling pathway, mTOR signaling pathway, ribosome, mismatch repair,
RNA polymerase
, mRNA surveillance pathway, Hedgehog signaling pathway, and DNA replication genes. Females and, to a lesser extent, males actively metabolize xenobiotics by the action of cytochrome P450 when under the influence of dioxin and
toluene
. Finally, in this work we obtained gene expression signatures pollutants (dioxin,
toluene
), low dose of gamma-irradiation and common molecular pathways for different kind of stressors.
...
PMID:Mining gene expression data for pollutants (dioxin, toluene, formaldehyde) and low dose of gamma-irradiation. 2447 70
The solvent resistance capacity of Pseudomonas putida S12 was applied by using the organism as a host for biocatalysis and through cloning and expressing solvent resistant pump genes into Escherichia coli. P. putida S12 expressing
toluene
ortho mononooxygenase (TOM-Green) was used for 1-naphthol production in a water-organic solvent biphasic system. Application of P. putida S12 improved 1-naphthol production per gram cell dry weight by approximately 42% compared to E. coli. Moreover, P. putida S12 enabled the use of a less expensive solvent, decanol, for 1-naphthol production. The solvent resistant pump (srpABC) genes of P. putida S12 were cloned into a solvent sensitive E. coli strain to transfer solvent tolerance. Recombinant strains bearing srpABC genes in either a low-copy number or a high-copy number plasmid grew in the presence of saturated concentration of
toluene
. Both of the recombinant strains were more tolerant to 1% v/v of toxic solvents, decanol and hexane, reaching similar cell density as the no-solvent control. Reverse-
transcriptase
analysis revealed that the srpABC genes were transcribed in engineered strains. The results demonstrate successful transfer of the proton-dependent solvent resistance mechanism and suggest that the engineered strain could serve as more robust biocatalysts in media with organic solvents.
...
PMID:Solvent resistance pumps of Pseudomonas putida S12: Applications in 1-naphthol production and biocatalyst engineering. 2614 10
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