Search for dissertations about: "Phenol catabolism"
Found 5 swedish dissertations containing the words Phenol catabolism.
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1. Multiple regulatory inputs for hierarchical control of phenol catabolism by Pseudomonas putida
Abstract : Metabolically versatile bacteria have evolved diverse strategies to adapt to different environmental niches and respond to fluctuating physico-chemical parameters. In order to survive in soil and water habitats, they employ specific and global regulatory circuits to integrate external and internal signals to counteract stress and optimise their energy status. READ MORE
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2. Deciphering control of Mechano-Transcription Activators of σ54-RNA polymerase
Abstract : To survive and proliferate, bacteria have to respond to a plethora of fluctuating signals within their habitats. Transcriptional control is one crucial entry point for such signal-responsive adaption responses. READ MORE
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3. Global regulatory factors that impact metabolic and lifestyle choices in Pseudomonas putida
Abstract : Pseudomonas putida strains have a broad metabolic capacity and are innately resistant to many harmful substances – properties that make them of interest for a number of industrial and biotechnological application. They can rapidly adapt to changes in physico-chemical parameters in the soil and water environments they naturally inhabit. READ MORE
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4. 4-chlorophenol biodegradation by Arthrobacter chlorophenolicus A6
Abstract : A microorganism was isolated which could grow on unusually high concentrations of the toxic pollutant 4-chlorophenol. Taxonomic studies showed that the microorganism constituted a novel species within the genus Arthrobacter and it was named Arthrobacter chlorophenolicus A6. A. READ MORE
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5. On the role of ppGpp and DksA mediated control of σ54-dependent transcription
Abstract : The σ54-dependent Po promoter drives transcription of an operon that encodes a suite of enzymes for (methyl)phenols catabolism. Transcription from Po is controlled by the sensor-activator DmpR that binds (methyl)phenol effectors to take up its active form. READ MORE