Pseudomonas putida

About: Pseudomonas putida is a research topic. Over the lifetime, 6854 publications have been published within this topic receiving 230572 citations.

Survival in soils of an herbicide-resistant Pseudomonas putida strain bearing a recombinant TOL plasmid.

Abstract: Pseudomonas putida EEZ15(pWW0-EB62) is a phosphinothricin (PPT)-resistant strain with a recombinant TOL plasmid which allows the strain to grow on p-ethylbenzoate. The survival of this strain in sterile agricultural soils depends on the physicochemical properties of the soil. The recombinant pWW0-EB62 plasmid and its catabolic functions were stable for periods of up to 1 month in bacteria introduced in unamended soils and only conferred selective advantage to the host bacteria without the plasmid or with the natural pWW0 plasmid when the soils were amended with low amounts of p-ethylbenzoate. The addition to soils of aromatics that are cometabolized by P. putida EEZ15(pWW0-EB62) had a detrimental effect on the survival of the bacteria, whereas low amounts of aromatics that are not metabolized by this bacterium had no effect on their survival. Survival of P. putida EEZ15(pWW0-EB62) was better at 4 and 25 degrees C than at 37 degrees C. The host bacterium carrying the recombinant pWW0-EB62 plasmid was established in unsterile soils.

Cloning of a carbofuran hydrolase gene from Achromobacter sp. strain WM111 and its expression in gram-negative bacteria.

Abstract: A 14-kilobase-pair (kbp) EcoRI DNA fragment that encodes an enzyme capable of rapid hydrolysis of N-methylcarbamate insecticides (carbofuran hydrolase) was cloned from carbofuran-degrading Achromobacter sp. strain WM111. When used to probe Southern blots containing plasmid and total DNAs from WM111, this 14-kbp fragment hybridized strongly to a 14-kbp EcoRI fragment from the greater than 100-kbp plasmid harbored by this strain but weakly to EcoRI-digested total DNA from Achromobacter sp. strain WM111, indicating that the gene for N-methylcarbamate degradation (mcd) is plasmid encoded. Further subcloning localized the mcd gene on a 3-kbp ScaI-ClaI fragment. There was little or no expression of this gene in the alternative gram-negative hosts Pseudomonas putida, Alcaligenes eutrophus, Acinetobacter calcoaceticus, and Achromobacter pestifer. Western blotting (immunoblotting) of the protein products produced by low-level expression in P. putida confirmed that this 3-kbp fragment encodes the two 70+-kilodalton protein products seen in sodium dodecyl sulfate-polyacrylamide gel electrophoresis of purified carbofuran hydrolase.

Phenol degradation by a psychrotrophic strain of pseudomonas putida

Abstract: Cell growth and phenol degradation kinetics were studied at 10°C for a psychrotrophic bacterium, Pseudomonas putida Q5. The batch studies were conducted for initial phenol concentrations, So, ranging from 14 to 1000 mg/1. The experimental data for 14<=So<=200 mg/1 were fitted by non-linear regression to the integrated Haldane substrate inhibition growth rate model. The values of the kinetic parameters were found to be: μm=0.119 h−1, KS=5.27 mg/1 and KI=377 mg/1. The yield factor of dry biomass from substrate consumed was Y=0.55. Compared to mesophilic pseudomonads previously studied, the psychrotrophic strain grows on and degrades phenol at rates that are ca. 65–80% lower. However, use of the psychrotrophic microorganism may still be economically advantageous for waste-water treatment processes installed in cold climatic regions, and in cases where influent waste-water temperatures exhibit seasonal variation in the range 10–30°C.