Pseudomonas putida

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

Chromogenic identification of genetic regulatory signals in Bacillus subtilis based on expression of a cloned Pseudomonas gene (heterospecific gene expression/catechol 2,3-dioxygenase/TOL xylE gene/expression vector)

Abstract: A method to isolate fragments of DNA that pro- mote gene expression in Bacillus subtilis is described. The system is based on production of catechol 2,3-dioxygenase (CatO2ase; cat- echol:oxygen 2,3-oxidoreductase (decyclizing), EC 1.13.11.2) en- coded by the Pseudomonas putida TOL plasmid gene xylE. The gene was transferred to a B. subtilis/Escherichia coli plasmid vec- tor to construct pTG402. Although xylE is functionally expressed in E. coli, CatO2ase is not detected in B. subtilis unless a fragment of DNA capable of promoting gene expression is ligated into a cleavage site on pTG402 upstream from xylE. Fragments of chro- mosomal DNA from B. subtilis, Bacillus licheniformis, Bacillus pumilus, and E. coli are shown to promote xylE gene expression in B. subtilis. The special feature of the system is the method of detection: colonies of cells that express xylE become yellow within seconds after selection plates are sprayed with catechol, a colorless substrate that is converted by CatO2ase to the yellow product, 2- hydroxymuconic semialdehyde. The complete nucleotide se- quence of xylE is presented. Strong complementarity between the ribosome binding site and 16S rRNA suggests that xylE mRNA translation in B. subtilis may commence at the same site as that recognized by P. putida. Identity of CatO2ase produced in B. sub- tilis, E. coli, and P. putida support the hypothesis. Our sensitive color assay offers an approach to develop plasmid gene expression vectors for a wide variety of host organisms.

The revisited genome of Pseudomonas putida KT2440 enlightens its value as a robust metabolic chassis.

Abstract: Summary By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was published in 2002 (Nelson et al., 2002) this bacterium was considered a potential agent for environmental bioremediation of industrial waste and a good colonizer of the rhizosphere. However, neither the annotation tools available at that time nor the scarcely available omics data—let alone metabolic modeling and other nowadays common systems biology approaches—allowed them to anticipate the astonishing capacities that are encoded in the genetic complement of this unique microorganism. In this work we have adopted a suite of state-of-the-art genomic analysis tools to revisit the functional and metabolic information encoded in the chromosomal sequence of strain KT2440. We identified 242 new protein-coding genes and re-annotated the functions of 1548 genes, which are linked to almost 4900 PubMed references. Catabolic pathways for 92 compounds (carbon, nitrogen and phosphorus sources) that could not be accommodated by the previously constructed metabolic models were also predicted. The resulting examination not only accounts for some of the known stress tolerance traits known in P. putida but also recognizes the capacity of this bacterium to perform difficult redox reactions, thereby multiplying its value as a platform microorganism for industrial biotechnology.

Three efflux pumps are required to provide efficient tolerance to toluene in Pseudomonas putida DOT-T1E.

Abstract: In Pseudomonas putida DOT-T1E multidrug efflux pumps of the resistance-nodulation-division family make a major contribution to solvent resistance. Two pumps have been identified: TtgABC, expressed constitutively, and TtgDEF, induced by aromatic hydrocarbons. A double mutant lacking both efflux pumps was able to survive a sudden toluene shock if and only if preinduced with small amounts of toluene supplied via the gas phase. In this article we report the identification and characterization in this strain of a third efflux pump, named TtgGHI. The ttgGHI genes form an operon that is expressed constitutively at high levels from a single promoter. In the presence of toluene the operon is expressed at an even higher level from two promoters, the constitutive one and a previously unreported one that is inducible and that partially overlaps the constitutive promoter. By site-directed mutagenesis we constructed a single ttgH mutant which was shown to be unable to survive sudden 0.3% (vol/vol) toluene shocks regardless of the preculture conditions. The mutation was transferred to single and double mutants to construct mutant strains in which two or all three pumps are knocked out. Survival analysis of induced and noninduced cells revealed that the TtgABC and TtgGHI pumps extruded toluene, styrene, m-xylene, ethylbenzene, and propylbenzene, whereas the TtgDEF pump removed only toluene and styrene. The triple mutant was hypersensitive to toluene, as shown by its inability to grow with toluene supplied via the vapor phase.

Survival of rifampin-resistant mutants of Pseudomonas fluorescens and Pseudomonas putida in soil systems

Abstract: The fate of spontaneous chromosomal rifampin-resistant (Rifr) mutants of Pseudomonas putida and Pseudomonas fluorescens in sterile and live organic soil from which they were isolated was studied. In sterile native-soil assays, a Rifr mutant of P. putida showed no decrease in competitive fitness when compared with the wild-type parent. However, mutants of P. fluorescens were of two general categories. Group 1 showed no difference from the wild type in terms of growth rate, competitive fitness, and membrane protein composition. Group 2 showed a slower growth rate in both minimal and enriched media and an altered membrane protein profile. These mutants also demonstrated decreased competitive fitness compared with the wild-type strain. In live soil, the Rifr P. putida strain persisted throughout the 38-day test period with a decay rate of 0.7 log10 CFU/g of soil per 10 days. A group 1 Rifr P. fluorescens mutant maintained its inoculated titer for 7 to 10 days and then decayed at a rate of 0.2 to 0.4 log10 CFU/g of soil per 10 days. A group 2 Rifr P. fluorescens mutant remained at its titer for 1 to 5 days before decaying at a two- to threefold-faster rate. These findings indicate that rifampin resistance may not be an innocuous mutation in some pseudomonads and that marked strains should be compared with wild-type parents before being used as monitors of parental strain survival. Colonization of sterile soil with either the wild-type or mutant strain precluded normal colonization of the second added strain.(ABSTRACT TRUNCATED AT 250 WORDS) Images