LapF and Its Regulation by Fis Affect the Cell Surface Hydrophobicity of Pseudomonas putidaIdentification of ColR binding consensus and prediction of regulon of ColRS two-component systemThe ColRS two-component system regulates membrane functions and protects Pseudomonas putida against phenol.The impact of ColRS two-component system and TtgABC efflux pump on phenol tolerance of Pseudomonas putida becomes evident only in growing bacteria.Mutation frequency and spectrum of mutations vary at different chromosomal positions of Pseudomonas putidaPseudomonas putida Fis binds to the lapF promoter in vitro and represses the expression of LapFStationary phase mutagenesis: mechanisms that accelerate adaptation of microbial populations under environmental stress.DNA Polymerases ImuC and DinB Are Involved in DNA Alkylation Damage Tolerance in Pseudomonas aeruginosa and Pseudomonas putidaOngoing evolution of Pseudomonas aeruginosa PAO1 sublines complicates studies of DNA damage repair and tolerance.Mechanisms of stationary-phase mutagenesis in bacteria: mutational processes in pseudomonads.Different spectra of stationary-phase mutations in early-arising versus late-arising mutants of Pseudomonas putida: involvement of the DNA repair enzyme MutY and the stationary-phase sigma factor RpoS.Simultaneous degradation of atrazine and phenol by Pseudomonas sp. strain ADP: effects of toxicity and adaptation.Involvement of error-prone DNA polymerase IV in stationary-phase mutagenesis in Pseudomonas putida.Contribution of increased mutagenesis to the evolution of pollutants-degrading indigenous bacteriaElevated mutation frequency in surviving populations of carbon-starved rpoS-deficient Pseudomonas putida is caused by reduced expression of superoxide dismutase and catalase.Freeing Pseudomonas putida KT2440 of its proviral load strengthens endurance to environmental stresses.Target site selection of Pseudomonas putida transposon Tn4652.The promoter region of lapA and its transcriptional regulation by Fis in Pseudomonas putida.Oxidative DNA damage defense systems in avoidance of stationary-phase mutagenesis in Pseudomonas putida.A DNA polymerase V homologue encoded by TOL plasmid pWW0 confers evolutionary fitness on Pseudomonas putida under conditions of environmental stress.Pseudomonas putida AlkA and AlkB proteins comprise different defense systems for the repair of alkylation damage to DNA - in vivo, in vitro, and in silico studies.Degradation of nitroaromatic compounds: a model to study evolution of metabolic pathways.Molecular characterization of Rif(r) mutations in Pseudomonas aeruginosa and Pseudomonas putida.The ColR-ColS two-component signal transduction system is involved in regulation of Tn4652 transposition in Pseudomonas putida under starvation conditions.ColRS two-component system prevents lysis of subpopulation of glucose-grown Pseudomonas putida.NER enzymes maintain genome integrity and suppress homologous recombination in the absence of exogenously induced DNA damage in Pseudomonas putida.Involvement of specialized DNA polymerases Pol II, Pol IV and DnaE2 in DNA replication in the absence of Pol I in Pseudomonas putida.IHF is the limiting host factor in transposition of Pseudomonas putida transposon Tn4652 in stationary phase.Correction: The promoter region of lapA and its transcriptional regulation by Fis in Pseudomonas putida.Study of factors which negatively affect expression of the phenol degradation operon pheBA in Pseudomonas putida.A novel papillation assay for the identification of genes affecting mutation rate in Pseudomonas putida and other pseudomonads.Fis negatively affects binding of Tn4652 transposase by out-competing IHF from the left end of Tn4652.Fis overexpression enhances Pseudomonas putida biofilm formation by regulating the ratio of LapA and LapF.Involvement of transcription-coupled repair factor Mfd and DNA helicase UvrD in mutational processes in Pseudomonas putidaThe Effect of Cellular Redox Status on the Evolvability of New Catabolic PathwaysHomologous recombination is facilitated in starving populations of Pseudomonas putida by phenol stress and affected by chromosomal location of the recombination targetColonization efficiency of Pseudomonas putida is influenced by Fis-controlled transcription of nuoA-N operon
P50
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P50
description
eesti mikrobioloog ja geneetik
@et
microbioloog
@nl
name
Maia Kivisaar
@ast
Maia Kivisaar
@en
Maia Kivisaar
@es
Maia Kivisaar
@et
type
label
Maia Kivisaar
@ast
Maia Kivisaar
@en
Maia Kivisaar
@es
Maia Kivisaar
@et
prefLabel
Maia Kivisaar
@ast
Maia Kivisaar
@en
Maia Kivisaar
@es
Maia Kivisaar
@et
P106
P21
P214
166149542870200302200
P2953
Maia_Kivisaar
P31
P373
Maia Kivisaar
P569
1960-06-02T00:00:00Z