AI Article Synopsis
- The CbrAB two-component system in Pseudomonads regulates metabolic and behavioral traits for environmental adaptation, like nutrient uptake and stress responses.
- In a study of Pseudomonas putida, a transposon insertion mutant (MPO406) was created in the cbrB gene, resulting in enhanced biofilm production that doesn't disperse during nutrient scarcity.
- Analysis of MPO406 revealed changes in regulatory RNA expression and new mutations, leading to its potential use in biotechnological applications like bioremediation.
Article Abstract
The CbrAB two-component system in the Pseudomonads controls a variety of metabolic and behavioural traits required for its adaptation to changing environmental conditions, including the uptake or assimilation of certain carbon sources, and processes such as chemotaxis or stress tolerance. In this work we characterize a miniTn5-luxAB-Km transposon insertion mutant in cbrB (MPO406) in Pseudomonas putida leading to a biofilm overproducing phenotype that is not dispersed when nutrients are depleted. Comparison with a cbrB deletion mutant revealed that all phenotypes previously attributed to CbrB in P. putida correlated in both strains, with the exception of biofilm overproduction and absence of dispersal. We show that in the insertion mutant, the expression of the downstream regulatory RNA CrcZ is upregulated, and also show the presence of a truncated form of CbrB. Also, two additional point mutations in lapG and lapD have been detected in MPO406 by whole genome sequencing. Combination of these effects provides a robust biofilm overproducing phenotype. We present the mutant strain MPO406 as a good candidate to perform bio-production of substances of biotechnological interest or other processes such as bioremediation, which take advantage of immobilized cells on solid surfaces.
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| http://dx.doi.org/10.1111/1758-2229.12414 | DOI Listing |
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