Pseudomonas putida is a Gram-negative, rod-shaped bacterium that can be encountered in
diverse ecological habitats. This ubiquity is traced to its remarkably versatile metabolism …

The itinerary followed by Pseudomonas putida from being a soil-dweller and plant colonizer
bacterium to become a flexible and engineer-able platform for metabolic engineering stems …

CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …

The last few years have witnessed an unprecedented increase in the number of novel
bacterial species that hold potential to be used for metabolic engineering. Historically …

As a frequent inhabitant of sites polluted with toxic chemicals, the soil bacterium and plant-
root colonizer Pseudomonas putida can tolerate high levels of endogenous and exogenous …

Biotechnological production in bacteria enables access to numerous valuable chemical
compounds. Nowadays, advanced molecular genetic toolsets, enzyme engineering as well …

Significant developments in the understanding and manipulation of microbial metabolism
have enabled the use of engineered biological systems toward a more sustainable energy …

Polyethylene terephthalate (PET), the most common synthetic polyester today, is largely
produced from fossil resources, contributing to global warming. Consequently, sustainable …

Pseudomonas putida is evolutionarily endowed with features relevant for bioproduction,
especially under harsh operating conditions. The rich metabolic versatility of this species …

Organic micropollutants (OMPs) consist of widely used chemicals such as pharmaceuticals
and pesticides that can persist in surface and groundwaters at low concentrations (ng/L to …