Pseudomonas putida have emerged as promising biocatalysts for the conversion of sugars
and aromatic compounds obtained from lignocellulosic biomass. Understanding the role of …

Carbon catabolite repression refers to the preference of microbes to metabolize certain
growth substrates over others in response to a variety of regulatory mechanisms. Such …

Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …

In metabolically versatile bacteria, carbon catabolite repression (CCR) facilitates the
preferential assimilation of the most efficient carbon sources, improving growth rates and …

The genetic characterization of Pseudomonas protegens Pf-5 was recently completed.
However, the inferred metabolic network structure has not yet been evaluated …

The Pseudomonas putida group in the Gammaproteobacteria has been intensively studied
for bioremediation and plant growth promotion. Members of this group have recently …

Pseudomonas species are the most versatile of all known bacteria for metabolic flexibility
and the extent of host range from plants to humans that remains unmatched. The evolution …

Pseudomonas putida is characterized by a versatile metabolism and stress tolerance traits
that allow the bacterium to cope with different environmental conditions. In this work, the …

Background Medium-chain-length α, ω-diols (mcl-diols) are important building blocks in
polymer production. Recently, microbial mcl-diol production from alkanes was achieved in E …

Lignocellulosic biomass represents a renewable domestic feedstock that can support large-
scale biochemical production processes for fuels and specialty chemicals. However, cost …