Metabolically versatile bacteria usually perceive aromatic compounds and hydrocarbons as
non‐preferred carbon sources, and their assimilation is inhibited if more preferable …

Crc protein is a global regulator involved in catabolite repression control of several
pathways for the assimilation of carbon sources in pseudomonads when other preferred …

In Pseudomonas putida, the expression of the pWW0 plasmid genes for the toluene/xylene
assimilation pathway (the TOL pathway) is subject to complex regulation in response to …

The Crc protein is involved in the repression of several catabolic pathways for the
assimilation of some sugars, nitrogenated compounds, and hydrocarbons in Pseudomonas …

The Crc protein is a global regulator that controls the hierarchical assimilation of carbon
sources in Pseudomonads by inhibiting expression of several catabolic pathways. Crc does …

The global regulatory protein Crc is involved in the repression of several catabolic pathways
for sugars, hydrocarbons, and nitrogenated and aromatic compounds in Pseudomonas …

Expression of pathways for dissimilation of toxic aromatic compounds such as (methyl)
phenols interfaces both stress‐response and carbon catabolite repression control cascades …

The CbrAB two‐component system has been described as a high‐ranked element in the
regulatory hierarchy of P seudomonas putida that controls a variety of metabolic and …

Background Catabolite repression control (CRC) is an important global control system in
Pseudomonas that fine tunes metabolism in order optimise growth and metabolism in a …

In the metabolically versatile bacterium Pseudomonas aeruginosa, the RNA-binding protein
Crc is involved in catabolite repression of a range of degradative genes, such as amiE …