Pseudomonas putida is a microbial chassis of huge potential for industrial and
environmental biotechnology, owing to its remarkable metabolic versatility and ability to …

Efficient genome engineering is critical to understand and use microbial functions. Despite
recent development of tools such as CRISPR-Cas gene editing, efficient integration of …

Valorization of all major lignocellulose components, including lignin, cellulose, and
hemicellulose is critical for an economically viable bioeconomy. In most biochemical …

While Pseudomonas putida KT2440 has great potential for biomass-converting processes,
its inability to utilize the biomass abundant sugars xylose and galactose has limited its …

Highlights•Native PHA producers and biosynthesis mechanisms.•Food waste feedstocks
and metabolic engineering for improved monomer utilisation.•Genetic and process …

Pseudomonas putida KT2440 is an attractive bacterial host for biotechnological production
of valuable chemicals from renewable lignocellulosic feedstocks as it can valorize lignin …

One major limitation of function-driven metagenomics is the ability of the host to express the
metagenomic DNA correctly. Differences in the transcriptional, translational, and post …

The bacterium Pseudomonas putida KT2440 is gaining considerable interest as a microbial
platform for biotechnological valorization of polymeric organic materials, such as …

Abstract Background Marine macroalgae Gelidium amansii is a promising feedstock for
production of sustainable biochemicals to replace petroleum and edible biomass. Different …

Marine red macroalgae has attracted researchers' consideration as a non-lignocellulosic
feedstock for microbial growth to produce biofuels and biochemical products. Gelidium …