Screening the application potential of a yeast-based biosurfactant portfolio. In AppliSurf a combination of genetic modification, fermentation development/optimization and green chemistry will be applied to enable commercial production at acceptable cost of an innovative and broad portfolio of biosurfactant structures.
The MARISURF project will use marine bacterial strains to produce new SAs. To ensure the newly discovered SAs satisfy their requirements and demands, MARISURF will place the industrial end-users in a leading role in guiding the search for new SAs.
ReSolve sets out to replace two hazardous solvents – toluene and NMP (N-methyl-2-pyrrolidone) – with safer alternatives derived from non-food carbohydrates.
This project aims to create new-to-nature and tailor-made biosurfactants through metabolic engineering of the unconventional yeast Starmerella bombicola.
Surfactants or surface active agents are applied in a wide range of industries and products e.g. cleaning, personal care, cosmetics, agriculture, oil recovery, paper industry. Surfactants are produced in large amounts of which the majority is used in households for laundry and cleaning. This results in large volumes of waste water ending up in the environment.
The ChitoBioEngineering project aims at establishing biotechnological ways of producing fully defined, partially acetylated chitosan oligomers. This will be achieved through genetic, metabolic, and enzyme engineering.