Abstract: This disclosure relates to the field of the microbial production of specific types of glycolipids that are potentially useful as replacements for petroleum-based detergents and emulsifiers. This disclosure, more specifically, discloses the usage of yeasts having a dysfunctional acetyltransferase for producing high amounts of bolaamphiphilic glycolipids when using conventional and cheap substrates. Furthermore, the disclosure relates to yeasts having a dysfunctional acetyltransferase optionally combined with a dysfunctional lactonase and/or second glucosyltransferase. The latter microorganisms are capable of producing high amounts of bolaamphiphilic sophorolipids.

Abstract: Described is an enzyme derived from Candida bombicola that is capable of lactonizing or polymerizing carbohydrate-containing compounds, lipids, fatty acids, hydroxylated fatty acids, alcohols, dicarboxylic acids or mixtures thereof. Hence, host cells comprising the enzyme can be used, via the formation of intra- or inter-molecular ester-bounds, to produce, for example, lactonized sophorolipids or polymers of acidic sophorolipids. Also described is that host cells having lost their capability to produce a functional enzyme disclosed herein can be used to produce 100% acidic sophorolipids.

Abstract: The present disclosure relates to an enzyme derived from Candida bombicola that is capable of lactonizing or polymerizing carbohydrate-containing compounds, lipids, fatty acids, hydroxylated fatty acids, alcohols, dicarboxylic acids or mixtures thereof. Hence, host cells comprising the latter enzyme can be used, via the formation of intra- or inter-molecular ester-bounds, to produce, for example, lactonized sophorolipids or polymers of acidic sophorolipids. On the other hand, host cells having lost their capability to produce a functional enzyme disclosed herein can be used to produce 100% acidic sophorolipids.

Abstract: This disclosure relates to the field of the microbial production of specific types of glycolipids that are potentially useful as replacements for petroleum-based detergents and emulsifiers. This disclosure, more specifically, discloses the usage of yeasts having a dysfunctional acetyltransferase for producing high amounts of bolaamphiphilic glycolipids when using conventional and cheap substrates. Furthermore, the disclosure relates to yeasts having a dysfunctional acetyltransferase optionally combined with a dysfunctional lactonase and/or second glucosyltransferase. The latter microorganisms are capable of producing high amounts of bolaamphiphilic sophorolipids.

Abstract: Described is an enzyme derived from Candida bombicola that is capable of lactonizing or polymerizing carbohydrate-containing compounds, lipids, fatty acids, hydroxylated fatty acids, alcohols, dicarboxylic acids or mixtures thereof. Hence, host cells comprising the enzyme can be used, via the formation of intra- or inter-molecular ester-bounds, to produce, for example, lactonized sophorolipids or polymers of acidic sophorolipids. Also described is that host cells having lost their capability to produce a functional enzyme disclosed herein can be used to produce 100% acidic sophorolipids.

Abstract: The present invention relates to yeast species which are normally capable of producing sophorolipids but which are modified in such way that they are incapable producing the latter compounds. These sophorolipid-negative strains surprisingly display equal growth characteristics and biomass formation as their wild type counterparts and are hence useful for the production of compounds such as recombinant proteins, glycolipids, polyhydroxyalkanoates and carotenoides. In addition, the present invention discloses two glucosyltransferase genes with key-functions in sophorolipid production.

Abstract: The present disclosure relates to an enzyme derived from Candida bombicola that is capable of lactonizing or polymerizing carbohydrate-containing compounds, lipids, fatty acids, hydroxylated fatty acids, alcohols, dicarboxylic acids or mixtures thereof. Hence, host cells comprising the latter enzyme can be used, via the formation of intra- or inter-molecular ester-bounds, to produce, for example, lactonized sophorolipids or polymers of acidic sophorolipids. On the other hand, host cells having lost their capability to produce a functional enzyme disclosed herein can be used to produce 100% acidic sophorolipids.

Abstract: The MFE2 gene of a microorganism capable of producing glycolipids, such as, but not limited to C. bombicola is disrupted with the purpose of blocking the beta-oxidation pathway in the strain. Fermentation of a such strain having such disrupted genes on primary or secondary alcohols or diols, preferably on primary alcohols produces short chained glycolipids in high yield and purity.

Abstract: The present invention relates to yeast species which are normally capable of producing sophorolipids but which are modified in such way that they are incapable producing the latter compounds. These sophorolipid-negative strains surprisingly display equal growth characteristics and biomass formation as their wild type counterparts and are hence useful for the production of compounds such as recombinant proteins, glycolipids, polyhydroxyalkanoates and carotenoides. In addition, the present invention discloses two glucosyltransferase genes with key-functions in sophorolipid production.

Abstract: The invention relates to a transporter protein involved in the transport of sophorolipids. More specifically, it relates to a Candida bombicola sophorolipid transporter protein, and the use of this transporter to modulate the secretion and/or production of glycolipids, preferably sophorolipids in organisms, preferably in fungi.

Abstract: The MFE2 gene of a microorganism capable of producing glycolipids, such as, but not limited to C. bombicola is disrupted with the purpose of blocking the beta-oxidation pathway in the strain. Fermentation of a such strain having such disrupted genes on primary or secondary alcohols or diols, preferably on primary alcohols produces short chained glycolipids in high yield and purity.