The invention relates to recombinant microorganisms and methods for producing steviol glycosides, glycosides of steviol precursors, and steviol glycoside precursors.

The present invention provides genetically engineered host organisms capable of producing terpenoids. The present invention also relates terpenoids obtained from such genetically engineered organisms. Examples of the produced terpenoids include carotenoids, ionones, abienol, and other isoprenoid derived compounds. In addition, the invention relates to a methods of for the preparation of terpenoids using such a genetically engineered organism.

The present invention provides genetically engineered host organisms capable of producing terpenoids. The present invention also relates terpenoids obtained from such genetically engineered organisms. Examples of the produced terpenoids include carotenoids, ionones, abienol, and other isoprenoid derived compounds. In addition, the invention relates to a methods of for the preparation of terpenoids using such a genetically engineered organism.

The invention relates to recombinant microorganisms and methods for producing steviol glycosides and steviol glycoside precursors.

The invention relates to recombinant microorganisms and methods for producing steviol glycosides and steviol glycoside precursors.

The subject invention provides improved methods for producing mannosylerythritol lipids (MEL) using yeasts not previously known to produce MEL. In particular, Meyerozyma guilliermondii (Pichia guilliermondii) is cultivated in a specially-tailored nutrient medium and under cultivation conditions such that the yeast unnaturally produces MEL and/or MEL-like molecules in greater amounts and at increased rates than when using standard MEL production with, for example, Pseudozyma aphidis. Yeast culture compositions are also provided, comprising yeast cells, growth medium, and high concentrations of MEL.

The subject invention provides improved methods for producing mannosylerythritol lipids (MEL) using yeasts not previously known to produce MEL. In particular, Meyerozyma guilliermondii (Pichia guilliermondii) is cultivated in a specially-tailored nutrient medium and under cultivation conditions such that the yeast unnaturally produces MEL and/or MEL-like molecules in greater amounts and at increased rates than when using standard MEL production with, for example, Pseudozyma aphidis. Yeast culture compositions are also provided, comprising yeast cells, growth medium, and high concentrations of MEL.

A method for the production of a rhamnolipid. The method includes culturing in a fermentation medium an organism capable of producing a rhamnolipid to form a fermentation broth comprising at least one rhamnolipid and having a pH>5; extracting at least one lipophilic impurity from said fermentation broth; acidulating said fermentation broth to form an aqueous medium of pH<5 comprising the at least one rhamnolipid; extracting the at least one rhamnolipid from said acidulated fermentation broth; and separating the at least one rhamnolipid to obtain a purified rhamnolipid.

A method for the production of a rhamnolipid. The method includes culturing in a fermentation medium an organism capable of producing a rhamnolipid to form a fermentation broth comprising at least one rhamnolipid and having a pH>5; extracting at least one lipophilic impurity from said fermentation broth; acidulating said fermentation broth to form an aqueous medium of pH<5 comprising the at least one rhamnolipid; extracting the at least one rhamnolipid from said acidulated fermentation broth; and separating the at least one rhamnolipid to obtain a purified rhamnolipid.

The invention relates to a process for the preparation of a glycosylated organic compound by in vitro glycosylation of an organic compound having a nucleophilic group with a saccharide under catalysis of a Leloir glycosyltrans-ferase system comprising at least a first glycosyl transferase and a second glycosyl transferase. The invention further relates to a composition comprising a glycosylated organic compound that is obtainable by the process according to the invention.