A genetically-modified bacterium, for example of the class Actinobacteria, and the use of such a bacterium in the bioconversion of a steroidal substrate into a steroidal product of interest. A method of converting a steroidal substrate into a steroidal product of interest, wherein the method comprises: inoculating culture medium with genetically-modified bacteria according to any of Claims 1 to 28 and growing the bacterial culture until a target OD.sub.600 is reached; adding a steroidal substrate to the bacterial culture when the target OD.sub.600 is reached; culturing the bacterial culture so that the steroidal substrate is converted to the steroidal product of interest; and extracting and/or purifying the steroidal product of interest from the bacterial culture.

A genetically-modified bacterium, for example of the class Actinobacteria, and the use of such a bacterium in the bioconversion of a steroidal substrate into a steroidal product of interest. A method of converting a steroidal substrate into a steroidal product of interest, wherein the method comprises: inoculating culture medium with genetically-modified bacteria according to any of Claims 1 to 28 and growing the bacterial culture until a target OD.sub.600 is reached; adding a steroidal substrate to the bacterial culture when the target OD.sub.600 is reached; culturing the bacterial culture so that the steroidal substrate is converted to the steroidal product of interest; and extracting and/or purifying the steroidal product of interest from the bacterial culture.

The present disclosure provides engineered transaminase polypeptides for the production of amines, polynucleotides encoding the engineered transaminases, host cells capable of expressing the engineered transaminases, and methods of using the engineered transaminases to prepare compounds useful in the production of active pharmaceutical agents.

The present disclosure provides engineered transaminase polypeptides for the production of amines, polynucleotides encoding the engineered transaminases, host cells capable of expressing the engineered transaminases, and methods of using the engineered transaminases to prepare compounds useful in the production of active pharmaceutical agents.

Methods for recombinant and enzymatic production of mogroside compounds and compositions containing mogroside compounds are provided by this invention.

Methods for recombinant and enzymatic production of mogroside compounds and compositions containing mogroside compounds are provided by this invention.

The present invention is related to an improved method for production of 7-dehydrocholesterol (7-DHC), an important intermediate towards biotechnological production of vitamin D3 or derivatives/metabolites thereof. The invention features modified yeast strains expressing enzymes having improved C-8 sterol isomerase activity leading to increased ratios of 7-DHC in the sterol mix.

The present invention is related to an improved method for production of 7-dehydrocholesterol (7-DHC), an important intermediate towards biotechnological production of vitamin D3 or derivatives/metabolites thereof. The invention features modified yeast strains expressing enzymes having improved C-8 sterol isomerase activity leading to increased ratios of 7-DHC in the sterol mix.

The present disclosure provides engineered transaminase polypeptides for the production of amines, polynucleotides encoding the engineered transaminases, host cells capable of expressing the engineered transaminases, and methods of using the engineered transaminases to prepare compounds useful in the production of active pharmaceutical agents.

The present disclosure provides engineered transaminase polypeptides for the production of amines, polynucleotides encoding the engineered transaminases, host cells capable of expressing the engineered transaminases, and methods of using the engineered transaminases to prepare compounds useful in the production of active pharmaceutical agents.