The present invention relates to methods for preparing patchoulol, -santalene, and sclareol in transgenic moss cells that include heterologous nucleic acid molecules encoding a polypeptide or synthase capable of using FPP or GGPP as a substrate. Methods for producing the transgenic moss cell, as well as the transgenic moss cell itself are also disclosed.

The present invention relates to methods for preparing patchoulol, -santalene, and sclareol in transgenic moss cells that include heterologous nucleic acid molecules encoding a polypeptide or synthase capable of using FPP or GGPP as a substrate. Methods for producing the transgenic moss cell, as well as the transgenic moss cell itself are also disclosed.

The invention relates to a yeast strain and to a method for microbial production of pentacyclic triterpenes and/or triterpenoids in yeast. More particularly, the invention relates to a modified yeast strain for production of pentacyclic triterpenoids comprising at least one copy of a gene for encoding an oxidosqualene cyclase, at least one copy of a gene for encoding an NADPH-cytochrome P450 reductase and/or at least one copy of a gene for encoding a cytochrome P450 monooxygenase.

The invention relates to a yeast strain and to a method for microbial production of pentacyclic triterpenes and/or triterpenoids in yeast. More particularly, the invention relates to a modified yeast strain for production of pentacyclic triterpenoids comprising at least one copy of a gene for encoding an oxidosqualene cyclase, at least one copy of a gene for encoding an NADPH-cytochrome P450 reductase and/or at least one copy of a gene for encoding a cytochrome P450 monooxygenase.

The present invention relates to the production of hydroxylated protoilludenes and/or sesquiterpenoid protoilludene-type aryl esters using newly identified genes that can be employed. The present invention accordingly relates to a host microorganism that has been transformed with the newly identified nucleotide sequences and to methods employing the transformed microorganism.

The present invention relates to the production of hydroxylated protoilludenes and/or sesquiterpenoid protoilludene-type aryl esters using newly identified genes that can be employed. The present invention accordingly relates to a host microorganism that has been transformed with the newly identified nucleotide sequences and to methods employing the transformed microorganism.

The disclosure relates to a method for enhancing the biosynthesis and/or secretion of sapogenins in the culture medium of plant and microbial cell cultures. Further, the disclosure also relates to the identification of novel genes involved in the biosynthesis of sapogenin intermediates, as well as to novel sapogenin compounds.

The disclosure relates to a method for enhancing the biosynthesis and/or secretion of sapogenins in the culture medium of plant and microbial cell cultures. Further, the disclosure also relates to the identification of novel genes involved in the biosynthesis of sapogenin intermediates, as well as to novel sapogenin compounds.

The green synthesis of reduced graphene oxide nanoparticles using Nigella sativa seed extract comprises the steps of mixing a quantity of soot or other carbon source in an acid solution while stirring to obtain a solution; adding a first oxidant gradually into the solution to oxidize the soot and obtain a suspension; stirring the suspension while maintaining the temperature of the suspension at about 35 C.; adding Nigella sativa seed extract to the suspension while raising the temperature of the suspension to about 60 C.; adding hydrogen peroxide to the suspension; and isolating the reduced graphene oxide nanoparticles by centrifugation.

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.