The invention provides materials and method for controlling pests, in particular, nematodes. The invention also provides compositions comprising biosurfactants as pesticides.

The invention provides materials and method for controlling pests, in particular, nematodes. The invention also provides compositions comprising biosurfactants as pesticides.

Disclosed herein are compositions comprising a sophorolipid surfactant and a bio-synergist and the methods of using the same.

The current inventive technology includes novel systems, methods and compositions for the in vivo production, modification and isolation of terpene compounds from Cannabis or other plants. In particular, the invention provides systems and methods for high level in vivo biosynthesis of water-soluble terpene compounds. In one preferred embodiment, the present invention generally relates to the conversion of Cannabis sativa or hemp derived terpenes into water-soluble terpene compounds, such as terpene glycosides, glycosylated-xylosylated terpenes, and an acetylated glycoside terpenes. In one preferred aspect, the invention may include system for producing water-soluble terpene compounds in yeast and tobacco cell suspension cultures, as well as an in planta system using transgenic Cannabis or hemp plants.

The current inventive technology includes novel systems, methods and compositions for the in vivo production, modification and isolation of terpene compounds from Cannabis or other plants. In particular, the invention provides systems and methods for high level in vivo biosynthesis of water-soluble terpene compounds. In one preferred embodiment, the present invention generally relates to the conversion of Cannabis sativa or hemp derived terpenes into water-soluble terpene compounds, such as terpene glycosides, glycosylated-xylosylated terpenes, and an acetylated glycoside terpenes. In one preferred aspect, the invention may include system for producing water-soluble terpene compounds in yeast and tobacco cell suspension cultures, as well as an in planta system using transgenic Cannabis or hemp plants.

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 invention provides a process of producing Rubusoside from steviol glycosides of Stevia rebaudiana plant. The process is useful for producing high purity Rubusoside with purity greater than 95% (dry basis). High purity rubusoside is useful as in combination with other caloric and non-caloric sweeteners as well as non-caloric sweetener in various food and beverage compositions. The high purity rubusoside is useful as non-caloric sweetener in edible and chewable compositions such as any beverages, confectionaries, bakeries, cookies, chewing gums, and alike.

The invention provides a process of producing Rubusoside from steviol glycosides of Stevia rebaudiana plant. The process is useful for producing high purity Rubusoside with purity greater than 95% (dry basis). High purity rubusoside is useful as in combination with other caloric and non-caloric sweeteners as well as non-caloric sweetener in various food and beverage compositions. The high purity rubusoside is useful as non-caloric sweetener in edible and chewable compositions such as any beverages, confectionaries, bakeries, cookies, chewing gums, and alike.

The present disclosure is directed to the properties of certain glycosyltransferase variants having N-terminal truncation deletions or internal deletions. Any of the mutants disclosed in here exhibit α-2,6-sialyltransferase enzymatic activity in the presence of CMP-activated sialic acid as co-substrate, and in the presence of a suitable acceptor site. A fundamental finding documented in the present disclosure is that such enzyme are not only capable of catalyzing transfer of a sialidyl moiety but they are also capable of catalyzing hydrolytic cleavage of terminally bound sialic acid from a glycan.