Methods for recombinant production of steviol glycoside and compositions containing steviol glycosides are provided by this invention.

Various embodiments of the present technology provide compositions and methods for a sweetener composition comprising stevia leaf extract, stevia glycosides, and/or Luo Han Guo fruit extract. The sweetener composition provides enhanced taste and/or flavor properties as compared to other non-caloric or low-caloric sweeteners. The sweetener composition has a reduced aftertaste relative to stevia leaf extract and/or purified steviol glycoside. The sweetener composition may be formulated into any edible sweetened substances.

Provided is a sweetener composition having an excellent sweetness quality. The sweetener composition of the present invention comprises rebaudioside A and mogroside V at a mass ratio of 95:5 to 99:1, and can improve the sweetness quality of stevia extract to make it close to the sweetness quality of sugar.

Tea polymerized polyphenol-containing beverages having reduced bitterness and astringency of tea polymerized polyphenols while maintaining tea-like preferable flavors, methods of production thereof, and the like are provided. The content of tea polymerized polyphenols in a beverage is adjusted to within a certain range, the total content of RebM and RebD in the beverage is adjusted to within a certain range, and the weight ratio of the total content of RebD and RebM to the content of the tea polymerized polyphenols is adjusted to within a certain range.

The present disclosure relates to a method for preparing a transfructosylated steviol glycoside using Arthrobacter-derived microorganisms, a culture thereof, a supernatant of the culture, an extract of the culture, and a lysate of the microorganisms.

The present disclosure relates to the use of beta-glucosidase to enhance the production efficiency of desired steviol glycosides, such as rebaudioside M (reb M).

Disclosed are steviol glycosides referred to as rebaudioside V and rebaudioside W. Also disclosed are methods for producing rebaudioside M (Reb M), rebausoside G (Reb G), rebaudioside KA (Reb KA), rebaudioside V (Reb V) and rebaudioside (Reb W).

Various embodiments of the present technology provide a sweetener composition comprising stevia glycosides that may be stably soluble in an aqueous solution, and methods for their manufacture. In various embodiments, the sweetener composition may comprise at least one stevia glycoside and a natural emulsifier. The natural emulsifier of the sweetener composition may enhance the aqueous solubility of the stevia glycoside to increase the concentration of dissolved stevia glycoside relative to its inherent aqueous solubility. The sweetener composition may be stably soluble upon formulation into any edible sweetened substances.

The present invention relates to a recombinant microorganism comprising one or more nucleotide sequence(s) encoding: a polypeptide having ent-copalyl pyrophosphate synthase activity; a polypeptide having ent-Kaurene synthase activity; a polypeptide having ent-Kaurene oxidase activity; and a polypeptide having kaurenoic acid 13-hydroxylase activity, whereby expression of the nucleotide sequence(s) confer(s) on the microorganism the ability to produce at least steviol.

The present invention provides a high rebaudioside M content non-genetically modified stevia plant comprising rebaudioside M at higher content as compared with the wild type stevia species. The present invention also provides a method of producing such a high rebaudioside M content non-genetically modified stevia plant, and a dry leaf obtainable from such a plant.