Abstract: 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).
Abstract: 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).
Abstract: Disclosed are steviol glycosides referred to as rebaudioside V and rebaudioside W. Also disclosed are methods for producing rebaudioside M (Reb M), rebaudioside G (Reb G), rebaudioside KA (Reb KA), rebaudioside V (Reb V) and rebaudioside (Reb W).
Abstract: 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).
Abstract: Disclosed is a steviol glycoside referred to as rebaudioside D2. Rebaudioside D2 has five ?-D-glucosyl units connected to the aglycone steviol. Also disclosed are methods for producing rebaudioside D2, a UDP-glycosyltransferase fusion enzyme, and methods for producing rebaudioside D and rebaudioside E.
Type:
Application
Filed:
September 29, 2017
Publication date:
February 22, 2018
Applicant:
Conagen Inc
Inventors:
Guohong Mao, Venkata Sai Prakash Chaturvedula, Xiaodan Yu
Abstract: Disclosed is a steviol glycoside referred to as rebaudioside D2. Rebaudioside D2 has five ?-D-glucosyl units connected to the aglycone steviol. Also disclosed are methods for producing rebaudioside D2, a UDP-glycosyltransferase fusion enzyme, and methods for producing rebaudioside D and rebaudioside E.
Type:
Application
Filed:
September 12, 2017
Publication date:
February 8, 2018
Applicant:
Conagen Inc.
Inventors:
Guohong Mao, Venkata Sai Prakash Chaturvedula, Xiaodan Yu
Abstract: Disclosed is a steviol glycoside referred to as rebaudioside D2. Rebaudioside D2 has five ?-D-glucosyl units connected to the aglycone steviol. Also disclosed are methods for producing rebaudioside D2, a UDP-glycosyltransferase fusion enzyme, and methods for producing rebaudioside D and rebaudioside E.
Type:
Application
Filed:
September 12, 2017
Publication date:
January 11, 2018
Applicant:
Conagen Inc.
Inventors:
Guohong Mao, Venkata Sai Prakash Chaturvedula, Xiaodan Yu
Abstract: 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).
Abstract: 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).
Abstract: Recombinant polypeptides having UDP-glycosyltransferase activities, including a 1,2-19-O-glucos glycosylation activity and a 1,2-13-O-glucos glycosylation activity for synthesizing of steviol glucosides, are provided. A method of producing a steviol glycoside composition using such recombinant polypeptide is also provided. Also disclosed are steviol glycosides referred to as rebaudioside Z1 and rebaudioside Z2.
Abstract: 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).
Abstract: Disclosed is a steviol glycoside referred to as rebaudioside D3. Rebaudioside D3 has five ?-D-glucosyl units connected to the aglycone steviol. Also disclosed are methods for producing rebaudioside D3, a UDP-glycosyltransferase fusion enzyme, and methods for producing rebaudioside D and rebaudioside E.
Type:
Grant
Filed:
February 5, 2016
Date of Patent:
September 19, 2017
Assignee:
Conagen Inc.
Inventors:
Guohong Mao, Venkata Sai Prakash Chaturvedula, Oliver Yu
Abstract: A biosynthetic method of making carboxyl CoA from long-chain carboxylic acid including expressing an ACS in a cellular system, feeding a long chain carboxylic acid to the cellular system, growing the cellular system in a medium, and producing carboxyl CoA.
Abstract: 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).
Abstract: 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).
Abstract: 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).
Abstract: 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).
Abstract: 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).
Abstract: Recombinant polypeptides having UDP-glycosyltransferase activities, including a 1,2-19-O-glucose glycosylation activity and a 1,2-13-O-glucose glycosylation activity for synthesizing of steviol glucosides, are provided. A method of producing a steviol glycoside composition using such recombinant polypeptide is also provided. Also disclosed are steviol glycosides referred to as rebaudioside Z1 and rebaudioside Z2.
Abstract: Disclosed are methods for ergothioneine biosynthesis. More particularly, the present disclosure relates to methods for microbial ergothioneine biosynthesis. The present disclosure relates generally to engineered host cells and methods for producing ergothioneine. More particularly, the present disclosure relates to an engineered host cell and methods for microbial ergothioneine biosynthesis using the engineered host cell.