Abstract
BackgroundThe glucosyltransferase UGT76G1 from Stevia rebaudiana is a chameleon enzyme in the targeted biosynthesis of the next-generation premium stevia sweeteners, rebaudioside D (Reb D) and rebaudioside M (Reb M). These steviol glucosides carry five and six glucose units, respectively, and have low sweetness thresholds, high maximum sweet intensities and exhibit a greatly reduced lingering bitter taste compared to stevioside and rebaudioside A, the most abundant steviol glucosides in the leaves of Stevia rebaudiana.ResultsIn the metabolic glycosylation grid leading to production of Reb D and Reb M, UGT76G1 was found to catalyze eight different reactions all involving 1,3-glucosylation of steviol C 13- and C 19-bound glucoses. Four of these reactions lead to Reb D and Reb M while the other four result in formation of side-products unwanted for production. In this work, side-product formation was reduced by targeted optimization of UGT76G1 towards 1,3 glucosylation of steviol glucosides that are already 1,2-diglucosylated. The optimization of UGT76G1 was based on homology modelling, which enabled identification of key target amino acids present in the substrate-binding pocket. These residues were then subjected to site-saturation mutagenesis and a mutant library containing a total of 1748 UGT76G1 variants was screened for increased accumulation of Reb D or M, as well as for decreased accumulation of side-products. This screen was performed in a Saccharomyces cerevisiae strain expressing all enzymes in the rebaudioside biosynthesis pathway except for UGT76G1.ConclusionsScreening of the mutant library identified mutations with positive impact on the accumulation of Reb D and Reb M. The effect of the introduced mutations on other reactions in the metabolic grid was characterized. This screen made it possible to identify variants, such as UGT76G1Thr146Gly and UGT76G1His155Leu, which diminished accumulation of unwanted side-products and gave increased specific accumulation of the desired Reb D or Reb M sweeteners. This improvement in a key enzyme of the Stevia sweetener biosynthesis pathway represents a significant step towards the commercial production of next-generation stevia sweeteners.Electronic supplementary materialThe online version of this article (doi:10.1186/s12934-016-0609-1) contains supplementary material, which is available to authorized users.
Highlights
The glucosyltransferase UGT76G1 from Stevia rebaudiana is a chameleon enzyme in the targeted biosynthesis of the next-generation premium stevia sweeteners, rebaudioside D (Reb D) and rebaudioside M (Reb M)
In vitro characterization of UGT76G1’s activity on steviol glucosides To identify all potential UGT76G1 substrates, the substrate specificity of wild-type UGT76G1 obtained as a DSY-6 lysate was tested in in vitro assays in the presence of steviol glucosides and uridine diphosphate glucose (UDPG)
Based on percentage changes in area under the curve (AUC) values, the results demonstrate that UGT76G1 was much more efficient at catalyzing 1,3-glucosylations of the glucose moiety linked directly to the C13-position of the steviol ring system in comparison to glucose moieties located at the C19-position
Summary
The glucosyltransferase UGT76G1 from Stevia rebaudiana is a chameleon enzyme in the targeted biosynthesis of the next-generation premium stevia sweeteners, rebaudioside D (Reb D) and rebaudioside M (Reb M) These steviol glucosides carry five and six glucose units, respectively, and have low sweetness thresholds, high maximum sweet intensities and exhibit a greatly reduced lingering bitter taste compared to stevioside and rebaudioside A, the most abundant steviol glucosides in the leaves of Stevia rebaudiana. The metabolic syndrome, which has become so prevalent in the industrialized countries throughout the world is associated with abdominal obesity, increased risks of developing cardiovascular diseases, and type 2 diabetes This syndrome may be tracked back to our human ancestors who to meet their energy demand were dependent on carbohydrate rich cereals and ripe fruits that were recognized by their sweet taste. It is the sweet threshold concentration compared to the bitter threshold concentration that determines how steviol glycosides are perceived when consumed as part of a diet
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