Glycosyltransferase cascades for natural product glycosylation: Use of plant instead of bacterial sucrose synthases improves the UDP-glucose recycling from sucrose and UDP.

Natural product glycosylations by Leloir glycosyltransferases (GTs) require expensive nucleotide-activated sugars as substrates. Sucrose synthase (SuSy) converts sucrose and uridine 5'-diphosphate (UDP) into UDP-glucose. Coupling of SuSy and GT reactions in one-pot cascade transformations creates a UDP cycle, which regenerates the UDP-glucose continuously and so makes it an expedient donor for glucoside production. Here we compare SuSys with divergent kinetic characteristics for UDP-glucose recycling in the synthesis of the natural C-glucoside nothofagin. Development of a fast reversed-phase ion-pairing HPLC method, quantifying all relevant reactants from the coupled conversion in a single run, was key to dissect the main factors of recycling efficiency. Limitations due to high KM , both for UDP and sucrose, were revealed for the bacterial SuSy from Acidithiobacillus caldus. The L637M-T640V double mutant of this SuSy with a 60-fold reduced KM for UDP substantially improved UDP-glucose recycling. The SuSy from Glycine max (soybean) was nevertheless the most active enzyme at the UDP (≤ 0.5 mM) and sucrose (≤ 1 M) concentrations used. It was also unexpectedly stable at up to 50°C where spontaneous decomposition of UDP-glucose started to become problematic. The herein gained in-depth understanding of requirements for UDP-glucose regeneration supports development of efficient GT-SuSy cascades.