1 research outputs found
Enzymatic Synthesis of Resveratrol α‑Glycosides from β‑Cyclodextrin-Resveratrol Complex in Water
Although
resveratrol (3,5,4′-trihydroxy-stilbene) is one
of the most studied natural product because of its biological properties
such as antioxidant or anticancer, its low water solubility and stability
(influenced by pH, light and increased temperature), as well as its
propensity to oligomerize, limit its bioavailability and applications
in nutraceutic, cosmetics or pharmaceutical industries. Besides, resveratrol
production at the multigram scale through vine cell culture is limited
by the tedious extraction of pure resveratrol from the bioconversion
medium due to its complexation by cyclodextrins, the latter being
used as elicitors in the bioproduction process. In this work, we have
been able to overcome all these drawbacks by performing a single organic
solvent-free enzymatic α-glycosylation directly from the β-cyclodextrin-resveratrol
complex in water using β-cyclodextrin as glycoside-donor. The
combined effects of five parameters (CGTase amount, cyclodextrin amount,
cyclodextrin/resveratrol ratio, pH, and temperature) were studied
by design of experiments (DoE) to maximize the glycosylation yield.
The optimal setting point of parameters was obtained by response surface
methodology (RSM). After optimization, an efficient α-glycosylation
was performed being obtained 35% of molar yield. The major glycosidestwo
monoglycosides: 3-<i>O</i>-α-d-glucosyl-resveratrol
and 4′-<i>O</i>-α-d-glucosyl-resveratrol
and two diglycosides: 3-<i>O</i>-α-d-maltosyl-resveratrol
and 4′-<i>O</i>-α-d-maltosyl-resveratrolwere
characterized using a hyphenated liquid chromatography-solid phase
extraction-nuclear magnetic resonance system, then separated and purified
using centrifugal partition chromatography (CPC). Their antiradical
properties, as well as that of their crude mixture, were evaluated
through DPPH analysis. Results confirmed that the position 4′–OH
is the best position for the glycosylation to maintain the highest
antiradical properties