초록
<P><B>Abstract</B></P><P>Nothofagin is a prominent bioactive ingredient of rooibos tea. We recently reported its synthesis through a glucosyltransferase cascade reaction involving 3′‐<I>C</I>‐β‐<SMALL>D</SMALL>‐glucosylation of the dihydrochalcone phloretin from uridine 5′‐diphosphate (UDP)‐glucose and <I>in situ</I> formation of UDP‐glucose from sucrose and catalytic amounts of UDP. Here we show that the limitation in process efficiency caused by the vanishingly low water solubility of phloretin – a major problem for biocatalytic modifications of hydrophobic natural products in general – was overcome effectively using phloretin inclusion complexation with β‐cyclodextrin. Unlike operating in a two‐phase system containing uncomplexed insoluble phloretin or using organic cosolvents, the addition of β‐cyclodextrin inclusion complexes was well tolerated regarding enzyme activity and stability. Besides enhancing the effective phloretin concentration in water (∼0.2 mM) to about 50 m<SMALL>M</SMALL>, inclusion complexation offered the additional advantage of overcoming the complex inhibition/inactivation effect of the free/microaggregated dihydrochalcone acceptor. Thus oversaturated phloretin solution was transformed in a single batch reaction in excellent conversion (99% in solution; 88% overall) and isolated yield (78%; 17.0 g <SMALL>L</SMALL><SUP>−1</SUP>). The UDP‐glucose was regenerated up to ∼90 times and the nothofagin space‐time yield of 2.4 mM h<SUP>−1</SUP> presented an eight‐fold improvement compared to a reference reaction using 20% DMSO (dimethyl sulfoxide) and requiring controlled phloretin feed. We thus demonstrate the high potential of inclusion complexation by cyclodextrins for boosting the glycosylation of hydrophobic flavonoid‐like natural products.</P>