Enantioselective microbial synthesis of the indigenous natural product (?)-α-bisabolol by a sesquiterpene synthase from chamomile (Matricaria recutita)

摘要

p(?)-α-Bisabolol, a sesquiterpene alcohol, is a major ingredient in the essential oil of chamomile (iMatricaria recutita/i) and is used in many health products. The current supply of (?)-α-bisabolol is mainly dependent on the Brazilian candeia tree (iEremanthus erythropappus/i) by distillation or by chemical synthesis. However, the distillation method using the candeia tree is not sustainable, and chemical synthesis suffers from impurities arising from undesirable α-bisabolol isomers. Therefore enzymatic synthesis of (?)-α-bisabolol is a viable alternative. In the present study, a cDNA encoding (?)-α-bisabolol synthase (iMrBBS/i) was identified from chamomile and used for enantioselective (?)-α-bisabolol synthesis in yeast. Chamomile iMrBBS/i was identified by Illumina and 454 sequencing, followed by activity screening in yeast. When iMrBBS/i was expressed in yeast, 8 mg of α-bisabolol was synthesized ide novo/i per litre of culture. The structure of purified α-bisabolol was elucidated as (iS/i,iS/i)-α-bisabolol [or (?)-α-bisabolol]. Although MrBBS possesses a putative chloroplast-targeting peptide, it was localized in the cytosol, and a deletion of its N-terminal 23 amino acids significantly reduced its stability and activity. Recombinant MrBBS showed kinetic properties comparable with those of other sesquiterpene synthases. These data provide compelling evidence that chamomile MrBBS synthesizes enantiopure (?)-α-bisabolol as a single sesquiterpene product, opening a biotechnological opportunity to produce (?)-α-bisabolol./p