Exploring Optimal Taxol® CYP725A4 Activity in Saccharomyces cerevisiae

Abstract: Background CYP725A4 catalyses the conversion of the first Taxol® precursor, taxadiene, to taxadiene-5α-ol (T5α-ol) and a range of other mono- and di-hydroxylated side products (oxygenated taxanes). Initially known to undergo a radical rebound mechanism, the recent studies have revealed that an intermediate epoxide mediates the formation of the main characterised products of the enzyme, being T5α-ol, 5(12)-oxa-3(11)-cyclotaxane (OCT) and its isomer, 5(11)-oxa-3(11)-cyclotaxane (iso-OCT) as well as taxadienedio… Show more

“…Microbial cell factories are becoming an important route for the sustainable production of different natural products and chemicals of different commercial (therapeutics, food additives, cosmetics, or biofuels) or academic relevance (Malcı et al, 2020; Walls, Otoupal, et al, 2022; Wong et al, 2017, 2018). To date, a majority of studies involving an integrated process of product synthesis and recovery have not been performed at a lab scale, which has contributed to the slow translation of microbial cell factories to fulfill industry demands (Malcı et al, 2023; Nowrouzi et al, 2023; Walls, Martinez & del Rio Chanona, & Rios‐Solis, 2022; Walls, Martinez, & Rios‐Solis, 2022). Different bioprocess strategies have been used to enhance the recovery of desired products, for instance, using two or more phase partitions, foam phase recovery or in situ product recovery (ISPR) (Zainuddin et al, 2021).…”

The synergetic effect from the combination of different adsorption resins in batch and semi‐continuous cultivations of S. Cerevisiae cell factories to produce acetylated Taxanes precursors of the anticancer drug Taxol

“…Microbial cell factories are becoming an important route for the sustainable production of different natural products and chemicals of different commercial (therapeutics, food additives, cosmetics, or biofuels) or academic relevance (Malcı et al, 2020; Walls, Otoupal, et al, 2022; Wong et al, 2017, 2018). To date, a majority of studies involving an integrated process of product synthesis and recovery have not been performed at a lab scale, which has contributed to the slow translation of microbial cell factories to fulfill industry demands (Malcı et al, 2023; Nowrouzi et al, 2023; Walls, Martinez & del Rio Chanona, & Rios‐Solis, 2022; Walls, Martinez, & Rios‐Solis, 2022). Different bioprocess strategies have been used to enhance the recovery of desired products, for instance, using two or more phase partitions, foam phase recovery or in situ product recovery (ISPR) (Zainuddin et al, 2021).…”

The synergetic effect from the combination of different adsorption resins in batch and semi‐continuous cultivations of S. Cerevisiae cell factories to produce acetylated Taxanes precursors of the anticancer drug Taxol