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Production of ent-kaurene from lignocellulosic hydrolysate in Rhodosporidium toruloides.

Microbial cell factories (2020-02-07)
Gina M Geiselman, Xun Zhuang, James Kirby, Mary B Tran-Gyamfi, Jan-Philip Prahl, Eric R Sundstrom, Yuqian Gao, Nathalie Munoz Munoz, Carrie D Nicora, Derek M Clay, Gabriella Papa, Kristin E Burnum-Johnson, Jon K Magnuson, Deepti Tanjore, Jeffrey M Skerker, John M Gladden
RESUMEN

Rhodosporidium toruloides has emerged as a promising host for the production of bioproducts from lignocellulose, in part due to its ability to grow on lignocellulosic feedstocks, tolerate growth inhibitors, and co-utilize sugars and lignin-derived monomers. Ent-kaurene derivatives have a diverse range of potential applications from therapeutics to novel resin-based materials. The Design, Build, Test, and Learn (DBTL) approach was employed to engineer production of the non-native diterpene ent-kaurene in R. toruloides. Following expression of kaurene synthase (KS) in R. toruloides in the first DBTL cycle, a key limitation appeared to be the availability of the diterpene precursor, geranylgeranyl diphosphate (GGPP). Further DBTL cycles were carried out to select an optimal GGPP synthase and to balance its expression with KS, requiring two of the strongest promoters in R. toruloides, ANT (adenine nucleotide translocase) and TEF1 (translational elongation factor 1) to drive expression of the KS from Gibberella fujikuroi and a mutant version of an FPP synthase from Gallus gallus that produces GGPP. Scale-up of cultivation in a 2 L bioreactor using a corn stover hydrolysate resulted in an ent-kaurene titer of 1.4 g/L. This study builds upon previous work demonstrating the potential of R. toruloides as a robust and versatile host for the production of both mono- and sesquiterpenes, and is the first demonstration of the production of a non-native diterpene in this organism.

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Sigma-Aldrich
Dodecane, ReagentPlus®, ≥99%
Sigma-Aldrich
Carbenicillin disodium salt, 89.0-100.5% anhydrous basis
Sigma-Aldrich
Pentadecane, ≥98.0% (GC)