Light-driven fine chemical production in yeast biohybrids

Junling Guo; Miguel Suástegui; Kelsey K. Sakimoto; Vanessa M. Moody; Gao Xiao; Daniel G. Nocera; Neel Joshi

doi:10.1126/science.aat9777

Light-driven fine chemical production in yeast biohybrids

Junling Guo(Harvard University), Miguel Suástegui(Harvard University), Kelsey K. Sakimoto(Harvard University), Vanessa M. Moody(University of Pennsylvania), Gao Xiao(Harvard University), Daniel G. Nocera(Harvard University), Neel Joshi(Harvard University)

Science

November 15, 2018

10.1126/science.aat9777

Cited by 436Open Access

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Abstract

Light-powered cell factories Bacteria and fungi are used industrially to produce commodity fine chemicals at vast scale. Sugars are an economical feedstock, but many of the desired products require enzymatic reduction, meaning that some of the sugar must be diverted to regenerate the cellular reductant NADPH (reduced form of nicotinamide adenine dinucleotide phosphate). Guo et al. show that electrons from light-sensitive nanoparticles can drive reduction of cellular NADPH in yeast, which can then be used for reductive biosynthetic reactions. This system can reduce diversion of carbon to NADPH regeneration and should be compatible with many existing engineered strains of yeast. Science , this issue p. 813

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