Designing synthetic microbial communities with the capacity to upcycle fermentation byproducts to increase production yields.

Microbial cell factories, which convert feedstocks into a product of value, have the potential to help transition toward a bio-based economy with more sustainable ways to produce food, fuels, chemicals, and materials. One common challenge found in most bioconversions is the co-production, together with the product of interest, of undesirable byproducts or overflow metabolites. Here, we designed a strategy based on synthetic microbial communities to address this issue and increase overall production yields. To achieve our goal, we created a Yarrowia lipolytica co-culture comprising a wild-type (WT) strain that consumes glucose to make biomass and citric acid (CA), and an 'upcycler' strain, which consumes the CA produced by the WT strain. The co-culture produced up to two times more β-carotene compared with the WT monoculture using either minimal medium or hydrolysate. The proposed strategy has the potential to be applied to other bioprocesses and organisms.