TY - JOUR T1 - Synthetic Metabolic Pathway for the Production of 1-Alkenes from Lignin-derived Molecules JF - bioRxiv DO - 10.1101/417857 SP - 417857 AU - Jin Luo AU - Tapio Lehtinen AU - Elena Efimova AU - Ville Santala AU - Suvi Santala Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/09/14/417857.abstract N2 - Integration of synthetic metabolic pathways to catabolically diverse chassis provides new opportunities for sustainable production. One attractive scenario is the use of abundant waste material to produce readily collectable product, minimizing production costs. Towards that end, we established the production of semivolatile medium-chain α-olefins from lignin-derived monomers: we constructed 1-undecene synthesis pathway in Acinetobacter baylyi ADP1 using ferulate as the sole carbon source. In order to overcome the toxicity of ferulate, we first applied adaptive laboratory evolution, resulting in a highly ferulate-tolerant strain. Next, we demonstrated the 1-undecene production from glucose by heterologously expressing a fatty acid decarboxylase UndA and a thioesterase ‘TesA in the wild type strain. Finally, we constructed the alkene synthesis pathway in the ferulate-tolerant strain. We were able to produce 1-undecene from ferulate and collect the product from the culture headspace without downstream processing. This study demonstrates the potential of bacterial lignin upgradation into value-added products. ER -