Design, Analysis, and Implementation of a Novel Biochemical Pathway for Ethylene Glycol Production in <i>Clostridium autoethanogenum</i>
Barbara Bourgade, Christopher M. Humphreys, James Millard, Nigel P. Minton, M. Ahsanul Islam
Abstract
. We not only developed a computational workflow to design and analyze hundreds of novel biochemical pathways for EG production but also demonstrated a successful pathway construction in the chosen host. The EG production was achieved using a two-plasmid system to bypass unfeasible expression levels and potential toxic enzymatic interactions. Although only a yield of 0.029 g EG/g fructose was achieved and therefore requiring further strain engineering efforts to optimize the designed strain, this work demonstrates an important proof-of-concept approach to computationally design and experimentally implement fully synthetic metabolic pathways in a metabolically highly specific, non-model host organism.