{Reference Type}: Journal Article
{Title}: Construction of a Novel Vanillin-Induced Autoregulating Bidirectional Transport System in a Vanillin-Producing E. coli Cell Factory.
{Author}: Li Z;Sun L;Wang Y;Liu B;Xin F;
{Journal}: J Agric Food Chem
{Volume}: 72
{Issue}: 26
{Year}: 2024 Jul 3
{Factor}: 5.895
{DOI}: 10.1021/acs.jafc.4c03128
{Abstract}: Vanillin is one of the world's most extensively used flavoring agents with high application value. However, the yield of vanillin biosynthesis remains limited due to the low efficiency of substrate uptake and the inhibitory effect on cell growth caused by vanillin. Here, we screened high-efficiency ferulic acid importer TodX and vanillin exporters PP_0178 and PP_0179 by overexpressing genes encoding candidate transporters in a vanillin-producing engineered Escherichia coli strain VA and further constructed an autoregulatory bidirectional transport system by coexpressing TodX and PP_0178/PP_0179 with a vanillin self-inducible promoter ADH7. Compared with strain VA, strain VA-TodX-PP_0179 can efficiently transport ferulic acid across the cell membrane and convert it to vanillin, which significantly increases the substrate utilization rate efficiency (14.86%) and vanillin titer (51.07%). This study demonstrated that the autoregulatory bidirectional transport system significantly enhances the substrate uptake efficiency while alleviating the vanillin toxicity issue, providing a promising viable route for vanillin biosynthesis.