It is pertinent now more than ever that we find sustainable alternatives to produce chemicals. For decades, scientists and engineers have turned to biological systems to help meet societal needs in energy, medicine, materials, and moreespecially when chemical synthesis is untenable. Often, biologically-produced small molecules are insufficient for production at...
Metabolic engineering of microorganisms to produce useful compounds from renewable substrates is a promising means for sustainable, on-demand production of chemicals. However, efforts to design and engineer microbial cell factories are constrained by costly and slow “build” times in which each genetic variation requires re-engineering a new strain for each...
To increase the butanol titers and selectivity in <em>Clostridium acetobutylicum</em> we replaced the promoter of the alcohol/aldehyde dehydrogenase (<em>aad</em>) gene with the phosphotranbutyrylase (<em>ptb</em>) promoter and combined this with CoAT downregulation to minimize acetone production. This led to early production of high alcohol (butanol plus ethanol) titers and overall solvent...