Engineering of 2‐ketoacid Decarboxylases for Production of Isobutanol and Other Fusel Alcohols in Saccharomyces cerevisiae
Joshua J. Dietrich, Maelia Dziedzic, Jia Sun, Sri Harsha Adusumilli, Carla Gonçalves, Chris Todd Hittinger, Brian F. Pfleger

TL;DR
Scientists engineered enzymes in yeast to improve the production of isobutanol, a potential biofuel, by enhancing the specificity of a key enzyme.
Contribution
The study identifies and engineers KDC enzymes with improved specificity for isobutanol production in yeast.
Findings
A diverse range of KDC substrate specificities was discovered, including some with high KIV activity and low pyruvate activity.
Engineered KDC mutants showed increased KIV activity while maintaining low pyruvate activity.
Bioprospected and engineered KDCs achieved similar KIV consumption as Lactococcus lactis KdcA, though with some ethanol production.
Abstract
Isobutanol is a fusel alcohol that can be produced microbially for use as a biofuel or upgraded into sustainable aviation fuel (SAF). A key enzyme in the isobutanol biosynthetic pathway is 2‐ketoacid decarboxylase (KDC), which irreversibly decarboxylates 2‐ketoisovalerate (KIV) to yield isobutyraldehyde. However, many previously characterized KDC enzymes also act promiscuously on other 2‐ketoacids, (e.g., pyruvate) to produce a related aldehyde (e.g., acetaldehyde). This unwanted side reaction is especially important when isobutanol is produced in Saccharomyces cerevisiae (S. cerevisiae) because it leads to pyruvate being diverted to ethanol. In order to make S. cerevisiae a strict isobutanologen, a KDC enzyme that is specific for KIV must be deployed. In this study, we used a combination of cell‐based and in vitro enzyme assays to investigate KDC substrate specificity, characterizing a…
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Taxonomy
TopicsMicrobial Metabolic Engineering and Bioproduction · Biochemical and biochemical processes · Biochemical Acid Research Studies
