Genetically Expanded Reactive-Oxygen-Tolerant Alcohol Dehydrogenase II
journal contributionposted on 17.02.2020, 20:41 by Ashok Kumar Bhagat, Hadar Buium, Guy Shmul, Lital Alfonta
Herein, we report the site-specific incorporation of l-3,4-dihydroxyphenylalanine as a promising method to engineer an oxygen-tolerant alcohol dehydrogenase II. The engineered mutant alcohol dehydrogenase II binds Zn2+ with high binding affinity and is functional under aerobic and oxidative conditions for a longer time than the wild-type, Fe2+-binding alcohol dehydrogenase II. Overall, the mutant enzyme demonstrated electrochemical activity toward both acetaldehyde reduction and ethanol oxidation reactions. This enzyme could have a potential use in efficient biofuel production under aerobic conditions in photosynthetic organisms despite the inherent oxygen evolution reaction by photosystem II.
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oxygen-tolerant alcohol dehydrogenase IIoxygen evolution reactionReactive-Oxygen-Tolerant Alcohol Dehydrogenase II Hereinalcohol dehydrogenase IIsite-specific incorporationenzymebiofuel productionphotosynthetic organismsethanol oxidation reactionsphotosystem IIacetaldehyde reductionbinding affinityelectrochemical activitybinding alcohol dehydrogenase IIoxidative conditions