One-pot Multi-enzyme Cascade Synthesis of Bifunctional Compounds from Vegetable Oils

Gao, Xiaoxia; Lu, Ran; Zhou, Yueyue; Lin, Lu; Ji, Xiao-Jun

doi:10.35534/sbe.2024.10004

Synthetic Biology and Engineering

2024

DOI: 10.35534/sbe.2024.10004

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One-pot Multi-enzyme Cascade Synthesis of Bifunctional Compounds from Vegetable Oils

Xiaoxia Gao,

Ran Lu,

Yueyue Zhou

et al.

Abstract: Green and efficient biocatalytic technology has become a complementary or alternative means of organic synthesis. Chemicals with two functional groups, such as α,ω-dicarboxylic acids, ω-amino fatty acids and ω-hydroxy fatty acids, are widely used in the synthesis of polymers such as polyesters and polyamides. In recent years, the production of biodegradable materials using renewable and abundant vegetable oils as green raw materials has attracted increasing attention, receiving an additional impetus from synth… Show more

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Engineering Oxygen-Independent NADH Oxidase Integrated with Electrocatalytic FAD Cofactor Regeneration

Hou,

Yuan,

Dong

et al. 2024

JACS Au

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An electrochemically mediated enzyme process for nicotinamide adenine dinucleotide (NADH) oxidation and biosensing has been developed in which the oxygendependent activities of wild-type NADH oxidase are replaced by electrochemical regeneration of the flavin adenine dinucleotide (FAD) cofactor in the active site. Consequently, the present bioelectrocatalysis does not rely on a continuous oxygen supply through bubbling air or pure oxygen in biosynthetic applications, which reduces enzyme stability. The coupled electrochemical and enzymatic catalysis is achieved through a combination of enzyme immobilization on the electrode and electrochemical oxidation of FADH 2 in the active site mediated by the electron transfer mediator ferrocene carboxylic acid (FcCA). Furthermore, to minimize the effect of dissolved oxygen when the electrocatalytic process is exposed to air, we successfully designed mutations at the Leu40 and Cys42 sites of Leuconostoc mesenteroides (LmNOx) to block the oxygen passage into the active site and to eliminate the native FAD cofactor regeneration half-reaction. The engineered enzymes, whose activities are significantly reduced or inactive in solution, are electrocatalytically active toward conversion of NADH to NAD + , demonstrating successful FAD cofactor regeneration in the active site via electrochemistry. Finally, we developed two highly responsive electrochemical biosensors for NADH detection which has a superior substrate specific to standard detectors using metal electrodes, and comparable detection range and detection limit (1−3 μM).

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Engineering Oxygen-Independent NADH Oxidase Integrated with Electrocatalytic FAD Cofactor Regeneration

Hou,

Yuan,

Dong

et al. 2024

JACS Au

View full text Add to dashboard Cite

show abstract

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One-pot Multi-enzyme Cascade Synthesis of Bifunctional Compounds from Vegetable Oils

Cited by 1 publication

References 87 publications

Engineering Oxygen-Independent NADH Oxidase Integrated with Electrocatalytic FAD Cofactor Regeneration

Engineering Oxygen-Independent NADH Oxidase Integrated with Electrocatalytic FAD Cofactor Regeneration

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