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W2809847265 startingPage "2405" @default.
W2809847265 abstract "Glucose oxidase (GOx) is of high industrial interest for glucose sensing because of its high β-d-glucose specificity. The efficient and specific electrochemical communication between the redox center and electrodes is crucial to ensure accurate glucose determination. The efficiency of the electron transfer rates (ETR) with GOx, together with quinone diamine based mediators, is low and differs even among mediator derivatives. To design optimized enzyme–mediator couples and to describe a mediator binding model, a joint experimental and computational study was performed based on an oxygen-independent GOx variant V7 and two quinone diimine based electron mediators (QDM-1 and QDM-2), which differ in polarity and size, and ferrocenemethanol (FM). A site saturation library at position 414 was screened with all three mediators and yielded four beneficial substitutions Tyr, Met, Leu, and Val. The variants showed increased mediator activity for the more polar QDM-2 with a simultaneously decreased activity for the less polar and smaller QDM-1 and for FM. The variant GOx V7-I414Y exhibited the biggest change for the quinone diimine derivatives compared with V7 (QDM-1: 55.9 U/mg V7, 33.2 U/mg V7-I414Y; QDM-2: 2.7 U/mg V7, 12.9 U/mg V7-I414Y). Theoretical ETR calculated based on the Marcus theory were in good agreement with the experimental results. Molecular docking studies revealed a preferable binding of the two QD mediators directly in the active site, 3.5 Å away from the N5 atom of the flavin adenine dinucleotide (FAD) and in direct vicinity to position 414. In summary, position 414 in the active site was identified to modulate the electron shuttling from the FAD of the GOx to small water-soluble mediators dependent on the polarity and size of residue 414 and on the polarity and size of the mediator. The presented mediator binding model offers a promising possibility for the design of optimized enzyme–mediator couples." @default.
W2809847265 created "2018-07-10" @default.
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W2809847265 date "2018-07-25" @default.
W2809847265 modified "2023-10-17" @default.
W2809847265 title "How to engineer glucose oxidase for mediated electron transfer" @default.
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W2809847265 doi "https://doi.org/10.1002/bit.26785" @default.
W2809847265 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29959868" @default.
W2809847265 hasPublicationYear "2018" @default.
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