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  • Title: Creation of a novel DET type FAD glucose dehydrogenase harboring Escherichia coli derived cytochrome b562 as an electron transfer domain.
    Author: Yanase T, Okuda-Shimazaki J, Mori K, Kojima K, Tsugawa W, Sode K.
    Journal: Biochem Biophys Res Commun; 2020 Sep 10; 530(1):82-86. PubMed ID: 32828319.
    Abstract:
    Fungi-derived flavin adenine dinucleotide (FAD)-dependent glucose dehydrogenases (FADGDHs) are the most popular and advanced enzymes for SMBG sensors because of their high substrate specificity toward glucose and oxygen insensitivity. However, this type of FADGDH hardly shows direct electron transfer (DET) ability. In this study, we developed a new DET-type FADGDH by harboring Cytochrome b562 (cyt b562) derived from Escherichia coli as the electron transfer domain. The structural genes encoding fusion enzymes composed of cyt b562 at either the N- or C-terminus of fungal FADGDH, (cyt b562-GDH or GDH-cyt b562), were constructed, recombinantly expressed, and characteristics of the fusion proteins were investigated. Both constructed fusion enzymes were successfully expressed in E. coli, as the soluble and GDH active proteins, showing cyt b562 specific redox properties. Thusconstructed fusion proteins showed internal electron transfer between FAD in FADGDH and fused cyt b562. Consequently, both cyt b562-GDH and GDH-cyt b562 showed DET abilities toward electrode. Interestingly, cyt b562-GDH showed much rapid internal electron transfer and higher DET ability than GDH-cyt b562. Thus, we demonstrated the construction and production of a new DET-type FADGDH using E.coli as the host cells, which is advantageous for future industrial application and further engineering.
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