Functional Characterization and Structural Analysis of NADH Oxidase Mutants from Thermus thermophilus HB27: Role of Residues 166, 174, and 194 in the Catalytic Properties and Thermostability

Abstract: The Thermus thermophilus strain HB27 NADH-oxidase (Tt27-NOX) catalyzes the oxidation of nicotinamide adenine dinucleotide (NAD(P)H) by reducing molecular oxygen to hydrogen peroxide in a two-electron transfer mechanism. Surprisingly, Tt27-NOX showed significant differences in catalytic properties compared to its counterpart from the strain HB8 (Tt8-NOX), despite a high degree of sequence homology between both variants. The sequence comparison between both enzymes revealed only three divergent amino acid residu… Show more

“…In this work, we aim at designing an immobilized NOX from Thermus thermophilus HB27, through an integrative manner that involves the control of the enzyme localization, the tuning of material’s physicochemical properties, and the use of advanced internal sensing to ultimately mitigate the diffusion restrictions underlying this enzyme. To that end, we have prepared a battery of heterogeneous biocatalysts with different enzyme spatial organizations within different porous materials and further tested them under different mixing conditions.…”

Design of the Enzyme–Carrier Interface to Overcome the O₂ and NADH Mass Transfer Limitations of an Immobilized Flavin Oxidase

“…In this work, we aim at designing an immobilized NOX from Thermus thermophilus HB27, through an integrative manner that involves the control of the enzyme localization, the tuning of material’s physicochemical properties, and the use of advanced internal sensing to ultimately mitigate the diffusion restrictions underlying this enzyme. To that end, we have prepared a battery of heterogeneous biocatalysts with different enzyme spatial organizations within different porous materials and further tested them under different mixing conditions.…”

Design of the Enzyme–Carrier Interface to Overcome the O₂ and NADH Mass Transfer Limitations of an Immobilized Flavin Oxidase

Flavoprotein Oxidases

Oxidase mimicking nanozyme: Classification, catalytic mechanisms and sensing applications