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September 3rd, 2025
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Nanjing Forestry University
biochemistry
bioRxiv

Novel single-domain AA12 pyrroloquinoline quinone-dependent oxidoreductases directly and co-operatively drive lytic polysaccharide monooxygenase activity with AA8 module

Sun, Y.Open in Google Scholar•Yuan, C.Open in Google Scholar•Long, L.Open in Google Scholar•Ding, S.Open in Google Scholar

The single-domain auxiliary activity family 12 (AA12) pyrroloquinoline quinone-dependent oxidoreductases and free AA8 modules are prevalent in cellulolytic fungi, however, their function in polysaccharide biodegradation is still confused. Here, we characterized three single-domain AA12 oxidoreductases and one free AA8 module from Thermothelomyces thermophilus and Thermothielavioides terrestris. All three single-domain AA12 oxidoreductases are restrict dehydrogenases with trace oxidase activity. All three single-domain AA12 enzymes could directly transfer electrons to lytic polysaccharide monooxygenase (LPMO) and drive NcLPMO9C activity. Furthermore, inter-protein electron transfer between single-domain AA12 enzymes and the AA8 module was observed. The AA12 enzyme-driven NcLPMO9C efficiency could be significantly enhanced by the addition of free AA8 module TthAA8B, probably attributing to the acceleration of electron transfer from AA12 enzymes to NcLPMO9C and the attenuation of H2O2 accumulation mediated by TthAA8B. Our findings highlight the potential role of single-domain AA12 enzyme and free AA8 modules in the biodegradation system of LPMOs.

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