Activities of secreted aryl alcohol quinone oxidoreductases from [i]Pycnoporus cinnabarinus[/i] provide insights into fungal degradation of plant biomass - Archive ouverte HAL
Article Dans Une Revue Applied and Environmental Microbiology Année : 2016

Activities of secreted aryl alcohol quinone oxidoreductases from [i]Pycnoporus cinnabarinus[/i] provide insights into fungal degradation of plant biomass

Résumé

Auxiliary activities family 3 subfamily 2 (AA3_2) from the CAZy database comprises various functions related to ligninolytic enzymes, such as fungal aryl alcohol oxidases (AAO) and glucose oxidases, both of which are flavoenzymes. The recent study of the [i]Pycnoporus cinnabarinus[/i] CIRM BRFM 137 genome combined with its secretome revealed that four AA3_2 enzymes are secreted during biomass degradation. One of these AA3_2 enzymes, scf184803.g17, has recently been produced heterologously in [i]Aspergillus niger[/i]. Based on the enzyme's activity and specificity, it was assigned to the glucose dehydrogenases ([i]P. cinnabarinus[/i] GDH [PcGDH]). Here, we analyze the distribution of the other three AA3_2 enzymes (scf185002.g8, scf184611.g7, and scf184746.g13) to assess their putative functions. These proteins showed the highest homology with aryl alcohol oxidase from [i]Pleurotus eryngii[/i]. Biochemical characterization demonstrated that they were also flavoenzymes harboring flavin adenine dinucleotide (FAD) as a cofactor and able to oxidize a wide variety of phenolic and nonphenolic aryl alcohols and one aliphatic polyunsaturated primary alcohol. Though presenting homology with fungal AAOs, these enzymes exhibited greater efficiency in reducing electron acceptors (quinones and one artificial acceptor) than molecular oxygen and so were defined as aryl-alcohol:quinone oxidoreductases (AAQOs) with two enzymes possessing residual oxidase activity (PcAAQO2 and PcAAQO3). Structural comparison of PcAAQO homology models with P. eryngii AAO demonstrated a wider substrate access channel connecting the active-site cavity to the solvent, explaining the absence of activity with molecular oxygen. Finally, the ability of PcAAQOs to reduce radical intermediates generated by laccase from P. cinnabarinus was demonstrated, shedding light on the ligninolytic system of this fungus.

Domaines

Biotechnologies
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Dates et versions

hal-01313371 , version 1 (05-01-2024)

Identifiants

Citer

Yann Mathieu, François Piumi, Richard Valli, Juan Carro Aramburu, Patricia Ferreira, et al.. Activities of secreted aryl alcohol quinone oxidoreductases from [i]Pycnoporus cinnabarinus[/i] provide insights into fungal degradation of plant biomass. Applied and Environmental Microbiology, 2016, 82 (8), pp.2411-2423. ⟨10.1128/AEM.03761-15⟩. ⟨hal-01313371⟩
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