Integrative visual omics of the white-rot fungus Polyporus brumalis exposes the biotechnological potential of its oxidative enzymes for delignifying raw plant biomass.
Shingo MiyauchiAnaïs RanconElodie DrulaHayat HageDelphine ChaduliAnne FavelSacha GriselBernard HenrissatIsabelle Herpoël-GimbertFrancisco J Ruiz-DueñasDidier ChevretMatthieu HainautJunyan LinMei WangJasmyn PangilinanAnna LipzenLaurence Lesage-MeessenDavid NavarroRobert RileyIgor V GrigorievSimeng ZhouSana RaoucheMarie-Noëlle RossoPublished in: Biotechnology for biofuels (2018)
As a peculiar feature of P. brumalis, we observed gene family extension, up-regulation and secretion of an abundant set of versatile peroxidases and manganese peroxidases, compared with other Polyporales species. The orchestrated secretion of an abundant set of these delignifying enzymes and redox cycling enzymatic partners could contribute to the delignification capabilities of the fungus. Our findings highlight the diversity of wood decay mechanisms present in Polyporales and the potentiality of further exploring this taxonomic order for enzymatic functions of biotechnological interest.