Fig. 1From: Integrative visual omics of the white-rot fungus Polyporus brumalis exposes the biotechnological potential of its oxidative enzymes for delignifying raw plant biomassExpansions and contractions of gene families AA2 and AA3 with 18 genomes of Polyporales species. Phanerochaete chrysosporium (Phchr2), Trametopsis cervina (Trace1), Irpex lacteus (Irplac1), Fomitopsis pinicola (Fompi3), Wolfiporia cocos (Wolco1), Trametes gibbosa (Tragib1), Trametes versicolor (Trave1), Trametes ljubarskii (Tralj1), Trametes cingulata (Traci1), Leiotrametes sp. (Leisp1), Polyporus brumalis (Polbr1), Pycnoporus puniceus (Pycpun1), P. coccineus BRFM 310 (Pycco1) and BRFM 1662 (Pycco 1662), Pycnoporus sanguineus (Pycsa1), Pycnoporus cinnabarinus (Pycci1), Artolenzites elegans BRFM 1663 (Artel1) and BRFM 1122 (Artele 1122) and Polyporus brumalis (Polbr1). Heterobasidion annosum (Hetan2) and Stereum hirsutum (Stehi1) were used as outgroupsBack to article page