Background: Wood-decay basidiomycetes are effective for the degradation of highly lignified and recalcitrant substrates. Brown-rot strain produces carbohydrate-active enzymes involved in the degradation of lignocellulosic materials, along with a non-enzymatic mechanism, via Fenton reaction. Differences in the lignocellulose metabolism occurring even among closely related brown-rots are not completely understood, bringing attention to a multi-omics study of brown-rot L. sulphureus. Results: To evidence the oxidative-hydrolytic mechanism, the Laetiporus sulphureus ATCC 52600 genome was sequenced and the response to lignocellulosic substrates was analyzed by transcriptomics and proteomics. The transcriptomic profile in response to a short cultivation period on in natura sugarcane bagasse revealed 128 out of 12,802 upregulated transcripts. The high upregulated transcripts included a set of redox enzymes along with hemicellulases. The exoproteome in response to extended-time cultivation with Avicel, and steam-exploded sugarcane bagasse, sugarcane straw, and Eucalyptus grandis revealed 121 proteins. Contrasting to the mainly oxidative profile observed in the transcriptome, the secretomes showed a diverse hydrolytic repertoire including constitutive cellulases and hemicellulases, in addition to 19 proteins upregulated relative to glucose. The secretome produced on sugarcane bagasse was evaluated in the saccharification of pretreated sugarcane straw by supplementing a commercial cocktail. Additionally, growth analysis revealed that L. sulphureus ATCC 52600 has higher efficiency to assimilate glucose than other mono and disaccharides. Conclusion: This study shows the singularity of L. sulphureus ATCC 52600 relative to other Polyporales brown-rots, regarding the presence of cellobiohydrolase and peroxidase class II. The multi-omic analysis reinforces the oxidative-hydrolytic metabolism involved in lignocellulose deconstruction, providing insights into the overall mechanisms as well as specific proteins of each step.
Overall design: Pre-inoculum, consisting of 15 discs (8 mm diameter) of L. sulphureus ATCC 52600 pre-cultivated on agar plates, was inoculated into 100 mL of liquid medium and incubated under 180 rpm for 7 days at 30 °C. Mycelia were then filtered and washed with water and then transferred to liquid medium containing 1.0 g of in natura sugarcane bagasse and 100 mL of medium pH 7.0 composed of 6 g/L (NH4)2SO4, 1 g/L KH2PO4, 1 g/L KCl and 1 g/L MgSO4. Cultivation was performed under 180 rpm for 24 h at 30 °C. Mycelia and substrate mixtures were collected by filtration, washed with sterile water, manually dried in filter paper, and stored at -80 °C before RNA extraction. Mycelium from pre-inoculum was used as a reference before induction (T0).Three biological replicates of L. sulphureus were used for RNAseq analysis.
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