Insights into lignin bioconversion: lignin‐derived compounds treatment of a novel marine fungus K‐2

Abstract BACKGROUND The potential for the efficient conversion of lignocellulosic biomass has been extensively explored to produce a wide range of bioproducts. Many approaches have been sought for the deep conversion of lignin to generate products that are toxin‐free and beneficial for processing into high‐value‐added components. RESULTS This study reported a fungus isolated from the deep sea with strong synthesis of multiple lignocellulases, conversion of lignin and guaiacol (0.1%) by 71.6% and 86.1% within 9 days at 30 °C respectively, and outstanding environmental adaptability (20–50 °C and pH 3–8). Metabolic pathway profiling showed that this fungus utilized lignin to rapidly activate multiple ring‐opening reactions including the 2,3‐ and 3,4‐cleavage pathways, with the 2,3‐cleavage pathway predominating after 5 days. Conversion of metabolic intermediates confirmed the superb potential of this strain for lignin treatment. Meanwhile, its shikimic acid pathway was metabolically active under lignin. CONCLUSION This further expands the potential to produce valuable bioproducts during lignin treatment, especially under ambient conditions, which can significantly enhance high‐value precursor compound production. © 2024 Society of Chemical Industry.