PCR and Omics Based Techniques to Study the Diversity, Ecology and Biology of Anaerobic Fungi: Insights, Challenges and Opportunities
Results
Mechanisms of Manganese(II) Oxidation by Filamentous Ascomycete Fungi Vary With Species and Time as a Function of Secretome Composition
Ectomycorrhizal fungi enhance pine growth by stimulating iron‐dependent mechanisms with trade‐offs in symbiotic performance
Genome evolution and transcriptome plasticity is associated with adaptation to monocot and dicot plants in Colletotrichum fungi.
Genomic and proteomic biases inform metabolic engineering strategies for anaerobic fungi
Catabolic repression in early-diverging anaerobic fungi is partially mediated by natural antisense transcripts
Separation of life stages within anaerobic fungi (Neocallimastigomycota) highlights differences in global transcription and metabolism
Characterization of digestate microbial community structure following thermophilic anaerobic digestion with varying levels of green and food wastes
Large-scale genomic analyses with machine learning uncover predictive patterns associated with fungal phytopathogenic lifestyles and traits
Proteome specialization of anaerobic fungi during ruminal degradation of recalcitrant plant fiber
Anaerobic gut fungi are an untapped reservoir of natural products
Biomass‐degrading enzymes are catabolite repressed in anaerobic gut fungi
