Abstract
Fungi produce a wide diversity of secondary metabolites with interesting biological activities for the health, industrial, and agricultural sectors. While fungal genomes have revealed an unexpectedly high number of biosynthetic pathways that far exceeds the number of known molecules, accessing and characterizing this hidden diversity remain highly challenging. Here, we applied a combined phylogenetic dereplication and comparative genomics strategy to explore eight lichenizing fungi. The determination of the evolutionary relationships of aromatic polyketide pathways resulted in the identification of an uncharacterized biosynthetic pathway that is conserved in distant fungal lineages. The heterologous expression of the homologue from Aspergillus parvulus linked this pathway to naphthalenone compounds, which were detected in cultures when the pathway was expressed. Our unbiased and rational strategy generated evolutionary knowledge that ultimately linked biosynthetic genes to naphthalenone polyketides. Applied to many more genomes, this approach can unlock the full exploitation of the fungal kingdom for molecule discovery.
Original language | English |
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Article number | e0022322 |
Pages (from-to) | 1-16 |
Journal | mBio |
Volume | 13 |
Issue number | 3 |
DOIs | |
Publication status | Published - Jun 2022 |
Keywords
- acetyl tetrahydroxynaphthalene
- Aspergillus oryzae
- Aspergillus parvulus
- comparative genomics
- heterologous expression
- KEYWORDS biosynthetic gene clusters
- lichen
- nonreducing polyketide synthase
- phylogeny
- polyketide