CRISPR-mediated activation of biosynthetic gene clusters for bioactive molecule discovery in filamentous fungi
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This study established a CRISPRa system in filamentous fungi to activate silent biosynthetic gene clusters, leading to the discovery of new compounds like microperfuranone and dehydromicroperfuranone.
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Abstract
Accessing the full biosynthetic potential encoded in the genomes of fungi is limited by the low expression of most biosynthetic gene clusters (BGCs) under common laboratory culture conditions. CRISPR-mediated transcriptional activation (CRISPRa) of fungal BGC could accelerate genomics-driven bioactive secondary metabolite discovery. In this work, we established the first CRISPRa system for filamentous fungi. First, we constructed a CRISPR/dLbCas12a-VPR-based system and demonstrated the activation of a fluorescent reporter in Aspergillus nidulans . Then, we targeted the native nonribosomal peptide synthetase-like (NRPS-like) gene micA in both chromosomal and episomal contexts, achieving increased production of the compound microperfuranone. Finally, multi-gene CRISPRa led to the discovery of the mic cluster product as dehydromicroperfuranone. Additionally, we demonstrated the utility of the variant dLbCas12a D156R -VPR for CRISPRa at room temperature culture conditions. Different aspects that influence the efficiency of CRISPRa in fungi were investigated, providing a framework for the further development of fungal artificial transcription factors based on CRISPR/Cas.
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- last seen: 2026-05-19T01:45:01.086888+00:00