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CRISPR-Cas9 Cytidine-Base-Editor Mediated Continuous <i>In Vivo</i> Evolution in <i>Aspergillus nidulans</i>

Yuan Tian, Qiang Xu, Meng Pang, You-Chu Ma, Zhiruo Zhang, Dongfang Zhang, Donghui Guo, Lupeng Wang, Qingbin Li, Yanling Li, Fanglong Zhao

2025ACS Synthetic Biology11 citationsDOI

Abstract

Filamentous fungi are important cell factories for producing chemicals, organic acids, and enzymes. Although several genome editing tools are available for filamentous fungi, few effectively enable continuous evolution for rational engineering of complex phenotype. Here, we present CRISPR-Cas9 cytidine-base-editor (CBE) assisted in vivo evolution by continuously delivering a combinatorial sgRNA library to filamentous fungi. The method was validated by targeting core genes of 46 natural product biosynthetic gene clusters in Aspergillus nidulans NRRL 8112 to eliminate fungal toxins via six rounds of evolution. NGS analysis revealed the average C-to-T conversion rates in the first, third, and sixth rounds were 2.02%, 5.25%, and 9.34%, respectively. Metabolic profiles of the evolved mutants exhibited significant changes, allowing for the isolation of clean-background strains with enhanced production of an antifungal compound Echinocandin B. This study demonstrates that CBE-mediated in vivo evolution greatly facilitates the iterative refinement of complex morphogenetic traits in filamentous fungi.

Topics & Concepts

Aspergillus nidulansCRISPRCytidineAspergillusComputational biologyBiologyCytidine deaminaseGeneticsGeneEnzymeBiochemistryMutantCRISPR and Genetic EngineeringInsect symbiosis and bacterial influencesPlant tissue culture and regeneration