1. Development of Two CRISPR/Cas9 Systems in Thermomyces dupontii and Characterization of Key Gene Functions in Thermolide Biosynthesis and Fungal Adaptation.
- Author
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Wei-Ping Huang, Yuan-Jiang Du, Yun Yang, Jia-Ning He, Qian Lei, Ke-Qin Zhang, and Xue-Mei Niu
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CRISPRS , *GENE clusters , *BIOSYNTHESIS , *FUNGAL spores , *THERMOPHILIC fungi , *GENOME editing , *THERMOPHILIC bacteria - Abstract
Thermomyces dupontii, a widely distributed thermophilic fungus, is an ideal organism for investigating the mechanism of thermophilic fungal adaptation to diverse environments. However, genetic analysis of this fungus is hindered by a lack of available and efficient gene manipulating tools. In this study, two different Cas9s from mesophilic and thermophilic bacteria, with in vivo sgRNA expression under the control of tRNAGly, were successfully adapted for genome editing in T. dupontii. We demonstrated the feasibility of applying these two gene editing systems to edit one or two genes in T. dupontii. The mesophilic CRISPR/Cas9 system displayed higher editing efficiency (50-86%) than the thermophilic CRISPR/Cas9 system (40-67%). However, the thermophilic CRISPR/Cas9 system was much less time-consuming than the mesophilic CRISPR/Cas9 system. Combining the CRISPR/Cas9 systems with homologous recombination, a constitutive promoter was precisely knocked in to activate a silent PKS-NRPS biosynthetic gene, leading to the production of extra metabolites that did not exist in the parental strains. Metabolic analysis of the generated biosynthetic gene mutants suggested that a key biosynthetic pathway existed for the biosynthesis of thermolides in T. dupontii, with the last two steps being different from that in the heterologous host Aspergillus. Further analysis suggested that these biosynthetic genes might be involved in fungal mycelial growth, conidiation, and spore germination, as well as in fungal adaptation to osmotic, oxidative and cell31 wall-perturbing agents. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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