Application of the cbh1 promoter in Mortierella alpina and optimization of induction conditions.

Mortierella alpina has gained remarkable interest due to its high capacity for arachidonic acid (AA) production and potential for eicosapentaenoic acid (EPA) production recently. However, the development of genetically modified strains is limited by lacking inducible promoters, which can express genes conditionally. Here the inducible promoter of cellobiohydrolase (Pcbh1) was utilized in M. alpina and the gene oPpFADS17 encoding ω-3 fatty acid desaturase was selected as the reporter gene. Under conditions with inducer, expression of this gene enables M. alpina to produce EPA at room temperature, while no EPA was detected without inducer. We then optimized the induction conditions. The results demonstrated that the optimal induction condition was broth medium with 1% avicel as the inducer and 5% glucose as extra carbon source and the transcription level of the reporter gene was increasing with the extension of induction time. Successful application of Pcbh1 in M. alpina would significantly contribute to the steerable system to construct engineered strains for industrial production of microbial oils. SIGNIFICANCE AND IMPACT OF THE STUDY: Mortierella alpina is a commercial strain for production of polyunsaturated fatty acids. Genetic engineering strategies based on M. alpina require the development of inducible promoters to regulate gene expression conditionally at specific times. However, available inducible promoters for M. alpina were limited. In this study, we explore the feasibility of inducible cbh1 promoter in M. alpina and determined the optimal induction condition, which accelerates the genetic manipulation of M. alpina. Besides, high transcriptional levels of the reporter gene under the control of Pcbh1 showed that Pcbh1 is a strong inducible promoter for M. alpina.