Development of an auto-inducible expression system by nitrogen sources switching based on the nitrogen catabolite repression regulation

The construction of protein expression systems is mainly focused on carbon catabolite repression and quorum-sensing systems. However, each of these regulatory modes has an inherent flaw, which is difficult to overcome. Organisms also prioritize using different nitrogen sources, which is called nitro...

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Bibliographic Details
Published in:Microbial cell factories 2022-04, Vol.21 (1), p.73-73, Article 73
Main Authors: Yan, Qin, Han, Laichuang, Liu, Xinyue, You, Cuiping, Zhou, Shengmin, Zhou, Zhemin
Format: Article
Language:English
Subjects:
Ammonia
Ammonium
Ammonium Compounds - metabolism
Analysis
Aspergillosis
Aspergillus nidulans
Auto-inducible
Binding sites
Biomass
Carbon
Care and treatment
Catabolite Repression
Cell growth
Cooperation
Diagnosis
Enzymes
Fermentation
Gene expression
Gene expression system
Glucuronidase
Industrial applications
Metabolic engineering
Metabolites
Methods
Nitrates
Nitrates - metabolism
Nitrogen
Nitrogen - metabolism
Nitrogen catabolite repression
Nitrogen sources
Protein expression
Proteins
Risk factors
Switching
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Summary:The construction of protein expression systems is mainly focused on carbon catabolite repression and quorum-sensing systems. However, each of these regulatory modes has an inherent flaw, which is difficult to overcome. Organisms also prioritize using different nitrogen sources, which is called nitrogen catabolite repression. To date, few gene regulatory systems based on nitrogen catabolite repression have been reported. In this study, we constructed a nitrogen switching auto-inducible expression system (NSAES) based on nitrogen catabolite regulation and nitrogen utilization in Aspergillus nidulans. The P promoter that is highly induced by nitrate and inhibition by ammonia was used as the promoter. Glucuronidase was the reporter protein. Glucuronidase expression occurred after ammonium was consumed in an ammonium and nitrate compounding medium, achieving stage auto-switching for cell growth and gene expression. This system maintained a balance between cell growth and protein production to maximize stress products. Expressions of glycosylated and secretory proteins were successfully achieved using this auto-inducible system. We described an efficient auto-inducible protein expression system based on nitrogen catabolite regulation. The system could be useful for protein production in the laboratory and industrial applications. Simultaneously, NSAES provides a new auto-inducible expression regulation mode for other filamentous fungi.
ISSN:1475-2859
1475-2859
DOI:10.1186/s12934-022-01794-5