Abstract
AbstractWe demonstrate a transcriptional regulatory design algorithm that can boost expression in yeast and mammalian cell lines. The system consists of a simplified transcriptional architecture composed of a minimal core promoter and a synthetic upstream regulatory region (sURS) composed of up to three motifs selected from a list of 41 motifs conserved in the eukaryotic lineage. The sURS system was first characterized using an oligo-library containing 189,990 variants. We validate the resultant expression model using a set of 43 unseen sURS designs. The validation sURS experiments indicate that a generic set of grammar rules for boosting and attenuation may exist in yeast cells. Finally, we demonstrate that this generic set of grammar rules functions similarly in mammalian CHO-K1 and HeLa cells. Consequently, our work provides a design algorithm for boosting the expression of promoters used for expressing industrially relevant proteins in yeast and mammalian cell lines.
Funder
EC | Horizon 2020 Framework Programme
Publisher
Springer Science and Business Media LLC
Reference40 articles.
1. Banyex, F. Protein Expression Technologies: Current Status and Future Trends (Horizon Bioscience, 2004).
2. A, S. L. & R, R. C. Plasmids for controlled and tunable high-level expression in E. coli. Appl. Environ. Microbiol. 88, e00939–22 (2022).
3. Rantasalo, A. et al. Synthetic transcription amplifier system for orthogonal control of gene expression in Saccharomyces cerevisiae. PLoS ONE 11, e0148320 (2016).
4. Mojzita, D., Rantasalo, A. & Ilmén, M. in Yeast Metabolic Engineering: Methods and Protocols (eds. Mapelli, V. & Bettiga, M.) 221–242 (Springer US, 2022).
5. Rantasalo, A. et al. A universal gene expression system for fungi. Nucleic Acids Res. 46, e111–e111 (2018).