Construction and optimization of the artificially enhanced promoter TCIN5B.
- Author:
Meng GUO
1
;
Shuxin DONG
1
;
Jun LI
1
;
Chun LI
1
Author Information
- Publication Type:Journal Article
- Keywords: Saccharomyces cerevisiae; promoter engineering; stress response; transcription factor CIN5
- MeSH: Promoter Regions, Genetic/genetics*; Transcription Factors/genetics*; Saccharomyces cerevisiae/metabolism*; Stress, Physiological/genetics*; Saccharomyces cerevisiae Proteins/genetics*
- From: Chinese Journal of Biotechnology 2025;41(8):3275-3286
- CountryChina
- Language:Chinese
- Abstract: To construct stress-responsive promoters, we mined the transcriptome data of the industrial strain A223 under stress. The transcription factor CIN5 showed significantly increased expression under stress but exhibited limited resistance. Further analysis of CIN5-interacting genes revealed that the binding motif "TTACGTAATC" (named CIN5BS) of CIN5 displayed transcription-enhancing activity. Four artificially enhanced promoters TCIN5B(3-6) were created by insertion of CIN5BS as a cis-element into different sites of the promoter TEF1, achieving 15.25-fold transcriptional enhancement. Five cis-elements (CIN5B4-1-CIN5B4-5) were designed through G+C content optimization, generating five stronger artificially enhanced promoters (TCIN5B4-1-TCIN5B4-5). For example, TCIN5B4-1 demonstrated 4.71 times higher transcriptional activity than the control at 37 ℃. This study established a technical framework of transcription factor mining-cis-element design-promoter reconstruction, providing a reference strategy for yeast cell factories to stably produce natural compounds under high-temperature stress conditions.
