Abstract
BackgroundSynthetic biology requires toolbox of promoters to finely tune gene expression levels for building up efficient cell factories. Yeast promoters owned variable core promoter regions between the TATA-box and transcriptional starting site (TSS) at the length mostly around 20–80 bases. This region allowed flexible design of artificial promoter but potentially demand special base motifs to maintain or enhance the promoter’s strength.ResultsHere, we designed and screened the base motifs and tested the activities of yeast artificial core promoters. Different 30 bases of artificial sequences led to variable expression levels of CrtY enzyme which determined the lycopene–carotene compositions, represented in the colony-color spectrum of red–orange–yellow. The upstream sequences of two strong promoter PEXP1 and PGPD and two starting strains with distinguishable lycopene production levels were utilized to characterize the promoter sequences. Different partition designs of T-rich or G/C-rich base motifs led to distinguishable colony-color distributions. Finally, we screened a champion promoter with a highest 5.5-fold enhancement of lycopene–carotene transformation. Another selected promoter generated a highest beta-carotene production as 7.4 mg/g DCW.ConclusionsThis work offered an approach to redesign promoter with artificial sequences. We concluded that the core promoter region could be designated as 30 bases and different base motifs would enhance or weaken the promoter’s strength. Generally, more T-rich elements, higher %T and lower G/C percentage were beneficial to enhance the strength of artificial core promoter.
Highlights
Synthetic biology requires toolbox of promoters to finely tune gene expression levels for building up efficient cell factories
Design and construction of artificial core promoter In previous studies it was proved that the RNA polymerase II of S. cerevisiae performed a downstream scan of the core promoter region, searching for transcriptional starting site (TSS) sequence, which was distinct from metazoan transcription mode [23, 24]
We hypothesized that the corresponding region was highly changeable in Y. lipolytica
Summary
Synthetic biology requires toolbox of promoters to finely tune gene expression levels for building up efficient cell factories. Yeast promoters owned variable core promoter regions between the TATA-box and transcriptional starting site (TSS) at the length mostly around 20–80 bases. This region allowed flexible design of artificial promoter but potentially demand special base motifs to maintain or enhance the promoter’s strength. The core promoter sequence downstream of the TATA box influenced the gliding speed of RNA polymerase II before the mRNA was generated, determining maximal promoter activity This region allows more space of artificial design and has its own limitedness, as the thoroughly randomized sequences will overwhelm effective sequence that enhance promoter’s strength. There still leaves a question whether this region can be replaced by a de novo designed artificial sequence
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