Difference between revisions of "Part:BBa J24813"
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− | The promoters were PCR-amplified from the yeast genome using primers that contained <i>SacI</i> (forward primer) and <i>BamHI</i> (reverse primer) restriction sites in their 5’-overhangs. After PCR and restriction digestion, the DNA fragments containing the promoters were ligated into <i>SacI/BamHI</i>-restricted pRS304-based vector carrying | + | The promoters were PCR-amplified from the yeast genome using primers that contained <i>SacI</i> (forward primer) and <i>BamHI</i> (reverse primer) restriction sites in their 5’-overhangs. After PCR and restriction digestion, the DNA fragments containing the promoters were ligated into <i>SacI/BamHI</i>-restricted pRS304-based vector carrying EGFP coding sequence and <i>tCYC1</i> terminator. |
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− | <td style = "border: 1px solid black"><i>pURA3</i></td><td style = "border: 1px solid black"> | + | <td style = "border: 1px solid black"><i>pURA3</i></td><td style = "border: 1px solid black">EGFP</td><td style = "border: 1px solid black">Restriction-ligation</td> |
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===Yeast strain construction=== | ===Yeast strain construction=== |
Revision as of 01:38, 11 October 2023
URA3 Promoter from S. cerevisiae
This is the whole regulatory region from the URA3 gene coding for OMP decarboxylase, an essential protein in the uracil synthesis pathway in S. cerevisiae budding yeast.
Team Estonia_TUIT 2023 characterization of BBa_I766556 (pADH1)
The pURA3 promoter controls the URA3 gene. This gene is responsible for producing the enzyme orotidine 5-phosphate decarboxylase (ODCase), which is crucial for the synthesis of pyrimidine ribonucleotides (Umezu et al., 1971).
Plasmid formation
The promoters were PCR-amplified from the yeast genome using primers that contained SacI (forward primer) and BamHI (reverse primer) restriction sites in their 5’-overhangs. After PCR and restriction digestion, the DNA fragments containing the promoters were ligated into SacI/BamHI-restricted pRS304-based vector carrying EGFP coding sequence and tCYC1 terminator.
Promoter | Reporter | Assembly methods |
pURA3 | EGFP | Restriction-ligation |
Yeast strain construction
Prior to yeast transformation, the integration plasmids were restricted with HindIII to linearise the plasmids for homologous recombination into the yeast genome TRP1 locus. The restricted plasmids were used to transform the S. cerevisiae DOM90 strain. Transformants were selected for Trp+ phenotype on tryptophan-dropout synthetic media (CSM-TRP) agar plates containing 2% glucose. All yeast strains generated and used for promoter characterization are listed in table:
Strain name | Genotype | Description |
DOM90 | MATa {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15 bar1::hisG} [phi+] | Background strain used for transformation and as a negative control |
I86 | DOM90 trp1::pRS304-pURA3-sfGFP-tCYC1 | Strain with sfGFP under pURA3 promoter, integrated into Trp1-1 locus |
sfGFP fluorescence measurements Prior to fluorescence measurements, yeast cells were cultivated in complete synthetic media (CSM) with 2% glucose until the cultures reached an optical density (OD600) in the range of 0.6 to 1. Subsequently, 200 μl of the cell suspension was transferred into the designated wells on 96-well plates. To measure sfGFP fluorescence, a BioTek Synergy Mx Microplate Reader equipped with a 458 nm wavelength LED for GFP excitation was utilized. The emitted fluorescence was measured at a wavelength of 528 nm.
Results
In this study, we assessed the level of gene expression driven by the promoter pCYC1 by employing a fluorescent protein as a reporter. The promoter-containing constructs were integrated into the yeast genome, and the resulting reporter protein fluorescence was quantified in a 96-well plate. To establish a baseline of background fluorescence in the culture, we measured the fluorescence in a control strain, DOM90, which does not express any fluorescent proteins. Compared to the background fluorescence of DOM90, yeast strains with sfGFP under the control of pURA3 promoter displayed a 3.5-fold increase in sfGFP fluorescence intensity.
In our study, we examined three yeast promoters sourced from the iGEM part registry. We found that constitutive promoter pURA3 is suitable choice for achieving consistent moderate gene expression. Expanding the quantitative information on yeast promoter activities facilitates the engineering of fine-tuned synthetic biology applications.
References:
Umezu, K., Amaya, T., Yoshimoto, A., & Tomita, K. (1971). Purification and properties of orotidine-5’-phosphate pyrophosphorylase and orotidine-5’-phosphate decarboxylase from baker’s yeast. Journal of Biochemistry, 70(2), 249–262. https://doi.org/10.1093/oxfordjournals.jbchem.a129637
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]