Regulatory

Part:BBa_K3019001

Designed by: Valeriia Leoshko   Group: iGEM19_Tartu_TUIT   (2019-10-13)
Revision as of 21:01, 17 October 2019 by Valeriia (Talk | contribs)


pRNR1 promoter from S. cerevisiae

1000bp up the RNR1 gene. Constitutive promoter.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BglII site found at 297
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal AgeI site found at 2212
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal BsaI site found at 1531


INTRODUCTION

In order to determine the strength of pRNR1 promoter, we have conducted the following experiment. First of all, we have constructed 2 plasmids where EGFP is expressed under different constitutive promoters. As a positive control, we used pTDH3. The empty plasmid was used as a negative control.

MATERIALS AND METHODS

Plasmids used to conduct the experiment are listed in table 1.

Table 1. Plasmids created

Insert
number Plasmid name Promoter Gene Terminator backbone
1 pRS306 pPGK1-EGFP-tCYC1 pRNR1 EGFP tCYC1 pRS306
2 pRS306 pTDH3-EGFP-tCYC1 pTDH3 EGFP tCYC1 pRS306
3 pRS306

After construction of plasmids was finished, we have transformed S. cerevisiae DOM90 (MATa {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15 bar1::hisG} [phi+]) strain with plasmids listed above to create the strains (table 2).

Table 2. S. cerevisiae strains created.

Strain name Genotype Plasmid integrated
Negative control DOM90 MATa {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15 bar1::hisG} [phi+] pRS306
Positive control(pTDH3) DOM90 MATa {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15 bar1::hisG} [phi+] pRS306 pTDH3-EGFP-tCYC1
pPGK1 DOM90 MATa {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15 bar1::hisG} [phi+] pRS306 pRNR1-EGFP-tCYC1

We have measured the EGFP fluorescence intensity with BioTek Synergy MX microplate reader.

All strains were pregrown overnight at 30°C in liquid CSM/2%Glc media, resuspended in fresh CSM/2%Glc media to OD600 in the range of 0.8 to 1. Distributed to 96 well plate (clear flat bottom). 8 replicates from the strain were used. 200 µL of cells were added to each well. As a reference to OD600, fresh CSM/2%Glc media was used. After the 96 well plate was ready, the OD600 and fluorescence (excitation 485 nm, emission 528 nm, bandwidth 20, gain 80) were measured. The layout of the plate is described in table 3.

Table 3. The 96 well plate layout for OD600 and Fluorescence measurements.

Negative control Positive control pPGK1 CSM
Colony 1 Replicate 1 Colony 1 Replicate 1 Colony 1 Replicate 1 Colony 2 Replicate 1
Colony 1 Replicate 2 Colony 1 Replicate 2 Colony 1 Replicate 2 Colony 2 Replicate 2
Colony 1 Replicate 3 Colony 1 Replicate 3 Colony 1 Replicate 3 Colony 2 Replicate 3
Colony 1 Replicate 4 Colony 1 Replicate 4 Colony 1 Replicate 4 Colony 2 Replicate 4
Colony 1 Replicate 5 Colony 1 Replicate 5 Colony 1 Replicate 5 Colony 2 Replicate 5
Colony 1 Replicate 6 Colony 1 Replicate 6 Colony 1 Replicate 6 Colony 2 Replicate 6
Colony 1 Replicate 7 Colony 1 Replicate 7 Colony 1 Replicate 7 Colony 2 Replicate 7
Colony 1 Replicate 8 Colony 1 Replicate 8 Colony 1 Replicate 8 Colony 2 Replicate 8

As a fluorescence reference, the standard curve of fluorescence for fluorescein concentration was generated according to 2018 iGEM InterLab Study. The only difference from the InterLab protocol was the concentration of the fluorescein used. In the InterLab study, the highest fluorescein concentration used was 10 µM. But due to the higher gain parameter used in our measurement experiment, we have used 0.313 µM to avoid out of range measurements.



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CONCLUSIONS

The results are as expected, negative control does not show almost any fluorescence. The promoter shows fluorescence higher than the positive control.

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