Difference between revisions of "Part:BBa K3606007"

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<h2>Results:</h2>
 
<h2>Results:</h2>
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We have measured the expression level of PtetO2([[BBa_K3606007]]), PtetO3 along with the original PtetR([[BBa_R0040]]) via plate reader by combining them with GFP, when they were induced by different concentration of hydrotetracycline or not induced.
 
We have measured the expression level of PtetO2, PtetO3([[BBa_K3606006]]) along with the original PtetR([[BBa_R0040]]) via plate reader by combining them with GFP, when they were induced by different concentration of hydrotetracycline or not induced.
 
We have measured the expression level of PtetO2, PtetO3([[BBa_K3606006]]) along with the original PtetR([[BBa_R0040]]) via plate reader by combining them with GFP, when they were induced by different concentration of hydrotetracycline or not induced.
 
https://2020.igem.org/wiki/images/4/46/T--Fudan--aTc_400.jpg
 
https://2020.igem.org/wiki/images/4/46/T--Fudan--aTc_400.jpg
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The results show that among the three promoters, ptetO3 has the highest fold of increase. This means that it is the most sensitive to the induction of aTc.
 
The results show that among the three promoters, ptetO3 has the highest fold of increase. This means that it is the most sensitive to the induction of aTc.
 
   
 
   
We have measured the expression level of PtetO2([[BBa_K3606007]]), PtetO3 along with the original PtetR([[BBa_R0040]]) via plate reader by combining them with GFP, when they were induced by different concentration of hydrotetracycline or not induced.
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Revision as of 18:19, 27 October 2020


PtetO3 promoter

This part is a fusion promoter of PL and tetO, regulated by tetR and anhydrotetracycline

Background:

As a well-characterized promoter, PtetR has been studied thoroughly with its expression level and leakage.To better optimize the antimicrobial peptide expressing system, here we take a unique idea to created a new promoter fusion to create a new promoter that are regulated by tetracycline while with a desired expression intensity.

Design:

This part is a fusion of tetO operon and the -35 upstream, -35--10 parts,-10 downstream of the stronger PL promoters in lambda phages, to create a improved promoter with proper expression level while regulated by tetracycline. T--Fudan--img_pteto3.png

Usage and Biology:

This part functions to lower the leakage and adjust the level of expression of the downstream gene. We fuse the -35 upstream, -35--10 parts,-10 downstream of the stronger PL promoters in lambda phages with the tetO operon regulated by tetracycline. As a promoter fusion of PL and tetO, not only is it regulated by tetR and anhydrotetracycline, but it also inherited the expression level of PL.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]

Results:

We have measured the expression level of PtetO2(BBa_K3606007), PtetO3 along with the original PtetR(BBa_R0040) via plate reader by combining them with GFP, when they were induced by different concentration of hydrotetracycline or not induced. We have measured the expression level of PtetO2, PtetO3(BBa_K3606006) along with the original PtetR(BBa_R0040) via plate reader by combining them with GFP, when they were induced by different concentration of hydrotetracycline or not induced. T--Fudan--aTc_400.jpg Under the induction of aTc, the expression level of ptetO3 is moderate. T--Fudan--rate_400.jpg The results show that among the three promoters, ptetO3 has the highest fold of increase. This means that it is the most sensitive to the induction of aTc.



Further Application:

This part will act as a tighter tetracycline-regulated promoter with _____ expression level than the original PtetR. The method that applied here can also change the future train of thoughts to create new fusion promoter with different characteristic.

References:

Huanna Qiu, et al. Construction of promoters with tight regulation on chromosome of Escherichia coli. Microbiology China,2018,45(08):1693-1704. (Chinese)