Difference between revisions of "Part:BBa K1723005:Experience"

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<h2>This chart show that BBa_K1723000 can act as a transcription regulator on the promoter BBa_K1723005 by either activating or inhibiting it. It still have to be proved that in presence of both inhibiting and activating sgRNAs, inhibition is stronger and this promoter could be used to form a transistor-like element as wanted. </h2>
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<h3>This chart show that BBa_K1723000 can act as a transcription regulator on the promoter BBa_K1723005 by either activating or inhibiting it. It still have to be proved that in presence of both inhibiting and activating sgRNAs, inhibition is stronger and this promoter could be used to form a transistor-like element as wanted. </h3>
  
 
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<h3> Comparison of basal levels of promoter BBa_K1723005 [B_alt] versus BBa_K1723001 [B] promoter </h3>  
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<h3> Comparison of basal levels of promoter BBa_K1723005 [B_alt] versus promoter BBa_K1723001 [B] </h3>  
 
https://static.igem.org/mediawiki/2015/6/69/EPF_Lausanne_RESULTS_EXPERIENCE3.png
 
https://static.igem.org/mediawiki/2015/6/69/EPF_Lausanne_RESULTS_EXPERIENCE3.png
  
<h2>This chart show that mutating the sequence of BBa_K1723001 without touching the -10 sequence and -35 sequence to obtain BBa_K1723005 didn't seem to have affect the promoter strength. Visit our website for more informations about our results and the use of this system as a transistor-like element: http://2015.igem.org/Team:EPF_Lausanne/Results </h2>
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<h3>This chart show that mutating the sequence of BBa_K1723001 without touching the -10 sequence and -35 sequence to obtain BBa_K1723005 didn't seem to have affect the promoter strength. Visit our website for more informations about our results and the use of this system as a transistor-like element: http://2015.igem.org/Team:EPF_Lausanne/Results </h3>
  
 
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Revision as of 17:34, 18 September 2015


Applications of BBa_K1723005




EPF_Lausanne_transistor.png

This picture represent the system we built using dCas9-ω : a transistor-like element in cell. The complex dCas9-sgRNA will bind on the promoter and activate or inhibit it.




Effects of dCas9-ω BBa_K1723000 on BBa_K1723005 promoter

EPF_Lausanne_RESULTS_EXPERIENCE2.png

This chart present the effects of dCas9-ω (BBa_K1723000) on the PAM rich URS J23117Alt promoter (BBa_K1723005) when provided following sgRNAs:

[A_alt] sgRNA X4 (BBa_K1723007), activating
[R2_alt] sgRNA X0 (BBa_K1723006), inhibiting
[R1_alt] sgRNA X35 (BBa_K1723008), inhibiting

In comparison with:

[B_alt] apo-dCas9-ω (=no sgRNA)
[Af_alt] no dCas9-ω, no sgRNA




This chart show that BBa_K1723000 can act as a transcription regulator on the promoter BBa_K1723005 by either activating or inhibiting it. It still have to be proved that in presence of both inhibiting and activating sgRNAs, inhibition is stronger and this promoter could be used to form a transistor-like element as wanted.



Comparison of basal levels of promoter BBa_K1723005 [B_alt] versus promoter BBa_K1723001 [B]

EPF_Lausanne_RESULTS_EXPERIENCE3.png

This chart show that mutating the sequence of BBa_K1723001 without touching the -10 sequence and -35 sequence to obtain BBa_K1723005 didn't seem to have affect the promoter strength. Visit our website for more informations about our results and the use of this system as a transistor-like element: http://2015.igem.org/Team:EPF_Lausanne/Results



promoter strength was assessed using GFPmut2 reporter.

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