Difference between revisions of "Part:BBa K1413001"

Revision as of 01:01, 2 November 2014 (view source) Nmendy (Talk | contribs) (→‎Usage and Biology) ← Older edit		Revision as of 02:51, 2 November 2014 (view source) Laurabibi (Talk | contribs) Newer edit →
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	__NOTOC__		__NOTOC__
	<partinfo>BBa_K1413001 short</partinfo>		<partinfo>BBa_K1413001 short</partinfo>
−		+	<html>
−	This part consist on a sensor of phenolic compounds based on DmpR, a transcription factor of the Ntrc family.	+	This part consists on a sensor of phenolic compounds based on DmpR, a transcription factor of the Ntrc family.
	Found in Pseudomonas sp. strain CF 600, DmpR regulates expression of the Po promoter, which drives transcription of  one single large operon for phenol degradation (dmpKLMNOPQBCDEFGHI).		Found in Pseudomonas sp. strain CF 600, DmpR regulates expression of the Po promoter, which drives transcription of  one single large operon for phenol degradation (dmpKLMNOPQBCDEFGHI).
	With GFP attached to P0 promoter, it is then possible to evaluate the presence of phenol by fluorescence analysis, if DmpR is expressed.<br/>		With GFP attached to P0 promoter, it is then possible to evaluate the presence of phenol by fluorescence analysis, if DmpR is expressed.<br/>
−	This part is basically composed of <br/>	+	This part is basically composed of <br/><ul>
−	-P0 promoter carrying two DmpR binding sequence, a IHF binding site and a sigma factor 54 binding site. <br/>	+	<li>P0 promoter carrying two DmpR binding sites, a IHF binding site and a sigma factor 54 binding site.
−	-RBS B0032 <br/>	+	<li>RBS <a href="https://parts.igem.org/Part:BBa_B0032">BBa_B0032</a>
−	-The super folded GFP (sfGFP) <br/>	+	<li>The super folded GFP (sfGFP)
−	-Pr promoter, a constitutive promoter <br/>	+	<li>Pr promoter, a constitutive promoter
−	-DmpR the transcription factor that enable sensing of phenol.<br/>	+	<li>DmpR the transcription factor that enable sensing of phenol.
−		+	</ul>
	We characterized this biosensor using phenol as effector.		We characterized this biosensor using phenol as effector.
−		+	</html>
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	<html>		<html>
−	We prepared a protocol test to evaluate our Biosensor: E.coli (DH5apha) was grown overnight in M9 medium at 37 °C and then diluted 100-fold to an OD of 0.01 in fresh M9 medium containing Chloramphenicol in 96-wells plates. After 6 hours’ of culture at 37 °C, each culture (200 μL) was centrifuged at 2500 r.p.m. for 15 minutes and was suspended in 200 μL of fresh M9 medium containing phenol of different concentrations Then the fluorescence intensity of cultures was measured by microplate reader (TECAN).	+	We prepared a protocol test to evaluate our Biosensor: E.coli (DH5apha) was grown overnight in M9 medium at 37 °C and then diluted 100-fold to an OD of 0.01 in fresh M9 medium containing Chloramphenicol in 96-wells plates. After 6 hours of culture at 37 °C, each culture (200 μL) was centrifuged at 2500 r.p.m. for 15 minutes and was suspended in 200 μL of fresh M9 medium containing phenol at different concentrations. Then the fluorescence intensity of cultures was measured by microplate reader (TECAN).
	<br/><br/>		<br/><br/>
	Figure 1 describes the 96-wells plate organisation used to evaluate the biosensor.		Figure 1 describes the 96-wells plate organisation used to evaluate the biosensor.
−	We used  three control in this experiment :<br/>	+	We used  three controls in this experiment :
−	Media only : To evaluate the natural fluorescence of the media with different concentrations of phenol.<br/>	+	<ul>
−	pSB1C3 : DH5alpha resistant to chloramphenicol used as a growth control.<br/>	+	<li>Media only : to evaluate the natural fluorescence of the media with different concentrations of phenol.
−	BBa_J23106 : DH5alpha carrying BBa J23106, allowing constitutive production of GFP. This control was used to evaluate the eventual impact of phenol on GFP expression and/or fluorescence.<br/>	+	<li>pSB1C3 : DH5alpha resistant to chloramphenicol used as a growth control.
		+	<li><a href="https://parts.igem.org/Part:BBa_J23106">BBa_J23106</a> : DH5alpha carrying <a href="https://parts.igem.org/Part:BBa_J23106">BBa_J23106</a>, allowing constitutive production of GFP. This control was used to evaluate the eventual impact of phenol on GFP expression and/or fluorescence.
		+	</ul><br/>
	Purified GFP :  Used to associated fluorescence values to a defined concentration of GFP.<br/>		Purified GFP :  Used to associated fluorescence values to a defined concentration of GFP.<br/>
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	<div align="center"><img alt="IMAGE" src="https://static.igem.org/mediawiki/parts/9/98/Bba_001_fluo_.jpg" width:"100px" width="500px;" class="thumbimage"/></div>		<div align="center"><img alt="IMAGE" src="https://static.igem.org/mediawiki/parts/9/98/Bba_001_fluo_.jpg" width:"100px" width="500px;" class="thumbimage"/></div>
−	<div align="center"><u>Figure 3 : Fluorescence intensity per cell of BBa_K1413001</u><br/> TECAN measurement of fluorescence during 11h growth, 37 C°, M9 media (0,4% glucose). The values were obtained by substracting raw Fluorescence values of bacteria exposed to phenol by fluorescence of media (M9) then dividing by corresponding OD600.	+	<div align="center"><u>Figure 3 : Fluorescence intensity per cell of <a href="https://parts.igem.org/Part:BBa_K1413001">BBa_K1413001</a></u><br/> TECAN measurement of fluorescence during 11h growth, 37 C°, M9 media (0,4% glucose). The values were obtained by substracting raw fluorescence values of bacteria exposed to phenol by fluorescence of media (M9) then dividing by corresponding OD600.
	</div>		</div>
	<br/><br/>		<br/><br/>
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	<div align="center"><img alt="IMAGE" src="https://static.igem.org/mediawiki/parts/7/78/Evry_001_induction.jpg"		<div align="center"><img alt="IMAGE" src="https://static.igem.org/mediawiki/parts/7/78/Evry_001_induction.jpg"
	width:"100px" width="500px;" class="thumbimage"/></div>		width:"100px" width="500px;" class="thumbimage"/></div>
−	<div align="center"><u>Figure 4 : Fluorescence induction ratio of BBa_K1413001 </u><br/>TECAN  measurement of fluorescence, 11h growth, 37 C°, M9 media (0,4% glucose). Induction ratio was obtained by dividing the fluorescence intensity of bacteria exposed to phenol by their basal fluorescence intensity (no phenol added)	+	<div align="center"><u>Figure 4 : Fluorescence induction ratio of <a href="https://parts.igem.org/Part:BBa_K1413001">BBa_K1413001</a></u><br/>TECAN  measurement of fluorescence, 11h growth, 37 C°, M9 media (0,4% glucose). Induction ratio was obtained by dividing the fluorescence intensity of bacteria exposed to phenol by their basal fluorescence intensity (no phenol added).
	</div>		</div>
	<br/><br/>		<br/><br/>
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	</div><br/><br/>		</div><br/><br/>
−	<b>Improvement of  BBa_K1413001 response to phenol.</b><br/>	+	<b>Improvement of  <a href="https://parts.igem.org/Part:BBa_K1413001">BBa_K1413001</a> response to phenol.</b><br/>
	We decided to strenghten the signal produced by our biosensor by mutating the ribosome binding site of sfGFP.		We decided to strenghten the signal produced by our biosensor by mutating the ribosome binding site of sfGFP.
−	This mutation is processed in a way that it reproduce the consensus sequence of Shine Dalgarno (AGGAGGUAA)allowing mRNA to bind more specifically to 16s rRNA. This in turn increases the translation rate of the mRNA.<br/>	+	This mutation is processed in a way that it reproduces the consensus sequence of Shine Dalgarno (AGGAGGUAA)allowing mRNA to bind more specifically to 16s rRNA. This in turn increases the translation rate of the mRNA.<br/>
−	See BBa_K1413002 part.<br/>	+	See <a href="https://parts.igem.org/Part:BBa_K1413002">BBa_K1413002</a> part.<br/>

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Revision as of 02:51, 2 November 2014

P0 promoter-RBS B0032-sfGFP- Terminator B0015 - Pr promoter-DmpR This part consists on a sensor of phenolic compounds based on DmpR, a transcription factor of the Ntrc family. Found in Pseudomonas sp. strain CF 600, DmpR regulates expression of the Po promoter, which drives transcription of one single large operon for phenol degradation (dmpKLMNOPQBCDEFGHI). With GFP attached to P0 promoter, it is then possible to evaluate the presence of phenol by fluorescence analysis, if DmpR is expressed.
This part is basically composed of

• P0 promoter carrying two DmpR binding sites, a IHF binding site and a sigma factor 54 binding site.
• RBS BBa_B0032
• The super folded GFP (sfGFP)
• Pr promoter, a constitutive promoter
• DmpR the transcription factor that enable sensing of phenol.

We characterized this biosensor using phenol as effector.

Usage and Biology

We prepared a protocol test to evaluate our Biosensor: E.coli (DH5apha) was grown overnight in M9 medium at 37 °C and then diluted 100-fold to an OD of 0.01 in fresh M9 medium containing Chloramphenicol in 96-wells plates. After 6 hours of culture at 37 °C, each culture (200 μL) was centrifuged at 2500 r.p.m. for 15 minutes and was suspended in 200 μL of fresh M9 medium containing phenol at different concentrations. Then the fluorescence intensity of cultures was measured by microplate reader (TECAN).

Figure 1 describes the 96-wells plate organisation used to evaluate the biosensor. We used three controls in this experiment :

• Media only : to evaluate the natural fluorescence of the media with different concentrations of phenol.
• pSB1C3 : DH5alpha resistant to chloramphenicol used as a growth control.
• BBa_J23106 : DH5alpha carrying BBa_J23106, allowing constitutive production of GFP. This control was used to evaluate the eventual impact of phenol on GFP expression and/or fluorescence.

Purified GFP : Used to associated fluorescence values to a defined concentration of GFP.




These data show an increase in expression of sfGFP in response to increasing concentration of phenol present in wells.They also show that the biosensor is able to sense down to 1µM of phenol. The induction ratio calculated from these data(Figure 4) show an 8-fold increase of fluorescence at 1µM of phenol and up to 45-fold increase at 1000µM.



Comparing these data with those obtained by iGEM Peking 2013 indicates an improvement in the ability to produce a distinctive signal in response to phenol.
(Figure 5)


Improvement of BBa_K1413001 response to phenol.
We decided to strenghten the signal produced by our biosensor by mutating the ribosome binding site of sfGFP. This mutation is processed in a way that it reproduces the consensus sequence of Shine Dalgarno (AGGAGGUAA)allowing mRNA to bind more specifically to 16s rRNA. This in turn increases the translation rate of the mRNA.
See BBa_K1413002 part.
Sequence and Features