Difference between revisions of "Part:BBa K2447000"

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<partinfo>BBa_K2447000 short</partinfo>
 
<partinfo>BBa_K2447000 short</partinfo>
  
PhoB and PhoR proteins are part of the Pho regulon inherent in E.coli. When low concentration of extracellular phosphate ions is present, PhoR can phosphorylate PhoB to form active phosphorylated-PhoB. PhoB promoter is activated as a result of active binding of phosphorylated-PhoB, resulting in downstream expression of GFP. When high concentration of extracellular phosphate ions is present, PhoR will dephosphorylate phosphorylated-PhoB, and therefore inactivating it, and repressing PhoB promoter for downstream expression of GFP. [[Image:Phosphate1.png|thumb|center|500px|PhoR and PhoB proteins work in tandem to control promoter PhoB and consequential downstream expression of GFP]]
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PhoB and PhoR proteins are part of the Pho regulon in <i>E. coli</i>. When a low concentration of extracellular phosphate ions is present, PhoR can phosphorylate PhoB to form an active phosphorylated-PhoB. PhoB promoter is activated as a result of active binding of phosphorylated-PhoB, resulting in downstream expression of GFP. When a high concentration of extracellular phosphate ions is present, PhoR will dephosphorylate PhoB, and therefore inactivating it, and repressing the PhoB promoter for GFP expression. [[Image:Phosphate1.png|thumb|center|500px|Figure 1: PhoR and PhoB proteins work in tandem to control promoter PhoB and consequential downstream expression of GFP.]]
  
====Improvement over previous iGEM part [https://parts.igem.org/Part:BBa_K116404 BBa_K116404 (NYMUTaipei 2008)]====
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====Improvement over previous iGEM part [https://parts.igem.org/Part:BBa_K116404 BBa_K116404 (NYMU Taipei 2008)]====
The two parts (Bba_K2447000 & BBa_K116404) listed below are inserted into pBbE2k backbones and subsequently characterised in E.coli MG1656. These cells are grown in MOPS medium (a minimal nutrient medium) and varying concentrations of phosphate ions from 0 to 1000 uM are added.
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The two parts (Bba_K2447000 & BBa_K116404) listed below are inserted into pBbE2k backbone and subsequently characterized in <i>E. coli</i> MG 1655. These cells were grown in LB medium before resuspension in MOPS medium (a minimal nutrient medium) for characterization with a micro-plate reader. Varying concentrations of phosphate ions from 0 to 1000 uM were added and GFP expression was monitored.  
  
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By replacing the weaker RBS BBa_B0032 of the original part with a stronger RBS BBa_B0034, we have successfully constructed an improved phosphate sensor-GFP reporter. Our part shows, on average, a 40-fold increase in GFP expression (Figure 3) when compared to the previous version of the construct (http://2008.igem.org/Team:NYMU-Taipei/Project/Phosphate). The original phosphate construct is also insensitive to high phosphate concentrations above 50 µM where similar levels of GFP expression are observed (Figure 4). Unlike the previous construct, our improved phosphate construct is much more sensitive to various phosphate concentrations from 0 to 1000 µM, particularly at phosphate concentrations above 50 µM.
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[[Image:Phosphate5.png|thumb|center|800px|Figure 2: Side by side comparison of our improved construct Bba_K2447000 & the original construct BBa_K116404. Our proposed part exhibited greater GFP expression at every phosphate concentration and exhibited much higher sensitivity to phosphate levels above 50 uM.]]
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[[Image:Phosphate6.png|thumb|center|800px|Figure 3: Our improved phosphate construct is much more sensitive to phosphate concentrations above 50 uM, unlike the original construct.]]
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[[Image:Phosphate7.png|thumb|center|800px|Figure 4: GFP expression by the original phosphate construct designed by the Taiwanese team.]]
  
[[Image:Phosphate2.png|thumb|center|800px|PhoR and PhoB proteins work in tandem to control promoter PhoB and consequential downstream expression of GFP]]
 
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[[Image:Phosphate3.png|thumb|center|800px|PhoR and PhoB proteins work in tandem to control promoter PhoB and consequential downstream expression of GFP]]
 
  
  
The two parts (Bba. ...) listed below are inserted into e8k backbones and subsequently characterised in E.coli MG1656. These cells are grown in MOPS medium (a minimal nutrient medium) and varying concentrations of phosphate ions from 0 to 1000 uM are added.
 
  
By replacing the weaker RBS 32 (as utilised by the Taiwanese team) with a stronger binding affinity RBS 34 as proposed by IGEM NUS team 2017, we have elucidated much stronger GFP expression and also improved the sensivity of the part to varying concentrations of phosphate ions. Previously, the Taiwanese part had reported similar level of repressed GFP productions for phosphate concentrations above 40uM. On the other hand, our part is sensitive to phosphate concentration above 40 uM, elucidating differential GFP expressions when placed in different phosphate level.
 
  
figure 2: side by side comparison of construct Bba.... upon expressing GFP/OD production as a percentage. our proposed part exhibited greater sensitivity to phosphate levels above 40uM.
 
figure 3: Our proposed phosphate construct, sensitive to phosphate concentrations from 0 to 1000 uM.
 
  
 
<!-- Add more about the biology of this part here
 
<!-- Add more about the biology of this part here

Latest revision as of 19:40, 17 December 2021


Extracellular phosphate sensor with GFP reporter

PhoB and PhoR proteins are part of the Pho regulon in E. coli. When a low concentration of extracellular phosphate ions is present, PhoR can phosphorylate PhoB to form an active phosphorylated-PhoB. PhoB promoter is activated as a result of active binding of phosphorylated-PhoB, resulting in downstream expression of GFP. When a high concentration of extracellular phosphate ions is present, PhoR will dephosphorylate PhoB, and therefore inactivating it, and repressing the PhoB promoter for GFP expression.
Figure 1: PhoR and PhoB proteins work in tandem to control promoter PhoB and consequential downstream expression of GFP.

Improvement over previous iGEM part BBa_K116404 (NYMU Taipei 2008)

The two parts (Bba_K2447000 & BBa_K116404) listed below are inserted into pBbE2k backbone and subsequently characterized in E. coli MG 1655. These cells were grown in LB medium before resuspension in MOPS medium (a minimal nutrient medium) for characterization with a micro-plate reader. Varying concentrations of phosphate ions from 0 to 1000 uM were added and GFP expression was monitored.

By replacing the weaker RBS BBa_B0032 of the original part with a stronger RBS BBa_B0034, we have successfully constructed an improved phosphate sensor-GFP reporter. Our part shows, on average, a 40-fold increase in GFP expression (Figure 3) when compared to the previous version of the construct (http://2008.igem.org/Team:NYMU-Taipei/Project/Phosphate). The original phosphate construct is also insensitive to high phosphate concentrations above 50 µM where similar levels of GFP expression are observed (Figure 4). Unlike the previous construct, our improved phosphate construct is much more sensitive to various phosphate concentrations from 0 to 1000 µM, particularly at phosphate concentrations above 50 µM.

Figure 2: Side by side comparison of our improved construct Bba_K2447000 & the original construct BBa_K116404. Our proposed part exhibited greater GFP expression at every phosphate concentration and exhibited much higher sensitivity to phosphate levels above 50 uM.


Figure 3: Our improved phosphate construct is much more sensitive to phosphate concentrations above 50 uM, unlike the original construct.
Figure 4: GFP expression by the original phosphate construct designed by the Taiwanese team.




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
    INCOMPATIBLE WITH RFC[1000]
    Illegal BsaI.rc site found at 1162