Difference between revisions of "Part:BBa K2862012"

 
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===Characterisation===
 
===Characterisation===
Prior to construction of this part into reporters, growth curve data of the part stored in an iGEM submission vector were taken to determine the cytotoxicity of the cells. DH5-α cells containing this plasmid grew to a final OD600 of X suggesting the part is not cytotoxic.
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Prior to construction of this part into reporters, growth curve data of the part stored in an iGEM submission vector were taken to determine the cytotoxicity of the cells. DH5-α cells containing this plasmid grew to a final OD600 of 1.5 suggesting the part is not cytotoxic.
  
Fig X23 Growth curve of part  
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[[File:T--Imperial College--growthcurveBBa K2862012.png|thumb|center|Figure 1: Growth curve of part BBa_K2862012.]]
  
Sanger sequencing was used to confirm the sequence of the part within the submission vector.
 
  
Fig X24 Sequencing quality scores? Phred scores?
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Sanger sequencing was used to confirm the sequence of the part within the submission vector.
  
Characterisation was performed using a simple reporter device assembled by BASIC assembly. Different SoxR transcription factors were expressed from a J23101 promoter and a medium strength RBS. Activation of GFP expression from this promoter was then determined.
 
  
Fig X25: Diagram of reporter circuit   
 
  
The following heat maps show the fold induction and RFU values of all members of the library, growing cells for 15 hours with either 0μM or 2.5μM of pyocyanin.  
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Characterisation was performed as part of a library of mutated SoxR transcription factors and mutated pSoxS promoters, using a simple reporter device assembled by BASIC assembly (Figure 2). Different SoxR transcription factors were expressed from a J23101 promoter and a medium strength RBS. Activation of GFP expression from combinations of mutated promoters and transcription factors was then determined.
  
Fig X26: Diagram of both heat maps.
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[[File:T--Imperial College--newlidconst.png|thumb|center|Figure 2: Diagram of reporter circuit]]
  
Some members of the library form orthogonal pairs that can be used together with minimal cross-talk.
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The following heat maps (Figure 3) show the fluorescence in 2.5μM pyocyanin relative to the library promoter seed Part:BBa_K2862006, and the change in absolute values of fluorescence between 0μM and 2.5μM pyocyanin for a given promoter/transcription factor pair, have grown cells for 15 hours.
  
Fig X26: List of Orthogonal Pairs
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[[File:T--Imperial College--heatmapswht4.png|thumb|center|Figure 3: Performance of library. Left: GFP fluorescence/OD600 for promoter/transcription factor pairs for cells grown for 15 hours. "0" indicates a failed experiment in which cells with a functioning construct were not observed. Right: absolute changes in GFP flourescence/OD600 for functioning constructs.]]
  
  

Latest revision as of 02:24, 18 October 2018


pSoxS from P. gaviniae

pSoxS is one half of the pSoxR/pSoxS bidirectional promoter. Transcription downstream of pSoxS is activated in response to oxidation of the SoxR transcription factor, either directly by redox-cycling drugs or by oxidative stress. It is therefore inducible by various redox-cycling drugs, toxins, antibiotics, heavy metals, hydrogen peroxide and nitric oxide: providing various applications in the development of environmental and therapeutic devices. By coupling oxidation of redox-cycling species to an electrode, the 2018 Imperial College London iGEM team (PixCell) used pSoxS to build electrogenetic devices where electrical inputs modulated gene expression.

This pSoxS promoter was taken from Pantoea gaviniae and engineered to be unidirectional by knocking out activity of the pSoxR portion. It was designed with an upstream terminator to remove the need for these to be added as parts in large assemblies. It also contains a downstream ribozyme to reduce context-dependency. It forms part of the PixCell library of electrogenetic and redox-sensing parts.

This part is compatible for BioBrick, BASIC and Golden Gate assembly.


Biology

pSoxS is the cognate transcription factor to the SoxR trasncription factor and one half of the pSoxR/pSoxS bidirectional promoter. When SoxR is reduced the promoter is inactive whereas upon its oxidation by redox-cycling drugs or oxidative stress it provides transcriptional activation downstream of pSoxS. This allows for activation of the soxRS regulon which allows for adaptation to conditions of oxidative stress. Although SoxR is able to bind pSoxS in both its oxidised and reduced forms, only the oxidised form provides transcriptional activation.

The promoter is conserved amongst various species of both gram-positive and gram-negative bacteria. A long 19bp spacer region between the -10 and -35 consensus sequences (16-18bp is standard) allows for the promoter to be constitutively inactive. Crystallographic data shows that interactions between oxidised SoxR and the spacer is reduced in length by ~3.4Å, the equivalent of ~1bp, thereby returning the spacer region to a more standard length. This allows for transcription to occur from the promoter, demonstrating the promoters mechanism of transcriptional activation. Previous papers proved how deletions of 2bp from the spacer region can manipulate this mechanism to create a constitutively active promoter with induction causing transcriptional repression due to shortening of the spacer region past the threshold for activity. Transcriptional activation downstream of pSoxS allows for activation of the soxRS regulon which in turns provides adaptation to conditions of oxidative stress.


Usage

pSoxS combined with SoxR acts as a functional sensor of redox-cycling drugs and oxidative stress, making it a useful part for the creation of biosensors or devices activated by redox-cycling drugs, toxins, antibiotics, certain organic molecules, heavy metals, nitric oxide and hydrogen peroxide: all of which can exert oxidative stress on cells.

The 2018 Imperial College London iGEM project (PixCell) utilised SoxR in electrogenetic devices capable of activating gene expression in response to an electrical stimulus. This was achieved via oxidation and reduction of redox-mediators at an electrode. These systems provide programmable spatiotemporal control of gene expression with an inexpensive experimental set up.

The induction of this system by redox-cycling drugs makes it a particularly cheap system to use for chemical induction of gene expression, with the molecule PMS (phenazine methosulfate) being cheaper per reaction than several other common chemical inducers.

As part of the PixCell library, pSoxS can be coupled with various different parts to tune the dose response of the system to suit the device being constructed.


Characterisation

Prior to construction of this part into reporters, growth curve data of the part stored in an iGEM submission vector were taken to determine the cytotoxicity of the cells. DH5-α cells containing this plasmid grew to a final OD600 of 1.5 suggesting the part is not cytotoxic.

Figure 1: Growth curve of part BBa_K2862012.


Sanger sequencing was used to confirm the sequence of the part within the submission vector.


Characterisation was performed as part of a library of mutated SoxR transcription factors and mutated pSoxS promoters, using a simple reporter device assembled by BASIC assembly (Figure 2). Different SoxR transcription factors were expressed from a J23101 promoter and a medium strength RBS. Activation of GFP expression from combinations of mutated promoters and transcription factors was then determined.

Figure 2: Diagram of reporter circuit

The following heat maps (Figure 3) show the fluorescence in 2.5μM pyocyanin relative to the library promoter seed Part:BBa_K2862006, and the change in absolute values of fluorescence between 0μM and 2.5μM pyocyanin for a given promoter/transcription factor pair, have grown cells for 15 hours.

Figure 3: Performance of library. Left: GFP fluorescence/OD600 for promoter/transcription factor pairs for cells grown for 15 hours. "0" indicates a failed experiment in which cells with a functioning construct were not observed. Right: absolute changes in GFP flourescence/OD600 for functioning constructs.


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 site found at 49
    Illegal BsaI.rc site found at 286