Difference between revisions of "Part:BBa K104001"

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<partinfo>BBa_K104001 short</partinfo>
 
<partinfo>BBa_K104001 short</partinfo>
  
This part is for use in a ''Bacillus subtilis'' chassis. It encodes a two-component system that can be used to sense the level of a small lantibiotic peptide called subtilin. It belongs to the signalling series of parts (it is a receiver) and can be used to sense quorum sensing peptides from Gram positive organisms. In the [http://2008.igem.org/Team:Newcastle_University Newcastle 2008 iGEM entry] it was used a 'proof of concept' brick to test whether a quorum sensing peptide produced by one species or stain of bacteria could be sensed by a different strain or species.  
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This part is for use in a ''Bacillus subtilis'' chassis. It encodes a two-component system that can be used to sense the level of a small antibiotic peptide called subtilin. It belongs to the signalling series of parts (it is a receiver) and can be used to sense quorum sensing peptides from Gram positive organisms. In the [http://2008.igem.org/Team:Newcastle_University Newcastle 2008 iGEM entry] it was used a 'proof of concept' brick to test whether a quorum sensing peptide produced by one species or stain of bacteria could be sensed by a different strain or species.  
  
The part contains two orfs arranged in an operon, SpaK and SpaR, that are driven by their native RBSs and the promoter PspaRK. Downstream of the SpaRK operon is terminator followed by a RBS and a promoter PspaS.
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The part contains two ORFs arranged in an operon, SpaK and SpaR, that are driven by their native RBSs and the promoter PspaRK. Downstream of the SpaRK operon is terminator followed by a RBS and a promoter PspaS.
  
In response to subtilin, the sensor kinase SpaK will phosphorylate, and hence activate, the response regulator SpaR. The phosphorylated SpaR protein activates the PspaS promoter driving the expression of any downstream genes. In this brick there are no ORF's downstream of PspaS but the brick has been tested with gfp and mcherry by the Newcastle 2008 team.
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In response to subtilin, the sensor kinase SpaK will phosphorylate, and hence activate, the response regulator SpaR. The phosphorylated SpaR protein activates the PspaS promoter driving the expression of any downstream genes. In this brick there are no ORFs downstream of PspaS but the brick has been tested with GFP and mCherry by the Newcastle 2008 team.
  
 
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Revision as of 10:01, 28 October 2008

Sensor for small peptide Subtilin

This part is for use in a Bacillus subtilis chassis. It encodes a two-component system that can be used to sense the level of a small antibiotic peptide called subtilin. It belongs to the signalling series of parts (it is a receiver) and can be used to sense quorum sensing peptides from Gram positive organisms. In the [http://2008.igem.org/Team:Newcastle_University Newcastle 2008 iGEM entry] it was used a 'proof of concept' brick to test whether a quorum sensing peptide produced by one species or stain of bacteria could be sensed by a different strain or species.

The part contains two ORFs arranged in an operon, SpaK and SpaR, that are driven by their native RBSs and the promoter PspaRK. Downstream of the SpaRK operon is terminator followed by a RBS and a promoter PspaS.

In response to subtilin, the sensor kinase SpaK will phosphorylate, and hence activate, the response regulator SpaR. The phosphorylated SpaR protein activates the PspaS promoter driving the expression of any downstream genes. In this brick there are no ORFs downstream of PspaS but the brick has been tested with GFP and mCherry by the Newcastle 2008 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
    COMPATIBLE WITH RFC[1000]