Team:Aachen/Project/2D Biosensor

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= 2D Biosensor =
= 2D Biosensor =
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== Principle of Operation ==
''Cellock Holmes'' is devised based upon a SynBio approach comprised of a '''two-dimensional biosensor and a measurement device'''. The two-dimensional biosensor is designed to recognize quorum sensing molecules secreted by the pathogen cells and generate a distinct fluorescence signal, while the measurement device is designed to recognize and analyse the produced signal.
''Cellock Holmes'' is devised based upon a SynBio approach comprised of a '''two-dimensional biosensor and a measurement device'''. The two-dimensional biosensor is designed to recognize quorum sensing molecules secreted by the pathogen cells and generate a distinct fluorescence signal, while the measurement device is designed to recognize and analyse the produced signal.
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For our biosensor, our team genetically modified ''E. coli'' cells to be able to elecit a fluorescent response to quorum sensing molecules produced by the pathogen ''Pseudomonas aeruginosa''.
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==A Novel Molecular Approach==
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For our biosensor, our team genetically modified ''E. coli'' cells to be able to elecit a fluorescent response to autoinducers produced by the pathogen ''Pseudomonas aeruginosa'' during quorum sensing. In the case of ''P. aeruginosa'', these autoinducers are  N-3-oxo-dodecanoyl-L-homoserine lactone, or 3-oxo-C-12-HSL for short. The quorum sensing system of this pathogen contains the LasR activator which binds 3-oxo-C-12-HSL, and the LasI promoter, which is activated by the LasR-HSL complex. Both LasR activator and LasI promoter are available as BioBricks [http://parts.igem.org/Part:BBa_C0179 C0179] and [http://parts.igem.org/Part:BBa_J64010 J64010].
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As a reporter gene, we use GFP. However, expression of GFP is not simply controlled through the LasI promoter activity in our approach. Instead, our sensor cells contain a constitutively expressed fusion protein consisting of GFP and a dark quencher, and an HSL-inducible protease.
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''Add: [Fig. 1: Scheme of our molecular approach]''
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{{Team:Aachen/Footer}}
{{Team:Aachen/Footer}}

Revision as of 15:02, 6 October 2014

2D Biosensor

Principle of Operation

Cellock Holmes is devised based upon a SynBio approach comprised of a two-dimensional biosensor and a measurement device. The two-dimensional biosensor is designed to recognize quorum sensing molecules secreted by the pathogen cells and generate a distinct fluorescence signal, while the measurement device is designed to recognize and analyse the produced signal.


A Novel Molecular Approach

For our biosensor, our team genetically modified E. coli cells to be able to elecit a fluorescent response to autoinducers produced by the pathogen Pseudomonas aeruginosa during quorum sensing. In the case of P. aeruginosa, these autoinducers are N-3-oxo-dodecanoyl-L-homoserine lactone, or 3-oxo-C-12-HSL for short. The quorum sensing system of this pathogen contains the LasR activator which binds 3-oxo-C-12-HSL, and the LasI promoter, which is activated by the LasR-HSL complex. Both LasR activator and LasI promoter are available as BioBricks [http://parts.igem.org/Part:BBa_C0179 C0179] and [http://parts.igem.org/Part:BBa_J64010 J64010].

As a reporter gene, we use GFP. However, expression of GFP is not simply controlled through the LasI promoter activity in our approach. Instead, our sensor cells contain a constitutively expressed fusion protein consisting of GFP and a dark quencher, and an HSL-inducible protease.

Add: [Fig. 1: Scheme of our molecular approach]



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