Team:Aachen/Project/Gal3
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In our approach, a '''galectin-3-YFP fusion protein''' is built and expressed in ''E. coli''. A his-tag and a snap-tag for purification are included. The fusion protein can then be incorporated into a '''cell-free biosensor system'''. Such biosensors have many advantages over systems that use living cells; storage, for example, is much easier. From a [https://2014.igem.org/Team:Aachen/Safety biosafety] and social acceptance perspective, it is also advantageous if the sensor system does not contain live genetically modified organisms. | In our approach, a '''galectin-3-YFP fusion protein''' is built and expressed in ''E. coli''. A his-tag and a snap-tag for purification are included. The fusion protein can then be incorporated into a '''cell-free biosensor system'''. Such biosensors have many advantages over systems that use living cells; storage, for example, is much easier. From a [https://2014.igem.org/Team:Aachen/Safety biosafety] and social acceptance perspective, it is also advantageous if the sensor system does not contain live genetically modified organisms. | ||
- | {{Team:Aachen/Figure|Aachen_14-10-09_Cell_Free_Biosensor_iNB.png | + | {{Team:Aachen/Figure|Aachen_14-10-09_Cell_Free_Biosensor_iNB.png|width=50px}} |
To detect ''P. aeruginosa'' cells, an agar chip could be used to sample a solid surface. However, other materials but agar can be considered to collect the pathogens. The cell stick to the sampling chip which is then immersed in a detection buffer containing the galectin-3-YFP fusion protein. Excess protein is removed during washing in a suitable buffer. The galectin-3 remains bound to the pathogen and '''illumination with 514 nm''', the excitation frequency of YFP, in a modified version of our measurement device reveals the location of the cells. The picture taken by the measurement device can then be analyzed by our software ''Measurarty''. | To detect ''P. aeruginosa'' cells, an agar chip could be used to sample a solid surface. However, other materials but agar can be considered to collect the pathogens. The cell stick to the sampling chip which is then immersed in a detection buffer containing the galectin-3-YFP fusion protein. Excess protein is removed during washing in a suitable buffer. The galectin-3 remains bound to the pathogen and '''illumination with 514 nm''', the excitation frequency of YFP, in a modified version of our measurement device reveals the location of the cells. The picture taken by the measurement device can then be analyzed by our software ''Measurarty''. |
Revision as of 19:42, 9 October 2014
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