Difference between revisions of "Part:BBa K1189027:Experience"
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+ | <p>Team Wageningen UR 2012 worked with E/K coil pairs, however only submitted a single E coil fused to GFP. As these parts are only useful when the complementary coil is used, and order for these parts to be more capable of being used for a wide variety of dimerization and tagging purposes on any protein of interest, we have submitted the E and K coil parts on their own (with Frieburg cutsites to allow for protein fusions to be created), with His tags in order to allow for protein purification, and with GFP fusions to allow for tagging of proteins with a reporter.</p></html> | ||
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+ | ===Applications of BBa_K1189010=== | ||
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Revision as of 17:57, 1 October 2013
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how you used this part and how it worked out.
Improvements
Team Wageningen UR 2012 worked with E/K coil pairs, however only submitted a single E coil fused to GFP. As these parts are only useful when the complementary coil is used, and order for these parts to be more capable of being used for a wide variety of dimerization and tagging purposes on any protein of interest, we have submitted the E and K coil parts on their own (with Frieburg cutsites to allow for protein fusions to be created), with His tags in order to allow for protein purification, and with GFP fusions to allow for tagging of proteins with a reporter.
Applications of BBa_K1189010
We evaluated the binding of our coils using other constructs that make use of the E and K coil parts submitted. In the case of the coils we were interested to see if the K-coil fused to TALE proteins (BBa_K1189029, BBa_K1189030) could bind to the E-coil found on one of our Prussian blue ferritin constructs (BBa_K1189018). To complete this task we placed the TALE on the membrane, washed and blocked the membrane. The ferritin protein with the complimentary coil was then added to the membrane. If this coil successfully binds to the other coil then the ferritin will not be washed off during the next wash step. We can then see if Prussian blue ferritin is bound by adding a TMB substrate solution that will cause a colour change. To this extent we saw a blue ring in this trial indicating a positive result. This suggests that our coils are actually binding in an in vitro system.
Another interesting element of this assay is why we used two variants of the TALE K-coil negative control. A blue ring on our TALE negative control confirmed our fear that during the second protein application and wash step that some of the ferritin with coil proteins would drift over and bind to the TALE K-coils on the nitrocellulose. This did not occur for our separate negative control (Figure 1).