Team:Harvard/Results/Zinc Finger Binders
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We assembled the Color Blindness Bottom library, transformed it into the proper selection strain, and plated on incomplete media with varying concentrations of 3-AT. We saw colonies form, with more on the less stringent plates (NM) and fewer colonies on the higher 3-AT concentrations. Several colonies were picked and tested under varying concentrations of 3-AT in plate reader overnight, and there was a clear difference in growth between the colonies and the negative control (CB bottom binding site with Zif268). After sequencing, we identified xx novel zinc fingers! | We assembled the Color Blindness Bottom library, transformed it into the proper selection strain, and plated on incomplete media with varying concentrations of 3-AT. We saw colonies form, with more on the less stringent plates (NM) and fewer colonies on the higher 3-AT concentrations. Several colonies were picked and tested under varying concentrations of 3-AT in plate reader overnight, and there was a clear difference in growth between the colonies and the negative control (CB bottom binding site with Zif268). After sequencing, we identified xx novel zinc fingers! | ||
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Revision as of 20:42, 25 September 2011
Overview | MAGE | Lambda Red| Chip-Based Library | One-Hybrid Selection | Zinc Finger Binders | Biobricks
Color Blindness (CB) Bottom Hits
We assembled the Color Blindness Bottom library, transformed it into the proper selection strain, and plated on incomplete media with varying concentrations of 3-AT. We saw colonies form, with more on the less stringent plates (NM) and fewer colonies on the higher 3-AT concentrations. Several colonies were picked and tested under varying concentrations of 3-AT in plate reader overnight, and there was a clear difference in growth between the colonies and the negative control (CB bottom binding site with Zif268). After sequencing, we identified xx novel zinc fingers!