Team:FHS Frederick MD

From 2014hs.igem.org

Revision as of 10:18, 19 June 2014 by Rozakd (Talk | contribs)
FHS Logo.png



Team

Tshirts.jpg

We are interested in creating a microbial fuel cell that utilizes anaerobic bacteria to produce electricity. In order to optimize the growth conditions in the fuel cell, a fluorescent protein marker will be added so to visualize bacterial growth. We plan to implement an oxygen-sensitive promoter to induce expression of the glowing gene. This should ensure that bacteria only grow under anaerobic conditions. This would lead to the creation of a genetic construct that can be deposited back into the “toolbox” parts repository for iGEM.

Goals

Gene Design

(Kyle and Jonathon, briefly summarize how NirB and LOV work together.)

Methods

(This is Dillon's domain.)

3A Assembly

We used the 3A, or 3 antibody, assembly kit in order to transform E.coli with two genes, the LOV gene and the NirB gene. These genes will allow for further work with Schwenella bacteria in the anaerobic microbial fuel cell. We then used the mini-prep components of the kit to purify our plasmid. We verified the plasmid's presence through electrophoresis and further sequence analysis.

Results/Conclusions

What did you achieve over the course of your semester?


Sponsors

NEB Logo.jpg BNBL Logo.jpg ABT Logo.jpg
New England Biolabs provided our team with many of the enzymes and reagents we needed to for this project. The Battelle National Biodefense Institute helped cover our iGEM registration costs. Ars Biotechnica is a nonprofit profit organization established by our mentors to help Frederick and other high schools build and maintain synthetic biology labs.