Team:Caltech
From 2011.igem.org
Team |
Hi! We are the Caltech 2011 iGEM Team. We are interested in bioremediation of endocrine disruptors or organic pollutants :) EDC's (Endocrine Disrupting Chemicals) are substances which detrimentally effect the development and reproduction of wild organisms. To remedy that, the Caltech iGEM team hopes to engineer bacteria which can sense and degrade DDT, estrogen, bisphenol A, and nonylphenol to less toxic forms. Compared to more traditional forms of pollution removal, bioremediation would be relatively cheaper and less disruptive to the environment.However, a successful project must make sure that the "remediator bacteria" do not act as pollutants, nor introduce toxic byproducts into the environment. The detection pathway triggered by binding of an endocrine disruptor to a receptor can be used to activate the production of the degradation enzymes. In our testing stages, the receptor will be temporarily activating a visual reporter pathway instead. Our plan is to alter the human receptor-activation pathway for estrogen to fit our project. When the human estrogen receptor binds to estrogen, it dimerizes into a construct that can bind to a responsive element on human DNA, triggering transcription. This receptor has been tested in E. coli in previous work, but has also shown a high toxicity to the organism. We will alter the receptor using protein tags such as maltose, green fluorescent protein, and ubiquitin, as these have been shown to help the estrogen receptor fold and to minimize its toxicity in E. coli. Since the estrogen receptor shows low-specificity binding to general endocrine disruptors, we can use site-directed mutagenesis to increase its specificity to our target chemicals DDT, ethinyl estradiol, BPA, and nonylphenol.
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