Team:Northwestern/Project

From 2014.igem.org

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Revision as of 15:37, 15 August 2014

Our Project: Modelling Non-Model Organism

Overview

We are still working on our project description...

The possibilities through synthetic biology are endless, but oftentimes the foundational scientific methods are not fully optimized or explored. Each project operates fairly autonomously, pulling on the work of others to aid research, yet sometimes plowing ahead to solve the problem at hand without the contributions from predecessors. The most categorized and recognized promoters are the Anderson Promoters. However, the rank classification for these promoters are based on the relative strength of maximum fluorescence and nothing else

We aim to categorize the function of a number of promoters based on absolute maximum fluorescence and the time it took to reach that point. For industrial applications a quicker response time can minimize reaction time which could lead to economic benefit. The goal of our project was to explore and compare the different transcriptional and translational rates of known model organisms such as E. coli to various non-model strains, with all processes taking place in cell free systems. Additionally, instead of testing all possible combinations of promoters, RBSs, and organisms, we tested a select number and then used predictive modeling to assess which combination yielded the strongest glow/signal/fluorescence. This is in the hopes that by compiling a list of well-characterized parts such as promoters and RBSs, the information could be used to further the field of synthetic biology through environmental, health, and industrial applications by minimizing the need to extensively modify E. Coli to meet particular environmental factors.