Team:British Columbia/ProjectConsortia

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British Columbia - 2012.igem.org

Introduction

Synthetic biology attempts to understand biological systems through constructing them. Building synthetic genetic circuits has led to insights into the emergent complexity of genetic regulation when engineering and optimizing metabolic pathways within single cells. In nature, microbes exist in the context of communities to overcome the limitations in consolidating complex tasks. The taxonomically and functionally diverse interactions between microbes mediate processes such as global climate change and the remediation of environmental contamination. Understanding and harnessing the function of microbial communities may be achieved by mimicking natural systems through the design of synthetic consortia. This approach would aim to distribute metabolism and complete tasks that are too difficult for a single organism. Synthetic consortia also open up possibilities in individual pathway compartmentalization, optimization through labor division and precise system regulation.

Before compartmentalizing a pathway, this project first aimed to construct a three member tunable microbial consortia. Building from the work by Kerner et al., this will be done by co-culturing three interdependent E.coli auxotrophs which cross-feed through the induction of amino acid biosynthetic genes. Ultimately, the tunable consortium will be applied to the optimization biodesulferization and compared to a single cell approach in a proof-of-concept circuit to demonstrate the potential of synthetic ecology.