Articles
DESIGN PRINCIPLES AND APPLICATIONS OF ENGINEERED MICROBIAL CONSORTIA
Article number
905_5
Pages
63 – 69
Language
English
Abstract
Synthetic biology has generated countless examples of novel behavior in bacteria.
Through a combination of mathematical modeling and experimental analyses, researchers utilize engineered genetic circuits to predict and control bacteria, yeast and mammalian cells.
However, due the ability of microbial consortia to perform increasingly complex tasks, consortia are being implemented for use in synthetic biology.
In order to confer a novel behavior to a consortium, two distinct microbial populations can be engineered to communicate with each other by using small molecules or metabolites.
Alternatively, one can spatially constrain and arrange each population.
Once a microbial consortium is designed, one can utilize the system to address significant ecological questions.
Furthermore, microbial consortia can potentially be used in field-specific applications, such as biofuel production and bioremediation.
In the following manuscript, current concepts and methodologies involved in engineering synthetic microbial consortia are reviewed along with current and future applications of such consortia.
Through a combination of mathematical modeling and experimental analyses, researchers utilize engineered genetic circuits to predict and control bacteria, yeast and mammalian cells.
However, due the ability of microbial consortia to perform increasingly complex tasks, consortia are being implemented for use in synthetic biology.
In order to confer a novel behavior to a consortium, two distinct microbial populations can be engineered to communicate with each other by using small molecules or metabolites.
Alternatively, one can spatially constrain and arrange each population.
Once a microbial consortium is designed, one can utilize the system to address significant ecological questions.
Furthermore, microbial consortia can potentially be used in field-specific applications, such as biofuel production and bioremediation.
In the following manuscript, current concepts and methodologies involved in engineering synthetic microbial consortia are reviewed along with current and future applications of such consortia.
Publication
Authors
R.P. Smith
Keywords
synthetic biology, gene circuit, cell to cell communication, quorum sensing, synthetic ecosystem, metabolite exchange
Online Articles (35)