Engineered microbial consortia: strategies and applications.
Many applications of microbial synthetic biology, such as metabolic engineering and biocomputing, are increasing in design complexity. Implementing complex tasks in single populations can be a challenge because large genetic circuits can be burdensome and difficult to optimize. To overcome these limitations, microbial consortia can be engineered to distribute complex tasks among multiple populations. Recent studies have made substantial progress in programming microbial consortia for both basic understanding and potential applications. Microbial consortia have been designed through diverse strategies, including programming mutualistic interactions, using programmed population control to prevent overgrowth of individual populations, and spatial segregation to reduce competition. Here, we highlight the role of microbial consortia in the advances of metabolic engineering, biofilm production for engineered living materials, biocomputing, and biosensing. Additionally, we discuss the challenges for future research in microbial consortia.
Duke Scholars
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Related Subject Headings
- Synthetic Biology
- Microbial Consortia
- Metabolic Engineering
- Industrial Microbiology
- Biotechnology
- Biosensing Techniques
- Biofilms
- 3107 Microbiology
- 1003 Industrial Biotechnology
- 0605 Microbiology
Citation
Published In
DOI
EISSN
ISSN
Publication Date
Volume
Issue
Start / End Page
Related Subject Headings
- Synthetic Biology
- Microbial Consortia
- Metabolic Engineering
- Industrial Microbiology
- Biotechnology
- Biosensing Techniques
- Biofilms
- 3107 Microbiology
- 1003 Industrial Biotechnology
- 0605 Microbiology