合成生物学
生物
稳健性(进化)
生态学
生化工程
领域(数学)
生物技术
计算生物学
管理科学
工程类
数学
生物化学
基因
纯数学
作者
Nathan I Johns,Tomasz Blazejewski,Antonio L. C. Gomes,Harris H. Wang
标识
DOI:10.1016/j.mib.2016.03.010
摘要
Advances in synthetic biology to build microbes with defined and controllable properties are enabling new approaches to design and program multispecies communities. This emerging field of synthetic ecology will be important for many areas of biotechnology, bioenergy and bioremediation. This endeavor draws upon knowledge from synthetic biology, systems biology, microbial ecology and evolution. Fully realizing the potential of this discipline requires the development of new strategies to control the intercellular interactions, spatiotemporal coordination, robustness, stability and biocontainment of synthetic microbial communities. Here, we review recent experimental, analytical and computational advances to study and build multi-species microbial communities with defined functions and behavior for various applications. We also highlight outstanding challenges and future directions to advance this field.
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