营养不良
计算生物学
合成生物学
生物
系统生物学
基因
代谢工程
代谢途径
细菌
化学
生物化学
营养物
大肠杆菌蛋白质类
生化工程
代谢网络
有机体
微生物学
计算机科学
工作(物理)
生物技术
大肠杆菌
微生物代谢
营养感应
新陈代谢
平衡
必需营养素
基因表达调控
模式生物
作者
Nicolas E. Grandel,Amanda M. Alexander,Xiao Peng,Caroline Palamountain,Razan N. Alnahhas,Andrew J. Hirning,Krešimir Josić́,Matthew R. Bennett
标识
DOI:10.1038/s41467-025-63575-z
摘要
Synthetic microbial consortia are collections of multiple strains or species of engineered organisms living in a shared ecosystem. Because they can separate metabolic tasks among different strains, synthetic microbial consortia have applications in developing biomaterials, biomanufacturing, and biotherapeutics. However, synthetic consortia often require burdensome control mechanisms to ensure that consortia members remain at the correct proportions. Here, we present a simple method for controlling consortia proportions using cross-feeding in continuous auxotrophic co-culture. We use mutually auxotrophic E. coli with different essential gene deletions and regulate the growth rates of members of the consortium via cross-feeding of the missing nutrients in each strain. We demonstrate precise regulation of the proportions by exogenous addition of the missing nutrients. We also model the co-culture’s behavior using a system of ordinary differential equations that enable us to predict its response to changes in nutrient concentrations. Our work provides a powerful tool for consortia proportion control with minimal metabolic costs to the constituent strains. Synthetic microbial consortia are collections of strains which can segregate metabolic tasks for efficient use in biomaterials, biomanufacturing, and biotherapeutics. Here, the authors present a method to maintain and tune the ratio of two co-cultured bacterial strains via growth medium manipulation.
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