International audienceBacteria in groups vary individually, and interact with other bacteria and the environment to produce population-level patterns of gene expression. Investigating such behavior in detail requires measuring and controlling populations at the single-cell level alongside precisely specified interactions and environmental characteristics. Here we present an automated, programmable platform that combines image-based gene expression and growth measurements with on-line optogenetic expression control for hundreds of individual Escherichia coli cells over days, in a dynamically adjustable environment. This integrated platform broadly enables experiments that bridge individual and population behaviors. We demonstrate: (i) popula...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
The developing discipline of synthetic biology attempts to recreate in artificial systems the emerge...
Quantitative single-cell time-lapse microscopy is a powerful method for analyzing gene circuit dynam...
Bacteria in groups vary individually, and interact with other bacteria and the environment to produc...
This is the final version. Available from Springer Nature via the DOI in this record.Strains and dat...
Communities of microbes play important roles in natural environments and hold great potential for de...
Communities of microbes play important roles in natural environments and hold great potential for de...
De novo engineering of gene circuits inside cells is extremely difficult, and efforts to realize pre...
We present an embedded feedback control strategy to regulate the density of a microbial population, ...
Rapid advances in cellular engineering have positioned synthetic biology to address therapeutic and ...
Microbial species rarely exist alone. Nearly everywhere you could think to look, microorganisms of v...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
The last decade has seen bacteria at the forefront of biotechnological innovation, with applications...
Synthetic biology, which combines tools from engineering, molecular biology and computation, aims to...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
The developing discipline of synthetic biology attempts to recreate in artificial systems the emerge...
Quantitative single-cell time-lapse microscopy is a powerful method for analyzing gene circuit dynam...
Bacteria in groups vary individually, and interact with other bacteria and the environment to produc...
This is the final version. Available from Springer Nature via the DOI in this record.Strains and dat...
Communities of microbes play important roles in natural environments and hold great potential for de...
Communities of microbes play important roles in natural environments and hold great potential for de...
De novo engineering of gene circuits inside cells is extremely difficult, and efforts to realize pre...
We present an embedded feedback control strategy to regulate the density of a microbial population, ...
Rapid advances in cellular engineering have positioned synthetic biology to address therapeutic and ...
Microbial species rarely exist alone. Nearly everywhere you could think to look, microorganisms of v...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
The last decade has seen bacteria at the forefront of biotechnological innovation, with applications...
Synthetic biology, which combines tools from engineering, molecular biology and computation, aims to...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
The developing discipline of synthetic biology attempts to recreate in artificial systems the emerge...
Quantitative single-cell time-lapse microscopy is a powerful method for analyzing gene circuit dynam...