Add to ORKGHelfrich S, Krämer C, Grünberger A, et al. Microfluids as platform for the spatiotemporal analysis of bacterial populations at single-cell level. Presented at the 30th Symposium "Mechanisms of Gene Regulation" of the VAAM study group "Regulation & Signal Transduction in Prokaryotes", Düsseldorf, Germany
Heterogeneity within bacterial populations is a phenomenon that has gained much interest over the la...
Bacteria have molecules present in low and fluctuating numbers that randomize cell behaviors. Unders...
To keep bacteria growing in a monolayer is important for studying the cellular dynamics of single ce...
Krämer C, Helfrich S, Azzouzi CE, et al. Microfluidics as platform for the spatiotemporal analysis o...
Rudat A, Wiechert W, Kohlheyer D, Grünberger A. Spatiotemporal analysis of synthetic microbial commu...
Grünberger A, Wiechert W, Kohlheyer D. Single-cell microfluidics: opportunity for bioprocess develop...
Grünberger A, Probst C, Helfrich S, et al. Spatiotemporal microbial single-cell analysis using a hig...
Stochastic variations within seemingly homogeneous cell populations determine the emergent propertie...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
We designed a microfluidic chemostat consisting of 600 sub-micron trapping/growth channels connected...
Industrial biotechnology is concerned with the sustainable production of, for example, fine and bulk...
Biosensors exploiting communication within genetically engineered bacteria are becoming increasingly...
The importance of individual heterogeneity within a genetically identical population has become well...
Grünberger A, Probst C, Nanda A, Frunzke J, Wiechert W, Kohlheyer D. Microfluidic Single-Cell Cultiv...
Heterogeneity within bacterial populations is a phenomenon that has gained much interest over the la...
Bacteria have molecules present in low and fluctuating numbers that randomize cell behaviors. Unders...
To keep bacteria growing in a monolayer is important for studying the cellular dynamics of single ce...
Krämer C, Helfrich S, Azzouzi CE, et al. Microfluidics as platform for the spatiotemporal analysis o...
Rudat A, Wiechert W, Kohlheyer D, Grünberger A. Spatiotemporal analysis of synthetic microbial commu...
Grünberger A, Wiechert W, Kohlheyer D. Single-cell microfluidics: opportunity for bioprocess develop...
Grünberger A, Probst C, Helfrich S, et al. Spatiotemporal microbial single-cell analysis using a hig...
Stochastic variations within seemingly homogeneous cell populations determine the emergent propertie...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
We designed a microfluidic chemostat consisting of 600 sub-micron trapping/growth channels connected...
Industrial biotechnology is concerned with the sustainable production of, for example, fine and bulk...
Biosensors exploiting communication within genetically engineered bacteria are becoming increasingly...
The importance of individual heterogeneity within a genetically identical population has become well...
Grünberger A, Probst C, Nanda A, Frunzke J, Wiechert W, Kohlheyer D. Microfluidic Single-Cell Cultiv...
Heterogeneity within bacterial populations is a phenomenon that has gained much interest over the la...
Bacteria have molecules present in low and fluctuating numbers that randomize cell behaviors. Unders...
To keep bacteria growing in a monolayer is important for studying the cellular dynamics of single ce...