Stochastic variations within seemingly homogeneous cell populations determine the emergent properties of complex cellular systems such as biofilms, tumors, pluripotent stem cells, and multispecies ecosystems. The advent of microfluidic technologies, coupled with rapid advances in fluorescence-based molecular imaging and genomic, transcriptomic, and proteomic profiling techniques, has spurred a revolution in biological analysis at the level of single cells. Over the past decade, several microfluidic platforms have been developed that enable the isolation, enrichment, and biochemical or genetic analysis of individual cells with high spatiotemporal resolution in a fashion that is not achievable using macroscale methods. In sharp contrast to po...
Industrial biotechnology is concerned with the sustainable production of, for example, fine and bulk...
International audienceMost cell studies are performed at a population level, relying on the assumpti...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...
Cellular heterogeneity of any tissue or organ makes it challenging to identify and study the impact ...
Dusny C, Grünberger A. Microfluidic single-cell analysis in biotechnology: from monitoring towards u...
Single-cell analysis is of critical importance in revealing population heterogeneity, identifying mi...
Multicellular organisms, from roundworms to humans, are composed of interacting individual cells tha...
Substantial evidence shows that the heterogeneity of individual cells within a genetically identical...
Cell populations are heterogeneous: they can comprise different cell types or even cells at differen...
In a forest of a hundred thousand trees, no two leaves are alike. Similarly, no two cells in a genet...
Grünberger A, Wiechert W, Kohlheyer D. Single-cell microfluidics: opportunity for bioprocess develop...
Many cellular analytical technologies measure only the average response from a cell population with ...
Multicellular organisms, from roundworms to humans, are composed of interacting individual cells tha...
The single cell is the fundamental unit of biology. Understanding how the identity of individual cel...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
Industrial biotechnology is concerned with the sustainable production of, for example, fine and bulk...
International audienceMost cell studies are performed at a population level, relying on the assumpti...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...
Cellular heterogeneity of any tissue or organ makes it challenging to identify and study the impact ...
Dusny C, Grünberger A. Microfluidic single-cell analysis in biotechnology: from monitoring towards u...
Single-cell analysis is of critical importance in revealing population heterogeneity, identifying mi...
Multicellular organisms, from roundworms to humans, are composed of interacting individual cells tha...
Substantial evidence shows that the heterogeneity of individual cells within a genetically identical...
Cell populations are heterogeneous: they can comprise different cell types or even cells at differen...
In a forest of a hundred thousand trees, no two leaves are alike. Similarly, no two cells in a genet...
Grünberger A, Wiechert W, Kohlheyer D. Single-cell microfluidics: opportunity for bioprocess develop...
Many cellular analytical technologies measure only the average response from a cell population with ...
Multicellular organisms, from roundworms to humans, are composed of interacting individual cells tha...
The single cell is the fundamental unit of biology. Understanding how the identity of individual cel...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
Industrial biotechnology is concerned with the sustainable production of, for example, fine and bulk...
International audienceMost cell studies are performed at a population level, relying on the assumpti...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...