Add to ORKGFluorescence microscopy is a powerful quantitative tool for exploring regulatory networks in single cells. However, the number of molecular species that can be measured simultaneously is limited by the spectral overlap between fluorophores. Here we demonstrate a simple but general strategy to drastically increase the capacity for multiplex detection of molecules in single cells by using optical super-resolution microscopy (SRM) and combinatorial labeling. As a proof of principle, we labeled mRNAs with unique combinations of fluorophores using fluorescence in situ hybridization (FISH), and resolved the sequences and combinations of fluorophores with SRM. We measured mRNA levels of 32 genes simultaneously in single Saccharomyces cerevisiae ce...
International audienceSingle molecule FISH (smFISH) allows studying transcription and RNA localizati...
We describe a universal sample multiplexing method for single-cell RNA sequencing in which fixed cel...
Identifying the genetic basis of cellular function and identity has become a central question in und...
Fluorescence microscopy is a powerful quantitative tool for exploring regulatory networks in single ...
Fluorescence microscopy is a powerful quantitative tool for exploring regulatory networks in single ...
Systems-level studies of biological systems rely on observations taken at a resolution lower than t...
The transcriptome of a cell contains a wealth of information about the cell’s current state and its ...
In our previous paper, Lubeck and Cai, we used super-resolution microscopy to resolve a large number...
High-Throughput imaging can reconstruct complex signalling networks, reveal unknown interactions and...
In this review, we discuss a strategy to bring genomics and proteomics into single cells by super-re...
Optical super-resolution techniques reach unprecedented spatial resolution down to a few nanometers....
Imaging the transcriptome in situ with high accuracy has been a major challenge in single-cell biolo...
abstract: Most current approaches for quantification of RNA species in their natural spatial context...
Current far-field super-resolution techniques offer unprecedented spatial resolution, however, the i...
Accurate and robust detection of mRNA molecules in thick tissue samples can reveal gene expression p...
International audienceSingle molecule FISH (smFISH) allows studying transcription and RNA localizati...
We describe a universal sample multiplexing method for single-cell RNA sequencing in which fixed cel...
Identifying the genetic basis of cellular function and identity has become a central question in und...
Fluorescence microscopy is a powerful quantitative tool for exploring regulatory networks in single ...
Fluorescence microscopy is a powerful quantitative tool for exploring regulatory networks in single ...
Systems-level studies of biological systems rely on observations taken at a resolution lower than t...
The transcriptome of a cell contains a wealth of information about the cell’s current state and its ...
In our previous paper, Lubeck and Cai, we used super-resolution microscopy to resolve a large number...
High-Throughput imaging can reconstruct complex signalling networks, reveal unknown interactions and...
In this review, we discuss a strategy to bring genomics and proteomics into single cells by super-re...
Optical super-resolution techniques reach unprecedented spatial resolution down to a few nanometers....
Imaging the transcriptome in situ with high accuracy has been a major challenge in single-cell biolo...
abstract: Most current approaches for quantification of RNA species in their natural spatial context...
Current far-field super-resolution techniques offer unprecedented spatial resolution, however, the i...
Accurate and robust detection of mRNA molecules in thick tissue samples can reveal gene expression p...
International audienceSingle molecule FISH (smFISH) allows studying transcription and RNA localizati...
We describe a universal sample multiplexing method for single-cell RNA sequencing in which fixed cel...
Identifying the genetic basis of cellular function and identity has become a central question in und...