Protein phosphorylation is a ubiquitous and key step in signaling pathways. For flow cytometry staining, the right protocol can help accurately capture these phosphorylated targets for clear-cut data.

Flow cytometry uses fluorescent probes to identify and characterize cells or particles in suspension (e.g. cells, nuclei or chromosomes) by virtue of size, granularity and fluorescence ...

Flow cytometry is an invaluable method for biomedical research. Since its development over 50 years ago, technology for flow cytometry has progressed rapidly, allowing for the detection of more and ...

Ultracentrifugation (UC) remains a widely used method for isolating extracellular vesicles (EVs), but debates persist around yield, integrity, and optimal protocols. In this webinar, I will provide a ...

One of the primary objectives for the application of flow cytometry in any testing environment should be measurement assurance, i.e., the generation of reliable and reproducible results. This goal can ...

Flow cytometry is a powerful analytical tool used for high throughput particle or cell analysis, wherein the sample is passed in a single file through the incident light of a laser detector, allowing ...

Flow cytometry is a powerful analytical tool employed in several industries. This article will provide an overview of its use in the field of botany. Flow cytometry measures the chemical and physical ...

Flow cytometry enables researchers to label proteins of interest using fluorophore-conjugated antibodies and other fluorochromes. Much like immunohistochemistry, which produces two- or ...

The flow cytometer from Bigelow Laboratory’s Center for Aquatic Cytometry, run by Senior Research Scientist Nicole Poulton, can be used to separate out and measure smaller microplastic particles.

Flow cytometry is a way to look closely at the features of cells or particles. A sample of blood or tissue goes into a machine called a cytometer. In less than a minute, a computer can analyze ...