The modern flow cytometer is able to make measurements of cells in solution as they pass by the instrument’s laser. Today’s instruments offer an increased number of detectable fluorescent parameters ...

Flow cytometry is an essential tool enabling precise cellular analysis across many fields, including immunology, oncology and cell biology research. However, suboptimal staining protocols can leave ...

ANTIBODY TITRATION is critical to the success of any flow cytometry experiment. This is even more so in microflow cytometric analysis of extracellular vesicles (EVs), where removing excess antibodies ...

Single-cell analysis is one of the most rapidly growing fields in biomedical research that is significantly expanding our understanding on the biologic characteristics of various diseases. Flow ...

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

High-throughput flow cytometry of adherent cells is difficult because the creation of single cell suspensions can damage cells and yield artificial results. We describe a protocol to increase the ...

Antibodies serve as foundational tools across a broad range of research fields from immunology to oncology and infectious ...

Individual cells are concentrated in a flow cell (or tube) and then pass a laser, which detects a fluorescent signal. This is then analyzed by sophisticated software, producing data on the parameter ...