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Lyn restrains lupus via kinase-independent mechanisms that limit Toll-like receptor activation and type I interferon responsiveness. [PDF]
Sci AdvL'Estrange-Stranieri E +9 more
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The evolution of spectral flow cytometry
Cytometry Part A, 2022This special issue of Cytometry marks the transition of spectral flow cytometry from an emerging technology into a transformative force that will shape the fields of cytometry and single‐cell analysis for some time to come.
J. Nolan
semanticscholar +1 more source
Flow cytometry: principles, applications and recent advances.
Bioanalysis, 2021Flow cytometry (FCM) is a sophisticated technique that works on the principle of light scattering and fluorescence emission by the specific fluorescent probe-labeled cells as they pass through a laser beam.
S. Manohar, Prachi Shah, Anusree Nair
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High-Throughput Raman Flow Cytometry and Beyond.
Accounts of Chemical Research, 2021ConspectusFlow cytometry is a powerful tool with applications in diverse fields such as microbiology, immunology, virology, cancer biology, stem cell biology, and metabolic engineering.
Julia Gala de Pablo +3 more
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Hematology/Oncology Clinics of North America, 2018
Multiparameter flow cytometry (MFC) is valuable in the diagnosis and monitoring of most hematological malignancies. Although the assessment of cellular infiltrates in Waldenström macroglobulinemia (WM) relies on morphology and immunohistochemistry grounds, there is evidence pointing to the clinical significance of MFC in this disease.
Amaia, Gascue +2 more
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Multiparameter flow cytometry (MFC) is valuable in the diagnosis and monitoring of most hematological malignancies. Although the assessment of cellular infiltrates in Waldenström macroglobulinemia (WM) relies on morphology and immunohistochemistry grounds, there is evidence pointing to the clinical significance of MFC in this disease.
Amaia, Gascue +2 more
openaire +2 more sources
Science, 2018
Seeing ghosts In fluorescence-activated cell sorting, characteristic target features are labeled with a specific fluorophore, and cells displaying different fluorophores are sorted. Ota et al. describe a technique called ghost cytometry that allows cell sorting based on the morphology of the cytoplasm ...
Sadao Ota +11 more
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Seeing ghosts In fluorescence-activated cell sorting, characteristic target features are labeled with a specific fluorophore, and cells displaying different fluorophores are sorted. Ota et al. describe a technique called ghost cytometry that allows cell sorting based on the morphology of the cytoplasm ...
Sadao Ota +11 more
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2003
Flow cytometry technique is predominantly used to measure fluorescence intensity produced by fluorescent-labeled antrbodies or ligands (e.g., cytokines, hormones) that bind specific cell-assocrated molecules. Flow cytometry is quantitative, fast (analysis of >l0,000 cells/min), reliable, and reproducible.
M G, Ormerod, P R, Imrie
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Flow cytometry technique is predominantly used to measure fluorescence intensity produced by fluorescent-labeled antrbodies or ligands (e.g., cytokines, hormones) that bind specific cell-assocrated molecules. Flow cytometry is quantitative, fast (analysis of >l0,000 cells/min), reliable, and reproducible.
M G, Ormerod, P R, Imrie
openaire +4 more sources
Current Opinion in Chemical Biology, 2003
Chemical cytometry refers to the use of high-sensitivity analytical tools to characterize single cells. These tools include mass spectrometry, electrochemistry and capillary separation methods. This review focuses on the use of capillary electrophoresis coupled with high-sensitivity detection to characterize single cells.
Norman J, Dovichi, Shen, Hu
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Chemical cytometry refers to the use of high-sensitivity analytical tools to characterize single cells. These tools include mass spectrometry, electrochemistry and capillary separation methods. This review focuses on the use of capillary electrophoresis coupled with high-sensitivity detection to characterize single cells.
Norman J, Dovichi, Shen, Hu
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Application‐based guidelines for best practices in plant flow cytometry
Cytometry Part A, 2021Flow cytometry (FCM) is currently the most widely‐used method to establish nuclear DNA content in plants. Since simple, 1‐3‐parameter, flow cytometers, which are sufficient for most plant applications, are commercially available at a reasonable price ...
E. Śliwińska +11 more
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