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-Calcium flux: Each of the Oregon Green calcium indicators binds intracellular calcium with increasing affinity, providing a sensitivity range to match many applications. Oregon Green probes emit green fluorescence at resting levels of Ca2+ and increase their fluorescence intensity 14-fold with increasing Ca2+ concentration. The cell-permeant formulation (Cat. No. O6807) can be loaded in cell media and is compatible with flow cytometry.
-Rhodamine-based calcium indicators comprise a range of probes for large or small changes in Ca2+ concentration. They exhibit a 50-fold increase in fluorescence upon calcium binding and offer a range of wavelengths that can be used in conjunction with GFP or green-fluorescent dyes for multiplexing. Rhod-2, AM (Cat. No. R1245MP), in particular, localizes to mitochondria and can be used with flow cytometry.
-Membrane potential: A distinctive feature of the early stages of apoptosis is the disruption of the mitochondria, including changes in membrane and redox potential. We offer a range of products specifically designed to assay mitochondrial membrane potential in live cells by flow cytometry, with minimal disruption of cellular function. The MitoProbe family of mitochondrial stains (Cat. Nos. M34150, M34151, and M34152) provide quick, easy, and reliable flow cytometric detection of the loss of mitochondrial membrane potential that occurs during apoptosis. MitoTracker dyes (Cat. Nos. M7510 and M7512) are membrane potential-dependent probes for staining mitochondria in live cells. The staining pattern of MitoTracker dyes is retained throughout subsequent flow cytometry immunocytochemistry, DNA end labeling, in situ hybridization, or counterstaining steps. The Mitochondrial Permeability Transition Pore Assay (Cat. No. M34153) provides a more direct method of measuring mitochondrial permeability transition pore opening than assays relying on mitochondrial membrane potential alone. The mitochondrial permeability transition pore (MPTP) is a non-specific channel formed by components from the inner and outer mitochondrial membranes, and appears to be involved in the release of mitochondrial components during cell death.
-Phagocytosis: In phagocytosis, cells internalize particulate matter such as microorganisms, and this process is important for immune responses and during the clearance of apoptotic cells. Probes for studying phagocytosis include BioParticles indicators—bacteria and yeast labeled with fluorescent dyes.
-Tracking phagocytosis using a quench/wash-based assay can report on simple uptake, or a pH indicator can be used to monitor stages in the pathway. We have no-wash assays labeled with pHrodo Red or Green (Cat. Nos. A10010, P35361, P35364, P35365, P35366, and P35367) and no-wash assays for whole blood (Cat. Nos. A10025, A10026, P35381, and P35382), all suitable for flow cytometry.
-pH changes: Sensitive pH determinations can be made in a physiological range using either fluorescent intensity or ratiometric measurements. pHrodo dyes (Cat. Nos. P35373 and P35372) provide signal intensity modulation from pH 2 to pH 9 and with a choice of fluorescent wavelengths. Tracking internalization of fluorescent dextran is a routine method for analyzing pH changes in cellular compartments. Dextran conjugates of pHrodo dyes (Cat. Nos. P35368 and P10361) provide the most complete solution by allowing discrimination of vesicles from early endosomes to lysosomes, with no quench or wash required.
-Reactive oxygen species: Cells that are environmentally stressed usually contain greatly increased levels of reactive oxygen species (ROS). CellROX reagents are fluorogenic probes developed for the detection and quantitation of ROS in live cells. These cell-permeant reagents are non-fluorescent or very weakly fluorescent in the reduced state; however, when oxidized, they become brightly fluorescent and remain localized within the cell. We offer CellROX Green (Cat. No. C10492), CellROX Orange (Cat. No. C10493), and CellROX Deep Red (Cat. No. C10491) Assay Kits validated for flow cytometry.

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The following cell health and viability assays can be performed by flow cytometry :

-Apoptosis Assays:
Membrane Asymmetry: Annexin V is a member of a family of structurally related proteins that bind phospholipids in the presence of Ca2+. Annexin V binds several phospholipids, but shows highest affinity for phosphatidylserine.
Phosphatidylserine is normally found in the inner leaflet of the cell membrane; however, in the early stages of apoptosis, phosphatidylserine is observed to translocate to the outer leaflet. This translocation makes phosphatidylserine available for annexin V binding in the presence of Ca2+ containing incubation buffer. Cells undergoing apoptosis will stain with annexin V, while normal cells will not. annexin V is available conjugated with a wide range of fluorophores.

Mitochondrial Health: A distinctive feature of the early stages of apoptosis is the disruption of the mitochondria, including changes in membrane and redox potential. We exclusively offer a number of fluorescent probes for analyzing mitochondrial activity in live cells by flow cytometry, with minimal disruption of cellular function.

The MitoProbe family of mitochondrial stains (MitoProbe DiOC2(3) Assay Kit, Cat. No. M34150, MitoProbe JC-1 Assay Kit, Cat. No. M34152, and MitoProbe DiIC1(5) Assay Kit, Cat. No. M34151) provides quick, easy, and reliable flow cytometric detection of the loss of mitochondrial membrane potential that occurs during apoptosis.

Caspase Activity: The CellEvent Caspase-3/7 Green Flow Cytometry Assay Kit (Cat. No. C10427) enables flow cytometric detection of activated caspase-3 and caspase-7 in apoptotic cells. The kit includes the novel fluorogenic substrate CellEvent Caspase-3/7 Green Detection Reagent which targets the recognition sequence for activated caspase-3 and caspase-7, as well as SYTOX AADvanced Dead Cell Stain.

DNA Fragmentation: The later stages of apoptosis are characterized by changes in nuclear morphology, including DNA fragmentation, chromatin condensation, degradation of nuclear envelope, nuclear blebbing, and DNA strand breaks. DNA fragmentation that occurs during apoptosis produces DNA strand breaks, and can be analyzed using TUNEL (terminal deoxynucleotidyl transferase dUTP nick end labeling) assays. The APO-BrdU TUNEL assay (Cat. No. A23210) is a two-color assay for labeling DNA breaks and total cellular DNA to detect apoptotic cells by imaging or flow cytometry.

Nuclear Chromatin Condensation: The later stages of apoptosis are characterized by changes in nuclear morphology, including DNA fragmentation, chromatin condensation, degradation of nuclear envelope, nuclear blebbing, and DNA strand breaks. Cells undergoing apoptosis display an increase in nuclear chromatin condensation. As the chromatin condenses, cell-permeable nucleic acid stains becomes hyperfluorescent, thus enabling the identification of apoptotic cells when combined with a traditional dead-cell stain. The Vybrant Apoptosis Assay Kit #5, Hoechst 33342/Propidium Iodide (Cat. No. V13244) provides a rapid and convenient assay for apoptosis based on fluorescence detection of the compacted state of the chromatin in apoptotic cells. The Chromatin Condensation & Membrane Permeability Dead Cell Apoptosis Kit with Hoechst 33342, YO-PRO-1, and PI dyes, for flow cytometry (Cat. No. V23201) detects apoptotic cells with changes in nuclear chromatin condensation and plasma membrane permeability.

-Cell Cycle Analysis:
Live cell assays: The Vybrant DyeCycle family of dyes offers robust fluorescent dyes for live-cell cycle analysis with limited cytotoxicity using 405 nm (Cat. No. V35003), 488 nm (Cat. No. V35004), 532 nm (Cat. No. V35005), or 633 nm (Cat. Nos. V10309 and V10273) excitation. The dyes have low cytotoxicity, allowing stained cells to be sorted and otherwise cultured or assessed with functional assays after staining.

Fixed cell assays: Analyzing cell cycle using FxCycle Violet Stain (Cat. No. F10347), SYTOX AADvanced Dead Cell Stain Kit (Cat. No. S10349) or FxCycle Far Red Stain (Cat. No. F10348) allows for multiple color options for simplified fixed cell cycle analysis.

-Cell Proliferation:
Dye dilution assays for cell proliferation: Dye dilution assays for cell proliferation rely on cell membrane–permeant fluorescent molecules. Upon entry into the cell, the dye will covalently bind to amine groups on proteins, resulting in long-term dye retention within the cell. Through subsequent cell divisions, each daughter cell receives approximately half the fluorescence of the parent. Analysis of the fluorescence intensities of cell populations by flow cytometry enables determination of the number of generations through which a cell or population has progressed since the label was applied. CellTrace fluorescent stains can be used without affecting morphology or physiology to trace generations in vivo or in vitro. There is no known effect on proliferative ability or biology of cells and they are well retained in cells for several days post-stain. Available kits for flow cytometry include CellTrace CFSE Cell Proliferation Kit (Cat. No. C34554), CellTrace Violet Cell Proliferation Kit (Cat. No. C34557), and CellTrace Far Red Cell Proliferation Kit (Cat. No. C34564).

DNA Synthesis Assays: Measuring the synthesis of new DNA is a precise way to assay cell proliferation in individual cells or in cell populations. DNA synthesis–based cell proliferation assays measure the rate of new DNA synthesis based on incorporation of modified nucleosides. The Click-iT Plus EdU cell proliferation assay utilizes the power of click chemistry and the modified nucleoside EdU to provide a superior alternative to BrdU staining for detecting and quantitating newly synthesized DNA. The Click-iT Plus EdU cell proliferation assay is available with Pacific Blue (Cat. No. C10636), Alexa Fluor 488 (Cat. Nos. C10632 and C10633), and Alexa Fluor 647 (Cat. Nos. C10634 and C10635).

-Viability Assays:
Dead cells often give false positive results, as they tend to bind non-specifically to many reagents. Therefore, removing dead cells from your flow cytometry data is a critical step to help ensure accurate results and analysis.

Non-fixable Membrane Permeability Stains: SYTOX Dead Cell Stains (Cat. Nos. S34857, S34860, S34861, S34859, and S34862) do not cross intact cell membranes, and they exhibit increased fluorescence upon dsDNA binding, making them some of our most brilliant dead cell stains. Cell-impermeant classic DNA-binding dyes include propidium iodide (Cat. No. P21493) and 7-AAD (Cat. No. A1310). Both of these dyes have been used extensively for viability assays in flow cytometry. CellTrace Calcein AM dyes can be passively loaded into adherent and nonadherent cells. These cell-permeant esterase substrates serve as viability probes that measure both enzymatic activity, which is required to activate their fluorescence, and cell membrane integrity, which is required for intracellular retention of their fluorescent products. Available with blue (Cat. No. C34853), violet (Cat. No. C34858), and green (Cat. No. C34852) fluorescence, these dyes are ideal for short-term staining of live cells and can be used in multiplexed flow cytometry experiments.

Fixable Viability Stains: The LIVE/DEAD Fixable Dead Cell Stains are fixable viability dyes that help to ensure accurate assessment of cell viability in samples after fixation and/or permeabilization. LIVE/DEAD Fixable Dead Cell Stain Kits are based on the reaction of a fluorescent reactive dye with cellular proteins (amines). These dyes cannot penetrate live-cell membranes, so only cell-surface proteins are available to react with the dye, resulting in dim staining. The reactive dye can permeate the damaged membranes of dead cells and stain both the interior and exterior amines, resulting in more intense staining. LIVE/DEAD Fixable Dead Cell Stain Kits are available in eight single-channel colors available for UV, 405, 488, 532, 561, or 633 nm lasers in three packaging sizes to match your experiment.

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Annexin V staining is not typically used in imaging experiments; it is a better reagent for flow cytometry analysis. All cells will stain to some extent, so it can be difficult to distinguish a relatively bright annexin V-stained cell from a dimmer non-apoptotic cell. Caspase activation, detected using our CellEvent Caspase 3/7 or Image-iT LIVE Caspase detection kits, is a better method for detecting apoptosis in an imaging assay.

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It has been done, but we don‘t recommend it. Both healthy cells and apoptotic cells possess phosphatidylserine on the cell surface, which can be detected with Annexin V, but apoptotic cells have significantly more of it. You can easily tell the difference between these two populations with flow cytometry, because flow cytometers are more sensitive and have a higher throughput. But with a microscope, you cannot always tell the difference, especially for adherent cells. Instead, for microscopy, we recommend a different technique, such as detecting caspases with CellEvent Caspase Detection Reagents.

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alamarBlue reagent and PrestoBlue reagent contain resazurin in a proprietary stabilizing formulation that allows for a convenient “mix, incubate, and read” protocol. PrestoBlue reagent is an improvement in the formulation of alamarBlue reagent that allows for much faster staining (typically 10 minutes vs. 1-4 hours to obtain a similar signal and sensitivity). C12-resazurin is a derivative of resazurin that has better cellular retention and thus allows for analysis on a flow cytometer and multiplexing with viability indicators and other biomarkers.

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There are several applications, some of which include immunophenotyping, cell cycle analysis, apoptosis assays such as annexin V staining, CellEvent Caspase-3/7 assay, and TUNEL assay, cell viability, proliferation assays such as CellTrace assay and Click-iT EdU assay, measurements of mitochondrial potential with MitoProbe assays, and cell counting using counting beads.

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-Measures data from single cells.
-Data are obtained for a large number of cells, generating a rich statistical analysis of cell populations.
-Because single cells are measured, it will reveal heterogeneity within a population.
-With the ability to multiplex, small sub-populations can be identified.
-Thousands of cells can be analyzed rapidly.
-It is ideally suited for blood samples and other cells in suspension.
-Data can be re-analyzed multiple times after acquisition.
-Flow cytometry files (FCS) can be archived.

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