ExoBrite™ 490/515 EV Membrane Staining Kit, 100 labelings

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ExoBrite™ CTB EV Staining Kits

Fluorescent cholera toxin subunit B (CTB) conjugates that are optimized for bright and clean staining of extracellular vesicles for flow cytometry.

Technology

Extracellular Vesicle Research

Tech Tips

Tech Tip: Fluorescent Detection of EVs by Flow Cytometry
Tech Tip: Isolation and Staining of Extracellular Vesicles

The Full Spectrum Blog

Blog: Bringing Light to Extracellular Vesicles

Highlighted Citations

Exosome profiling with CF® dye tetraspanin panel shows single tetraspanin immunocapture methods may limit cancer biomarker detection
High-throughput fluorescence correlation spectroscopy analysis of extracellular vesicle markers

Product Description

ExoBrite™ CTB EV Staining Kits were designed to overcome some of the challenges of EV detection, particularly in flow cytometry. ExoBrite™ CTB EV Stains bind to molecules in the EV membrane for bright, specific staining, with little to no background.

Features

  • Optimally formulated CTB conjugates for staining EVs
  • Designed for detection by flow cytometry
  • Bright signal and low background
  • Stain purified or bead-bound EVs
  • Compatible with antibody co-staining
  • Available in 4 colors

Kit Components

  • ExoBrite™ CTB EV Stain
  • ExoBrite™ Reconstitution Solution
  • 1 vial of stain makes 100 uL of 500X staining solution

Note: The name of this product has been revised from ExoBrite™ EV Membrane Staining Kits.

ExoBrite™ CTB EV Stains are optimally formulated fluorescent conjugates of cholera toxin subunit B (CTB), which binds to GM1 gangliosides that are commonly found on the surface of mammalian lipid rafts and EVs. The stains were designed to overcome some of the challenges of EV detection, particularly in flow cytometry. Some dyes used to stain EVs can form aggregates of a similar size as exosomes or EVs, thus confounding analysis. ExoBrite™ CTB EV Stains, however, were formulated to show little to no aggregation in flow cytometry, allowing EVs to be identified with bright and specific staining. Unlike hydrophobic membrane dyes, ExoBrite™ CTB EV Stains do not bind non-specifically to polystyrene beads, meaning that they can be used to stain bead-bound EVs.

EVs are often labeled with fluorescent antibodies targeting one or more of the tetraspanin proteins CD9, CD63, and CD81. ExoBrite™ CTB staining can be combined with antibody staining, for multi-parameter analysis.

Less background and better coverage over other EV stains

ExoBrite™ CTB EV Stains were designed to offer exceptional signal:noise and more complete coverage of purified and bead-bound EVs. In the figure below, lipophilic dye DiO and plasma membrane stain CellMask™ demonstrate an unacceptable amount of dye aggregation in gated EVs. Other EV stains such as ExoFlow-ONE™ and ExoGlow™ have less coverage of EVs when compared to ExoBrite™ CTB EV Stains.

ExoBrite™ CTB EV Stains have less background and more complete staining of extracellular vesicles (EVs) than other classic and competitor dyes. EVs were purified from MCF-7 cell supernatant using size exclusion chromatography (SEC). The purified EVs were stained in PBS with the indicated dyes (top row). The stained EV population was gated, with the number showing the percentage of particles falling within the exosome gate. Each dye was also added to filtered PBS (bottom row), to look for dye aggregation and non-specific background. Red arrows indicate these dye aggregates. Lipophilic dyes like DiO show a high number of particles of similar size to EVs, making them unsuited for small particle staining. CellMask™ also shows an unacceptable amount of dye aggregation falling within the EV gate. The ExoFlow-ONE™ and ExoGlow™ dyes form aggregates that can mostly be gated away from the EVs, but they also show less-complete coverage of EVs than ExoBrite™ CTB stains. (Click to enlarge).

Notes:

  1. ExoBrite™ CTB EV Stains have been found to label EVs derived from several tested cell lines (see Validated EV Sources below), but may not stain EVs from every source.
  2. In our testing, we have found that ExoBrite™ 490/515 dye may bind to streptavidin coated surfaces or beads if free biotin binding sites are not blocked. We recommend performing a biotin blocking step after binding your biotinylated capture antibody to streptavidin beads or surfaces when using ExoBrite™ 490/515 conjugates. Alternatively, consider using a different ExoBrite™ dye for staining EVs captured on streptavidin beads or surfaces.

ExoBrite™ CTB EV Staining Kits

Product Ex/Em Detection channels Size Catalog Number
ExoBrite™ 410/450
CTB EV Staining Kit
416/452 nm Pacific Blue™ 100 Labelings 30111-T
500 Labelings 30111
ExoBrite™ 490/515
CTB EV Staining Kit
490/516 nm FITC 100 Labelings 30112-T
500 Labelings 30112
ExoBrite™ 560/585
CTB EV Staining Kit
562/584 nm PE, Cy®3 100 Labelings 30113-T
500 Labelings 30113
ExoBrite™ 640/660
CTB EV Staining Kit
642/663 nm APC 100 Labelings 30114-T
500 Labelings 30114

Validated EV Sources for ExoBrite™ EV Surface Stains

EV Source ExoBrite™ True EV Membrane Stains ExoBrite™ CTB Stains ExoBrite™ WGA Stains ExoBrite™ Annexin Stains
A549 cells Yes Yes Yes Yes
CHO cells Yes No Yes Yes
hASC (human adipose stem cells) ND No1 ND ND
HEK293T cells ND Yes1 ND ND
HeLa cells Yes No Yes Yes
HUVEC (human umbilical vein endothelial cells) ND No1 ND ND
J774 cells Yes Yes Yes Yes
Jurkat cells Yes Yes Yes Yes
MCF-7 cells Yes Yes Yes Yes
Plasma ND No ND Yes
Raji cells ND Yes Yes Yes
RAW 264.7 Yes ND ND ND
Serum ND No ND Yes
Skeletal myoblasts ND Yes1 ND ND
THP-1 Yes ND ND ND
U2OS cells Yes No Yes Yes
U937 cells Yes No Yes Yes
1Customer-reported data
Value of “Yes” or “No” indicates coverage of EVs based on Biotium’s internal data or customer-reported data. Value of “ND” indicates no data.

Biotium also offers other validated ExoBrite™ reagents for flow cytometry, western blotting, or super-resolution imaging.

Learn about Biotium’s new ExoBrite™ True EV Membrane Stains. These genuine lipophilic membrane dyes are designed for superior pan-EV labeling over other membrane dyes including PKH, DiO, DiI, and DiD. Biotium also offers ExoBrite™ WGA EV Stains (wheat germ agglutinin) and ExoBrite™ Annexin EV Stains optimized for bright and sensitive staining of EVs. The ExoBrite™ EV Surface Stain Sampler Kit contains each of Biotium’s ExoBrite™ EV Surface Stains (CTB, WGA, and Annexin V) for assessing which stain offers the best coverage for the EV samples of interest. Biotium also offers ExoBrite™ Antibody Conjugates for optimal detection of CD9, CD63, and CD81 EV markers by flow cytometry and western blotting. For super-resolution imaging by STORM, learn about our ExoBrite™ STORM CTB EV Staining Kits available in four CF® Dyes validated for STORM.

CellMask is a trademark of Thermo Fisher Scientific; ExoFlow-ONE and ExoGlow are trademarks of System Biosciences.
 

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