Using a diverse array of fluorophores allows us to expand the limits of flow cytometry and develop larger multicolor panels. High level panels (>22 colors) can be built using cytometers capable of spectral detection or the ability to unmix a fluorescent spectrum across an array of emission detectors such as the Cytek™ Aurora or Northern Lights. Some fluorophores, like the Spark dyes, are specifically designed to be used on these cytometers.

 

Learn more about the unique advantages offered by each member among the various families of fluorophores and how to best use them in multicolor panels:

  • Protein-based fluors: PE, APC, PerCP, and their tandems
  • Organic dyes: FITC, Alexa Fluor® dyes, Spark Fluors, etc.
  • Organic Polymers: Brilliant Violet™ Dyes

Two of the most commonly used fluorophores in flow cytometry, R-phycoerythrin (R-PE) and allophycocyanin (APC), are phycobiliproteins originally derived from algae. Both proteins contain fluorescent phycobilin chromophores embedded into a protein scaffolding which accounts for their large size. When phycobiliproteins are exposed to organic solvents like MeOH and EtOH, they denature and are no longer able to fluoresce. Both R-PE and APC are fairly bright fluors and are often used in flow cytometry to detect proteins with low levels of expression.

 

Another protein-based dye, PerCP, a peridinin-chlorophyll protein complex, is derived from photosynthetic dinoflagellates. Other fluorescent proteins, like eGFP, mCherry, and tdTomato can be fused to a protein of interest to visualize or track cell processes. These are typically derived from sea anemone and jellyfish, and exist as either monomers, dimers, or trimers. All of these protein-based dyes can be used as the donor molecule in FRET pairs. Generally, antibodies conjugated to protein-based flours are not commonly used in standard microscopy as they are more susceptible to photobleaching.

PE


Brightness: 5
Ex Laser: 488 nm, 532 nm, or 561 nm
Ex Max: 565 nm
Em Max: 575 nm
Filter Used: 585/20
Molecular Weight: 240 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio:1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • One of the brightest fluorophores and provides high signal-to-noise ratio.
  • A high extinction coefficient and quantum yield make it an ideal donor in a FRET relationship (tandems).
  • Can be detected on almost all cytometers.
  • One of the largest fluorophores,so it may not be optimal for all targets.
  • Though it is more susceptible to photobleaching under continual illumination, PE itself can be used under some high-speed imaging conditions.
  • Sensitive to organic solvent-based fixatives, like those used for phospho flow cytometry staining.
  • All proteins are excited by shorter wavelengths such as UV and Violet lasers. As such,they may have spillover into equivalent channels on those lasers.


View all PE Products.

Structure of R-phycoerythrin



Image from the RCSB PDB (rcsb.org) of PDB ID 1EYX Contreras-Martel, C. et al. 2001. Crystallization and 2.2 A resolution structure of R-phycoerythrin from Gracilaria chilensis:a case of perfect hemihedral twinning. Acta Cystallogr. Sect.D. 57:52-60.

Phycobilin Structure



Structure of phycobilin. R-phycoerythrin is composed of phycobilin chromophores embedded in a protein scaffolding.

Simple organic fluorophores encompass a variety of synthetically-derived dyes. Because of their small size, multiple simple organic fluorophores can be conjugated to a single antibody. Due to their conjugation chemistry, these dyes are flexible and can be easily used to generate custom antibodies. Unlike protein-based fluors, simple organic dyes are not sensitive to organic solvents, like those used in phospho-flow, making them advantageous for these applications. Organic dyes are also soluble, meaning they are less susceptible to aggregation and precipitation. Simple organic dyes are often used in microscopy due to their discrete excitation and emission profiles and are chosen for their limited spillover into other imaging channels. Simple organic dyes are great to stain intracellular or intranuclear targets.

Pacific Blue™


Brightness: 1
Ex Laser: 405 nm
Ex Max: 410 nm
Em Max: 455 nm
Filter Used: 450/50
Molecular Weight: 406 Da
Recommended Application (s):
Flow Cytometry
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services .

Fluorophore At a Glance:

  • When using a spectral unmixing cytometer,it can be unmixed from BV421™ due to their unique spectra signatures.
  • Autofluorescence may populate the same channel as Pacific Blue™ which can increase background and affect its staining index.
  • Not as bright as BV421™ for surface markers but the small size can make it advantageous. It can even improve the signal-to-noise ratio for intracellular and intra-nuclear markers.
 

View all Pacific™ Blue Products.

Brilliant Violet™ dyes are organic, light-emitting, diode polymers whose brightness is related to the length of the polymer, but whose spectra remain stable no matter the polymer’s length. These dyes have a high extinction coefficient and quantum yield resulting in high intensity brightness. Brilliant Violet™ dyes are effective over a wide pH range and are compatible with a variety of fixatives.

Brilliant Violet 421™


Brightness: 4
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 421 nm
Filter Used: 450/50
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry, Microscopy
Typical F:P Ratio: 2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • A very potent donor with an extinction coefficient of 2,500,0 M-1cm-1 which makes for very potent tandem dyes.
  • In some cases, it can exhibit non-specific binding to itself.
  • Very bright, ideal for detecting low-expressed markers.
 

View all Brilliant Violet 421™ Products.
 

Learn more about Brilliant Violet Dyes.

BV421™ withstands a variety of fixatives

Improved Signal to Noise as compared to Pacific Blue™


Human peripheral blood lymphocytes stained with anti-CD127conjugated to BV421™ and Pacific Blue™ at varying dilutions.

PE


Brightness: 5
Ex Laser: 488 nm, 532 nm, or 561 nm
Ex Max: 565 nm
Em Max: 575 nm
Filter Used: 585/20
Molecular Weight: 240 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • One of the brightest fluorophores and provides high signal-to-noise ratio.
  • A high extinction coefficient and quantum yield make it an ideal donor in a FRET relationship (tandems).
  • Can be detected on almost all cytometers.
  • One of the largest fluorophores, so it may not be optimal for all targets.
  • Though it is more susceptible to photobleaching under continual illumination, PE itself can be used under some high-speed imaging conditions.
  • Sensitive to organic solvent-based fixatives, like those used for phospho flow cytometry staining.
  • All proteins are excited by shorter wavelengths such as UV and Violet lasers. As such, they may have spillover into equivalent channels on those lasers.


View all PE Products.

Structure of R-phycoerythrin



Image from the RCSB PDB (rcsb.org) of PDB ID 1EYX Contreras-Martel, C. et al. 2001. Crystallization and 2.2 A resolution structure of R-phycoerythrin from Gracilaria chilensis: a case of perfect hemihedral twinning. Acta Cystallogr. Sect.D.57:52-60.

Phycobilin Structure



Structure of phycobilin. R-phycoerythrin is composed of phycobilin chromophores embedded in a protein scaffolding.

PE/Dazzle™ 594


Brightness: 5
Ex Laser: 488 nm, 532 nm, or 561 nm
Ex Max: 565 nm
Em Max: 610 nm
Filter Used: 610/20
Molecular Weight: 245 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Bright signal with little background.
  • Comparable compensation requirements into PE when compared to spectrally equivalent tandems.
  • Better temperature and photostability as compared to spectrally equivalent tandems.
  • No cross-beam excitation with the red laser.
  • One of the largest fluorophores, so it may not be optimal for all targets.
  • PE/Dazzle™ 594 may exhibit non-specific binding to monocytes and macrophages. Use our True-Stain Monocyte Blocker™ before staining to block this non-specific binding.
 

View all PE/Dazzle™ 594 Products.

 

Learn more on our PE/Dazzle™ 594 webpage.

Bright Signal and Excellent Resolution



Human peripheral blood lymphocytes stained with anti-human CD3 (clone UCHT1) conjugated to PE/Dazzle™ 594 or other equivalent fluorophores.

True-Stain Monocyte Blocker™ Prevents Non-Specific Binding of PE/Dazzle™ 594 to Monocytes



Human PBMCs were incubated with no monocyte blocker (left) or with 5 µL of True-Stain Monocyte Blocker (right) and then stained with 5 µL/test of the indicated antibodies in 100 µL of cells at 1 x 106cells/mL.

PE/Cyanine5


Brightness: 5
Ex Laser: 488 nm, 532 nm, or 561 nm
Ex Max: 565 nm
Em Max: 670 nm
Filter Used: 660/20
Molecular Weight: 242 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio:1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • One of the brightest fluorophores, though this isn’t always an advantage because PE/Cyanine5 heavily spills into a variety of other channels due to significant cross-beam excitation by other lasers,particularly the red laser.   This causes unwanted spillover into the APC or Alexa Fluor® 647 channel and can make population resolution challenging.
  • In a multicolor panel, it may be helpful to use PE/Cyanine5 as the “dump” or exclusion channel to exclude specific cell subsets from analysis.
  • On a spectral unmixing cytometer, PE/Cyanine5 can be distinctly identified from APC and Alexa Fluor® 647, allowing for expansion the number of parameters in a multicolor panel.
  • PE/Cyanine5 may exhibit non-specific binding to monocytes and macrophages. Use our True-Stain Monocyte Blocker™ before staining to block this non-specific binding.
  • One of the largest fluorophores, so it may not be optimal for all targets.
 

View all PE/Cyanine5 Products.

Structure of Cyanine5

True-Stain Monocyte Blocker™ Prevents Non-Specific Binding of PE/Cyanine5 to Monocytes



Human PBMCs were incubated with no monocyte blocker (left) or with 5 µL of True-Stain Monocyte Blocker (right) and then stained with 5 µL/test of the indicated antibodies in 100 µL of cells at 1 x 106cells/mL.

PE/Cyanine7


Brightness: 4
Ex Laser: 488 nm, 532 nm, or 561 nm
Ex Max: 565 nm
Em Max: 774 nm
Filter Used: 780/60
Molecular Weight: 245 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye using PE as the donor and Cyanine7 as the acceptor fluorophore.
  • If a marker may be upregulated, it is useful to put it on PE/Cyanine7 because it is the furthest red-shifted fluorophore excited by the 488/561 nm lasers. So, if expression increases, it won’t affect as many neighboring channels or exacerbate spreading error.
  • One of the largest fluorophores and may not be ideal for intracellular targets.
  • PE/Cyanine7 may exhibit non-specific binding to monocytes and macrophages. Use our True-Stain Monocyte Blocker™ before staining to block this non-specific binding.
 

View all PE/Cyanine7 Products.

 

Learn more about True-Stain Monocyte Blocker™.

 

Structure of Cyanine7

 

PerCP


Brightness: 1
Ex Laser: 488 nm
Ex Max: 482 nm
Em Max: 675 nm
Filter Used: 695/40
Molecular Weight: 35 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Can have stability issues in response to temperature, fixatives, and light. Consider using PerCP/Cyanine5.5 as a more stable option.
  • Unlike PE which has strong excitation off both the 488 and 561 nm lasers, PerCP has much greater efficiency of excitation off of the 488 nm laser, thus creating a distinct spectral fingerprint from PE.
  • All proteins are excited by shorter wavelengths such as UV and Violet lasers. As such, they may have spillover into equivalent channels on those lasers.
 

View all PerCP Products.

PerCP/Cyanine5.5


Brightness: 2
Ex Laser: 488 nm
Ex Max: 482 nm
Em Max: 690 nm
Filter Used: 695/40
Molecular Weight: 35 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye using PerCP as a donor and Cyanine5.5 as the acceptor fluorophore.
  • Effectively replaces PerCP conjugates in an assay, as Cyanine5.5 stabilizes the environmental sensitivity of PerCP.
  • More photostable alternative when compared to PerCP.
  • While it is more stable, it is still not stable with organic, solvent-based fixatives.
  • PerCP/Cyanine5.5 may exhibit non-specific binding to monocytes and macrophages. Use our True-Stain Monocyte Blocker™ before staining to block this non-specific binding.
 

View all PerCP/Cyanine5.5 Products.

 

Learn more about True-Stain Monocyte Blocker™.

 

PerCP/Cyanine5.5 is sensitive to organic solvent-based fixatives

 

APC


Brightness: 4
Ex Laser: 633 nm or 640 nm
Ex Max: 650 nm
Em Max: 660 nm
Filter Used: 660/20
Molecular Weight: 105 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • A potent donor in a FRET pair.
  • Sensitive to organic solvent-based fixatives, like those used for phospho flow staining.
  • Spectrally distinct from Alexa Fluor® 647 when used on a cytometer capable of spectral unmixing, allowing them to be used together in a single panel. Ideally, these two fluors are not used to detect co-expressed markers.
  • All proteins are excited by shorter wavelengths such as UV and Violet lasers. As such, they may have spillover into equivalent channels on those lasers.
 

View all APC Products.

 

Structure of Allophycocyanin(APC)


Image from the RCSB PDB (rcsb.org) of PDB ID:2VJT Murray, J.W., Benson, S., Nield, J., Barber, J.The Structure of Allophycocyanin from Gloeobacter Violaceus.

 

APC/Cyanine7


Brightness: 2
Ex Laser: 633 nm or 640 nm
Ex Max: 650 nm
Em Max: 774 nm
Filter Used: 780/60
Molecular Weight: 154 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye using APC as the donor and Cyanine7 as the acceptor fluorophore.
  • Relatively dim fluorophore, should be used for higher abundance targets.
  • Less stable to temperature, light, and fixative as compared to other spectrally equivalent dyes. Consider using APC/Fire™ 750 as a more stable alternative.
  • If a marker may be upregulated, like an activation or exhaustion marker, it is useful to put it on APC/Cyanine7 because it is the furthest red-shifted fluorophore excited by the 633 nm lasers. So, if expression increases, it won’t affect as many neighboring channels or exacerbate spreading error.
  • APC/Cyanine7 may exhibit non-specific binding to monocytes and macrophages. Use our True-Stain Monocyte Blocker™ before staining to block this non-specific binding.
 

View all APC/Cyanine7 Products.

 

True-Stain Monocyte Blocker™ Prevents Non-Specific Binding of APC/Cyanine7 to Monocytes

 

APC/Fire™ 750


Brightness: 2
Ex Laser: 633 nm or 640 nm
Ex Max: 650 nm
Em Max: 774 nm
Filter Used: 780/60
Molecular Weight: 155 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 1:1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • More temperature and photo-stable alternative for APC/Cyanine7.
  • Improved stability in fixative solutions.
  • Lower compensation requirements than APC/Cyanine7 without compromising brightness.
  • Minimal non-specific binding to monocytes.
  • Like PE/Cyanine7, it is a good fluor to use to detect markers of variable expression because its emission is red-shifted away from neighboring channels.
  • APC/Fire™ 750 may exhibit non-specific binding to monocytes and macrophages. Use our True-Stain Monocyte Blocker™ before staining to block this non-specific binding.
 

View all APC/Fire™ 750 Products.
 

Learn more on our APC/Fire™ 750 webpage.
 

Learn more about True-Stain Monocyte Blocker™.

Comparisons with Spectrally Equivalent Fluors:

 

Improved Stability in Fixative


Human whole blood was stained for 20 min with CD3 (SK7) conjugates of APC/Fire™ 750, APC/Cy7, APC-H7 followed by RBC lysis and wash steps. Cells were then treated with either PBS control, 1%PFA in PBS, 4%PFA followed by.1%saponin, BioLegend's True-Nuclear™ Fix/Perm Buffer Set, BD's Transcription Factor Buffer Set, or eBioscience's FoxP3/Transcription Factor Staining Buffer Set prior to analysis.

A More Temperature Stable Alternative


A vial of APC/Cy7 or APC/Fire™ 750 was stored in the dark at either 4°C or 37°C for 81 days. At certain intervals, an aliquot of reagent was used to stain Veri-Cells™, lyophilized human PBMCs. Cells were stained for 15 min at room temp in cell staining buffer.

Pacific Blue™


Brightness: 1
Ex Laser: 405 nm
Ex Max: 410 nm
Em Max: 455 nm
Filter Used: 450/50
Molecular Weight: 406 Da
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • When using a spectral unmixing cytometer, it can be unmixed from BV421™ due to their unique spectra signatures.
  • Autofluorescence may populate the same channel as Pacific Blue™ which can increase background and affect its staining index.
  • Not as bright as BV421™ for surface markers but the small size can make it advantageous. It can even improve the signal-to-noise ratio for intracellular and intra-nuclear markers.
 

View all Pacific™ Blue Products.

Alexa Fluor® 488


Brightness: 1
Ex Laser: 488 nm
Ex Max: 495 nm
Em Max: 519 nm
Filter Used: 530/30
Molecular Weight: 643 Da
Recommended Application(s):
Flow Cytometry, Microscopy
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • A sulfonated version of FITC that allows for a greater number of fluors to be conjugated to a single antibody, making it brighter per antibody than FITC conjugates on average.
  • More photostable than FITC, and thus, more useful in microscopy.
 

View all Alexa Fluor 488® Products.

FITC


Brightness: 1
Ex Laser: 488 nm
Ex Max: 493 nm
Em Max: 525 nm
Filter Used: 530/30
Molecular Weight: 389 Da
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Can be detected on almost all instruments.
  • Has no significant spectral spillover into any other channels.
  • Useful for detection in microscopy when utilizing an anti-FITC secondary antibody.
  • Not the brightest fluorophore, but it is very useful for staining cytokines and transcription factors due to its small size and because it does not spillover into neighboring channels.
 

View all FITC Products.

Spark Blue™ 550


Brightness: 1
Ex Laser: 488 nm
Ex Max: 516 nm
Em Max: 550 nm
Only for use on a spectral unmixing cytometer
Molecular Weight: 1.2 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 4-6 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Use this fluorophore only when you need to add an additional fluorescent parameter in a high level (>22 color) flow cytometry assay on a spectral unmixing cytometer.
  • Excited off of the 488 nm blue laser and emits between the peak emission of Alexa Fluor® 488 or FITC and PE. Emission off the 405 nm violet laser adds to the accuracy with which the fluorophore can be unmixed.
  • Use as an alternative to Alexa Fluor® 532.

 

View all Spark Blue™ 550 products


Spark Blue™ 550 can be distinguished from FITC and PE


Human whole blood was stained with anti-CD19 conjugated to Spark Blue™ 550, anti-CD4 BV570™, anti-CD38 PE, and anti-CD40 FTIC. Samples were unmixed on a Cytek™ Aurora Cytometer using compensation beads and cells. All plots are gated on lymphocytes.

Alexa Fluor® 594


Ex Max: 590 nm
Em Max: 617 nm
Molecular Weight: 820 Da
Recommended Application(s):
Microscopy
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Useful for microscopy applications.
  • Compatible for simultaneous staining with Alexa Fluor® 488, BV421™, and Alexa Fluor® 647. Depending on the specific application and microscope, it can sometimes be used with Alexa Fluor® 555.
  • Bright and photostable.
 

View all Alexa Fluor® 594 Products.
 

Learn more about Alexa Fluor® 594.

Alexa Fluor® 647


Brightness: 4
Ex Laser: 633 nm or 640 nm
Ex Max: 650 nm
Em Max: 668 nm
Filter Used: 660/20
Molecular Weight: 1.3 kDa
Recommended Application(s):
Flow Cytometry, Microscopy
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • As a near-infrared (NIR) probe, its biggest strength is emitting in a range outside of the endogenous autofluorescence range of a sample.
  • Photostable for microscopy
  • Relatively small, and thus advantageous over APC for intracellular and transcription factor staining.
  • Spectrally distinct from APC when used on cytometer capable of spectral unmixing, allowing them to be used together in a single panel. Ideally, these two fluors are not used to detect co-expressed markers.
 

View all Alexa Fluor 647® Products.

Alexa Fluor® 647 withstands a variety of fixatives

Spark NIR™ 685


Brightness: 2
Ex Laser: 633 nm
Ex Max: 660 nm
Em Max: 685 nm
Only for use on a spectral detection cytometer
Molecular Weight: 3.1 kDa
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 5-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Recommended only for spectral unmixing cytometers.
  • Can be used in the same panel as Alexa Fluor® 647 but ideally, they should not be used to detect two co-expressed markers.

View all Spark NIR™ 685 products.


Spark NIR™ 685 can be distinguished from Alexa Fluor® 700, APC, and APC/Fire™ 750


Whole blood from the same donor was stained with either panel A or B. Panel A included the following antibodies: anti-CD4 Spark NIR™ 685, anti-CD19 Alexa Fluor® 700, anti-CD8 APC/Fire™ 750, anti-CD3 PE, and anti-CD56 APC. Panel B is shown as a reference panel using pre-optimized fluorophore selections and includes the following antibodies: anti-CD4 FITC, anti-CD19 Alexa Fluor® 700, anti-CD8 Pacific Blue™, anti-CD3 PE, and anti-CD56 PE/Cyanine7. Cells were washed and fixed with Fluorofix™ prior to analysis.

Alexa Fluor® 700


Brightness: 1
Ex Laser: 633 or 640 nm
Ex Max: 696 nm
Em Max: 719 nm
Filter Used: 720/45
Molecular Weight: 1.4 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 3-7 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Relatively high spillover from PerCP/Cyanine5.5, Alexa Fluor® 647, and APC, which can compromise sensitivity when staining for co-expressed markers using these fluors.
  • Relatively dim fluorophore.
 

View all Alexa Fluor® 700 Products.

Brilliant Violet 421™


Brightness: 4
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 421 nm
Filter Used: 450/50
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry, Microscopy
Typical F:P Ratio :2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • A very potent donor with an extinction coefficient of 2,500,0 M-1cm-1 which makes for very potent tandem dyes.
  • In some cases, it can exhibit non-specific binding to itself.
  • Very bright, ideal for detecting low-expressed markers.
 

View all Brilliant Violet 421™ Products.

Learn more about Brilliant Violet Dyes.

BV421™ withstands a variety of fixatives

Improved Signal to Noise as compared to Pacific Blue™


Human peripheral blood lymphocytes stained with anti-CD127 conjugated to BV421™ and Pacific Blue™ at varying dilutions.

Brilliant Violet 510™


Brightness: 1
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 510 nm
Filter Used: 510/50
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry, Microscopy
Typical F:P Ratio: 2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • A thicker and shorter polymer in size relative to BV421™, but unlike many of the other Brilliant Violet™ dyes, it is not a tandem.
  • Not the brightest fluorophore and it emits into a range that is heavily impacted by autofluorescence. Its “brightness” in microscopy is impacted not only by its staining index, but also by the thresholding of background fluorescence.
  • Other than BV421™, there are no fluors that spill into this channel and it exhibits no cross-beam excitation. It is very useful for adding into a multicolor panel and can be easily analyzed on a bivariate plot versus most other fluors. BV570™ and BV605™ may be the exceptions as they occupy neighboring channels.
 

View all Brilliant Violet 510™ Products.
 

Learn more about Brilliant Violet Dyes.

Brilliant Violet 570™


Brightness: 1
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 570 nm
Filter Used: 585/42
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio :2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye based on the Brilliant Violet 421™ polymer core.
  • Due to voltage balance and laser wattage differences on each instrument, the BV570™ channel can experience spillover from PE.
  • Off the violet laser, BV510™ will spillover into this channel. Otherwise, it’s a very clean fluorophore to use in a multicolor assay.
 

View all Brilliant Violet 570™ Products.
 

Learn more about Brilliant Violet Dyes.

Brilliant Violet 605™


Brightness: 3
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 603 nm
Filter Used: 610/20
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye based on the Brilliant Violet 421™ polymer core.
  • Exhibits spillover into neighboring channels and cross-beam excitation that causes emission off of other lasers resulting into spillover into PE/Dazzle™ 594, making it more of a challenge to organize into a multicolor panel.
  • To minimize spreading spillover, dedicate this fluor to low abundance antigens.
 

View all Brilliant Violet 605™ Products.
 

Learn more about Brilliant Violet Dyes.

Brilliant Violet 650™


Brightness: 3
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 645 nm
Filter Used: 660/20
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye based on the Brilliant Violet 421™ polymer core.
  • Exhibits spillover into neighboring channels and cross-beam excitation that causes emission off of other lasers resulting into spillover into PE/Cyanine5 and APC, making it more of a challenge to organize into a multicolor panel.
  • To minimize spreading spillover, dedicate this fluor to low abundance antigens.
 

View all Brilliant Violet 650™ Products.
 

Learn more about Brilliant Violet Dyes.

Brilliant Violet 711™


Brightness: 4
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 711 nm
Filter Used: 710/50
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye based on the Brilliant Violet 421™ polymer core.
  • Exhibits spillover into neighboring channels and cross-beam excitation that causes emission off of other lasers resulting into spillover into PerCP/Cyanine5.5, making it more of a challenge to organize into a multicolor panel.
  • To minimize spreading spillover, dedicate this fluor to low abundance antigens.
 

View all Brilliant Violet 711™ Products.
 

Learn more about Brilliant Violet Dyes.

Brilliant Violet 750™


Brightness: 3
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 750 nm
Filter Used: 780/60
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio :2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye based on the Brilliant Violet 421™ polymer core.
  • Provides further options for the violet laser, particularly for those with a spectral detection cytometer or a cytometer with a decagon configuration for the violet laser.
  • Can be used in place of BV785™ on a standard octagon configuration.
 

View all Brilliant Violet 750™ Products.
 

Learn more about Brilliant Violet Dyes.

Brilliant Violet 785™


Brightness: 3
Ex Laser: 405 nm
Ex Max: 405 nm
Em Max: 785 nm
Filter Used: 780/60
Molecular Weight: 60-80 kD
Recommended Application(s):
Flow Cytometry
Typical F:P Ratio: 2-4 to 1
*This is a general fluorophore to protein ratio range. For a lot-specific value, you can contact technical services.

Fluorophore At a Glance:

  • Tandem dye based on the Brilliant Violet 421™ polymer core.
  • Like PE/Cyanine7 and APC/Fire™ 750, it is a great fluor to use for an antigen of unknown density or expression pattern because it has minimal spillover into other channels and minimal cross-beam excitation off other lasers.
 

View all Brilliant Violet 785™ Products.
 

Learn more about Brilliant Violet Dyes.

For a complete listing of the trademarks and patents referenced on this page, view our Trademarks page.

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