Brilliant Violet 421™ anti-mouse CD3ε Antibody

Pricing & Availability
Clone
145-2C11 (See other available formats)
Regulatory Status
RUO
Other Names
CD3ε, T3, CD3
Isotype
Armenian Hamster IgG
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Product Citations
publications
145-2C11_BV421_1_032911
C57BL/6 mouse splenocytes were stained with CD19 FITC and CD3ε (clone 145-2C11) Brilliant Violet 421™ (above) or Armenian hamster IgG Brilliant Violet 421™ isotype control (below).
  • 145-2C11_BV421_1_032911
    C57BL/6 mouse splenocytes were stained with CD19 FITC and CD3ε (clone 145-2C11) Brilliant Violet 421™ (above) or Armenian hamster IgG Brilliant Violet 421™ isotype control (below).
  • 145-2C11_BV421_2_032911
  • 145-2C11_BV421_CD3_Antibody_IF_012914
    C57BL/6 mouse splenocytes were fixed with 2% paraformaldehyde (PFA), and then stained with 5 µg/ml CD3 (clone 145-2C11) Brilliant Violet 421™ (blue) and 5 µg/ml CD19 (clone 6D5) Alexa Fluor® 647 (red) for 30 minutes at room temperature. The image was captured by 40X objective.
Compare all formats See Brilliant Violet 421™ spectral data
Cat # Size Price Quantity Check Availability Save
100335 125 µL 141€
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100341 50 µg 194€
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100336 500 µL 308€
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Description

CD3ε is a 20 kD transmembrane protein, also known as CD3 or T3. It is a member of the Ig superfamily and primarily expressed on T cells, NK-T cells, and at different levels on thymocytes during T cell differentiation. CD3ε forms a TCR complex by associating with the CD3δ, γ and ζ chains, as well as the TCR α/β or γ/δ chains. CD3 plays a critical role in TCR signal transduction, T cell activation, and antigen recognition by binding the peptide/MHC antigen complex.

Product Details
Technical Data Sheet (pdf)

Product Details

Verified Reactivity
Mouse
Antibody Type
Monoclonal
Host Species
Armenian Hamster
Immunogen
H-2Kb-specific mouse cytotoxic T lymphocyte clone BM10-37
Formulation
Phosphate-buffered solution, pH 7.2, containing 0.09% sodium azide and BSA (origin USA).
Preparation
The immunoglobulin was purified by affinity chromatography and conjugated with Brilliant Violet 421™ under optimal conditions.
Concentration
µg sizes: 0.2 mg/mL
µL sizes: lot-specific (to obtain lot-specific concentration and expiration, please enter the lot number in our Certificate of Analysis online tool.)
Storage & Handling
The antibody solution should be stored undiluted between 2°C and 8°C, and protected from prolonged exposure to light. Do not freeze.
Application

FC - Quality tested
ICC - Verified

Recommended Usage

Each lot of this antibody is quality control tested by immunofluorescent staining with flow cytometric analysis. For immunofluorescent staining using the µg size, the suggested use of this reagent is ≤0.25 µg per million cells in 100 µl volume. For immunocytochemistry using the µl sizes, the suggested use of this reagent is 5 µl per million cells in 100 µl staining volume or 5 µl per 100 µl of whole blood. It is recommended that the reagent be titrated for optimal performance for each application.

Brilliant Violet 421™ excites at 405 nm and emits at 421 nm. The standard bandpass filter 450/50 nm is recommended for detection. Brilliant Violet 421™ is a trademark of Sirigen Group Ltd.


Learn more about Brilliant Violet™.

This product is subject to proprietary rights of Sirigen Inc. and is made and sold under license from Sirigen Inc. The purchase of this product conveys to the buyer a non-transferable right to use the purchased product for research purposes only. This product may not be resold or incorporated in any manner into another product for resale. Any use for therapeutics or diagnostics is strictly prohibited. This product is covered by U.S. Patent(s), pending patent applications and foreign equivalents.
Excitation Laser
Violet Laser (405 nm)
Application Notes

Clone 145-2C11 is useful for in vitro blocking of target-specific CTL-mediated cell lysis1, as well as T cell activation assays, inducing proliferation and cytokine production1,2,7,12,16. It also induces apoptosis in immature thymocytes32,  and in vivo T cell depletion8-10. Additional reported applications (for relevant formats of this clone) include: immunoprecipitation1, immunohistochemical staining14,15 of acetone-fixed frozen sections and zinc-fixed paraffin-embedded sections, Western blotting4, complement-mediated cytotoxicity6, in vitro and in vivo stimulation of T cells1,2,7,12,16, immunofluorescent staining5, and in vivo T cell depletion8-10. The 145-2C11 antibody has been reported to block the binding of 17A2 antibody to CD3 epsilon-specific T cells11. Clone 145-2C11 is not recommended for formalin-fixed paraffin embedded sections. The LEAF™ purified antibody (Endotoxin <0.1 EU/µg, Azide-Free, 0.2 µm filtered) is recommended for functional assays (Cat. No. 100314). For in vivo studies or highly sensitive assays, we recommend Ultra-LEAF™ purified antibody (Cat. No. 100340) with a lower endotoxin limit than standard LEAF™ purified antibodies (Endotoxin <0.01 EU/µg).

Application References
  1. Leo O, et al. 1987. P. Natl. Acad. Sci. USA 84:1374. (IP, Activ, Block)
  2. Kruisbeek AM, et al. 1991. In Current Protocols in Immunology. 3.12.1. (Activ)
  3. Duke RC, et al. 1995. Current Protocols in Immunology. 3.17.1.
  4. Salvadori S, et al. 1994. J. Immunol. 153:5176. (WB)
  5. Payer E, et al. 1991. J. Immunol. 146:2536. (IF)
  6. Jacobs H, et al. 1994. Eur. J. Immunol. 24:934. (CMCD)
  7. Vossen ACTM, et al. 1995. Eur. J. Immunol. 25:1492. (Activ)
  8. Henrickson M, et al. 1995. Transplantation 60:828. (Deplete)
  9. Kinnaert P, et al. 1996. Transpl. Int. 9:386. (Deplete)
  10. Han WR, et al. 1999. Transpl. Immunol. 7:207. (Deplete)
  11. Miescher GC, et al. 1989. Immunol. Lett. 23:113. (Block)
  12. Terrazas LI, et al. 2005. Intl. J. Parasitology. 35:1349. (Activ)
  13. Ko SY, et al. 2005. J. Immunol. 175:3309.
  14. Podd BS, et al. 2006. J. Immunol. 176:6532. (IHC-F)
  15. Tilley SL, et al. 2007. J. Immunol. 178:3208. (IHC-F)
  16. Wang W, et al. 2007. J. Immunol. 178:4885. (Activ)
  17. Xiao S, et al. 2007. J. Exp. Med. 204:1691.
  18. Chappaz S, et al. 2007. Blood doi:10.1182/blood-2007-02-074245. (FC) PubMed.
  19. Curtsinger JM, et al.2005. J. Immunol. 175:4392. PubMed
  20. Guo Y, et al. 2008. Blood 112:480. PubMed
  21. Kenna TJ, et al. 2008. Blood 111:2091.
  22. Perchonock CE, et al. 2007. J. Immunol. 179:1768. PubMed
  23. Perchonock GE, et al. 2006. Mol. Cell. Biol. 26:6005. PubMed
  24. Kanaya T, et al. 2008. Am. J. Physiol. Gastrointest. Liver Physiol. 295:G273. PubMed
  25. de Koning BA, et al. 2006. Int. Immunol. 18:941. PubMed
  26. Schulteis RD, et al. 2008. Blood 295:G273. PubMed
  27. Qi Q, et al. 2009. Blood 114:564. PubMed
  28. Helmersson S, et al. 2013. Am J Pathol. 9440:123. Pubmed
  29. Wu S, et al. 2014. Clin Vaccine Immunol. 21:156. PubMed
  30. Yan J, et al. 2014. Vaccine. 32:2833. PubMed
  31. Guiterrez DA, et al. 2014. Diaebetes. 63:3827. PubMed
  32. Shi YF, et al. 1991. J Immunol. 146:3340. (Apop)
Product Citations
  1. Lin C, et al. 2020. Cancer Immunol Res. 632:8. PubMed
  2. Argüello RJ, et al. 2020. Cell Metab. 32:1063. PubMed
  3. Wang S, et al. 2022. Sci Adv. 8:eabn3883. PubMed
  4. Chan L, et al. 2022. Cells. 12: . PubMed
  5. Kemna J, et al. 2023. Nat Immunol. 24:414. PubMed
  6. Játiva S, et al. 2022. Biomed Pharmacother. 153:113415. PubMed
  7. Zhu C, et al. 2022. Chemotherapy. 67:211. PubMed
  8. Cai Z, et al. 2023. Adv Sci (Weinh). 10:e2207155. PubMed
  9. Yang N, et al. 2022. NPJ Vaccines. 7:120. PubMed
  10. Ren Z, et al. 2021. EMBO Molecular Medicine. :e14059. PubMed
  11. Zhang J, et al. 2021. MedComm (Beijing). 2:256. PubMed
  12. Stegelmeier AA, et al. 2022. Biomedicines. 10:. PubMed
  13. Liu Q, et al. 2021. Cell Death Dis. 12:240. PubMed
  14. Chow MT et al. 2019. Immunity. 50(6):1498-1512 . PubMed
  15. Petursdottir D, et al. 2017. Front Immunol. . 10.3389/fimmu.2017.01699. PubMed
  16. Nakagawa S et al. 2017. Cell host & microbe. 22(5):667-677 . PubMed
  17. Misumi I et al. 2019. Cell Rep. 27(2):514-524 . PubMed
  18. LaFleur MW, et al. 2019. Nat Immunol. 20:1335. PubMed
  19. Si Y, et al. 2020. Sci Adv. 6:eaba0995. PubMed
  20. Kuang Z, et al. 2020. Antib Ther. 3:227. PubMed
  21. Li H, et al. 2021. Nat Commun. 12:2773. PubMed
  22. Mitchell JE, et al. 2021. Cell Reports. 35(2):108966. PubMed
  23. Vieyra-Garcia P, et al. 2016. Clin Cancer Res. 22: 3328 - 3339. PubMed
  24. Wilson AS, et al. 2022. Nat Commun. 13:528. PubMed
  25. Maluski M, et al. 2019. J Clin Invest. 129:5108. PubMed
  26. Mrdjen D et al. 2018. Immunity. 48(2):380-395 . PubMed
  27. Akazawa S, et al. 2021. Diabetologia. 64:878. PubMed
  28. Formaglio P, et al. 2021. Immunity. 54:2724. PubMed
  29. Pilones KA, et al. 2020. Cancer Immunol Res. 8:1054. PubMed
  30. Brown CC, et al. 2020. Cell. 179(4):846-863.e24.. PubMed
  31. LaFleur MW, et al. 2019. Nat Commun. 10:1668. PubMed
  32. van Vloten JP, et al. 2019. Mol Ther Methods Clin Dev. 13:154. PubMed
  33. Lee C, et al. 2015. Nat Commun. 6: 8477. PubMed
  34. Ye Q, et al. 2022. NPJ Vaccines. 7:84. PubMed
  35. Hofmann J, et al. 2021. Front Immunol. 11:599495. PubMed
  36. Qi F, et al. 2019. Front Microbiol. 2.140277778. PubMed
  37. Nagatake T, et al. 2018. J Allergy Clin Immunol. 142:470. PubMed
  38. Kiyohara H, et al. 2018. Cell Mol Gastroenterol Hepatol. 7:135. PubMed
  39. Alexander Mildner et al. 2017. Immunity. 46(5):849-862 . PubMed
  40. Wedekind MF, et al. 2021. iScience. 24(7):102759. PubMed
  41. Link CWM, et al. 2020. Front Immunol. 11:596772. PubMed
  42. Mah-Som AY, et al. 2021. Cell Reports. 35(9):109209. PubMed
  43. Fedele C, et al. 2021. J Exp Med. 218: . PubMed
  44. Gong P, et al. 2022. Cell Death Discov. 8:466. PubMed
  45. Teng F, et al. 2021. Cell Rep. 37:110051. PubMed
  46. McAusland TM, et al. 2021. Mol Ther Oncolytics. 20:306. PubMed
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RRID
AB_10898314 (BioLegend Cat. No. 100335)
AB_10898314 (BioLegend Cat. No. 100341)
AB_10898314 (BioLegend Cat. No. 100336)

Antigen Details

Structure
Ig superfamily, forms CD3/TCR complex with CD3δ, γ and ζ subunits and TCR (α/β and γ/δ), 20 kD
Distribution

Thymocytes (differentiation dependent), mature T cells, NK-T cells

Function
TCR signal transduction, T cell activation, antigen recognition
Ligand/Receptor
Peptide antigen/MHC-complex
Cell Type
NKT cells, T cells, Thymocytes, Tregs
Biology Area
Immunology
Molecular Family
CD Molecules, TCRs
Antigen References

1. Barclay A, et al. 1997. The Leukocyte Antigen FactsBook Academic Press.
2. Davis MM. 1990. Annu. Rev. Biochem. 59:475.
3. Weiss A, et al. 1994. Cell 76:263.

Gene ID
12501 View all products for this Gene ID
Specificity (DOES NOT SHOW ON TDS):
CD3epsilon
Specificity Alt (DOES NOT SHOW ON TDS):
CD3ε
App Abbreviation (DOES NOT SHOW ON TDS):
FC,ICC
UniProt
View information about CD3epsilon on UniProt.org

Related FAQs

What is the F/P ratio range of our BV421™ format antibody reagents?

It is lot-specific. On average it ranges between 2-4.

Go To Top Version: 3    Revision Date: 02/18/2014

For Research Use Only. Not for diagnostic or therapeutic use.

 

This product is supplied subject to the terms and conditions, including the limited license, located at www.biolegend.com/terms) ("Terms") and may be used only as provided in the Terms. Without limiting the foregoing, BioLegend products may not be used for any Commercial Purpose as defined in the Terms, resold in any form, used in manufacturing, or reverse engineered, sequenced, or otherwise studied or used to learn its design or composition without express written approval of BioLegend. Regardless of the information given in this document, user is solely responsible for determining any license requirements necessary for user’s intended use and assumes all risk and liability arising from use of the product. BioLegend is not responsible for patent infringement or any other risks or liabilities whatsoever resulting from the use of its products.

 

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This data display is provided for general comparisons between formats.
Your actual data may vary due to variations in samples, target cells, instruments and their settings, staining conditions, and other factors.
If you need assistance with selecting the best format contact our expert technical support team.

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