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Alexa Fluor® 700 Rat Anti-Mouse CD86
Alexa Fluor® 700 Rat Anti-Mouse CD86
Flow cytometric analysis of CD86 on mouse splenocytes.  Left Panel: LPS-stimulated C57BL/6 splenocytes (72 hr) were stained either with a Alexa Fluor® 700 Rat IgG2a, κ isotype control (shaded) or with the Alexa Fluor® 700 Rat Anti-Mouse CD86 antibody (unshaded).  Right Panel: Freshly isolated unstimulated C57BL/6 splenocytes (shaded) and LPS-stimulated C57BL/6 splenocytes (72 hr) (unshaded) were stained with the Alexa Fluor® 700 Rat Anti-Mouse CD86 antibody.  Histograms were derived from gated events based on light scattering characteristics for lymphocytes.  Flow cytometry was performed on a BD™ LSR II flow cytometry system.
Flow cytometric analysis of CD86 on mouse splenocytes.  Left Panel: LPS-stimulated C57BL/6 splenocytes (72 hr) were stained either with a Alexa Fluor® 700 Rat IgG2a, κ isotype control (shaded) or with the Alexa Fluor® 700 Rat Anti-Mouse CD86 antibody (unshaded).  Right Panel: Freshly isolated unstimulated C57BL/6 splenocytes (shaded) and LPS-stimulated C57BL/6 splenocytes (72 hr) (unshaded) were stained with the Alexa Fluor® 700 Rat Anti-Mouse CD86 antibody.  Histograms were derived from gated events based on light scattering characteristics for lymphocytes.  Flow cytometry was performed on a BD™ LSR II flow cytometry system.
Product Details
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BD Pharmingen™
B7-2; Ly-58; Cd28l2; Early T-cell costimulatory molecule 1; ETC1; MB7; CLS1
Mouse (QC Testing)
Rat LOU, also known as Louvain, LOU/C, LOU/M IgG2a, κ
Mouse (CBA/Ca) LPS-activated splenic B Cells
Flow cytometry (Routinely Tested)
0.2 mg/ml
12524
AB_1727517
Aqueous buffered solution containing protein stabilizer and ≤0.09% sodium azide.
RUO


Preparation And Storage

Store undiluted at 4°C and protected from prolonged exposure to light. Do not freeze. The monoclonal antibody was purified from tissue culture supernatant or ascites by affinity chromatography. The antibody was conjugated to Alexa Fluor® 700 under optimum conditions, and unreacted Alexa Fluor® 700 was removed.

Product Notices

  1. Since applications vary, each investigator should titrate the reagent to obtain optimal results.
  2. An isotype control should be used at the same concentration as the antibody of interest.
  3. Alexa Fluor® 700 has an adsorption maximum of ~700nm and a peak fluorescence emission of ~720nm. Before staining cells with this reagent, please confirm that your flow cytometer is capable of exciting the fluorochrome and discriminating the resulting fluorescence.
  4. Alexa Fluor® is a registered trademark of Molecular Probes, Inc., Eugene, OR.
  5. The Alexa Fluor®, Pacific Blue™, and Cascade Blue® dye antibody conjugates in this product are sold under license from Molecular Probes, Inc. for research use only, excluding use in combination with microarrays, or as analyte specific reagents. The Alexa Fluor® dyes (except for Alexa Fluor® 430), Pacific Blue™ dye, and Cascade Blue® dye are covered by pending and issued patents.
  6. Caution: Sodium azide yields highly toxic hydrazoic acid under acidic conditions. Dilute azide compounds in running water before discarding to avoid accumulation of potentially explosive deposits in plumbing.
  7. For fluorochrome spectra and suitable instrument settings, please refer to our Multicolor Flow Cytometry web page at www.bdbiosciences.com/colors.
  8. Please refer to www.bdbiosciences.com/us/s/resources for technical protocols.
560581 Rev. 1
Antibody Details
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GL1

The GL1 antibody specifically recognizes the B7-2 (CD86) costimulatory molecule expressed on a broad spectrum of leukocytes, including B lymphocytes, T lymphocytes, thioglycollate-induced peritoneal macrophages, dendritic cells and astrocytes. CD86 is expressed at low levels by freshly explanted peripheral B and T cells, and its expression is substantially increased by a variety of T cell- and B cell-specific stimuli with a peak expression after 18-42 hours of culture. In contrast to most naive CD4+ T cells, memory CD4+ T cells express B7-2, both at the mRNA and protein level. CD86, a ligand for CD28 and CD152 (CTLA-4), is one of the accessory molecules that plays an important role in T cell-B cell costimulatory interactions. It has been shown to be involved in immunoglobulin class-switching and triggering of mouse NK cell-mediated cytotoxicity. CD80 (B7-1) is an alternate ligand for CD28 and CD152 (CTLA-4). GL1 antibody reportedly blocks MLR and stimulation of T cells by natural antigen-presenting cells. In addition, a mixture of anti-B7-1 and anti B7-2 (GL1) mAbs reportedly inhibits the in vitro interaction of CTLA-4 with its ligand and the in vivo priming of cytotoxic T lymphocytes.

560581 Rev. 1
Format Details
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Alexa Fluor™ 700
Alexa Fluor™ 700 dye is part of the BD red family of dyes. This is a small organic fluorochrome with an excitation maximum (Ex Max) at 697 nm and an emission maximum (Em Max) at 719-nm. Alexa Fluor™ 700 is designed to be excited by the Red (627–640-nm) laser and detected using an optical filter centered near 720-nm (e.g., a 720/40-nm bandpass filter). Please ensure that your instrument’s configurations (lasers and optical filters) are appropriate for this dye.
Alexa Fluor™ 700
Red 627-640 nm
697 nm
719 nm
560581 Rev.1
Citations & References
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View product citations for antibody "560581" on CiteAb

Development References (23)

  1. Bluestone JA. New perspectives of CD28-B7-mediated T cell costimulation. Immunity. 1995; 2(6):555-559. (Biology). View Reference
  2. Borriello F, Sethna MP, Boyd SD, et al. B7-1 and B7-2 have overlapping, critical roles in immunoglobulin class switching and germinal center formation. Immunity. 1997; 6(3):303-313. (Biology). View Reference
  3. Boussiotis VA, Gribben JG, Freeman GJ, Nadler LM. Blockade of the CD28 co-stimulatory pathway: a means to induce tolerance. Curr Opin Immunol. 1994; 6(5):797-807. (Biology). View Reference
  4. Freeman GJ, Borriello F, Hodes RJ, et al. Uncovering of functional alternative CTLA-4 counter-receptor in B7-deficient mice. Science. 1993; 262(5135):907-909. (Biology). View Reference
  5. Hakamada-Taguchi R, Kato T, Ushijima H, Murakami M, Uede T, Nariuchi H. Expression and co-stimulatory function of B7-2 on murine CD4+ T cells. Eur J Immunol. 1998; 28(3):865-873. (Biology). View Reference
  6. Hathcock KS, Laszlo G, Dickler HB, Bradshaw J, Linsley P, Hodes RJ. Identification of an alternative CTLA-4 ligand costimulatory for T cell activation. Science. 1993; 262(5135):905-907. (Immunogen). View Reference
  7. Hathcock KS, Laszlo G, Pucillo C, Linsley P, Hodes RJ. Comparative analysis of B7-1 and B7-2 costimulatory ligands: expression and function. J Exp Med. 1994; 180(2):631-640. (Biology). View Reference
  8. Herold KC, Vezys V, Koons A, Lenschow D, Thompson C, Bluestone JA. CD28/B7 costimulation regulates autoimmune diabetes induced with multiple low doses of streptozotocin. J Immunol. 1997; 158(2):984-991. (Biology). View Reference
  9. Inaba K, Witmer-Pack M, Inaba M, et al. The tissue distribution of the B7-2 costimulator in mice: abundant expression on dendritic cells in situ and during maturation in vitro. J Exp Med. 1994; 180(5):1849-1860. (Biology). View Reference
  10. Kawano T, Cui J, Koezuka Y, et al. CD1d-restricted and TCR-mediated activation of valpha14 NKT cells by glycosylceramides. Science. 1997; 278(5343):1626-1629. (Biology). View Reference
  11. Krummel MF, Allison JP. CD28 and CTLA-4 have opposing effects on the response of T cells to stimulation. J Exp Med. 1995; 182(2):459-465. (Biology). View Reference
  12. Larsen CP, Ritchie SC, Hendrix R, et al. Regulation of immunostimulatory function and costimulatory molecule (B7-1 and B7-2) expression on murine dendritic cells. J Immunol. 1994; 152(11):5208-5219. (Biology). View Reference
  13. Lenschow DJ, Su GH, Zuckerman LA, et al. Expression and functional significance of an additional ligand for CTLA-4. Proc Natl Acad Sci U S A. 1993; 90(23):11054-11058. (Biology). View Reference
  14. Liu Y, Wenger RH, Zhao M, Nielsen PJ. Distinct costimulatory molecules are required for the induction of effector and memory cytotoxic T lymphocytes. J Exp Med. 1997; 185(2):251-262. (Biology). View Reference
  15. Martin-Fontecha A, Assarsson E, Carbone E, Karre K, Ljunggren HG. Triggering of murine NK cells by CD40 and CD86 (B7-2). J Immunol. 1999; 162(10):5910-5916. (Biology). View Reference
  16. McAdam AJ, Schweitzer AN, Sharpe AH. The role of B7 co-stimulation in activation and differentiation of CD4+ and CD8+ T cells. Immunol Rev. 1998; 165:231-247. (Biology). View Reference
  17. Nakajima A, Azuma M, Kodera S, et al. Preferential dependence of autoantibody production in murine lupus on CD86 costimulatory molecule. Eur J Immunol. 1995; 25(11):3060-3069. (Biology). View Reference
  18. Nikcevich KM, Gordon KB, Tan L, et al. IFN-gamma-activated primary murine astrocytes express B7 costimulatory molecules and prime naive antigen-specific T cells. J Immunol. 1997; 158(2):614-621. (Biology). View Reference
  19. Nuriya S, Yagita H, Okumura K, Azuma M. The differential role of CD86 and CD80 co-stimulatory molecules in the induction and the effector phases of contact hypersensitivity. Int Immunol. 1996; 8(6):917-926. (Biology). View Reference
  20. Rauschmayr-Kopp T, Williams IR, Borriello F, Sharpe AH, Kupper TS. Distinct roles for B7 costimulation in contact hypersensitivity and humoral immune responses to epicutaneous antigen. Eur J Immunol. 1998; 28(12):4221-4227. (Biology). View Reference
  21. Roy M, Aruffo A, Ledbetter J, Linsley P, Kehry M, Noelle R. Studies on the interdependence of gp39 and B7 expression and function during antigen-specific immune responses. Eur J Immunol. 1995; 25(2):596-603. (Biology). View Reference
  22. Turley SJ, Inaba K, Garrett WS, et al. Transport of peptide-MHC class II complexes in developing dendritic cells. Science. 2000; 288(5465):522-527. (Biology). View Reference
  23. Yang G, Mizuno MT, Hellstrom KE, Chen L. B7-negative versus B7-positive P815 tumor: differential requirements for priming of an antitumor immune response in lymph nodes. J Immunol. 1997; 158(2):851-858. (Biology). View Reference
View All (23) View Less
560581 Rev. 1

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Comparisons, where applicable, are made against older BD Technology, manual methods or are general performance claims.  Comparisons are not made against non-BD technologies, unless otherwise noted.

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