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RY775 Hamster Anti-Mouse CD3e
RY775 Hamster Anti-Mouse CD3e
Multicolor flow cytometric analysis of CD3e expression on viable Mouse splenic T cells. C57BL/6 Mouse splenic leukocytes were preincubated with Purified Rat Anti-Mouse CD16/32 antibody (Mouse Fc Block™) [Cat. No. 553142]. The cells were then stained with BD Horizon™ R718 Rat Anti-Mouse CD4 (Cat. No. 566939) and BD Horizon™ R718 Rat Anti-Mouse CD8a (Cat. No. 566985) antibodies and with either BD Horizon™ RY775 Hamster IgG1, κ Isotype Control (Cat. No. 571632; Left Plot) or BD Horizon™ RY775 Hamster Anti-Mouse CD3e antibody (Cat. No. 571608/571614; Right Plot) at 1 µg/test. DAPI Solution (Cat. No. 564907) was added to cells right before analysis. The pseudocolor density plot showing the corelated expression of CD3e (or Ig Isotype Control staining) versus CD4 and CD8 was derived from gated events with the forward and side light-scatter characteristics of viable (DAPI-negative) splenic leukocytes. Flow cytometry and data analysis were performed using a BD FACSymphony™ A5 Cell Analyzer System and FlowJo™ Software. Data shown on this Technical Data Sheet are not lot specific.
Multicolor flow cytometric analysis of CD3e expression on viable Mouse splenic T cells. C57BL/6 Mouse splenic leukocytes were preincubated with Purified Rat Anti-Mouse CD16/32 antibody (Mouse Fc Block™) [Cat. No. 553142]. The cells were then stained with BD Horizon™ R718 Rat Anti-Mouse CD4 (Cat. No. 566939) and BD Horizon™ R718 Rat Anti-Mouse CD8a (Cat. No. 566985) antibodies and with either BD Horizon™ RY775 Hamster IgG1, κ Isotype Control (Cat. No. 571632; Left Plot) or BD Horizon™ RY775 Hamster Anti-Mouse CD3e antibody (Cat. No. 571608/571614; Right Plot) at 1 µg/test. DAPI Solution (Cat. No. 564907) was added to cells right before analysis. The pseudocolor density plot showing the corelated expression of CD3e (or Ig Isotype Control staining) versus CD4 and CD8 was derived from gated events with the forward and side light-scatter characteristics of viable (DAPI-negative) splenic leukocytes. Flow cytometry and data analysis were performed using a BD FACSymphony™ A5 Cell Analyzer System and FlowJo™ Software. Data shown on this Technical Data Sheet are not lot specific.
Product Details
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BD Horizon™
CD3; CD3 epsilon; Cd3e; CD3ε; T3e
Mouse (QC Testing)
Armenian Hamster IgG1, κ
H-2Kb specific cytotoxic T lymphocyte clone BM10-37
Flow cytometry (Routinely Tested)
0.2 mg/ml
12501
Aqueous buffered solution containing ≤0.09% sodium azide.
RUO


Preparation And Storage

The monoclonal antibody was purified from tissue culture supernatant or ascites by affinity chromatography. The antibody was conjugated to the dye under optimum conditions and unconjugated antibody and free dye were removed. Store undiluted at 4°C and protected from prolonged exposure to light. Do not freeze.

Recommended Assay Procedures

BD® CompBeads can be used as surrogates to assess fluorescence spillover (compensation). When fluorochrome conjugated antibodies are bound to BD® CompBeads, they have spectral properties very similar to cells. However, for some fluorochromes there can be small differences in spectral emissions compared to cells, resulting in spillover values that differ when compared to biological controls. It is strongly recommended that when using a reagent for the first time, users compare the spillover on cells and BD® CompBeads to ensure that BD® CompBeads are appropriate for your specific cellular application.

Product Notices

  1. Please refer to www.bdbiosciences.com/us/s/resources for technical protocols.
  2. When using high concentrations of antibody, background binding of this dye to erythroid fragments produced by ammonium chloride-based lysis, such as with BD Pharm Lyse™ Lysing Buffer (Cat. No. 555899), has been observed when the antibody conjugate was present during the lysis procedure. This may cause nonspecific staining of target cells, such as leukocytes, which have bound the resulting erythroid fragments. This background can be mitigated by any of the following: titrating the antibody conjugate to a lower concentration, fixing samples with formaldehyde, or removing erythrocytes before staining (eg, gradient centrifugation or pre-lysis with wash). This background has not been observed when cells were lysed with BD FACS™ Lysing Solution (Cat. No. 349202) after staining.
  3. 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.
  4. Since applications vary, each investigator should titrate the reagent to obtain optimal results.
  5. An isotype control should be used at the same concentration as the antibody of interest.
  6. For fluorochrome spectra and suitable instrument settings, please refer to our Multicolor Flow Cytometry web page at www.bdbiosciences.com/colors.
  7. Please observe the following precautions: We recommend that special precautions be taken (such as wrapping vials, tubes, or racks in aluminum foil) to protect exposure of conjugated reagents, including cells stained with those reagents, to any room illumination. Absorption of visible light can significantly affect the emission spectra and quantum yield of tandem fluorochrome conjugates.
  8. Tandem fluorochromes contain both an energy donor and an energy acceptor. Although every effort is made to minimize the lot-to-lot variation in the efficiency of the fluorochrome energy transfer, differences in the residual emission from the donor may be observed. Additionally, multi-laser cytometers may directly excite both the donor and acceptor fluorochromes. Therefore, we recommend for every tandem conjugate, a matched individual single-stain control be acquired for generating a compensation or spectral unmixing matrix.
  9. Please refer to http://regdocs.bd.com to access safety data sheets (SDS).
  10. Cy is a trademark of Global Life Sciences Solutions Germany GmbH or an affiliate doing business as Cytiva.
  11. For U.S. patents that may apply, see bd.com/patents.
571608 Rev. 1
Antibody Details
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145-2C11

The 145-2C11 monoclonal antibody specifically binds to the 25-kDa ε chain of the T-cell receptor-associated CD3 complex that is expressed on thymocytes, mature T lymphocytes, and NK-T cells. The cytoplasmic domain of CD3e participates in the signal transduction events that activate several cellular biochemical pathways as a result of antigen recognition. Soluble 145-2C11 antibody can activate either unprimed (naive) or primed (memory/preactivated) T cells in vivo or in vitro, in the presence of Fc receptor-bearing accessory cells.  In contrast, plate-bound 145-2C11 can activate T cells in the absence of accessory cells. Soluble 145-2C11 antibody has been reported to induce re-directed lysis of Fc receptor-bearing target cells by CTL clones and can also block lysis of specific target cells by antigen-specific CTL's. Under some conditions, T-cell activation by 145-2C11 antibody has been reported to result in apoptotic cell death. The 145-2C11 antibody does not cross-react with rat leukocytes. Preincubation of thymus cell suspensions at 37°C for 2-4 hours prior to staining reportedly enhances the ability of anti-CD3ε and anti-αβ TCR mAbs to detect the T-cell receptor on immature thymocytes.

571608 Rev. 1
Format Details
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RY775
The BD Horizon RealYellow™ 775 (RY775) Dye is part of the BD® family of yellow-green dyes. It is a tandem fluorochrome with an excitation maximum (Ex Max) at 557-nm and an emission maximum (Em Max) at 775-nm as measured using an antibody-dye conjugate. Driven by BD® innovation, RY775 can be used on both spectral and conventional cytometers and is designed to be excited by the Yellow-Green laser (561-nm) with minimal excitation by the 488-nm Blue laser. For conventional instruments equipped with a Yellow-Green laser (561-nm), RY775 can be used as an alternative to PE-Cy7 and we recommend using an optical filter centered near 780-nm (eg, a 780/60-nm bandpass filter).
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RY775
Yellow-Green 561 nm
557 nm
775 nm
571608 Rev.1
Citations & References
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View product citations for antibody "571608" on CiteAb

Development References (14)

  1. Castro JE, Listman JA, Jacobson BA, et al. Fas modulation of apoptosis during negative selection of thymocytes. Immunity. 1996; 5(6):617-627. (Clone-specific: Activation, Apoptosis). View Reference
  2. Duke RC, Cohen JJ, Boehme SA, et al. Morphological, biochemical, and flow cytometric assays of apoptosis. In: Coligan J, Kruisbeek AM, Margulies D, Shevach EM, Strober W, ed. Current Protocols in Immunology. New York: John Wiley and Sons; 1995:3.17.1-3.17.33.
  3. Ernst DN, Weigle WO, McQuitty DN, Rothermel AL, Hobbs MV. Stimulation of murine T cell subsets with anti-CD3 antibody. Age-related defects in the expression of early activation molecules. J Immunol. 1989; 142(5):1413-1421. (Clone-specific: Activation, Functional assay, Stimulation). View Reference
  4. Isakov N, Wange RL, Burgess WH, Watts JD, Aebersold R, Samelson LE. ZAP-70 binding specificity to T cell receptor tyrosine-based activation motifs: the tandem SH2 domains of ZAP-70 bind distinct tyrosine-based activation motifs with varying affinity. J Exp Med. 1995; 181(1):375-380. (Biology). View Reference
  5. Kruisbeek AM, Shevach EM. Proliferative assays for T cell function. Curr Protoc Immunol. 2004; 3:3.12.1-3.12.14. (Methodology: Activation, Stimulation). View Reference
  6. Kubo RT, Born W, Kappler JW, Marrack P, Pigeon M. Characterization of a monoclonal antibody which detects all murine alpha beta T cell receptors. J Immunol. 1989; 142(8):2736-2742. (Clone-specific: Activation, Flow cytometry, Immunoprecipitation, Stimulation). View Reference
  7. Leo O, Foo M, Sachs DH, Samelson LE, Bluestone JA. Identification of a monoclonal antibody specific for a murine T3 polypeptide. Proc Natl Acad Sci U S A. 1987; 84(5):1374-1378. (Immunogen: Activation, Blocking, Cytotoxicity, Flow cytometry, Immunoprecipitation, Inhibition, Stimulation). View Reference
  8. Nakano H, Yamazaki T, Miyatake S, Nozaki N, Kikuchi A, Saito T. Specific interaction of topoisomerase II beta and the CD3 epsilon chain of the T cell receptor complex. J Biol Chem. 1996; 271(11):6483-6489. (Clone-specific: Functional assay, Stimulation). View Reference
  9. Portoles P, Rojo J, Golby A, et al . Monoclonal antibodies to murine CD3 epsilon define distinct epitopes, one of which may interact with CD4 during T cell activation. J Immunol. 1989; 142(12):4169-4175. (Clone-specific: Blocking, Cytotoxicity, Immunoprecipitation, Radioimmunoassay). View Reference
  10. Radvanyi LG, Mills GB, Miller RG. Religation of the T cell receptor after primary activation of mature T cells inhibits proliferation and induces apoptotic cell death. J Immunol. 1993; 150(12):5704-5715. (Clone-specific: Activation, Apoptosis). View Reference
  11. Salvadori S, Gansbacher B, Pizzimenti AM, Zier KS. Abnormal signal transduction by T cells of mice with parental tumors is not seen in mice bearing IL-2-secreting tumors. J Immunol. 1994; 153(11):5176-5182. (Clone-specific: Activation, Calcium Flux, Flow cytometry, Western blot). View Reference
  12. Shinkai Y, Alt FW. CD3 epsilon-mediated signals rescue the development of CD4+CD8+ thymocytes in RAG-2-/- mice in the absence of TCR beta chain expression. Int Immunol. 1994; 6(7):995-1001. (Biology). View Reference
  13. Ucker DS, Meyers J, Obermiller PS. Activation-driven T cell death. II. Quantitative differences alone distinguish stimuli triggering nontransformed T cell proliferation or death. J Immunol. 1992; 149(5):1583-1592. (Clone-specific: Activation, Apoptosis). View Reference
  14. Wang R, Murphy KM, Loh DY, Weaver C, Russell JH. Differential activation of antigen-stimulated suicide and cytokine production pathways in CD4+ T cells is regulated by the antigen-presenting cell. J Immunol. 1993; 150(9):3832-3842. (Clone-specific: Activation, Apoptosis). View Reference
View All (14) View Less
571608 Rev. 1

 

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