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Multiparameter flow cytometric analysis of CD29 expression on Human peripheral blood leucocyte populations. Platelet-depleted human whole blood was stained with APC Mouse Anti-Human CD41a antibody (Cat. No. 559777) and with either PE Mouse IgG1, κ Isotype Control (Cat. No. 554680; Left Plot) or PE Mouse Anti-Human CD29 antibody (Cat. No. 568729/568730; Right Plot). The erythrocytes were lysed with BD FACS™ Lysing Solution (Cat. No. 349202). The bivariate pseudocolor density plot showing the correlated expression of CD29 (or Ig Isotype control staining) versus side-light scatter (SSC-A) signals was derived from gated events with the forward and side-light scatter characteristics of intact leucocyte populations. Flow cytometry and data analysis were performed using a BD LSRFortessa™ X-20 Cell Analyzer System and FlowJo™ software.
BD Pharmingen™ PE Mouse Anti-Human CD29
Regulatory Status Legend
Any use of products other than the permitted use without the express written authorization of Becton, Dickinson and Company is strictly prohibited.
Preparation And Storage
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 cell and BD® CompBeads to ensure that BD® CompBeads are appropriate for your specific cellular application.
Product Notices
- Please refer to www.bdbiosciences.com/us/s/resources for technical protocols.
- Source of all serum proteins is from USDA inspected abattoirs located in the United States.
- 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.
- This reagent has been pre-diluted for use at the recommended Volume per Test. We typically use 1 × 10^6 cells in a 100-µl experimental sample (a test).
- For fluorochrome spectra and suitable instrument settings, please refer to our Multicolor Flow Cytometry web page at www.bdbiosciences.com/colors.
- An isotype control should be used at the same concentration as the antibody of interest.
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Companion Products
The TS2/16 monoclonal antibody specifically recognizes CD29 which is also known as Integrin beta-1 (Integrin β1 or β1 Integrin), Glycoprotein IIa (GPIIA), Very late activation protein beta (VLA-beta; VLAB), and Fibronectin receptor subunit beta (FNRB). CD29 is an ~130 kDa single pass type I transmembrane glycoprotein that is encoded by ITGB1 (Integrin subunit beta 1). β1 integrins constitute the largest subgroup of integrins as they form noncovalent heterodimeric complexes with at least 12 different alpha integrin (Integrin α) subunits. These heterodimeric β1 integrins mediate a variety of interactions between cells and between cells and the extracellular matrix that are involved in cellular signaling, growth, survival, adhesion, and migration. The family of heterodimeric β1 integrins includes receptors for vascular cell adhesion molecule 1 (VCAM-1), extracellular matrix (ECM) components such as collagen, fibronectin, laminin, and vitronectin, and some microbial ligands. The β1 integrin subunit is widely expressed on hematopoietic and non-hematopoietic cells including T and B cells, dendritic cells (DC), NK cells, monocytes and macrophages, granulocytes, as well as mast cells, fibroblasts, endothelial cells, epithelial cells, and stem cells. Platelets express high levels of CD29 (β1 integrin) and may be bound to leucocytes from human blood. Gating out cells expressing the platelet marker CD41a will avoid attributing platelet CD29 (β1 integrin) expression to attached leucocytes. The TS2/16 antibody is reportedly useful for multiple applications including flow cytometry, immunohistochemistry, and functional studies.
Development References (12)
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Hemler ME, Bodorova J, Kawaguchi S, Weitzman J, Kassner P. Adhesion structures subpanel 6, β1 integrins/VLA: CD29/CD49. In: Schlossman SF. Stuart F. Schlossman .. et al., ed. Leucocyte typing V : white cell differentiation antigens : proceedings of the fifth international workshop and conference held in Boston, USA, 3-7 November, 1993. Oxford: Oxford University Press; 1995:1609-1612.
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Hemler ME, Bodorova J, Pasqualini R. CD29 (integrin β1) cluster report. In: Schlossman SF. Stuart F. Schlossman .. et al., ed. Leucocyte typing V : white cell differentiation antigens : proceedings of the fifth international workshop and conference held in Boston, USA, 3-7 November, 1993. Oxford: Oxford University Press; 1995:1612-1613.
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Hemler ME, Sanchez-Madrid F, Flotte TJ, et al. Glycoproteins of 210,000 and 130,000 m.w. on activated T cells: cell distribution and antigenic relation to components on resting cells and T cell lines.. J Immunol. 1984; 132(6):3011-8. (Immunogen: Immunohistochemistry, Immunoprecipitation, Radioimmunoassay). View Reference
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Logdberg L, West S, Vattay A, Dottavio D. Soluble recombinant integrin β1 (CD29) as a probe to identify CD29-reactive mAb. In: Schlossman SF. Stuart F. Schlossman .. et al., ed. Leucocyte typing V : white cell differentiation antigens : proceedings of the fifth international workshop and conference held in Boston, USA, 3-7 November, 1993. Oxford: Oxford University Press; 1995:1626-1629.
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Luque A, Gomez M, Puzon W, Takada Y, Sanchez-Madrid F, Cabanas C. Activated conformations of very late activation integrins detected by a group of antibodies (HUTS) specific for a novel regulatory region (355-425) of the common beta 1 chain. J Biol Chem. 1996; 271(19):11067-11075. (Clone-specific: Flow cytometry, Functional assay, Immunoaffinity chromatography). View Reference
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Luque A, Sánchez-Madrid F, Cabañas C. Functional regulation of the human integrin VLA-1 (CD49a/CD29) by divalent cations and stimulatory beta 1 antibodies.. FEBS Lett. 1994; 346(2-3):278-84. (Clone-specific: Flow cytometry). View Reference
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Masumoto A, Hemler ME. Mutation of putative divalent cation sites in the alpha 4 subunit of the integrin VLA-4: distinct effects on adhesion to CS1/fibronectin, VCAM-1, and invasin.. J Cell Biol. 1993; 123(1):245-53. (Clone-specific: Functional assay). View Reference
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Mould AP, Garratt AN, Puzon-McLaughlin W, Takada Y, Humphries MJ. Regulation of integrin function: evidence that bivalent-cation-induced conformational changes lead to the unmasking of ligand-binding sites within integrin alpha5 beta1.. Biochem J. 1998; 331 ( Pt 3):821-8. (Clone-specific: Blocking, ELISA). View Reference
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Springer TA, Luther E, Klickstein LB. Adhesion structures: section report. In: Schlossman SF. Schlossman SF, Boumsell L, Gilks W, et al, ed. Leucocyte Typing V: White Cell Differentiation Antigens. New York, NY: Oxford; 1995:1443-1467.
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Tsuchida J, Ueki S, Saito Y, Takagi J. Classification of 'activation' antibodies against integrin beta1 chain.. FEBS Lett. 1997; 416(2):212-6. (Clone-specific: Activation, Functional assay, Radioimmunoassay). View Reference
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Walsh GM, Symon FA, Lazarovils AL, Wardlaw AJ. Integrin alpha 4 beta 7 mediates human eosinophil interaction with MAdCAM-1, VCAM-1 and fibronectin.. Immunology. 1996; 89(1):112-9. (Clone-specific: Functional assay). View Reference
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Zutter MM. Immunohistochemistry of Adhesion Structure Subpanel 6 mAb to β1 (CD29/CD49) integrins. In: Schlossman SF. Stuart F. Schlossman .. et al., ed. Leucocyte typing V : white cell differentiation antigens : proceedings of the fifth international workshop and conference held in Boston, USA, 3-7 November, 1993. Oxford: Oxford University Press; 1995:1621-1623.
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For Research Use Only. Not for use in diagnostic or therapeutic procedures.