Fitc conjugated rat anti mouse cd11b

Manufactured by BD

Sourced in United States

The FITC-conjugated rat anti-mouse CD11b is a monoclonal antibody that specifically binds to the mouse CD11b antigen. CD11b is a cell surface receptor expressed on various immune cells, including monocytes, macrophages, and neutrophils. The FITC (Fluorescein Isothiocyanate) conjugation allows for the fluorescent detection and analysis of CD11b-expressing cells using flow cytometry or other fluorescence-based techniques.

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Lab products found in correlation

Perm wash buffer, by BD (2 mentions) Cytexpert software, by Beckman Coulter (2 mentions) Pe conjugated anti rabbit igg h l secondary antibody, by Cell Signaling Technology (2 mentions) Cytoflex instrument, by Beckman Coulter (2 mentions) Purified rat anti mouse cd16 cd32, by BD (1 mentions) Mouse igg1 isotype control, by BioXCell (1 mentions) Fitc conjugated rat anti mouse cd86, by BD (1 mentions) Pe texas red conjugated anti mouse cd11b, by Thermo Fisher Scientific (1 mentions) Fortessa, by BD (1 mentions) Sytox blue, by Thermo Fisher Scientific (1 mentions) Alexa fluor 594 conjugated donkey anti rat igg h l secondary antibody, by Thermo Fisher Scientific (1 mentions) Rat anti mouse f4 80, by Abcam (1 mentions) Eclipse e80i, by Nikon (1 mentions) 4 6 diamidino 2 phenylindole (dapi), by Vector Laboratories (1 mentions) Fluorescence microscopy, by Nikon (1 mentions) Pe conjugated rat anti mouse gr 1, by BD (1 mentions) Fitc conjugated rat anti mouse cd4, by BD (1 mentions) Pe conjugated rat anti mouse foxp3, by BD (1 mentions) Cytofix cytoperm, by BD (1 mentions) Fixation permeabilization solution, by BD (1 mentions)

Spelling variants of this product

Anti-CD11b-FITC (51 citations) Rat anti-mouse CD11b (15 citations) Rat anti-CD11b (13 citations) Anti-mouse CD11b-FITC (10 citations) FITC-conjugated anti-mouse CD11b (9 citations) FITC Rat Anti-Mouse CD11b (8 citations) FITC Rat Anti-CD11b (8 citations) FITC-conjugated anti-CD11b (8 citations) FITC-conjugated CD11b (4 citations) FITC-conjugated rat anti-CD11b (2 citations)

6 protocols using fitc conjugated rat anti mouse cd11b

Multicolor Flow Cytometry Analysis

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Purified rat anti-mouse CD16/CD32 (#553142), V450-conjugated rat anti-mouse CD45 (#560501), BV510-conjugated rat anti-mouse Ly6G (#740157), FITC-conjugated rat anti-mouse CD11b (#557396), FITC-conjugated rat anti-mouse CD86 (#561962), Alexa Fluor 647-conjugated mouse anti-mouse CD64 (#558539), Alexa Fluor 647-conjugated anti-mouse CD206 (#565250), PE-conjugated hamster anti-mouse CD11c (#553802), and PE-CF594-conjugated anti-mouse CD11c (#562454) were purchased from BD Biosciences (San Diego, CA, USA). In addition, PE-Texas Red-conjugated anti-mouse CD11b (#RM2817) and PE-Cy7-conjugated rat anti-mouse MHC-II (#25-5321-82) were purchased from Thermo Fisher Scientific (Waltham, MA, USA). PE-conjugated mouse anti-mouse CD64 (#139304) was purchased from BioLegend (San Diego, CA, USA). Anti-mouse/human/rat/monkey/hamster/canine/bovine TGF-β (#BE0057) and mouse IgG1 isotype control (#BE0083) antibodies were purchased from BioXCell (Lebanon, NH, USA). Unless indicated otherwise, all chemicals used in this study were purchased from Sigma-Aldrich (#SML1633; St. Louis, MO, USA).

Song H.Y., Chen F., Park H.R., Han J.M., Ji H.J., Byun E.B., Kwon Y., Kim M.K., Ahn K.B, & Seo H.S. (2023). Low-dose radiation therapy suppresses viral pneumonia by enhancing broad-spectrum anti-inflammatory responses via transforming growth factor-β production. Frontiers in Immunology, 14, 1182927.

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Fluorescence-based Macrophage Phenotyping

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BMDMs and peritoneal macrophages were incubated with the fluorescent dye-conjugated antibodies for 30 min at 4 °C, briefly washed in 0.5% BSA in PBS and analyzed using FORTESSA (Beckton Dickinson) after DAPI (Molecular Probes, D3571) or Sytox blue (Molecular Probes, S34847) staining to allow exclusion of dead cells. The antibodies used were: FITC-conjugated rat anti-mouse CD11b (BD Biosciences, 553310), rat anti-mouse F4/80 (Abcam, ab6640) with Alexa Fluor 594 conjugated donkey anti-rat IgG (H + L) secondary antibody (Thermo Fisher, A-21209), and the relevant isotype controls. Ten thousand total events were collected and gated for analysis of live cells.

Koumakis E., Millet-Botti J., Benna J.E., Leroy C., Boitez V., Codogno P., Friedlander G, & Forand A. (2019). Novel function of PiT1/SLC20A1 in LPS-related inflammation and wound healing. Scientific Reports, 9, 1808.

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Quantifying Corneal Monocyte Populations

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To analyze the monocyte number of corneas, one eye from three mice per group were excised and fixed in acetone. Corneas were blocked in 2% bovine serum albumin for 45 min and then incubated with fluorescein isothiocyanate (FITC)-conjugated rat anti–mouse CD11b (marks monocyte derived cells, BD Pharmingen, San Diego, CA, USA) at ratio of 1:100 overnight at 4° [33 (link)]. Corneas were washed and mounted using a medium containing DAPI to indicate cell nuclei. The slides were viewed by a fluorescence microscope (Eclipse E80i; Nikon, Tokyo, Japan) at a magnification of 40×. CD11b+ cells were counted in eight areas in the periphery (0.5-µm area from the limbus) and two areas in the center (central 2-µm area) of each cornea in a masked fashion [33 (link)]. The mean number of cells was obtained by averaging the total number of cells in all the areas studied, and the result was expressed as the number of positive cells per square millimeter.

Tatematsu Y., Khan Q., Blanco T., Bair J.A., Hodges R.R., Masli S, & Dartt D.A. (2018). Thrombospondin-1 Is Necessary for the Development and Repair of Corneal Nerves. International Journal of Molecular Sciences, 19(10), 3191.

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Multicolor Immunofluorescence Staining of Tumor Microenvironment

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Tissue section slides were processed via deparaffinization, antigen retrieval, permeabilization, and blocking with 1% bovine serum albumin (BSA) at room temperature for 1 h. MDSCs were defined using FITC-conjugated rat-anti-mouse CD11b and PE-conjugated rat-anti-mouse Gr1 (BD, New South Wales, Australia). Tregs were defined using FITC-conjugated rat-anti-mouse CD4 and PE-conjugated rat-anti-mouse Foxp3 (BD, New South Wales, Australia). T cells were defined using FITC-conjugated rat-anti-mouse CD8a (BD, New South Wales, Australia). Vessels and tumor-associated fibroblasts (TAF) were characterized by rabbit-anti-mouse CD31 and rabbit-anti-mouse α-SMA, and then treated with Alexa Fluor647-conjugated goat-anti-rabbit antibody. Nuclei were counterstained with DAPI (Vector Laboratories Inc, Burlingame, CA). All commercial binding reagents were diluted according to the manufacturer’s recommendation. Images were taken using fluorescence microscopy (Nikon, Tokyo, Japan). Three randomly selected microscopic fields were quantitatively analyzed on ImageJ software.

Huo M., Zhao Y., Satterlee A.B., Wang Y., Xu Y, & Huang L. (2016). Tumor-targeted delivery of sunitinib base enhances vaccine therapy for advanced melanoma by remodeling the tumor microenvironment. Journal of controlled release : official journal of the Controlled Release Society, 245, 81-94.

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Flow Cytometry Microglia Immunophenotyping

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Flow cytometry analysis of immunostained cells was performed following standard cell protocols. Prior to antibody labelling, the cell suspensions were incubated with anti-murine CD16/CD32 FC-Receptor (1:100, Cat. #14-0161-81, eBioscience, CA, USA) blocking reagent at 4 °C for 10 min. After blocking, the microglia were stained with FITC-conjugated mouse anti-rat CD11b (1:100, Cat. #554982, BD Biosciences, USA) and PerCP/Cy5.5-conjugated anti-rat CD45 (1:50, Cat. #202220, Biolegend, CA, USA). The microglia were then fixed and permeabilized with BD fixation/permeabilization solution (Cat. #554714, BD Cytofix/Cytoperm™, USA) for 20 min. The microglia were washed with BD Perm/Wash buffer (Cat. #554714, BD Cytofix/Cytoperm™, USA), resuspended in BD Perm/Wash buffer, and incubated with anti-iNOS (1:100, Cat. #ab15323, Abcam, UK) and rabbit mAb anti-arginase-1 (Arg-1) (1:100, Cat. # 3668s, Cell Signaling Technology, USA) primary antibodies for 30 min followed by a PE-conjugated anti-rabbit IgG (H+L) secondary antibody (1:100, Cat. #8885s, Cell Signaling Technology, USA). The cells were analyzed using a CytoFLEX instrument (Beckman Coulter Biotechnology, SuZhou). Ten thousand events were recorded, and microglia were identified by CD11b⁺/CD45^low expression [33 (link)]. The results were analyzed using CytExpert software (Beckman Coulter Biotechnology, SuZhou).

Mao M., Xu Y., Zhang X.Y., Yang L., An X.B., Qu Y., Chai Y.N., Wang Y.R., Li T.T, & Ai J. (2020). MicroRNA-195 prevents hippocampal microglial/macrophage polarization towards the M1 phenotype induced by chronic brain hypoperfusion through regulating CX3CL1/CX3CR1 signaling. Journal of Neuroinflammation, 17, 244.

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Microglial Immunophenotyping by Flow Cytometry

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Flow cytometry analysis of immunostained cells was performed following standard cell protocols. Prior to antibody labelling, the cell suspensions were incubated with anti-murine CD16/CD32 FC-Receptor blocking reagent at 4 °C for 10 min (eBioscience, CA, USA). After blocking, the microglia were stained with FITC-conjugated mouse anti-rat CD11b (BD Biosciences, USA) and PerCP/Cy5.5-conjugated anti-rat CD45 (Biolegend, CA, USA). The microglia were then xed and permeabilized with BD Fixation/Permeabilization buffer for 20 min. The microglia were washed with BD Perm/Wash buffer, resuspended in BD Perm/Wash buffer, and incubated with anti-iNOS (Abcam, UK) and rabbit mAb anti-arginase-1 (Arg-1) (Cell Signaling Technology, USA) primary antibodies for 30 min followed by a PE-conjugated anti-rabbit IgG (H + L) secondary antibody (Cell Signaling Technology, USA). The cells were analysed using a CytoFLEX instrument (Beckman Coulter Biotechnology, SuZhou). The results were analysed using CytExpert software (Beckman Coulter Biotechnology, SuZhou).

Mao M., Xu Y., Zhang X., Yang L., An X., Qu Y., Chai Y., Wang L., Li T., & Ai J. (2020). MicroRNA-195 Prevents Hippocampal Microglial Polarization Towards The M1 Phenotype Induced By Chronic Brain Hypoperfusion Through Regulating CX3CL1/CX3CR1 Signalling.

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