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flow cytometric analysis  (Elabscience Biotechnology)


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    Elabscience Biotechnology flow cytometric analysis
    Flow Cytometric Analysis, supplied by Elabscience Biotechnology, used in various techniques. Bioz Stars score: 94/100, based on 5 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/cd19+fitc/pm41966487-72-17-25?v=Elabscience+Biotechnology
    Average 94 stars, based on 5 article reviews
    flow cytometric analysis - by Bioz Stars, 2026-07
    94/100 stars

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    Elabscience Biotechnology anti human cd19
    A) This diagram depicts the dual‐targeting strategy of biHSNPs in facilitating tumor cell elimination. Each biHSNP features two functional arms: one specifically binds to a tumor‐associated antigen on lymphoma cells <t>(CD19/CD20),</t> while the other engages and activates immune effector cells (CD3/CD16). By bridging tumor cells and immune cells, this approach enhances immune‐mediated tumor cell lysis, leveraging the immune system's inherent ability to identify and eliminate abnormal cells for precise and efficient cancer cell killing. B) Schematic illustration of the T cell activation and tumor cell death mechanism mediated by biHSNPs.
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    Image Search Results


    A) This diagram depicts the dual‐targeting strategy of biHSNPs in facilitating tumor cell elimination. Each biHSNP features two functional arms: one specifically binds to a tumor‐associated antigen on lymphoma cells (CD19/CD20), while the other engages and activates immune effector cells (CD3/CD16). By bridging tumor cells and immune cells, this approach enhances immune‐mediated tumor cell lysis, leveraging the immune system's inherent ability to identify and eliminate abnormal cells for precise and efficient cancer cell killing. B) Schematic illustration of the T cell activation and tumor cell death mechanism mediated by biHSNPs.

    Journal: Advanced Science

    Article Title: Bispecific Nanosystems Enable Multieffector Immune Cell Retargeting for Hematologic Malignancy Therapy

    doi: 10.1002/advs.202509103

    Figure Lengend Snippet: A) This diagram depicts the dual‐targeting strategy of biHSNPs in facilitating tumor cell elimination. Each biHSNP features two functional arms: one specifically binds to a tumor‐associated antigen on lymphoma cells (CD19/CD20), while the other engages and activates immune effector cells (CD3/CD16). By bridging tumor cells and immune cells, this approach enhances immune‐mediated tumor cell lysis, leveraging the immune system's inherent ability to identify and eliminate abnormal cells for precise and efficient cancer cell killing. B) Schematic illustration of the T cell activation and tumor cell death mechanism mediated by biHSNPs.

    Article Snippet: FITC anti‐human CD19 antibody[CB19] (catalog No.: E‐AB‐F1004C, species reactivity: human), FITC anti‐human CD20 antibody[BCA/B20] (Catalog No.: E‐AB‐F1045C, species reactivity: human) and FITC anti‐human CD3 antibody[OKT‐3] (catalog No.: E‐AB‐F1001C, species reactivity: human) were obtained from Elabscience Biotechnology Co.,Ltd. (China, Wuhan).

    Techniques: Functional Assay, Lysis, Activation Assay

    Schematic illustration of the chemical synthesis and characterization of antibody‐conjugated hollow silica nanoparticles. A) Synthetic pathway of PEGylated hollow silica nanoparticles. B) Fourier transform‐infrared spectroscopy (FT‐IR) characterization of HSNP@PEG (2). C) Proton nuclear magnetic resonance ( 1 H NMR) characterization of HSNP@PEG. D) DLS and TEM images of HSNP@PEG. E) DLS and TEM images of HSNP@PEG@NH 2 (3). F) Fluorescence spectrum of HSNP@PEG@NH 2 @FITC (9.62 µ m ), confirming successful FITC conjugation. G) DLS and TEM images of HSNP@PEG@NH 2 @FITC (4). H–K) DLS and TEM results for monospecific nanoparticles (HSNP αCD3 , HSNP αCD16 , HSNP αCD19 , HSNP αCD20 ). L–O) DLS and TEM results for bispecific nanoparticles (HSNP αCD3 + αCD19 , HSNP αCD3 + αCD20 , HSNP αCD16 + αCD19 , HSNP αCD16 + αCD20 ). All scale bars in the TEM images represent 100 nm. HSNP αCD3 , HSNP αCD16 , HSNP αCD19 and HSNP αCD20 : Monospecific HSNPs conjugated with a single type of antibody (anti‐CD3, anti‐CD16, anti‐CD19, or anti‐CD20, respectively). HSNP αCD3 + αCD19 , HSNP αCD3 + αCD20 , HSNP αCD16 + αCD19 and HSNP αCD16 + αCD20 : Bispecific HSNPs conjugated with two different types of antibodies (e.g., anti‐CD3 and anti‐CD19). Antibody types are indicated using lowercase Greek letters (e.g., αCD3).

    Journal: Advanced Science

    Article Title: Bispecific Nanosystems Enable Multieffector Immune Cell Retargeting for Hematologic Malignancy Therapy

    doi: 10.1002/advs.202509103

    Figure Lengend Snippet: Schematic illustration of the chemical synthesis and characterization of antibody‐conjugated hollow silica nanoparticles. A) Synthetic pathway of PEGylated hollow silica nanoparticles. B) Fourier transform‐infrared spectroscopy (FT‐IR) characterization of HSNP@PEG (2). C) Proton nuclear magnetic resonance ( 1 H NMR) characterization of HSNP@PEG. D) DLS and TEM images of HSNP@PEG. E) DLS and TEM images of HSNP@PEG@NH 2 (3). F) Fluorescence spectrum of HSNP@PEG@NH 2 @FITC (9.62 µ m ), confirming successful FITC conjugation. G) DLS and TEM images of HSNP@PEG@NH 2 @FITC (4). H–K) DLS and TEM results for monospecific nanoparticles (HSNP αCD3 , HSNP αCD16 , HSNP αCD19 , HSNP αCD20 ). L–O) DLS and TEM results for bispecific nanoparticles (HSNP αCD3 + αCD19 , HSNP αCD3 + αCD20 , HSNP αCD16 + αCD19 , HSNP αCD16 + αCD20 ). All scale bars in the TEM images represent 100 nm. HSNP αCD3 , HSNP αCD16 , HSNP αCD19 and HSNP αCD20 : Monospecific HSNPs conjugated with a single type of antibody (anti‐CD3, anti‐CD16, anti‐CD19, or anti‐CD20, respectively). HSNP αCD3 + αCD19 , HSNP αCD3 + αCD20 , HSNP αCD16 + αCD19 and HSNP αCD16 + αCD20 : Bispecific HSNPs conjugated with two different types of antibodies (e.g., anti‐CD3 and anti‐CD19). Antibody types are indicated using lowercase Greek letters (e.g., αCD3).

    Article Snippet: FITC anti‐human CD19 antibody[CB19] (catalog No.: E‐AB‐F1004C, species reactivity: human), FITC anti‐human CD20 antibody[BCA/B20] (Catalog No.: E‐AB‐F1045C, species reactivity: human) and FITC anti‐human CD3 antibody[OKT‐3] (catalog No.: E‐AB‐F1001C, species reactivity: human) were obtained from Elabscience Biotechnology Co.,Ltd. (China, Wuhan).

    Techniques: Fourier Transform Infrared Spectroscopy, Spectroscopy, Nuclear Magnetic Resonance, Fluorescence, Conjugation Assay

    Binding specificity and cell–cell linkage induced by biHSNPs. Target cells were incubated with FITC‐labeled, antibody‐coated HSNPs at 4 °C for 30 min, followed by flow cytometry analysis to confirm binding specificity. A–C) Depict cell–cell linkage induced by biHSNPs: A) Schematic illustration of cell‐cell complex formation mediated by biHSNPs. B) Confocal microscopy images showing stable junctional complexes between immune effector cells and tumor cells facilitated by HSNP αCD3 + αCD19 and HSNP αCD3 + αCD20 . C) Flow cytometry analysis of cell–cell complexes between pre‐stained Jurkat (green, CellTracker Green CMFDA) and Raji cells (red, CellTracker Red CMTPX), demonstrating effective linkage by biHSNPs. D) Verification of biHSNPs binding to CD3 + cells using PBMCs as the CD3 + cell line. E) Verification of biHSNPs binding to CD19 + /CD20 + cells using Raji cells as the target. F) Verification of biHSNPs binding to CD16 + cells using PBMCs as the CD16 + cell line. G) Verification of biHSNPs binding to CD19 + /CD20 + cells using Raji cells as the target.

    Journal: Advanced Science

    Article Title: Bispecific Nanosystems Enable Multieffector Immune Cell Retargeting for Hematologic Malignancy Therapy

    doi: 10.1002/advs.202509103

    Figure Lengend Snippet: Binding specificity and cell–cell linkage induced by biHSNPs. Target cells were incubated with FITC‐labeled, antibody‐coated HSNPs at 4 °C for 30 min, followed by flow cytometry analysis to confirm binding specificity. A–C) Depict cell–cell linkage induced by biHSNPs: A) Schematic illustration of cell‐cell complex formation mediated by biHSNPs. B) Confocal microscopy images showing stable junctional complexes between immune effector cells and tumor cells facilitated by HSNP αCD3 + αCD19 and HSNP αCD3 + αCD20 . C) Flow cytometry analysis of cell–cell complexes between pre‐stained Jurkat (green, CellTracker Green CMFDA) and Raji cells (red, CellTracker Red CMTPX), demonstrating effective linkage by biHSNPs. D) Verification of biHSNPs binding to CD3 + cells using PBMCs as the CD3 + cell line. E) Verification of biHSNPs binding to CD19 + /CD20 + cells using Raji cells as the target. F) Verification of biHSNPs binding to CD16 + cells using PBMCs as the CD16 + cell line. G) Verification of biHSNPs binding to CD19 + /CD20 + cells using Raji cells as the target.

    Article Snippet: FITC anti‐human CD19 antibody[CB19] (catalog No.: E‐AB‐F1004C, species reactivity: human), FITC anti‐human CD20 antibody[BCA/B20] (Catalog No.: E‐AB‐F1045C, species reactivity: human) and FITC anti‐human CD3 antibody[OKT‐3] (catalog No.: E‐AB‐F1001C, species reactivity: human) were obtained from Elabscience Biotechnology Co.,Ltd. (China, Wuhan).

    Techniques: Binding Assay, Incubation, Labeling, Flow Cytometry, Confocal Microscopy, Staining

    A) Cytotoxicity and cytokine release assays of biHSNPs in luciferase‐transfected Raji cells. B) In vitro cytotoxicity of HSNP@PEG, HSNP αCD3 , HSNP αCD19 , and bispecific HSNP αCD3 + αCD19 . C) In vitro cytotoxicity of HSNP@PEG, HSNP αCD3 , HSNP αCD20 , and bispecific HSNP αCD3 + αCD20 . D,E) Cytokine secretion levels (IFN‐γ, IL‐2, and TNF‐α) for HSNP αCD3 , HSNP αCD19 , and HSNP αCD3 + αCD19 ; and HSNP αCD20 and HSNP αCD3 + αCD20 . F) In vitro cytotoxicity of HSNP@PEG, HSNP αCD16 , HSNP αCD19 , and bispecific HSNP αCD16 + αCD19 . G) In vitro cytotoxicity of HSNP@PEG, HSNP αCD16 , HSNP αCD20 , and bispecific HSNP αCD16 + αCD20 . H,I) Cytokine secretion levels (IFN‐γ, IL‐2, and TNF‐α) for HSNP αCD16 , HSNP αCD19 , HSNP αCD16 + αCD19 , HSNP αCD20 , and HSNP αCD16 + αCD20 . J) Cytotoxicity of combined bispecific nanoparticle treatments: HSNP αCD3 + αCD19 with HSNP αCD16 + αCD19 , and HSNP αCD3 + αCD20 with HSNP αCD16 + αCD20 . K) In vitro cytotoxicity of HSNP αCD3 + αCD19 combined with HSNP αCD16 + αCD19 , and HSNP αCD3 + αCD20 combined with HSNP αCD16 + αCD20 . Data are presented as mean ± SD ( n ≥ 3), Statistical differences in B–I) were analyzed by One‐way ANOVA and K) were analyzed by Student's t‐test and the statistical significance is indicated as ** P ≤ 0.01 and *** P ≤ 0.001.

    Journal: Advanced Science

    Article Title: Bispecific Nanosystems Enable Multieffector Immune Cell Retargeting for Hematologic Malignancy Therapy

    doi: 10.1002/advs.202509103

    Figure Lengend Snippet: A) Cytotoxicity and cytokine release assays of biHSNPs in luciferase‐transfected Raji cells. B) In vitro cytotoxicity of HSNP@PEG, HSNP αCD3 , HSNP αCD19 , and bispecific HSNP αCD3 + αCD19 . C) In vitro cytotoxicity of HSNP@PEG, HSNP αCD3 , HSNP αCD20 , and bispecific HSNP αCD3 + αCD20 . D,E) Cytokine secretion levels (IFN‐γ, IL‐2, and TNF‐α) for HSNP αCD3 , HSNP αCD19 , and HSNP αCD3 + αCD19 ; and HSNP αCD20 and HSNP αCD3 + αCD20 . F) In vitro cytotoxicity of HSNP@PEG, HSNP αCD16 , HSNP αCD19 , and bispecific HSNP αCD16 + αCD19 . G) In vitro cytotoxicity of HSNP@PEG, HSNP αCD16 , HSNP αCD20 , and bispecific HSNP αCD16 + αCD20 . H,I) Cytokine secretion levels (IFN‐γ, IL‐2, and TNF‐α) for HSNP αCD16 , HSNP αCD19 , HSNP αCD16 + αCD19 , HSNP αCD20 , and HSNP αCD16 + αCD20 . J) Cytotoxicity of combined bispecific nanoparticle treatments: HSNP αCD3 + αCD19 with HSNP αCD16 + αCD19 , and HSNP αCD3 + αCD20 with HSNP αCD16 + αCD20 . K) In vitro cytotoxicity of HSNP αCD3 + αCD19 combined with HSNP αCD16 + αCD19 , and HSNP αCD3 + αCD20 combined with HSNP αCD16 + αCD20 . Data are presented as mean ± SD ( n ≥ 3), Statistical differences in B–I) were analyzed by One‐way ANOVA and K) were analyzed by Student's t‐test and the statistical significance is indicated as ** P ≤ 0.01 and *** P ≤ 0.001.

    Article Snippet: FITC anti‐human CD19 antibody[CB19] (catalog No.: E‐AB‐F1004C, species reactivity: human), FITC anti‐human CD20 antibody[BCA/B20] (Catalog No.: E‐AB‐F1045C, species reactivity: human) and FITC anti‐human CD3 antibody[OKT‐3] (catalog No.: E‐AB‐F1001C, species reactivity: human) were obtained from Elabscience Biotechnology Co.,Ltd. (China, Wuhan).

    Techniques: Luciferase, Transfection, In Vitro

    Enhanced T‐cell activation mediated by biHSNPs. A) Representative Quantitative analysis of CD19 + and CD8 + cell populations based on IHC. D,F) Representative immunofluorescence (IF) images showing the distribution of CD19 + Raji cells and CD8 + T cells. E–G) Quantitative analysis of CD19 + and CD8 + cells based on IF staining. H–J) Representative flow cytometry plots illustrating; I) Ki67 + expression in Raji cells and K) CD107a expression in CD8 + T cells across treatment groups. Statistical differences are analyzed by using One‐way ANOV and statistical significance is indicated as * P ≤ 0.05, ** P ≤ 0.01 and **** P ≤ 0.0001.

    Journal: Advanced Science

    Article Title: Bispecific Nanosystems Enable Multieffector Immune Cell Retargeting for Hematologic Malignancy Therapy

    doi: 10.1002/advs.202509103

    Figure Lengend Snippet: Enhanced T‐cell activation mediated by biHSNPs. A) Representative Quantitative analysis of CD19 + and CD8 + cell populations based on IHC. D,F) Representative immunofluorescence (IF) images showing the distribution of CD19 + Raji cells and CD8 + T cells. E–G) Quantitative analysis of CD19 + and CD8 + cells based on IF staining. H–J) Representative flow cytometry plots illustrating; I) Ki67 + expression in Raji cells and K) CD107a expression in CD8 + T cells across treatment groups. Statistical differences are analyzed by using One‐way ANOV and statistical significance is indicated as * P ≤ 0.05, ** P ≤ 0.01 and **** P ≤ 0.0001.

    Article Snippet: FITC anti‐human CD19 antibody[CB19] (catalog No.: E‐AB‐F1004C, species reactivity: human), FITC anti‐human CD20 antibody[BCA/B20] (Catalog No.: E‐AB‐F1045C, species reactivity: human) and FITC anti‐human CD3 antibody[OKT‐3] (catalog No.: E‐AB‐F1001C, species reactivity: human) were obtained from Elabscience Biotechnology Co.,Ltd. (China, Wuhan).

    Techniques: Activation Assay, Immunofluorescence, Staining, Flow Cytometry, Expressing