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pe-cyanine5 cd135 (flt3) monoclonal antibody (a2f10)  (Thermo Fisher)


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    Thermo Fisher pe-cyanine5 cd135 (flt3) monoclonal antibody (a2f10)
    Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int <t>Flt3</t> + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .
    Pe Cyanine5 Cd135 (Flt3) Monoclonal Antibody (A2f10), supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/pe-cyanine5 cd135 (flt3) monoclonal antibody (a2f10)/product/Thermo Fisher
    Average 90 stars, based on 1 article reviews
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    Images

    1) Product Images from "The transcription factor IRF4 regulates the homeostasis and function of intestinal ILC3s"

    Article Title: The transcription factor IRF4 regulates the homeostasis and function of intestinal ILC3s

    Journal: iScience

    doi: 10.1016/j.isci.2025.112800

    Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int Flt3 + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .
    Figure Legend Snippet: Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int Flt3 + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .

    Techniques Used: Sequencing, Binding Assay, Genome Wide, Modification, Generated, Transfection, Retroviral, Irradiation, Injection, Flow Cytometry, Isolation, Expressing, Two Tailed Test



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    Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int <t>Flt3</t> + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .
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    Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int <t>Flt3</t> + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .
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    Image Search Results


    Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int Flt3 + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .

    Journal: iScience

    Article Title: The transcription factor IRF4 regulates the homeostasis and function of intestinal ILC3s

    doi: 10.1016/j.isci.2025.112800

    Figure Lengend Snippet: Cleavage under targets and tagmentation sequencing of IRF4 binding in intestinal ILC3 subsets (A) Heatmap showing the genome-wide distribution of IRF4-binding signals at peak centers in ILC3 subsets sorted from Irf4 f/f and Irf4 f/f Rorc cre mice by CUT&Tag. (B) Occupancy of IRF4 at all gene promoter regions (±5 kb of TSS). (C) Donut chart showing the percentages of IRF4 binding at exon regions, intron regions, or intergenic regions. (D) Venn plot displaying the overlap of the IRF4-regulated genes from pairwise comparisons of NKp46 + ILC3s, NKp46 − CCR6 − ILC3s, and CCR6 + ILC3s. (E) Gene set enrichment analysis (GSEA) of NKp46 + ILC3 signature gene sets enriched in shared IRF4-modified genes. (F and G) IGV visualizes the indicated gene locus containing ATAC-seq and IRF4-binding peaks in ILC3 subsets. IRF4 CUT&Tag sequencing data are from two independent replicates. (H–K) Rescue experiments. Retroviruses were generated by transfection of pMX-IRES-GFP plasmids containing the indicated genes into Plat-E cells using PolyJet. CLPs (Lin − CD127 + c-Kit int Sca-1 int Flt3 + ) were sorted from the bone marrow from Irf4 f/f and Irf4f/f Rorc cre mice and transfected with retroviral supernatants. Retrovirus-transfected CLPs were then collected and adoptively transferred into sublethally irradiated CD45.1 + wild-type recipient mice through intravenous tail vein injection. Transduced cells were transferred with CD45.1 + wild-type bone marrow cells to help the engraftment of the CLPs. After 2 weeks, recipient mice were sacrificed, and organs were collected for analysis. (H) Flow cytometry of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (upper). MHC class II expression of CD45.2 + GFP + ILC3 subsets isolated from the siLP in the indicated recipient mice (lower). (I) Cytokine production in siLP CD45.2 + GFP + ILC3s from the indicated recipient mice. (J) The percentages of the indicated subsets were compared. (K) The percentages of MHC class II + ILC3s, IL-17A + ILC3s, and IL-22 + ILC3s were compared. Bar graphs are presented as mean ± SEM. A two-tailed Student’s t test was performed for comparisons. The data are representative of at least three independent experiments. See also .

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    Figure Lengend Snippet: KEY RESOURCES TABLE

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    Article Snippet: CD135 (Flt3) PerCP-Cy5.5 (A2F10) , eBioscience , 46-1351-82.

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    Representative flow cytometry analysis of HoxB8 MPP differentiation into CDP and DC subsets. (A) HoxB8 MPP are cultured in HoxB8 growth medium without E2 for 3 days and analyzed by flow cytometry ( , step 5). MPP: Gr1 − CD117 + CD135 − ; CDP: Gr1 − CD117 int/low CD135 + CD115 + . (B) HoxB8 MPP are cultured in HoxB8 growth medium without E2 for 8 days and analyzed by flow cytometry (see below , step 7). cDC1: Gr1 − CD11c + CD11b low/− XCR1 + ; cDC2: Gr1 − CD11c + CD11b + XCR1 − ; pDC: Gr1 − CD11c + CD11b − B220 + .

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    Figure Lengend Snippet: Representative flow cytometry analysis of HoxB8 MPP differentiation into CDP and DC subsets. (A) HoxB8 MPP are cultured in HoxB8 growth medium without E2 for 3 days and analyzed by flow cytometry ( , step 5). MPP: Gr1 − CD117 + CD135 − ; CDP: Gr1 − CD117 int/low CD135 + CD115 + . (B) HoxB8 MPP are cultured in HoxB8 growth medium without E2 for 8 days and analyzed by flow cytometry (see below , step 7). cDC1: Gr1 − CD11c + CD11b low/− XCR1 + ; cDC2: Gr1 − CD11c + CD11b + XCR1 − ; pDC: Gr1 − CD11c + CD11b − B220 + .

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    Reagents, enzymes, chemicals, and solutions <xref ref-type= a) " width="100%" height="100%">

    Journal: European journal of immunology

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    doi: 10.1002/eji.202249816

    Figure Lengend Snippet: Reagents, enzymes, chemicals, and solutions a)

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    Proposed guidelines to ensure of the identity of the DC types generated in vitro, as compared to cells of the monocyte/macrophage lineages

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    Article Title: Guidelines for mouse and human DC generation

    doi: 10.1002/eji.202249816

    Figure Lengend Snippet: Proposed guidelines to ensure of the identity of the DC types generated in vitro, as compared to cells of the monocyte/macrophage lineages

    Article Snippet: CD135 (Flt3) PerCP-Cy5.5 (A2F10) , eBioscience , 46-1351-82.

    Techniques: Generated, In Vitro, Functional Assay, Expressing, Immunopeptidomics, Infection, Cell Stimulation