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rabbit anti csk  (Cell Signaling Technology Inc)


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    Structured Review

    Cell Signaling Technology Inc rabbit anti csk
    Rabbit Anti Csk, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/csk+antibody/pmc12915272-7-0-3?v=Cell+Signaling+Technology+Inc
    Average 86 stars, based on 1 article reviews
    rabbit anti csk - by Bioz Stars, 2026-07
    86/100 stars

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    Proteintech proteintech csk
    a Co-immunoprecipitation of Caco-2 cell lysates with <t>anti-PEAK1</t> <t>antibodies</t> to detect <t>CSK</t> binding to PEAK1. b Co-immunoprecipitation analysis for PEAK1 and CSK binding using protein lysates from HEK293T cells overexpressing either FC-tagged PEAK1 (FL) or FC-tagged PEAK1 with an 861-879 amino acid deletion (Δ 861-879). c Co-immunoprecipitation of wild-type (WT) and CSK knockout (CSK KO) Caco-2 cell lysates, showing reduced PEAK1-Src interaction in the absence of CSK. d Co-immunoprecipitation analysis using anti-CSK antibodies to detect the interaction between CSK and Src in WT and PEAK1 knockout Caco-2 cells. e Co-immunoprecipitation of HEK293T cell lysates co-overexpressing FC-tagged PEAK1 and GFP-CSK, showing that CSK overexpression promotes PEAK1-Src binding. f Western blot analysis of WT and PEAK1 Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO). g, h Representative confocal images (g) and barrier tortuosity quantification (h) of WT and PEAK1 Y724F Caco-2 cells expressing CSK (sgNC, WT controls) or lacking CSK (CSK KO). Scale bars, 10 μm. Data are shown as mea n ± SD. PEAK1 WT + sgNC, n = 310 cells; PEAK1 WT + CSK KO, n = 326 cells; PEAK1 Y724F + sgNC, n = 257 cells; PEAK1 Y724F + sgNC, n = 257 cells. Kruskal-Wallis test, followed by Dunn’s multiple comparisons test. i, j Transepithelial electrical resistance (TEER) ( i ) and fluorescence intensity of FITC-dextran ( j ) in the lower chambers of trans-well inserts (0.4 μm) seeded with WT and PEAK1 Y724F Caco-2 cells, expressing CSK (sgNC, WT controls) or lacking CSK (CSK KO). Data are presented as mea n ± SD for three biological replicates. One-way ANOVA, followed by Tukey’s multiple comparisons test. The quantified relative expression levels shown in western blots are indicated in red, and represents the results of at least three repeated experiments.
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    Image Search Results


    a Co-immunoprecipitation of Caco-2 cell lysates with anti-PEAK1 antibodies to detect CSK binding to PEAK1. b Co-immunoprecipitation analysis for PEAK1 and CSK binding using protein lysates from HEK293T cells overexpressing either FC-tagged PEAK1 (FL) or FC-tagged PEAK1 with an 861-879 amino acid deletion (Δ 861-879). c Co-immunoprecipitation of wild-type (WT) and CSK knockout (CSK KO) Caco-2 cell lysates, showing reduced PEAK1-Src interaction in the absence of CSK. d Co-immunoprecipitation analysis using anti-CSK antibodies to detect the interaction between CSK and Src in WT and PEAK1 knockout Caco-2 cells. e Co-immunoprecipitation of HEK293T cell lysates co-overexpressing FC-tagged PEAK1 and GFP-CSK, showing that CSK overexpression promotes PEAK1-Src binding. f Western blot analysis of WT and PEAK1 Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO). g, h Representative confocal images (g) and barrier tortuosity quantification (h) of WT and PEAK1 Y724F Caco-2 cells expressing CSK (sgNC, WT controls) or lacking CSK (CSK KO). Scale bars, 10 μm. Data are shown as mea n ± SD. PEAK1 WT + sgNC, n = 310 cells; PEAK1 WT + CSK KO, n = 326 cells; PEAK1 Y724F + sgNC, n = 257 cells; PEAK1 Y724F + sgNC, n = 257 cells. Kruskal-Wallis test, followed by Dunn’s multiple comparisons test. i, j Transepithelial electrical resistance (TEER) ( i ) and fluorescence intensity of FITC-dextran ( j ) in the lower chambers of trans-well inserts (0.4 μm) seeded with WT and PEAK1 Y724F Caco-2 cells, expressing CSK (sgNC, WT controls) or lacking CSK (CSK KO). Data are presented as mea n ± SD for three biological replicates. One-way ANOVA, followed by Tukey’s multiple comparisons test. The quantified relative expression levels shown in western blots are indicated in red, and represents the results of at least three repeated experiments.

    Journal: Nature Communications

    Article Title: PEAK1 maintains tight junctions in intestinal epithelial cells and resists colitis by inhibiting autophagy-mediated ZO-1 degradation

    doi: 10.1038/s41467-025-62107-z

    Figure Lengend Snippet: a Co-immunoprecipitation of Caco-2 cell lysates with anti-PEAK1 antibodies to detect CSK binding to PEAK1. b Co-immunoprecipitation analysis for PEAK1 and CSK binding using protein lysates from HEK293T cells overexpressing either FC-tagged PEAK1 (FL) or FC-tagged PEAK1 with an 861-879 amino acid deletion (Δ 861-879). c Co-immunoprecipitation of wild-type (WT) and CSK knockout (CSK KO) Caco-2 cell lysates, showing reduced PEAK1-Src interaction in the absence of CSK. d Co-immunoprecipitation analysis using anti-CSK antibodies to detect the interaction between CSK and Src in WT and PEAK1 knockout Caco-2 cells. e Co-immunoprecipitation of HEK293T cell lysates co-overexpressing FC-tagged PEAK1 and GFP-CSK, showing that CSK overexpression promotes PEAK1-Src binding. f Western blot analysis of WT and PEAK1 Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO). g, h Representative confocal images (g) and barrier tortuosity quantification (h) of WT and PEAK1 Y724F Caco-2 cells expressing CSK (sgNC, WT controls) or lacking CSK (CSK KO). Scale bars, 10 μm. Data are shown as mea n ± SD. PEAK1 WT + sgNC, n = 310 cells; PEAK1 WT + CSK KO, n = 326 cells; PEAK1 Y724F + sgNC, n = 257 cells; PEAK1 Y724F + sgNC, n = 257 cells. Kruskal-Wallis test, followed by Dunn’s multiple comparisons test. i, j Transepithelial electrical resistance (TEER) ( i ) and fluorescence intensity of FITC-dextran ( j ) in the lower chambers of trans-well inserts (0.4 μm) seeded with WT and PEAK1 Y724F Caco-2 cells, expressing CSK (sgNC, WT controls) or lacking CSK (CSK KO). Data are presented as mea n ± SD for three biological replicates. One-way ANOVA, followed by Tukey’s multiple comparisons test. The quantified relative expression levels shown in western blots are indicated in red, and represents the results of at least three repeated experiments.

    Article Snippet: Antibodies against the following proteins were purchased from Proteintech: CSK (WB 1:1,000, 17720-1-AP), Claudin 4 (WB 1:2,000, IF 1:200, 16195-1-AP), and F4/80 (IF 1:200, 28463-1-AP).

    Techniques: Immunoprecipitation, Binding Assay, Knock-Out, Over Expression, Western Blot, Mutagenesis, Expressing, Fluorescence

    a –b Representative western blot analysis of wild-type (WT) and PEAK1 knockout (KO) Caco-2 cells treated with 100 nM Bafilomycin A1 (BafA1, autophagy inhibitor) (a) or 100 μM Rapamycin (Rapa, autophagy activator) (b) for 12 h. c Co-immunoprecipitation of Caco-2 cell lysates using anti-ZO-1 antibodies, showing LC-3B binding to ZO-1. d Immunofluorescence images showing colocalization of ZO-1 and LC-3B in autophagosomes of Caco-2 cells treated with 100 nM BafA1. Scale bars, 10 µm. e In vitro pull-down assays using different FC-tagged ZO-1 mutants and GFP-tagged PEAK1. FC-tagged ZO-1 deletions are visualized by Ponceau staining. f Predicted interaction motifs between ZO-1 and LC-3B, identified using an online tool ( https://ilir.warwick.ac.uk/ ). PSSM: Position Specific Scoring Matrix (PSSM). High PSSM scores are assigned to the most frequent residues. g, h Co-immunoprecipitation analysis of HEK293T cells transfected with GFP-tagged ZO-1 (WT) or GFP-tagged mutant ZO-1 with a 1212-1217 amino acid deletion (Δ1212-1217), confirming this amino acid region regulates ZO-1 binding to LC-3B (g) and PEAK1 (h). ( i ) Co-immunoprecipitation using an anti-ZO-1 antibody in wild-type (WT) and PEAK1 knockout (KO) Caco-2 cells treated with 100 nM BafA1 for 12 h. j Representative Immunofluorescence images (left panel) and quantification of the ratio of ZO-1 and LC-3B co-localization to total ZO-1 puncta per cell (right panel) in WT and PEAK1 KO Caco-2 cells treated with 100 nM BafA1. Scale bars, 10 µm. KO = PEAK1 KO. Data are presented as mea n ± SD. 79 cells per group were analyzed. Unpaired two-tailed Student’s t-test. k Co-immunoprecipitation using anti-ZO1 antibodies in Caco-2 cells treated with 100 nM BafA1 for 12 h, followed by an additional treatment with 10 uM PP2 inhibitor or vehicle (DMSO) for 2 h. ( l ) Left panel: immunofluorescence microscopy images detecting ZO-1 (red) and LC-3B (green) in Caco-2 cells treated with 100 nM BafA1 for 12 h, followed by treatment with 10 uM PP2 inhibitor or vehicle (DMSO) for 2 h. Scale bars, 10 µm. Right panel: quantification of the ratios of ZO-1 and LC-3B co-localization to total ZO-1 puncta per cell. Data are presented as mea n ± SD. WT, n = 79 cells per group. Unpaired two-tailed Student’s t-test. m Co-immunoprecipitation analysis in the protein lysates from WT and Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO) and treated with 100 nM BafA1 for 12 h. n Representative confocal images showing ZO-1 (red) and LC-3B (green) in WT and Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO) and treated with 100 nM BafA1 for 12 h. Scale bars, 10 µm. Right panel: quantification of the ratios of ZO-1 and LC-3B co-localization to total ZO-1 puncta per cell. Data are presented as mea n ± SD. n = 79 cells per group. Kruskal-Wallis test, followed by Dunn’s multiple comparisons test. The quantified relative expression levels shown in western blots are indicated in red, and represents the results of at least three repeated experiments.

    Journal: Nature Communications

    Article Title: PEAK1 maintains tight junctions in intestinal epithelial cells and resists colitis by inhibiting autophagy-mediated ZO-1 degradation

    doi: 10.1038/s41467-025-62107-z

    Figure Lengend Snippet: a –b Representative western blot analysis of wild-type (WT) and PEAK1 knockout (KO) Caco-2 cells treated with 100 nM Bafilomycin A1 (BafA1, autophagy inhibitor) (a) or 100 μM Rapamycin (Rapa, autophagy activator) (b) for 12 h. c Co-immunoprecipitation of Caco-2 cell lysates using anti-ZO-1 antibodies, showing LC-3B binding to ZO-1. d Immunofluorescence images showing colocalization of ZO-1 and LC-3B in autophagosomes of Caco-2 cells treated with 100 nM BafA1. Scale bars, 10 µm. e In vitro pull-down assays using different FC-tagged ZO-1 mutants and GFP-tagged PEAK1. FC-tagged ZO-1 deletions are visualized by Ponceau staining. f Predicted interaction motifs between ZO-1 and LC-3B, identified using an online tool ( https://ilir.warwick.ac.uk/ ). PSSM: Position Specific Scoring Matrix (PSSM). High PSSM scores are assigned to the most frequent residues. g, h Co-immunoprecipitation analysis of HEK293T cells transfected with GFP-tagged ZO-1 (WT) or GFP-tagged mutant ZO-1 with a 1212-1217 amino acid deletion (Δ1212-1217), confirming this amino acid region regulates ZO-1 binding to LC-3B (g) and PEAK1 (h). ( i ) Co-immunoprecipitation using an anti-ZO-1 antibody in wild-type (WT) and PEAK1 knockout (KO) Caco-2 cells treated with 100 nM BafA1 for 12 h. j Representative Immunofluorescence images (left panel) and quantification of the ratio of ZO-1 and LC-3B co-localization to total ZO-1 puncta per cell (right panel) in WT and PEAK1 KO Caco-2 cells treated with 100 nM BafA1. Scale bars, 10 µm. KO = PEAK1 KO. Data are presented as mea n ± SD. 79 cells per group were analyzed. Unpaired two-tailed Student’s t-test. k Co-immunoprecipitation using anti-ZO1 antibodies in Caco-2 cells treated with 100 nM BafA1 for 12 h, followed by an additional treatment with 10 uM PP2 inhibitor or vehicle (DMSO) for 2 h. ( l ) Left panel: immunofluorescence microscopy images detecting ZO-1 (red) and LC-3B (green) in Caco-2 cells treated with 100 nM BafA1 for 12 h, followed by treatment with 10 uM PP2 inhibitor or vehicle (DMSO) for 2 h. Scale bars, 10 µm. Right panel: quantification of the ratios of ZO-1 and LC-3B co-localization to total ZO-1 puncta per cell. Data are presented as mea n ± SD. WT, n = 79 cells per group. Unpaired two-tailed Student’s t-test. m Co-immunoprecipitation analysis in the protein lysates from WT and Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO) and treated with 100 nM BafA1 for 12 h. n Representative confocal images showing ZO-1 (red) and LC-3B (green) in WT and Y724F mutant Caco-2 cells expressing CSK (sgNC controls) or lacking CSK (CSK KO) and treated with 100 nM BafA1 for 12 h. Scale bars, 10 µm. Right panel: quantification of the ratios of ZO-1 and LC-3B co-localization to total ZO-1 puncta per cell. Data are presented as mea n ± SD. n = 79 cells per group. Kruskal-Wallis test, followed by Dunn’s multiple comparisons test. The quantified relative expression levels shown in western blots are indicated in red, and represents the results of at least three repeated experiments.

    Article Snippet: Antibodies against the following proteins were purchased from Proteintech: CSK (WB 1:1,000, 17720-1-AP), Claudin 4 (WB 1:2,000, IF 1:200, 16195-1-AP), and F4/80 (IF 1:200, 28463-1-AP).

    Techniques: Western Blot, Knock-Out, Immunoprecipitation, Binding Assay, Immunofluorescence, In Vitro, Staining, Transfection, Mutagenesis, Two Tailed Test, Microscopy, Expressing