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hrce cell  (Gilead Sciences)

 
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    Gilead Sciences hrce cell

    Hrce Cell, supplied by Gilead Sciences, used in various techniques. Bioz Stars score: 97/100, based on 66824 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/hrce cell/product/Gilead Sciences
    Average 97 stars, based on 66824 article reviews
    hrce cell - by Bioz Stars, 2026-03
    97/100 stars

    Images

    1) Product Images from "LEA: Latent Eigenvalue Analysis in application to high-throughput phenotypic profiling"

    Article Title: LEA: Latent Eigenvalue Analysis in application to high-throughput phenotypic profiling

    Journal: bioRxiv

    doi: 10.1101/2023.02.10.528026


    Figure Legend Snippet:

    Techniques Used:

    a (VERO) and f (HRCE): The reconstructed samples obtained by LEA. b (VERO) and g (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of all concentrations. c (VERO) and h (HRCE): The violin plot of overall comparison between the hit score and d LEA . d (VERO) and i (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration. e (VERO) and j (HRCE): The hierarchical clustering of top 50 drug compounds (if exist) w.r.t . the 5 largest eigenvalues of the latent representations of optimal drug concentration.
    Figure Legend Snippet: a (VERO) and f (HRCE): The reconstructed samples obtained by LEA. b (VERO) and g (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of all concentrations. c (VERO) and h (HRCE): The violin plot of overall comparison between the hit score and d LEA . d (VERO) and i (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration. e (VERO) and j (HRCE): The hierarchical clustering of top 50 drug compounds (if exist) w.r.t . the 5 largest eigenvalues of the latent representations of optimal drug concentration.

    Techniques Used: Concentration Assay

    a (VERO) and c (HRCE): The quantitative comparison between the hit score and d LEA (Ensemble) with the latent representations of all drug concentrations. b (VERO) and d (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration.
    Figure Legend Snippet: a (VERO) and c (HRCE): The quantitative comparison between the hit score and d LEA (Ensemble) with the latent representations of all drug concentrations. b (VERO) and d (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration.

    Techniques Used: Concentration Assay



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    Image Search Results


    Journal: bioRxiv

    Article Title: LEA: Latent Eigenvalue Analysis in application to high-throughput phenotypic profiling

    doi: 10.1101/2023.02.10.528026

    Figure Lengend Snippet:

    Article Snippet: For VERO and HRCE cell-lines, Remdesivir and GS-441524 are consistently identified as effective compounds w.r.t . individual fluorescent channels as well as all channels, which supports the clinical utility of Remdesivir approved by U.S. Food and Drug Administration (FDA) .

    Techniques:

    a (VERO) and f (HRCE): The reconstructed samples obtained by LEA. b (VERO) and g (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of all concentrations. c (VERO) and h (HRCE): The violin plot of overall comparison between the hit score and d LEA . d (VERO) and i (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration. e (VERO) and j (HRCE): The hierarchical clustering of top 50 drug compounds (if exist) w.r.t . the 5 largest eigenvalues of the latent representations of optimal drug concentration.

    Journal: bioRxiv

    Article Title: LEA: Latent Eigenvalue Analysis in application to high-throughput phenotypic profiling

    doi: 10.1101/2023.02.10.528026

    Figure Lengend Snippet: a (VERO) and f (HRCE): The reconstructed samples obtained by LEA. b (VERO) and g (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of all concentrations. c (VERO) and h (HRCE): The violin plot of overall comparison between the hit score and d LEA . d (VERO) and i (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration. e (VERO) and j (HRCE): The hierarchical clustering of top 50 drug compounds (if exist) w.r.t . the 5 largest eigenvalues of the latent representations of optimal drug concentration.

    Article Snippet: For VERO and HRCE cell-lines, Remdesivir and GS-441524 are consistently identified as effective compounds w.r.t . individual fluorescent channels as well as all channels, which supports the clinical utility of Remdesivir approved by U.S. Food and Drug Administration (FDA) .

    Techniques: Concentration Assay

    a (VERO) and c (HRCE): The quantitative comparison between the hit score and d LEA (Ensemble) with the latent representations of all drug concentrations. b (VERO) and d (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration.

    Journal: bioRxiv

    Article Title: LEA: Latent Eigenvalue Analysis in application to high-throughput phenotypic profiling

    doi: 10.1101/2023.02.10.528026

    Figure Lengend Snippet: a (VERO) and c (HRCE): The quantitative comparison between the hit score and d LEA (Ensemble) with the latent representations of all drug concentrations. b (VERO) and d (HRCE): The quantitative comparison between the hit score and d LEA with the latent representations of optimal drug concentration.

    Article Snippet: For VERO and HRCE cell-lines, Remdesivir and GS-441524 are consistently identified as effective compounds w.r.t . individual fluorescent channels as well as all channels, which supports the clinical utility of Remdesivir approved by U.S. Food and Drug Administration (FDA) .

    Techniques: Concentration Assay

    Cell viability, cytotoxicity and cell cycle progression in TfRCC cell lines treated with mTOR inhibitors. a , b Cell viability, as measured by MTT assay for TfRCC cell lines and the benign renal epithelial cell line HRCE after 72 h of treatment with up to 1000 nM concentrations of the dual mTORC1/2 inhibitor, AZD8055 ( a ), or selective mTORC1 inhibitor, sirolimus ( b ). Viability in TfRCC cells was suppressed by approximately 80–90% with AZD8055 and 30–50% with sirolimus relative to the untreated (0 nM drug) condition. Both drugs inhibited growth to a greater degree in TfRCC cells than in benign renal cells. c , d Cell cytotoxicity, as measured by LDH release by UOK120 and UOK146 TfRCC cell lines after 48 h of treatment with 1 μM of AZD8055 ( c ) or sirolimus ( d ). Only slight cytotoxicity in UOK120 cells and no cytotoxicity in UOK146 cells was observed after AZD8055 treatment, while sirolimus treatment had no cytotoxic effect. Multi protein inhibitor LY294002 [100 μM] was used as a positive control. e , f Relative fraction of cells in S-phase of the cell cycle, as measured by BrdU incorporation in UOK120 ( e ) and UOK146 ( f ) cell lines treated for 24 h with low (50 nM) and high (500 nM) concentrations of AZD8055 or sirolimus. Dose-dependent reductions in S-phase in both cell lines with either drug mirror the magnitude of reductions observed in cell viability ( a , b ), supporting a predominantly cytostatic mechanism of growth inhibition for both drugs. * p < 0.05; ** p < 0.01; *** p < 0.001; NS = non-significant

    Journal: BMC Cancer

    Article Title: Preclinical efficacy of dual mTORC1/2 inhibitor AZD8055 in renal cell carcinoma harboring a TFE3 gene fusion

    doi: 10.1186/s12885-019-6096-0

    Figure Lengend Snippet: Cell viability, cytotoxicity and cell cycle progression in TfRCC cell lines treated with mTOR inhibitors. a , b Cell viability, as measured by MTT assay for TfRCC cell lines and the benign renal epithelial cell line HRCE after 72 h of treatment with up to 1000 nM concentrations of the dual mTORC1/2 inhibitor, AZD8055 ( a ), or selective mTORC1 inhibitor, sirolimus ( b ). Viability in TfRCC cells was suppressed by approximately 80–90% with AZD8055 and 30–50% with sirolimus relative to the untreated (0 nM drug) condition. Both drugs inhibited growth to a greater degree in TfRCC cells than in benign renal cells. c , d Cell cytotoxicity, as measured by LDH release by UOK120 and UOK146 TfRCC cell lines after 48 h of treatment with 1 μM of AZD8055 ( c ) or sirolimus ( d ). Only slight cytotoxicity in UOK120 cells and no cytotoxicity in UOK146 cells was observed after AZD8055 treatment, while sirolimus treatment had no cytotoxic effect. Multi protein inhibitor LY294002 [100 μM] was used as a positive control. e , f Relative fraction of cells in S-phase of the cell cycle, as measured by BrdU incorporation in UOK120 ( e ) and UOK146 ( f ) cell lines treated for 24 h with low (50 nM) and high (500 nM) concentrations of AZD8055 or sirolimus. Dose-dependent reductions in S-phase in both cell lines with either drug mirror the magnitude of reductions observed in cell viability ( a , b ), supporting a predominantly cytostatic mechanism of growth inhibition for both drugs. * p < 0.05; ** p < 0.01; *** p < 0.001; NS = non-significant

    Article Snippet: RCC4 was obtained from ECACC General Cell Collection (Salisbury, UK; Cat Nr. 03112702) and the human renal cortical epithelial (HRCE) cell line was obtained from ATCC (Manassas, VA; Cat Nr. PCS-400-011).

    Techniques: MTT Assay, Positive Control, BrdU Incorporation Assay, Inhibition