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reactome gene sets  (Human Protein Atlas)

 
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    Human Protein Atlas reactome gene sets
    Comparisons between the transcriptomic signature of muscle tissue samples. A Differences in gene expression in young male (control, N = 10) and young female (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. B <t>Reactome</t> pathways downregulated in young male ( N = 10) versus young female ( N = 10) muscle tissue. C Differences in gene expression in young male (control, N = 10) and older male (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. D Reactome pathways upregulated (left panel) or downregulated (right panel) in young male ( N = 10) versus older male ( N = 10) muscle tissue
    Reactome Gene Sets, supplied by Human Protein Atlas, 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/result/reactome gene sets/product/Human Protein Atlas
    Average 86 stars, based on 1 article reviews
    reactome gene sets - by Bioz Stars, 2026-05
    86/100 stars

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    1) Product Images from "The transcriptomic signature of age and sex is not conserved in human primary myotubes"

    Article Title: The transcriptomic signature of age and sex is not conserved in human primary myotubes

    Journal: Skeletal Muscle

    doi: 10.1186/s13395-026-00416-7

    Comparisons between the transcriptomic signature of muscle tissue samples. A Differences in gene expression in young male (control, N = 10) and young female (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. B Reactome pathways downregulated in young male ( N = 10) versus young female ( N = 10) muscle tissue. C Differences in gene expression in young male (control, N = 10) and older male (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. D Reactome pathways upregulated (left panel) or downregulated (right panel) in young male ( N = 10) versus older male ( N = 10) muscle tissue
    Figure Legend Snippet: Comparisons between the transcriptomic signature of muscle tissue samples. A Differences in gene expression in young male (control, N = 10) and young female (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. B Reactome pathways downregulated in young male ( N = 10) versus young female ( N = 10) muscle tissue. C Differences in gene expression in young male (control, N = 10) and older male (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. D Reactome pathways upregulated (left panel) or downregulated (right panel) in young male ( N = 10) versus older male ( N = 10) muscle tissue

    Techniques Used: Gene Expression, Control

    Comparisons between the transcriptomic signature of muscle tissue and differentiated HPMCs. A Principal component analysis of the transcriptome of N = 30 human muscle tissue samples (control, N = 10 young females, N = 10 young males, N = 10 older males) and the corresponding N = 30 differentiated HPMC lines grown from the same donors (case). B Differences in gene expression in human muscle tissue ( N = 30) compared to differentiated primary muscle cell lines grown from the same donors ( N = 30). Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. C Reactome pathways upregulated (left panel) or downregulated (right panel) in muscle tissue ( N = 30) versus differentiated HPMCs ( N = 30). D Average sum of normalised counts of the 13 mitochondrial protein-coding genes in cell (blue) and tissue (red) samples
    Figure Legend Snippet: Comparisons between the transcriptomic signature of muscle tissue and differentiated HPMCs. A Principal component analysis of the transcriptome of N = 30 human muscle tissue samples (control, N = 10 young females, N = 10 young males, N = 10 older males) and the corresponding N = 30 differentiated HPMC lines grown from the same donors (case). B Differences in gene expression in human muscle tissue ( N = 30) compared to differentiated primary muscle cell lines grown from the same donors ( N = 30). Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. C Reactome pathways upregulated (left panel) or downregulated (right panel) in muscle tissue ( N = 30) versus differentiated HPMCs ( N = 30). D Average sum of normalised counts of the 13 mitochondrial protein-coding genes in cell (blue) and tissue (red) samples

    Techniques Used: Control, Gene Expression

    Maintenance of the age phenotype between muscle tissue and differentiated HPMCs. A Scatter plot depicting the log 2 fold-change of each individual gene expressed in young ( N = 10) and older ( N = 10) muscle tissue and in the corresponding young ( N = 10) and older ( N = 10) differentiated muscle cell lines. Genes differentially expressed at FDR < 0.05 and down regulated in both young cell and muscle tissue are depicted in black. Genes differentially expressed at FDR < 0.05 and down regulated in young cells only are depicted in blue. Genes differentially expressed at FDR < 0.05 and up regulated in young cells only are depicted in green. Genes differentially expressed at FDR < 0.05 and down regulated in young muscle tissue only are depicted in orange. Genes differentially expressed at FDR < 0.05 and up regulated in young muscle tissue only are depicted in dark red. B Differential expression rank–rank density contour plot with cell and tissue contrasts on the x- and y-axes, respectively. Each point represents a gene ranked by its differential expression in both contrasts, and the filled contours indicate gene density across the rank space. The four quadrants correspond to directional patterns of regulation: genes upregulated in both contrasts (top right), downregulated in both (bottom left), or oppositely regulated (top left and bottom right). The relatively even spread of density across all quadrants reflects the absence of a consistent transcriptional signature shared between aged muscle tissue and cultured cells. C Heatmap depicting the differentially regulated Reactome pathways in young ( N = 10) and older ( N = 10) muscle tissue (control) and in the corresponding young ( N = 10) and older ( N = 10) differentiated HPMC lines (case)
    Figure Legend Snippet: Maintenance of the age phenotype between muscle tissue and differentiated HPMCs. A Scatter plot depicting the log 2 fold-change of each individual gene expressed in young ( N = 10) and older ( N = 10) muscle tissue and in the corresponding young ( N = 10) and older ( N = 10) differentiated muscle cell lines. Genes differentially expressed at FDR < 0.05 and down regulated in both young cell and muscle tissue are depicted in black. Genes differentially expressed at FDR < 0.05 and down regulated in young cells only are depicted in blue. Genes differentially expressed at FDR < 0.05 and up regulated in young cells only are depicted in green. Genes differentially expressed at FDR < 0.05 and down regulated in young muscle tissue only are depicted in orange. Genes differentially expressed at FDR < 0.05 and up regulated in young muscle tissue only are depicted in dark red. B Differential expression rank–rank density contour plot with cell and tissue contrasts on the x- and y-axes, respectively. Each point represents a gene ranked by its differential expression in both contrasts, and the filled contours indicate gene density across the rank space. The four quadrants correspond to directional patterns of regulation: genes upregulated in both contrasts (top right), downregulated in both (bottom left), or oppositely regulated (top left and bottom right). The relatively even spread of density across all quadrants reflects the absence of a consistent transcriptional signature shared between aged muscle tissue and cultured cells. C Heatmap depicting the differentially regulated Reactome pathways in young ( N = 10) and older ( N = 10) muscle tissue (control) and in the corresponding young ( N = 10) and older ( N = 10) differentiated HPMC lines (case)

    Techniques Used: Quantitative Proteomics, Cell Culture, Control



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    Comparisons between the transcriptomic signature of muscle tissue samples. A Differences in gene expression in young male (control, N = 10) and young female (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. B Reactome pathways downregulated in young male ( N = 10) versus young female ( N = 10) muscle tissue. C Differences in gene expression in young male (control, N = 10) and older male (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. D Reactome pathways upregulated (left panel) or downregulated (right panel) in young male ( N = 10) versus older male ( N = 10) muscle tissue

    Journal: Skeletal Muscle

    Article Title: The transcriptomic signature of age and sex is not conserved in human primary myotubes

    doi: 10.1186/s13395-026-00416-7

    Figure Lengend Snippet: Comparisons between the transcriptomic signature of muscle tissue samples. A Differences in gene expression in young male (control, N = 10) and young female (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. B Reactome pathways downregulated in young male ( N = 10) versus young female ( N = 10) muscle tissue. C Differences in gene expression in young male (control, N = 10) and older male (case, N = 10) muscle tissue. Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. D Reactome pathways upregulated (left panel) or downregulated (right panel) in young male ( N = 10) versus older male ( N = 10) muscle tissue

    Article Snippet: Reactome gene sets from Homo sapiens were based on the msigdbr package (v7.5.1) and curated for skeletal muscle tissue activation using PubChem and The Human Protein Atlas, with all non-filtered gene sets presented in Supplementary Tables.

    Techniques: Gene Expression, Control

    Comparisons between the transcriptomic signature of muscle tissue and differentiated HPMCs. A Principal component analysis of the transcriptome of N = 30 human muscle tissue samples (control, N = 10 young females, N = 10 young males, N = 10 older males) and the corresponding N = 30 differentiated HPMC lines grown from the same donors (case). B Differences in gene expression in human muscle tissue ( N = 30) compared to differentiated primary muscle cell lines grown from the same donors ( N = 30). Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. C Reactome pathways upregulated (left panel) or downregulated (right panel) in muscle tissue ( N = 30) versus differentiated HPMCs ( N = 30). D Average sum of normalised counts of the 13 mitochondrial protein-coding genes in cell (blue) and tissue (red) samples

    Journal: Skeletal Muscle

    Article Title: The transcriptomic signature of age and sex is not conserved in human primary myotubes

    doi: 10.1186/s13395-026-00416-7

    Figure Lengend Snippet: Comparisons between the transcriptomic signature of muscle tissue and differentiated HPMCs. A Principal component analysis of the transcriptome of N = 30 human muscle tissue samples (control, N = 10 young females, N = 10 young males, N = 10 older males) and the corresponding N = 30 differentiated HPMC lines grown from the same donors (case). B Differences in gene expression in human muscle tissue ( N = 30) compared to differentiated primary muscle cell lines grown from the same donors ( N = 30). Genes differentially expressed at FDR < 0.05 and |Log 2 fold change| > 1 are depicted in red. C Reactome pathways upregulated (left panel) or downregulated (right panel) in muscle tissue ( N = 30) versus differentiated HPMCs ( N = 30). D Average sum of normalised counts of the 13 mitochondrial protein-coding genes in cell (blue) and tissue (red) samples

    Article Snippet: Reactome gene sets from Homo sapiens were based on the msigdbr package (v7.5.1) and curated for skeletal muscle tissue activation using PubChem and The Human Protein Atlas, with all non-filtered gene sets presented in Supplementary Tables.

    Techniques: Control, Gene Expression

    Maintenance of the age phenotype between muscle tissue and differentiated HPMCs. A Scatter plot depicting the log 2 fold-change of each individual gene expressed in young ( N = 10) and older ( N = 10) muscle tissue and in the corresponding young ( N = 10) and older ( N = 10) differentiated muscle cell lines. Genes differentially expressed at FDR < 0.05 and down regulated in both young cell and muscle tissue are depicted in black. Genes differentially expressed at FDR < 0.05 and down regulated in young cells only are depicted in blue. Genes differentially expressed at FDR < 0.05 and up regulated in young cells only are depicted in green. Genes differentially expressed at FDR < 0.05 and down regulated in young muscle tissue only are depicted in orange. Genes differentially expressed at FDR < 0.05 and up regulated in young muscle tissue only are depicted in dark red. B Differential expression rank–rank density contour plot with cell and tissue contrasts on the x- and y-axes, respectively. Each point represents a gene ranked by its differential expression in both contrasts, and the filled contours indicate gene density across the rank space. The four quadrants correspond to directional patterns of regulation: genes upregulated in both contrasts (top right), downregulated in both (bottom left), or oppositely regulated (top left and bottom right). The relatively even spread of density across all quadrants reflects the absence of a consistent transcriptional signature shared between aged muscle tissue and cultured cells. C Heatmap depicting the differentially regulated Reactome pathways in young ( N = 10) and older ( N = 10) muscle tissue (control) and in the corresponding young ( N = 10) and older ( N = 10) differentiated HPMC lines (case)

    Journal: Skeletal Muscle

    Article Title: The transcriptomic signature of age and sex is not conserved in human primary myotubes

    doi: 10.1186/s13395-026-00416-7

    Figure Lengend Snippet: Maintenance of the age phenotype between muscle tissue and differentiated HPMCs. A Scatter plot depicting the log 2 fold-change of each individual gene expressed in young ( N = 10) and older ( N = 10) muscle tissue and in the corresponding young ( N = 10) and older ( N = 10) differentiated muscle cell lines. Genes differentially expressed at FDR < 0.05 and down regulated in both young cell and muscle tissue are depicted in black. Genes differentially expressed at FDR < 0.05 and down regulated in young cells only are depicted in blue. Genes differentially expressed at FDR < 0.05 and up regulated in young cells only are depicted in green. Genes differentially expressed at FDR < 0.05 and down regulated in young muscle tissue only are depicted in orange. Genes differentially expressed at FDR < 0.05 and up regulated in young muscle tissue only are depicted in dark red. B Differential expression rank–rank density contour plot with cell and tissue contrasts on the x- and y-axes, respectively. Each point represents a gene ranked by its differential expression in both contrasts, and the filled contours indicate gene density across the rank space. The four quadrants correspond to directional patterns of regulation: genes upregulated in both contrasts (top right), downregulated in both (bottom left), or oppositely regulated (top left and bottom right). The relatively even spread of density across all quadrants reflects the absence of a consistent transcriptional signature shared between aged muscle tissue and cultured cells. C Heatmap depicting the differentially regulated Reactome pathways in young ( N = 10) and older ( N = 10) muscle tissue (control) and in the corresponding young ( N = 10) and older ( N = 10) differentiated HPMC lines (case)

    Article Snippet: Reactome gene sets from Homo sapiens were based on the msigdbr package (v7.5.1) and curated for skeletal muscle tissue activation using PubChem and The Human Protein Atlas, with all non-filtered gene sets presented in Supplementary Tables.

    Techniques: Quantitative Proteomics, Cell Culture, Control