[{"name": "Hepatic gene expression in streptozotocin-induced diabetic mice fed a quercetin diet", "sample_count": 24, "tags": ["glucose", "insulin", "liver"], "slug": "hepatic-gene-expression-in-streptozotocin-induced", "is_default": false, "geo_gse_id": "E-GEOD-38067", "species": "mouse", "id": 6890, "factor_count": 0}, {"name": "Hepatic glucose sensing is required to preserve beta-cell glucose competence", "sample_count": 12, "tags": ["carbohydrate", "cell", "glucose", "insulin", "liver", "protein"], "slug": "hepatic-glucose-sensing-is-required-to-preserve-be", "is_default": false, "geo_gse_id": "E-GEOD-43581", "species": "mouse", "id": 7135, "factor_count": 2}, {"name": "Hepatic xenobiotic metabolizing enzyme gene expression through the life stages of the mouse", "sample_count": 28, "tags": ["genome", "liver", "middle"], "slug": "hepatic-xenobiotic-metabolizing-enzyme-gene-expres", "is_default": false, "geo_gse_id": "E-GEOD-21716", "species": "mouse", "id": 6072, "factor_count": 2}, {"name": "Hepatocyte-nuclear-factor-4a promotes gut neoplasia in mice and protects against the production of reactive oxygen species", "sample_count": 6, "tags": ["cancer", "cell", "colorectal cancer", "distal", "epithelial cell", "gut", "hepatocyte", "intestinal epithelium", "intestine", "jejunum", "point", "protein"], "slug": "hepatocyte-nuclear-factor-4a-promotes-gut-neoplasi", "is_default": false, "geo_gse_id": "E-GEOD-20968", "species": "mouse", "id": 6016, "factor_count": 0}, {"name": "Heterogeneity in SDF-1 production defines the vasculogenic potential of c-kit+ cardiac progenitor cells", "sample_count": 5, "tags": ["basal", "heart", "left", "left ventricle", "ventricle"], "slug": "heterogeneity-in-sdf-1-production-defines-the-vasc", "is_default": false, "geo_gse_id": "E-GEOD-24828", "species": "mouse", "id": 6249, "factor_count": 1}, {"name": "Heterogeneity of LN resident macrophage", "sample_count": 6, "tags": ["cell"], "slug": "heterogeneity-of-ln-resident-macrophage", "is_default": false, "geo_gse_id": "E-GEOD-15767", "species": "mouse", "id": 5680, "factor_count": 0}, {"name": "High-fat diet induced changes to mouse liver mRNA", "sample_count": 9, "tags": ["liver", "median"], "slug": "high-fat-diet-induced-changes-to-mouse-liver-mrna", "is_default": false, "geo_gse_id": "E-GEOD-45327", "species": "mouse", "id": 7212, "factor_count": 1}, {"name": "High Fat Diet Reduces the Expression of Glutathione Peroxidase 3 in Mouse Prostate", "sample_count": 19, "tags": ["cancer", "prostate", "prostate cancer", "ventral"], "slug": "high-fat-diet-reduces-the-expression-of-glutathion", "is_default": false, "geo_gse_id": "E-GEOD-26464", "species": "mouse", "id": 6318, "factor_count": 2}, {"name": "High Fat Diet Triggers SIRT1 Cleavage in Adipose Tissue Providing a Link between Dietary Stress   and Metabolic Dysfunction.", "sample_count": 16, "tags": ["adipose tissue", "lipid", "obesity"], "slug": "high-fat-diet-triggers-sirt1-cleavage-in-adipose-t", "is_default": false, "geo_gse_id": "E-GEOD-30247", "species": "mouse", "id": 6510, "factor_count": 2}, {"name": "Highly efficient derivation of ventricular cardiomyocytes from induced pluripotent stem cells with a distinct epigenetic signature", "sample_count": 11, "tags": ["cell", "central", "somatic cell"], "slug": "highly-efficient-derivation-of-ventricular-cardiom", "is_default": false, "geo_gse_id": "E-GEOD-32598", "species": "mouse", "id": 6653, "factor_count": 2}]