[{"slug": "liver-mrna-microarray-study-for-mice-treated-with", "factor_count": 1, "sample_count": 27, "tags": ["liver"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-51885", "id": 7474, "name": "Liver mRNA microarray study for mice treated with various diets"}, {"slug": "lkr13-kras-wt1-ko", "factor_count": 0, "sample_count": 10, "tags": ["cancer", "cell", "column", "line", "lung", "lung cancer", "wt1"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-15326", "id": 5652, "name": "LKR13-Kras-WT1-KO"}, {"slug": "lmnadelta9-mouse-gene-expression-study", "factor_count": 0, "sample_count": 6, "tags": ["fibroblast", "lamin a", "serum"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-23495", "id": 6180, "name": "Lmnadelta9 mouse gene expression study"}, {"slug": "location-of-indigenous-human-hscs-reveals-functi-2", "factor_count": 0, "sample_count": 4, "tags": ["bone", "bone marrow", "cell", "long bone", "notch", "osteoblast", "scid", "superior", "trabecular bone", "vasculature"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-47935", "id": 7343, "name": "Location of indigenous human HSCs reveals functional properties of HSCs that are dictated by anatomic and cellular architecture of bone marrow II"}, {"slug": "long-noncoding-rna-as-regulatory-switch-of-protein", "factor_count": 2, "sample_count": 8, "tags": ["cell", "chromatin", "embryonic stem cell", "histone", "histone h3", "lysine", "protein", "stem cell"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-36513", "id": 6817, "name": "Long noncoding RNA as regulatory switch of protein turnover"}, {"slug": "long-range-expression-effects-of-cnv-insights-from", "factor_count": 1, "sample_count": 61, "tags": ["cell", "cerebellum", "chromosome", "class", "genome", "heart", "hippocampus", "kidney", "testis"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-14802", "id": 5624, "name": "Long-range expression effects of CNV:  insights from Smith-Magenis and Potocki-Lupski syndrome mouse model"}, {"slug": "long-term-effect-on-the-transcriptome-of-loss-of-f", "factor_count": 1, "sample_count": 6, "tags": ["cell", "cerebellum"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-16707", "id": 5738, "name": "Long-term effect on the transcriptome of loss of Frizzled4 signaling in cerebellar endothelial cells"}, {"slug": "long-term-pioglitazone-improves-learning-and-atten", "factor_count": 0, "sample_count": 16, "tags": ["alzheimer's disease", "body", "brain", "disease", "glucose", "hippocampus", "insulin", "membrane", "peroxisome", "serum"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-32536", "id": 6652, "name": "Long-term pioglitazone improves learning and attenuates pathological markers in a mouse model of AD"}, {"slug": "loss-of-hepatocyte-nuclear-factor-1-impacts-on-adu", "factor_count": 2, "sample_count": 6, "tags": ["cell", "enteroendocrine cell", "epithelial cell", "glucose", "hepatocyte", "intestinal epithelium", "intestine", "jejunum", "liver", "pancreas", "paneth cell", "small intestine"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-23040", "id": 6160, "name": "Loss of Hepatocyte-Nuclear-Factor-1\u03b1 Impacts on Adult Mouse Intestinal Epithelial Cell Growth and Cell Lineages Differentiation"}, {"slug": "lps-induced-gene-expression-in-mouse-small-intesti", "factor_count": 1, "sample_count": 9, "tags": ["lipopolysaccharide"], "species": "mouse", "is_default": false, "geo_gse_id": "E-GEOD-23755", "id": 6192, "name": "LPS-induced gene expression in mouse small intestinal epithelial cells"}]