<?xml version="1.0" encoding="ASCII"?>
<biogps><data><item><item key="factor_count">1</item><item key="sample_count">9</item><item key="tags"><item>cell</item><item>line</item></item><item key="slug">global-gene-expression-analysis-of-six-cadmium-tra</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-26828</item><item key="species">human</item><item key="id">3935</item><item key="name">Global gene expression analysis of six cadmium-transformed UROtsa cell isolates</item></item><item><item key="factor_count">1</item><item key="sample_count">7</item><item key="tags"><item>cancer</item><item>carcinoma</item><item>cell</item><item>line</item><item>pancreatic cancer</item><item>pancreatic carcinoma</item></item><item key="slug">gsk3b-shrna-in-panc-1-xenografts</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-35351</item><item key="species">human</item><item key="id">2146</item><item key="name">GSK3B shRNA in Panc-1 xenografts</item></item><item><item key="factor_count">2</item><item key="sample_count">8</item><item key="tags"><item>cell</item><item>line</item></item><item key="slug">hct116-colon-cancer-crc-in-high-and-low-glucose</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-31084</item><item key="species">human</item><item key="id">4186</item><item key="name">HCT116 colon cancer CRC in high and low glucose</item></item><item><item key="factor_count">0</item><item key="sample_count">2</item><item key="tags"><item>cancer</item><item>carcinoma</item><item>cell</item><item>estrogen</item><item>glycoprotein</item><item>hormone</item><item>line</item><item>squamous</item><item>squamous cell</item><item>squamous cell carcinoma</item></item><item key="slug">hela-cells-consist-of-two-cell-types-as-evidenced</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-42222</item><item key="species">human</item><item key="id">2457</item><item key="name">HeLa cells consist of two cell types, as evidenced by cytochemical staining for alkaline phosphatase activity: A possible model for cancer stem cell study</item></item><item><item key="factor_count">1</item><item key="sample_count">6</item><item key="tags"><item>androgen</item><item>cancer</item><item>cell</item><item>genome</item><item>line</item><item>prostate</item><item>prostate cancer</item><item>protein</item></item><item key="slug">hipk2-and-med19-are-new-regulators-of-androgen-rec</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-43881</item><item key="species">human</item><item key="id">2559</item><item key="name">HIPK2 and MED19 are new regulators of androgen receptor in prostate cancer cells</item></item><item><item key="factor_count">1</item><item key="sample_count">6</item><item key="tags"><item>cell</item><item>epithelial cell</item><item>line</item></item><item key="slug">hmler-cells-expressing-either-foxc2-or-a-vector-co</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-44335</item><item key="species">human</item><item key="id">2540</item><item key="name">HMLER cells expressing either FOXC2 or a vector control</item></item><item><item key="factor_count">2</item><item key="sample_count">15</item><item key="tags"><item>breast</item><item>breast cancer</item><item>cancer</item><item>cell</item><item>line</item></item><item key="slug">phenotypic-plasticity-in-aggressive-triple-negativ</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-33167</item><item key="species">human</item><item key="id">4282</item><item key="name">Phenotypic Plasticity in Aggressive Triple-Negative Breast Cancer: Human Biology is Recapitulated by a Novel Model System</item></item><item><item key="factor_count">0</item><item key="sample_count">15</item><item key="tags"><item>cancer</item><item>cell</item><item>colon</item><item>colon cancer</item><item>distal</item><item>epithelial cell</item><item>fiber</item><item>line</item><item>lipid</item><item>proximal</item><item>transverse</item></item><item key="slug">polydextrose-fermentation-metabolite-effect-on-cac</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-28792</item><item key="species">human</item><item key="id">4060</item><item key="name">Polydextrose fermentation metabolite effect on Caco-2 colon cancer cells</item></item><item><item key="factor_count">1</item><item key="sample_count">12</item><item key="tags"><item>cell</item><item>disease</item><item>glycogen</item><item>line</item><item>lysosome</item></item><item key="slug">pompe-disease-induced-pluripotent-stem-cells-for-p</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-27280</item><item key="species">human</item><item key="id">3963</item><item key="name">Pompe disease induced pluripotent stem cells for pathogenesis modeling, drug testing and disease marker identification</item></item><item><item key="factor_count">2</item><item key="sample_count">6</item><item key="tags"><item>acute myeloid leukemia</item><item>cell</item><item>genome</item><item>leukemia</item><item>line</item><item>melanoma</item><item>myeloid leukemia</item></item><item key="slug">prame-induced-inhibition-of-retinoic-acid-receptor</item><item key="is_default">False</item><item key="geo_gse_id">E-GEOD-43258</item><item key="species">human</item><item key="id">2515</item><item key="name">PRAME induced inhibition of retinoic acid receptor signaling-mediated differentiation - a possible target for ATRA response in AML without t(15;17)</item></item></data></biogps>
