{"owner": "ArrayExpress Uploader", "ownerprofile_id": "arrayexpress_sid", "species": "mouse", "factors": [{"GSM367909 1": {}}, {"GSM367910 1": {}}, {"GSM367911 1": {}}, {"GSM367912 1": {}}, {"GSM367913 1": {}}, {"GSM367914 1": {}}], "id": 8237, "pop_total": 0, "platform": 7, "summary_wrapped": "Hypoxia-driven alterations in the B16 melanoma cell transcriptome account for a higher metastatic potential: evidence for a role of Ero1L...", "geo_gse_id": "E-GEOD-14727", "owner_profile": "/profile/8773/arrayexpressuploader", "factor_count": 0, "sample_count": 6, "tags": ["cell", "melanoma"], "lastmodified": "Dec.12, 2014", "is_default": false, "geo_id_plat": "E-GEOD-14727_A-AFFY-23", "slug": "hypoxia-driven-alterations-in-the-b16-melanoma-cel", "geo_gds_id": "", "name": "Hypoxia-driven alterations in the B16 melanoma cell transcriptome account for a higher metastatic potential", "created": "Nov.23, 2014", "summary": "Hypoxia-driven alterations in the B16 melanoma cell transcriptome account for a higher metastatic potential: evidence for a role of Ero1L  We analyzed transcriptomic adaptations to hypoxia/reoxygenation in B16 melanoma cells. By Ero1L over- and down-expression in vivo, we identified this ER oxidase as an actor of tumor growth and metastasis take. In vitro culture of B16 submitted to hypoxia (oxygen rate less than 1%)", "source": "http://www.ebi.ac.uk/arrayexpress/experiments/E-GEOD-14727", "sample_source": "http://www.ebi.ac.uk/arrayexpress/experiments/E-GEOD-14727/samples/"}