{"owner": "ArrayExpress Uploader", "pop_total": 0, "species": "mouse", "factors": [{"GSM709686": {"GENOTYPE": "Wild type"}}, {"GSM709686": {"GENOTYPE": "Wild type"}}, {"GSM709686": {"GENOTYPE": "Wild type"}}, {"GSM709689": {"GENOTYPE": "ApoD knock-out"}}, {"GSM709689": {"GENOTYPE": "ApoD knock-out"}}, {"GSM709689": {"GENOTYPE": "ApoD knock-out"}}, {"GSM709692": {"GENOTYPE": "Human-ApoD transgenic gain of function mutant"}}, {"GSM709692": {"GENOTYPE": "Human-ApoD transgenic gain of function mutant"}}, {"GSM709692": {"GENOTYPE": "Human-ApoD transgenic gain of function mutant"}}, {"GSM709695": {"GENOTYPE": "wild-type"}}, {"GSM709695": {"GENOTYPE": "wild-type"}}, {"GSM709695": {"GENOTYPE": "wild-type"}}, {"GSM709689": {"GENOTYPE": "ApoD knock-out"}}, {"GSM709689": {"GENOTYPE": "ApoD knock-out"}}, {"GSM709689": {"GENOTYPE": "ApoD knock-out"}}, {"GSM709692": {"GENOTYPE": "Human-ApoD transgenic gain of function mutant"}}, {"GSM709692": {"GENOTYPE": "Human-ApoD transgenic gain of function mutant"}}, {"GSM709692": {"GENOTYPE": "Human-ApoD transgenic gain of function mutant"}}], "id": 8544, "ownerprofile_id": "arrayexpress_sid", "platform": 8, "summary_wrapped": "The lipocalin Apolipoprotein D (ApoD), known to protect the nervous system against oxidative stress (OS) in model organisms, is up-...", "geo_gse_id": "E-GEOD-28643", "owner_profile": "/profile/8773/arrayexpressuploader", "factor_count": 1, "sample_count": 18, "tags": ["brain", "cerebellum", "nervous system"], "lastmodified": "Dec.12, 2014", "is_default": false, "geo_id_plat": "E-GEOD-28643_A-AFFY-36", "slug": "apod-modulation-mouse-cerebellar-transcriptome", "geo_gds_id": "", "name": "ApoD modulation mouse cerebellar transcriptome", "created": "Nov.24, 2014", "summary": "The lipocalin Apolipoprotein D (ApoD), known to protect the nervous system against oxidative stress (OS) in model organisms, is up-regulated early in the mouse brain in response to the ROS generator paraquat (PQ). However, the processes triggered by this up-regulation have not been explored. We present here a study of the effect of ApoD on the early transcriptional changes upon OS in the mouse cerebellum using microarray profiling. ApoD-KO and transgenic mice over-expressing ApoD in neurons are compared to wild-type controls.", "source": "http://www.ebi.ac.uk/arrayexpress/experiments/E-GEOD-28643", "sample_source": "http://www.ebi.ac.uk/arrayexpress/experiments/E-GEOD-28643/samples/"}