Project description:Post-mortem gene expression from mouse brain

Project description:Epigenome Analysis of Post-Mortem Human Temporal Pole Brain Tissue For more information, please refer to DOI: 10.3233/JAD-141989

Project description:Single nucleus sequencing of fresh frozen post-mortem brain

Project description:Profiling of post-mortem brain microRNA in Alzheimer’s disease

Project description:Analysis of gene expression in two large schizophrenia cohorts identifies multiple changes associated with nerve terminal function. Schizophrenia is a severe psychiatric disorder with a world-wide prevalence of 1%. The pathophysiology of the illness is not understood, but is thought to have a strong genetic component with some environmental influences on aetiology. To gain further insight into disease mechanism, we used microarray technology to determine the expression of over 30 000 mRNA transcripts in post-mortem tissue from a brain region associated with the pathophysiology of the disease (Brodmann area 10: anterior prefrontal cortex) in 28 schizophrenic and 23 control patients. Post-mortem derived BA10 tissue from 28 schizophrenic and 23 control patients were compared. Age, gender, post-mortem delay and pH of brain lysates data were also captured.

Project description:Epigenome Analysis of Post-Mortem Human Temporal Pole Brain Tissue For more information, please refer to DOI: 10.3233/JAD-141989 Temporal Pole regions from 24 age-matched causcasian males: 8 samples which died of normal causes, 8 samples with Alzheimer's disease (stage 3/4) and 8 samples with dementia with lewy bodies

Project description:Post mortem brain tissue of three Patients suffering from Aicardi-Goutières Syndrome from different brain regions was used to isolate RNA and perform RNAseq analysis compared to age matched control patients with no underlying brain pathology.

Project description:Single nucleus analysis of post-mortem brain tissues from Nasu-Hakola disease (NHD) patients

Project description:Vascular cell types are under-represented in standard single-nucleus RNA-Seq studies of human frozen post-mortem brain tissue. The dataset represents the pilot data obtained with the first version of a microvessel- enrichment protocol to obtain a higher percentage of endothelial cells as the key cellular component of the blood-brain barrier.

Project description:Understanding the molecular mechanisms underlying frontotemporal dementia (FTD) is essential for the development of successful therapies. Systematic studies on human post-mortem brain tissue of patients with genetic subtypes of FTD are currently lacking. The Risk and Modyfing Factors of Frontotemporal Dementia (RiMod-FTD) consortium therefore has generated multi-omics datasets for genetic subtypes of FTD to identify common and distinct molecular mechanisms disturbed in disease. This experiment contains data from RNA-sequencing of human post-mortem brain tissue of the frontal lobe from patients with FTD caused by mutations in GRN, MAPT or C9orf72 and healthy controls.