Project description:In silico discovery of the blood cell interactome

Project description:In silico discovery of the blood cell interactome [microRNA]

Project description:The aim of the present study identify putative macromolecular interactions in human peripheral blood based on significant correlations at the transcriptional level. We found that significant transcript correlations within the giant matrix reflect experimentally documented interactions involving select ubiquitous blood relevant transcription factors (CREB1, GATA1, and the glucocorticoid receptor (GR, NR3C1)).

Project description:The aim of the present study identify putative macromolecular interactions in human peripheral blood based on significant correlations at the transcriptional level. We found that significant transcript correlations within a giant matrix including also mRNAs from the same project reflect experimentally documented interactions

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Multiple sclerosis is the most common autoimmune disease of the central nervous system. Studying whole blood RNA from a cohort of 195 MS patients and 66 healthy controls, we identified gene expression signatures for interferon treatment and disease status by microarray analysis. Blood was collected at multiple time points (up to 3 for patients, 2 for controls). Patients were either untreated or treated with Interferon. In total, 626 Affymetrix exon arrays were analyzed, split into discovery and replication data sets. This metadata file contains information on all samples processed in the discovery data set (n=212) when we compared gene expression in untreated MS patients (n=62) to healthy controls (n=41).

Project description:International Consortium for Blood Pressure GWAS 2011 discovery dataset

Project description:Neuronal migration constitutes an important step in corticogenesis; dysregulation of the molecular mechanisms mediating this crucial step in neurodevelopment may result in various neuropsychiatric disorders. By curating experimental data from published literature, we identified eight functional modules involving Disrupted-in-schizophrenia 1 (DISC1) and its interacting proteins that regulate neuronal migration. We then identified miRNAs and transcription factors (TFs) that form functional feedback loops and regulate gene expression of the DISC1 interactome. Using this curated data, we conducted in-silico modeling of the DISC1 interactome involved in neuronal migration and identified the proteins that either facilitate or inhibit neuronal migrational processes. We also studied the effect of perturbation of miRNAs and TFs in feedback loops on the DISC1 interactome. From these analyses, we discovered that STAT3, TCF3, and TAL1 (through feedback loop with miRNAs) play a critical role in the transcriptional control of DISC1 interactome thereby regulating neuronal migration. To the best of our knowledge, regulation of the DISC1 interactome mediating neuronal migration by these TFs has not been previously reported. These potentially important TFs can serve as targets for undertaking validation studies, which in turn can reveal the molecular processes that cause neuronal migration defects underlying neurodevelopmental disorders. This underscores the importance of the use of in-silico techniques in aiding the discovery of mechanistic evidence governing important molecular and cellular processes. The present work is one such step towards the discovery of regulatory factors of the DISC1 interactome that mediates neuronal migration.

Project description:Multiple sclerosis is the most common autoimmune disease of the central nervous system. Studying whole blood RNA from a cohort of 195 MS patients and 66 healthy controls, we identified gene expression signatures for interferon treatment and disease status by microarray analysis. Blood was collected at multiple time points (up to 3 for patients, 2 for controls). Patients were either untreated or treated with Interferon. In total, 626 Affymetrix exon arrays were analyzed, split into discovery and replication data sets. This metadata file contains information on all samples processed in the discovery data set (n=212) when we compared gene expression in untreated MS patients (n=62) to healthy controls (n=41). The following comparisons were made: untreated MS vs Controls (discovery and replication), untreated vs Interferon treated MS (discovery and replication). For each comparison, respective arrays were processed (background corrected and normalized) together, but seperate from other comparisons. The two time points for controls were averaged. For the first comparison, we report differentially expressed genes at an FDR cutoff of 0.1 at any of the three tested time points in MS patients in the discovery data set. For the second comparison, the FDR cutoff was 0.001. The respective genes were validated in the replication data set when they passed a nominal p-value cutoff of 0.05 at any of the three tested time points.

Project description:We report the application of enyzme-based 4C-Seq technique for exploring Pou5f1 enhancer interactome in mouse ES cells. We explored the interactome of Pou5f1 upstream enhancer in mouse ES cells by using an enzyme digestion based 4C-Seq protocol. The interactome is involved in gene active regulation.