Project description:To functionaly test thousands of promoter based Autism associated de novo variants, we established neural progenitor cells from human embryonic stem cells and performed massively parallel reporter assays to collect transcription rates associated with reference and alternate allele sequences
Project description:Human disease mutation discovery has so far been biased towards protein coding regions. Having excluded all annotated coding regions, we performed targeted massively parallel re-sequencing of the non-repetitive genomic linkage interval of the MRX3 family at Xq28. We identified a regulatory mutation in the YY1 transcription factor binding site, which leads to overexpression of the chromatin-associated transcriptional regulator, HCFC1. When tested on embryonic murine neural stem cells (NSCs) and embryonic hippocampal neurons, HCFC1 overexpression led to a significant increase of the production of astrocytes and considerable reduction in neurite growth. Two other non-synonymous, potentially deleterious changes have been identified by X-exome sequencing in individuals with intellectual disability, implicating HCFC1 in normal brain function.
Project description:Human disease mutation discovery has so far been biased towards protein coding regions. Having excluded all annotated coding regions, we performed targeted massively parallel re-sequencing of the non-repetitive genomic linkage interval of the MRX3 family at Xq28. We identified a regulatory mutation in the YY1 transcription factor binding site, which leads to overexpression of the chromatin-associated transcriptional regulator, HCFC1. When tested on embryonic murine neural stem cells (NSCs) and embryonic hippocampal neurons, HCFC1 overexpression led to a significant increase of the production of astrocytes and considerable reduction in neurite growth. Two other non-synonymous, potentially deleterious changes have been identified by X-exome sequencing in individuals with intellectual disability, implicating HCFC1 in normal brain function. Total RNA was extracted from LCL derived from four unrelated male controls, five unrelated female controls and two affected male cousins from the MRX3 family.
Project description:We combined Self-Transcribing Active Regulatory Region Sequencing (STARR-seq) with an enrichment step using chromatin immunoprecipitation in a massively parallel reporter assay. We applied this assay, termed ChIP-STARR-seq, to normal (primed) and naive human embryonic stem cells, building up a comprehensive catalogue of functional enhancers. This database record describes the STARR-RNA-seq component.
Project description:We combined Self-Transcribing Active Regulatory Region Sequencing (STARR-seq) with an enrichment step using chromatin immunoprecipitation in a massively parallel reporter assay. We applied this assay, termed ChIP-STARR-seq, to normal (primed) and naive human embryonic stem cells, building up a comprehensive catalogue of functional enhancers. This database record describes the DNA-seq component from isolated plasmids.
Project description:We combined Self-Transcribing Active Regulatory Region Sequencing (STARR-seq) with an enrichment step using chromatin immunoprecipitation in a massively parallel reporter assay. We applied this assay, termed ChIP-STARR-seq, to normal (primed) and naive human embryonic stem cells, building up a comprehensive catalogue of functional enhancers. This database record describes the ChIP-seq and BAC component.
