Add to ORKGTo discover regulatory elements driving the specificity of gene expression in different cell types and regions of the developing human brain, we generated an atlas of open chromatin from nine dissected regions of the mid-gestation human telencephalon, as well as microdissected upper and deep layers of the prefrontal cortex. We identified a subset of open chromatin regions (OCRs), termed predicted regulatory elements (pREs), that are likely to function as developmental brain enhancers. pREs showed temporal, regional, and laminar differences in chromatin accessibility and were correlated with gene expression differences across regions and gestational ages. We identified two functional de novo variants in a pRE for autism risk gene SLC6A1, and...
Aim: To provide a comprehensive understanding of gene regulatory networks in the developing human br...
The phenotype of neurons and their connections depend on complex genetic and epigenetic processes th...
During mammalian development, differences in chromatin state coincide with cellular differentiation ...
To discover regulatory elements driving the specificity of gene expression in different cell types a...
To discover regulatory elements driving the specificity of gene expression in different cell types a...
Abstract Gene expression differs between cell types and regions within complex tissues such as the d...
Abstract Gene expression differs between cell types and regions within complex tissues such as the d...
SummaryThe mammalian telencephalon plays critical roles in cognition, motor function, and emotion. T...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
Spatiotemporal regulation of gene expression in multicellular organisms is mediated by cell-type spe...
Mutations in gene regulatory elements have been associated with a wide range of complex neuropsychia...
During mammalian development, chromatin state differences coincide with cellular differentiation and...
During mammalian development, chromatin state differences coincide with cellular differentiation and...
To identify chromatin mechanisms of neuronal differentiation, we characterized chromatin accessibili...
Aim: To provide a comprehensive understanding of gene regulatory networks in the developing human br...
The phenotype of neurons and their connections depend on complex genetic and epigenetic processes th...
During mammalian development, differences in chromatin state coincide with cellular differentiation ...
To discover regulatory elements driving the specificity of gene expression in different cell types a...
To discover regulatory elements driving the specificity of gene expression in different cell types a...
Abstract Gene expression differs between cell types and regions within complex tissues such as the d...
Abstract Gene expression differs between cell types and regions within complex tissues such as the d...
SummaryThe mammalian telencephalon plays critical roles in cognition, motor function, and emotion. T...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
Spatiotemporal regulation of gene expression in multicellular organisms is mediated by cell-type spe...
Mutations in gene regulatory elements have been associated with a wide range of complex neuropsychia...
During mammalian development, chromatin state differences coincide with cellular differentiation and...
During mammalian development, chromatin state differences coincide with cellular differentiation and...
To identify chromatin mechanisms of neuronal differentiation, we characterized chromatin accessibili...
Aim: To provide a comprehensive understanding of gene regulatory networks in the developing human br...
The phenotype of neurons and their connections depend on complex genetic and epigenetic processes th...
During mammalian development, differences in chromatin state coincide with cellular differentiation ...