Add to ORKGNeuronal diversity is essential for mammalian brain function but poses a challenge to molecular profiling. To address the need for tools that facilitate cell-type-specific epigenomic studies, we developed the first affinity purification approach to isolate nuclei from genetically defined cell types in a mammal. We combine this technique with next-generation sequencing to show that three subtypes of neocortical neurons have highly distinctive epigenomic landscapes. Over 200,000 regions differ in chromatin accessibility and DNA methylation signatures characteristic of gene regulatory regions. By footprinting and motif analyses, these regions are predicted to bind distinct cohorts of neuron subtype-specific transcription factors. Neuronal epig...
The mammalian brain consists of a vast network of neurons and non-neuronal cells with diverse morpho...
Neuronal cell types are classically defined by their molecular properties, anatomy and functions. Al...
Neuronal cell types are classically defined by their molecular properties, anatomy and functions. Al...
Neuronal diversity is essential for mammalian brain function but poses a challenge to molecular prof...
SummaryNeuronal diversity is essential for mammalian brain function but poses a challenge to molecul...
SummaryNeuronal diversity is essential for mammalian brain function but poses a challenge to molecul...
Neuronal diversity is essential for mammalian brain function but poses a challenge to molecular prof...
Mammalian brain cells show remarkable diversity in gene expression, anatomy and function, yet the re...
Mammalian brain cells show remarkable diversity in gene expression, anatomy and function, yet the re...
Mammalian brain cells show remarkable diversity in gene expression, anatomy and function, yet the re...
Epigenomic profiling of complex tissues obscures regulatory elements that distinguish one cell type ...
d Affinity purification of nuclei in mice enables cell-type-specific epigenomics d 3 neuron types ad...
Mammalian brain cells show a remarkable diversity, yet the regulatory DNA landscape underlying this ...
Epigenomic profiling of complex tissues obscures regulatory elements that distinguish one cell type ...
The mammalian brain consists of a vast network of neurons and non-neuronal cells with diverse morpho...
The mammalian brain consists of a vast network of neurons and non-neuronal cells with diverse morpho...
Neuronal cell types are classically defined by their molecular properties, anatomy and functions. Al...
Neuronal cell types are classically defined by their molecular properties, anatomy and functions. Al...
Neuronal diversity is essential for mammalian brain function but poses a challenge to molecular prof...
SummaryNeuronal diversity is essential for mammalian brain function but poses a challenge to molecul...
SummaryNeuronal diversity is essential for mammalian brain function but poses a challenge to molecul...
Neuronal diversity is essential for mammalian brain function but poses a challenge to molecular prof...
Mammalian brain cells show remarkable diversity in gene expression, anatomy and function, yet the re...
Mammalian brain cells show remarkable diversity in gene expression, anatomy and function, yet the re...
Mammalian brain cells show remarkable diversity in gene expression, anatomy and function, yet the re...
Epigenomic profiling of complex tissues obscures regulatory elements that distinguish one cell type ...
d Affinity purification of nuclei in mice enables cell-type-specific epigenomics d 3 neuron types ad...
Mammalian brain cells show a remarkable diversity, yet the regulatory DNA landscape underlying this ...
Epigenomic profiling of complex tissues obscures regulatory elements that distinguish one cell type ...
The mammalian brain consists of a vast network of neurons and non-neuronal cells with diverse morpho...
The mammalian brain consists of a vast network of neurons and non-neuronal cells with diverse morpho...
Neuronal cell types are classically defined by their molecular properties, anatomy and functions. Al...
Neuronal cell types are classically defined by their molecular properties, anatomy and functions. Al...