Neuronal and glial 3D chromatin architecture informs the cellular etiology of brain disorders

The cellular heterogeneity in brain obscures the identification of robust cellular regulatory networks. Here the authors integrate genome-wide chromosome conformation data from sorted neurons and glia, with transcriptomic and enhancer profiles, to characterize cell-type-specific gene regulatory land...

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Autores principales: Benxia Hu, Hyejung Won, Won Mah, Royce B. Park, Bibi Kassim, Keeley Spiess, Alexey Kozlenkov, Cheynna A. Crowley, Sirisha Pochareddy, The PsychENCODE Consortium, Yun Li, Stella Dracheva, Nenad Sestan, Schahram Akbarian, Daniel H. Geschwind
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/58d534607fbd40f0b3a815f520ae49df
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Sumario:The cellular heterogeneity in brain obscures the identification of robust cellular regulatory networks. Here the authors integrate genome-wide chromosome conformation data from sorted neurons and glia, with transcriptomic and enhancer profiles, to characterize cell-type-specific gene regulatory landscapes in the human brain, and provide insights into cell-type-specific gene regulatory networks in brain disorders.