208d52c3e0be48e99828c55efedfb8b8281ee429aa984b1aaccf884754437f5765d428535ff247c3be715b2b1e1396ad729d39821af3433d8cc7aa6c35564be89e8d819d7d1b4357bbdc45941ca35425b001bf9fb172477f9d9c336c647806d4cd5a9a9a5548450895737a21c3ee30e2dc6cbc79d5a24229b4f9546e97edeb09dd213fc252f349f69b0d68f5e03e2a7fe1890e4c757444a9a2f3da79dfc8f6a4e79e79d96d5f496ab7d83b7d232e81e2f94fb64e5b1544b8823c5e24977c5d2b
agent
Epigenomic annotation of gene regulatory alterations during evolution of the primate brainTomo-Seq Identifies SOX9 as a Key Regulator of Cardiac Fibrosis During Ischemic InjuryIntracranial Aneurysm-Associated Single-Nucleotide Polymorphisms Alter Regulatory DNA in the Human Circle of WillisCis-regulatory elements in the primate brain: from functional specialization to neurodegenerationLarge-scale identification of coregulated enhancer networks in the adult human brainMapping the Global Chromatin Connectivity Network for Sox2 Function in Neural Stem Cell MaintenanceTranscriptional Dynamics at Brain EnhancersLocal compartment changes and regulatory landscape alterations in histone H1-depleted cellsHistone acetylation in astrocytes suppresses GFAP and stimulates a reorganization of the intermediate filament networkCircadian networks in human embryonic stem cell-derived cardiomyocytesHominin-specific regulatory elements selectively emerged in oligodendrocytes and are disrupted in autism patientsRecently Evolved Enhancers Emerge with High Interindividual Variability and Less Frequently Associate with Disease
author
type
label
Marit W. Vermunt
firstName
lastName
name
staffOrganisationAssociations
visibility
Public - No restriction
@en
Publiek - Geen beperking
@nl