Add to ORKGNeuronal differentiation is a timely and spatially regulated process orchestrated by a synergy between transcription factors and noncoding RNAs. Here we demonstrate that the long noncoding RNA HOTAIRM1 epigenetically controls the expression of the proneural transcription factor NEUROGENIN 2, that is key to neuronal fate commitment and critical for brain development. We also show that HOTAIRM1 activity impacts on NEUROGENIN 2 downstream regulatory cascade, thus contributing to the achievement of proper neuronal differentiation timing. Finally, we identify the RNA-binding proteins HNRNPK and FUS as regulators of HOTAIRM1 biogenesis and metabolism
BACKGROUND: Neuronal differentiation is largely under the control of basic Helix-Loop-Helix (bHLH) p...
Neural stem cells in the brain give rise to both neurons and glia cells during embryonic development...
Neural stem cells in the brain give rise to both neurons and glia cells during embryonic development...
Neuronal differentiation is a timely and spatially regulated process, relying on precisely orchestra...
Neuronal differentiation is a timely and spatially regulated process, relying on precisely orchestra...
Neuronal differentiation is a timely and spatially regulated process, relying on precisely orchestra...
Neurons derive from neural progenitor cells whose differentiation occurs in two distinct steps, each...
Neurons derive from neural progenitor cells whose differentiation occurs in two distinct steps, each...
The dopaminergic (DA) system is important for a range of brain functions and subcortical DA developm...
The role of non-coding RNAs within the cell is an emerging topic that is currently in full force and...
<div><p>Neuronal development is a pro-survival process that involves neurite growth, synaptogenesis,...
SummaryDuring neuronal differentiation, use of an alternative splice site on the rat telomere repeat...
Abstract Background Glioblastoma multiforme (GBM) is the common primary brain tumor classified the m...
Brain development involves proliferation, migration and specification of neural progenitor cells, cu...
Heterochromatin protein 1 gamma (HP1 gamma) is a well-known chromatin protein, which regulates gene ...
BACKGROUND: Neuronal differentiation is largely under the control of basic Helix-Loop-Helix (bHLH) p...
Neural stem cells in the brain give rise to both neurons and glia cells during embryonic development...
Neural stem cells in the brain give rise to both neurons and glia cells during embryonic development...
Neuronal differentiation is a timely and spatially regulated process, relying on precisely orchestra...
Neuronal differentiation is a timely and spatially regulated process, relying on precisely orchestra...
Neuronal differentiation is a timely and spatially regulated process, relying on precisely orchestra...
Neurons derive from neural progenitor cells whose differentiation occurs in two distinct steps, each...
Neurons derive from neural progenitor cells whose differentiation occurs in two distinct steps, each...
The dopaminergic (DA) system is important for a range of brain functions and subcortical DA developm...
The role of non-coding RNAs within the cell is an emerging topic that is currently in full force and...
<div><p>Neuronal development is a pro-survival process that involves neurite growth, synaptogenesis,...
SummaryDuring neuronal differentiation, use of an alternative splice site on the rat telomere repeat...
Abstract Background Glioblastoma multiforme (GBM) is the common primary brain tumor classified the m...
Brain development involves proliferation, migration and specification of neural progenitor cells, cu...
Heterochromatin protein 1 gamma (HP1 gamma) is a well-known chromatin protein, which regulates gene ...
BACKGROUND: Neuronal differentiation is largely under the control of basic Helix-Loop-Helix (bHLH) p...
Neural stem cells in the brain give rise to both neurons and glia cells during embryonic development...
Neural stem cells in the brain give rise to both neurons and glia cells during embryonic development...