Add to ORKGActivity-dependent gene expression is central for sculpting neuronal connectivity in the brain. Despite the importance for synaptic plasticity, a comprehensive analysis of the temporal changes in the transcriptomic response to neuronal activity is lacking. In a genome wide survey we identified genes that were induced at 1, 4, 8, or 24 hours following neuronal activity in the hippocampus. According to their distinct expression kinetics we assigned these genes to five clusters, each containing approximately 200 genes. Using in situ hybridizations the regulated expression of 24 genes was validated. Apart from known activity-dependent genes our study reveals a large number of unknown induced genes with distinct expression kinetics. Among these ...
Neurons are highly-polarized cells with processes that span great distances and many independent sub...
Alternative splicing (AS) is a critical regulatory layer; yet, factors controlling functionally coor...
Evolutionary differences in gene regulation between humans and lower mammalian experimental systems ...
Activity-dependent gene expression is central for sculpting neuronal connectivity in the brain. Desp...
<div><p>Activity-dependent gene expression is central for sculpting neuronal connectivity in the bra...
Neuronal activity-regulated gene transcription underlies plasticity-dependent changes in the molecul...
A vast number of different neuronal activity patterns could each induce a different set of activity-...
BACKGROUND: Neuronal activity regulates gene expression to control learning and memory, homeostasis ...
Neuronal activity-induced gene transcription is an important cellular mechanism for long-term plasti...
The brain is a highly adaptable organ that is capable of converting sensory information into changes...
SummaryNeuronal plasticity is an important feature of the developing brain and requires neuronal cir...
Recent applications of genome-wide approaches to profile the transcriptomes of cells and tissues hav...
Advances in sequencing technologies have sparked the discovery of new genetic etiologies for neurolo...
In this issue of Neuron, Johnson et al. employ a unique whole-genome exon-level analysis of the deve...
Modifications of neuronal circuits allow the brain to adapt and change with experience. This plastic...
Neurons are highly-polarized cells with processes that span great distances and many independent sub...
Alternative splicing (AS) is a critical regulatory layer; yet, factors controlling functionally coor...
Evolutionary differences in gene regulation between humans and lower mammalian experimental systems ...
Activity-dependent gene expression is central for sculpting neuronal connectivity in the brain. Desp...
<div><p>Activity-dependent gene expression is central for sculpting neuronal connectivity in the bra...
Neuronal activity-regulated gene transcription underlies plasticity-dependent changes in the molecul...
A vast number of different neuronal activity patterns could each induce a different set of activity-...
BACKGROUND: Neuronal activity regulates gene expression to control learning and memory, homeostasis ...
Neuronal activity-induced gene transcription is an important cellular mechanism for long-term plasti...
The brain is a highly adaptable organ that is capable of converting sensory information into changes...
SummaryNeuronal plasticity is an important feature of the developing brain and requires neuronal cir...
Recent applications of genome-wide approaches to profile the transcriptomes of cells and tissues hav...
Advances in sequencing technologies have sparked the discovery of new genetic etiologies for neurolo...
In this issue of Neuron, Johnson et al. employ a unique whole-genome exon-level analysis of the deve...
Modifications of neuronal circuits allow the brain to adapt and change with experience. This plastic...
Neurons are highly-polarized cells with processes that span great distances and many independent sub...
Alternative splicing (AS) is a critical regulatory layer; yet, factors controlling functionally coor...
Evolutionary differences in gene regulation between humans and lower mammalian experimental systems ...