A neuronal activity-dependent dual function chromatin-modifying complex regulates arc expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - eneuro, 2015 - eneuro.org
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …
[引用][C] A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc Expression (1, 2, 3)
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - …, 2015 - researchportal.tuni.fi
A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc
Expression(1,2,3) — Tampere University Research Portal Skip to main navigation Skip to …
Expression(1,2,3) — Tampere University Research Portal Skip to main navigation Skip to …
[引用][C] A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc Expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - eneuro, 2015 - cir.nii.ac.jp
A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc
Expression | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 …
Expression | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 …
A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc Expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - Eneuro, 2015 - europepmc.org
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …
[PDF][PDF] A Neuronal activity-Dependent Dual Function chromatin-Modifying Complex Regulates Arc Expression
2015 - people.duke.edu
Author contributions: NEO and AMV designed research; NEO, HWL, RE, LZ, HV, and AMV
performed research; NEO, HWL, RE, LZ, RWB, HV, and AMV analyzed data; NEO, HWL, LZ …
performed research; NEO, HWL, RE, LZ, RWB, HV, and AMV analyzed data; NEO, HWL, LZ …
A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc Expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - …, 2015 - pubmed.ncbi.nlm.nih.gov
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …
[PDF][PDF] A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - 2015 - dukespace.lib.duke.edu
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …
[HTML][HTML] A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc Expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - eNeuro, 2015 - ncbi.nlm.nih.gov
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …
[HTML][HTML] A Neuronal Activity-Dependent Dual Function Chromatin-Modifying Complex Regulates Arc Expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - eNeuro, 2015 - eneuro.org
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …
A neuronal activity-dependent dual function chromatin-modifying complex regulates arc expression
NE Oey, HW Leung, R Ezhilarasan, L Zhou… - 2015 - scholarbank.nus.edu.sg
Chromatin modification is an important epigenetic mechanism underlying neuroplasticity.
Histone methylation and acetylation have both been shown to modulate gene expression …
Histone methylation and acetylation have both been shown to modulate gene expression …