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Histone regulation in the CNS: basic principles of epigenetic plasticity

Histone regulation in the CNS: basic principles of epigenetic plasticity

http://www.wikidata.org/entity/Q26829142

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MeCP2 and the enigmatic organization of brain chromatin. Implications for depression and cocaine addiction Insights into rapid modulation of neuroplasticity by brain estrogens Mendelian disorders of the epigenetic machinery: tipping the balance of chromatin states Epigenetics of neural repair following spinal cord injury Transcriptional co-repressors and memory storage Abnormalities of the DNA methylation mark and its machinery: an emerging cause of neurologic dysfunction Epigenetics of the depressed brain: role of histone acetylation and methylation Dopamine signaling leads to loss of Polycomb repression and aberrant gene activation in experimental parkinsonism Epigenetic reprogramming of cortical neurons through alteration of dopaminergic circuits.Coordinated nuclear and synaptic shuttling of afadin promotes spine plasticity and histone modifications Regulatory RNAs and control of epigenetic mechanisms: expectations for cognition and cognitive dysfunction.Non-coding RNA regulation of synaptic plasticity and memory: implications for aging.Double-bromo and extraterminal (BET) domain proteins regulate dendrite morphology and mechanosensory function Targeting Epigenetic Pathways in the Treatment of Pediatric Diffuse (High Grade) Gliomas.Hippocampal and behavioral dysfunctions in a mouse model of environmental stress: normalization by agomelatine Recognizing Resilience: Learning from the Effects of Stress on the Brain.Neuroepigenomics: Resources, Obstacles, and Opportunities.Critical Role of Histone Turnover in Neuronal Transcription and Plasticity.How The Genome Got a Life Span.Transgenerational Epigenetic Contributions to Stress Responses: Fact or Fiction?New Genetics and Genomic Data on Pancreatic Neuroendocrine Tumors: Implications for Diagnosis, Treatment, and Targeted Therapies.Histone Modification of Nedd4 Ubiquitin Ligase Controls the Loss of AMPA Receptors and Cognitive Impairment Induced by Repeated Stress.Mutations in chromatin machinery and pediatric high-grade glioma The genome in three dimensions: a new frontier in human brain research.Substrate Specificity Profiling of Histone-Modifying Enzymes by Peptide Microarray.Emerging roles for chromatin as a signal integration and storage platform.The neuronal activity-driven transcriptome.The regulation of transcription in memory consolidation Experience-sensitive epigenetic mechanisms, developmental plasticity, and the biological embedding of chronic disease risk.Cell type-specific epigenome profiling using affinity-purified nuclei.Current Proteomic Methods to Investigate the Dynamics of Histone Turnover in the Central Nervous System.Understanding epigenetic architecture of suicide neurobiology: A critical perspective.The histone variant H3.3 claims its place in the crowded scene of epigenetics.Potential New Therapies for Pediatric Diffuse Intrinsic Pontine Glioma.Replication-Independent Histone Variant H3.3 Controls Animal Lifespan through the Regulation of Pro-longevity Transcriptional Programs.G34, another connection between MYCN and a pediatric tumor.Transcriptional Response of Polycomb Group Genes to Status Epilepticus in Mice is Modified by Prior Exposure to Epileptic Preconditioning.Epigenetic mechanisms in psychiatry.Commentary: The information of conformation.Early-Life Social Isolation-Induced Depressive-Like Behavior in Rats Results in Microglial Activation and Neuronal Histone Methylation that Are Mitigated by Minocycline.

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Histone regulation in the CNS: basic principles of epigenetic plasticity

http://www.wikidata.org/entity/Q26829142

description

2013 nî lūn-bûn

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2013 թուականի Յունուարին հրատարակուած գիտական յօդուած

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2013 թվականի հունվարին հրատարակված գիտական հոդված

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2013年の論文

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2013年論文

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2013年論文

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2013年論文

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2013年論文

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2013年论文

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name

Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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Histone regulation in the CNS: basic principles of epigenetic plasticity

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C David Allis

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Kyung-Min Noh

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P2860

Cloning, expression and chromosome locations of the human DNMT3 gene family

Localization of a putative transcriptional regulator (ATRX) at pericentromeric heterochromatin and the short arms of acrocentric chromosomes

Translating the Histone Code

Epigenetic regulation of gene expression: how the genome integrates intrinsic and environmental signals

Transcriptional and epigenetic mechanisms of addiction

Cell cycle-dependent phosphorylation of the ATRX protein correlates with changes in nuclear matrix and chromatin association

Rett syndrome is caused by mutations in X-linked MECP2, encoding methyl-CpG-binding protein 2

Molecular basis for the recognition of phosphorylated and phosphoacetylated histone h3 by 14-3-3

Daxx is an H3.3-specific histone chaperone and cooperates with ATRX in replication-independent chromatin assembly at telomeres

Expression patterns and post-translational modifications associated with mammalian histone H3 variants

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