Chronic cocaine-regulated epigenomic changes in mouse nucleus accumbens
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E. Nestler | J. Koo | P. Kennedy | Li Shen | I. Maze | I. Purushothaman | Xiaochuan Liu | Ning-Yi Shao | D. Ferguson | V. Vialou | Q. LaPlant | Jian Feng | Ian Maze | Quincey LaPlant | B. Laitman | Li Shen | Ningyi Shao | Jian Feng | Matthew Wilkinson | Xiaochuan Liu | Immanuel Purushothaman | Deveroux Ferguson | Vincent Vialou | Pamela Kennedy | JaWook Koo | Caroline Dias | Benjamin Laitman | Victoria Stockman | Michael E Cahill | Eric J Nestler | C. Dias | Matthew B. Wilkinson | M. Cahill | Victoria Stockman | M. Wilkinson | Immanuel Purushothaman
[1] H. Kuroyanagi. Fox-1 family of RNA-binding proteins , 2009, Cellular and Molecular Life Sciences.
[2] E. Nestler,et al. Essential Role of SIRT1 Signaling in the Nucleus Accumbens in Cocaine and Morphine Action , 2013, Journal of Neuroscience.
[3] Eric E Schadt,et al. DNA variation and brain region-specific expression profiles exhibit different relationships between inbred mouse strains: implications for eQTL mapping studies , 2007, Genome Biology.
[4] E. Nestler,et al. Epigenetic mechanisms of drug addiction , 2013, Current Opinion in Neurobiology.
[5] Chris Williams,et al. RNA-SeQC: RNA-seq metrics for quality control and process optimization , 2012, Bioinform..
[6] G. Hicks,et al. The RNA Binding Protein TLS Is Translocated to Dendritic Spines by mGluR5 Activation and Regulates Spine Morphology , 2005, Current Biology.
[7] B. Blencowe,et al. Regulation of Alternative Splicing by Histone Modifications , 2010, Science.
[8] Wolfgang Sadee,et al. Intronic Polymorphisms Affecting Alternative Splicing of Human Dopamine D2 Receptor Are Associated with Cocaine Abuse , 2011, Neuropsychopharmacology.
[9] J. Sweatt,et al. DNA methylation and memory formation , 2010, Nature Neuroscience.
[10] Guanghua Xiao,et al. Histone Deacetylase 5 Epigenetically Controls Behavioral Adaptations to Chronic Emotional Stimuli , 2007, Neuron.
[11] E. Nestler,et al. FosB Is Essential for the Enhancement of Stress Tolerance and Antagonizes Locomotor Sensitization by ΔFosB , 2011, Biological Psychiatry.
[12] Christa S Merzdorf,et al. Emerging roles for zic genes in early development , 2007, Developmental dynamics : an official publication of the American Association of Anatomists.
[13] E. Nestler,et al. diffReps: Detecting Differential Chromatin Modification Sites from ChIP-seq Data with Biological Replicates , 2013, PloS one.
[14] T. Mikkelsen,et al. Genome-wide maps of chromatin state in pluripotent and lineage-committed cells , 2007, Nature.
[15] Mikael Bodén,et al. MEME Suite: tools for motif discovery and searching , 2009, Nucleic Acids Res..
[16] B. Bernstein,et al. Charting histone modifications and the functional organization of mammalian genomes , 2011, Nature Reviews Genetics.
[17] M. Gerstein,et al. RNA-Seq: a revolutionary tool for transcriptomics , 2009, Nature Reviews Genetics.
[18] David R. Kelley,et al. Differential gene and transcript expression analysis of RNA-seq experiments with TopHat and Cufflinks , 2012, Nature Protocols.
[19] G. Uhl,et al. Neurexin 3 polymorphisms are associated with alcohol dependence and altered expression of specific isoforms. , 2007, Human molecular genetics.
[20] R. Mains,et al. Kalrn promoter usage and isoform expression respond to chronic cocaine exposure , 2011, BMC Neuroscience.
[21] L. Chasin,et al. Searching for splicing motifs. , 2007, Advances in experimental medicine and biology.
[22] ENCODEConsortium,et al. An Integrated Encyclopedia of DNA Elements in the Human Genome , 2012, Nature.
[23] Donny D. Licatalosi,et al. Splicing Regulation in Neurologic Disease , 2006, Neuron.
[24] Data production leads,et al. An integrated encyclopedia of DNA elements in the human genome , 2012 .
[25] Clifford A. Meyer,et al. Model-based Analysis of ChIP-Seq (MACS) , 2008, Genome Biology.
[26] Guanghua Xiao,et al. Genome-wide Analysis of Chromatin Regulation by Cocaine Reveals a Role for Sirtuins , 2009, Neuron.
[27] D. Geschwind,et al. Transcriptome signature of the adult mouse choroid plexus , 2011, Fluids and Barriers of the CNS.
[28] T. Abel,et al. The Role of Histone Acetylation in Memory Formation and Cognitive Impairments , 2013, Neuropsychopharmacology.
[29] S. Horvath,et al. Transcriptomic Analysis of Autistic Brain Reveals Convergent Molecular Pathology , 2011, Nature.
[30] T. Takumi,et al. TLS facilitates transport of mRNA encoding an actin-stabilizing protein to dendritic spines , 2005, Journal of Cell Science.
[31] E. Nestler,et al. Transcriptional and epigenetic mechanisms of addiction , 2011, Nature Reviews Neuroscience.
[32] Scott J. Russo,et al. Chromatin Remodeling Is a Key Mechanism Underlying Cocaine-Induced Plasticity in Striatum , 2005, Neuron.
[33] K. Lattal,et al. Modulation of Chromatin Modification Facilitates Extinction of Cocaine-Induced Conditioned Place Preference , 2010, Biological Psychiatry.
[34] Gary D Bader,et al. Enrichment Map: A Network-Based Method for Gene-Set Enrichment Visualization and Interpretation , 2010, PloS one.
[35] C. Allis,et al. Translating the Histone Code , 2001, Science.
[36] Shane T. Jensen,et al. Bayesian Clustering of Transcription Factor Binding Motifs , 2006, math/0610655.
[37] J. Gallant,et al. RNA-Mediated Neuromuscular Disorders , 2007 .
[38] Noah Spies,et al. Biased chromatin signatures around polyadenylation sites and exons. , 2009, Molecular cell.
[39] Lior Pachter,et al. Sequence Analysis , 2020, Definitions.
[40] C. Muchardt,et al. Histone H3 lysine 9 trimethylation and HP1γ favor inclusion of alternative exons , 2011, Nature Structural &Molecular Biology.
[41] Y. Benjamini,et al. Controlling the false discovery rate: a practical and powerful approach to multiple testing , 1995 .
[42] M. Alló,et al. Neuronal cell depolarization induces intragenic chromatin modifications affecting NCAM alternative splicing , 2009, Proceedings of the National Academy of Sciences.
[43] G. Leone,et al. Division and apoptosis of E2f-deficient retinal progenitors , 2009, Nature.
[44] D. Black,et al. An inducible change in Fox-1/A2BP1 splicing modulates the alternative splicing of downstream neuronal target exons. , 2009, Genes & development.
[45] E. Nestler,et al. Molecular basis of long-term plasticity underlying addiction , 2001, Nature Reviews Neuroscience.
[46] Bruno Bozon,et al. How necessary is the activation of the immediate early gene zif268 in synaptic plasticity and learning? , 2003, Behavioural Brain Research.
[47] J. Morrison,et al. Dnmt3a regulates emotional behavior and spine plasticity in the nucleus accumbens , 2010, Nature Neuroscience.
[48] E. Nestler,et al. Erratum to: Chronic cocaine-regulated epigenomic changes in mouse nucleus accumbens , 2015, Genome Biology.
[49] James J. Chen,et al. Comparison of the global gene expression of choroid plexus and meninges and associated vasculature under control conditions and after pronounced hyperthermia or amphetamine toxicity , 2013, BMC Genomics.
[50] Xiaojun Ding,et al. Protein kinase WNK3 regulates the neuronal splicing factor Fox-1 , 2012, Proceedings of the National Academy of Sciences.
[51] S. Haggarty,et al. Class I HDAC Inhibition Blocks Cocaine-Induced Plasticity Through Targeted Changes in Histone Methylation , 2013, Nature Neuroscience.
[52] Eric Nestler,et al. ngs.plot: Quick mining and visualization of next-generation sequencing data by integrating genomic databases , 2014, BMC Genomics.
[53] Raymond K. Auerbach,et al. An Integrated Encyclopedia of DNA Elements in the Human Genome , 2012, Nature.
[54] R. F. Luco,et al. Epigenetics in Alternative Pre-mRNA Splicing , 2011, Cell.
[55] Sietse Jonkman,et al. Molecular, Cellular, and Structural Mechanisms of Cocaine Addiction: A Key Role for MicroRNAs , 2013, Neuropsychopharmacology.
[56] Paul Tempst,et al. Recognition of trimethylated histone H3 lysine 4 facilitates the recruitment of transcription postinitiation factors and pre-mRNA splicing. , 2007, Molecular cell.
[57] Jan Komorowski,et al. Nucleosomes are well positioned in exons and carry characteristic histone modifications. , 2009, Genome research.
[58] Xinyi Li,et al. Transthyretin and the brain re-visited: Is neuronal synthesis of transthyretin protective in Alzheimer's disease? , 2011, Molecular Neurodegeneration.
[59] Cole Trapnell,et al. Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation. , 2010, Nature biotechnology.
[60] Deanna L. Wallace,et al. ΔFosB in brain reward circuits mediates resilience to stress and antidepressant responses , 2010, Nature Neuroscience.
[61] Brad T. Sherman,et al. Systematic and integrative analysis of large gene lists using DAVID bioinformatics resources , 2008, Nature Protocols.
[62] Christa Lese Martin,et al. Cytogenetic and molecular characterization of A2BP1/FOX1 as a candidate gene for autism , 2007, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.
[63] P. Park. ChIP–seq: advantages and challenges of a maturing technology , 2009, Nature Reviews Genetics.
[64] E. Nestler,et al. The epigenetic landscape of addiction , 2011, Annals of the New York Academy of Sciences.
[65] H. Okano,et al. Involvement of Hu and Heterogeneous Nuclear Ribonucleoprotein K in Neuronal Differentiation through p21 mRNA Post-transcriptional Regulation* , 2005, Journal of Biological Chemistry.
[66] David S. Park,et al. Unique Requirement for Rb/E2F3 in Neuronal Migration: Evidence for Cell Cycle-Independent Functions , 2007, Molecular and Cellular Biology.
[67] Dustin E. Schones,et al. High-Resolution Profiling of Histone Methylations in the Human Genome , 2007, Cell.
[68] Y. Sztainberg,et al. Homeodomain Protein Otp and Activity-Dependent Splicing Modulate Neuronal Adaptation to Stress , 2012, Neuron.
[69] Paul Greengard,et al. Essential Role of the Histone Methyltransferase G9a in Cocaine-Induced Plasticity , 2010, Science.
[70] Istvan Mody,et al. The splicing regulator Rbfox1 (A2BP1) controls neuronal excitation in the mammalian brain , 2011, Nature Genetics.
[71] S. Pulst,et al. A novel protein with RNA-binding motifs interacts with ataxin-2. , 2000, Human molecular genetics.
[72] Douglas L. Black,et al. Neuronal regulation of alternative pre-mRNA splicing , 2007, Nature Reviews Neuroscience.
[73] Daniel E Weeks,et al. Candidate-gene screening and association analysis at the autism-susceptibility locus on chromosome 16p: evidence of association at GRIN2A and ABAT. , 2005, American journal of human genetics.
[74] E. Wang,et al. Analysis and design of RNA sequencing experiments for identifying isoform regulation , 2010, Nature Methods.
[75] W. Huber,et al. Detecting differential usage of exons from RNA-seq data , 2012, Genome research.
[76] G. Luo,et al. A nuclear function of Hu proteins as neuron-specific alternative RNA processing regulators. , 2006, Molecular biology of the cell.
[77] J. Mulley,et al. The de novo chromosome 16 translocations of two patients with abnormal phenotypes (mental retardation and epilepsy) disrupt the A2BP1 gene , 2004, Journal of Human Genetics.
[78] Brad T. Sherman,et al. Bioinformatics enrichment tools: paths toward the comprehensive functional analysis of large gene lists , 2008, Nucleic acids research.
[79] Kenny Q. Ye,et al. Strong Association of De Novo Copy Number Mutations with Autism , 2007, Science.
[80] William Stafford Noble,et al. FIMO: scanning for occurrences of a given motif , 2011, Bioinform..
[81] Neelroop Parikshak,et al. RBFOX1 regulates both splicing and transcriptional networks in human neuronal development. , 2012, Human molecular genetics.