Cross-regulation between an alternative splicing activator and a transcription repressor controls neurogenesis.
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Qun Pan | B. Blencowe | Q. Pan | D. Ray | D. O’Hanlon | Bushra Raj | F. Miller | N. Buckley | Freda D Miller | J. Vessey | Benjamin J Blencowe | Debashish Ray | Bushra Raj | Dave O'Hanlon | John P Vessey | Noel J Buckley
[1] Jernej Ule,et al. CLIP: a method for identifying protein-RNA interaction sites in living cells. , 2005, Methods.
[2] I. Wood,et al. Chromatin crosstalk in development and disease: lessons from REST , 2007, Nature Reviews Genetics.
[3] Chia-Lin Wei,et al. REST Regulates Distinct Transcriptional Networks in Embryonic and Neural Stem Cells , 2008, PLoS biology.
[4] F. Gage,et al. Signaling in adult neurogenesis. , 2009, Annual review of cell and developmental biology.
[5] M. Metsis,et al. Neuron-specific splicing of zinc finger transcription factor REST/NRSF/XBR is frequent in neuroblastomas and conserved in human, mouse and rat. , 1999, Brain research. Molecular brain research.
[6] Yang Shi,et al. SCFβ-TRCP controls oncogenic transformation and neural differentiation through REST degradation , 2008, Nature.
[7] Barry J. Dickson,et al. fruitless Splicing Specifies Male Courtship Behavior in Drosophila , 2005, Cell.
[8] Jernej Ule,et al. CLIP Identifies Nova-Regulated RNA Networks in the Brain , 2003, Science.
[9] B. Eggen,et al. A single zinc finger motif in the silencing factor REST represses the neural-specific type II sodium channel promoter. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[10] Berthold Göttgens,et al. Genome-wide analysis of repressor element 1 silencing transcription factor/neuron-restrictive silencing factor (REST/NRSF) target genes. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[11] Tom H. Pringle,et al. The human genome browser at UCSC. , 2002, Genome research.
[12] A. Fisher,et al. REST selectively represses a subset of RE1-containing neuronal genes in mouse embryonic stem cells , 2009, Development.
[13] D J Anderson,et al. The neuron-restrictive silencer factor (NRSF): a coordinate repressor of multiple neuron-specific genes , 1995, Science.
[14] M. Mehler,et al. Regulation of non-coding RNA networks in the nervous system—What's the REST of the story? , 2009, Neuroscience Letters.
[15] V. Gopalakrishnan. REST and the RESTless: in stem cells and beyond. , 2009, Future neurology.
[16] John A. Calarco,et al. Regulation of Vertebrate Nervous System Alternative Splicing and Development by an SR-Related Protein , 2009, Cell.
[17] Jeong-Heon Lee,et al. Role of Zinc Finger Domains of the Transcription Factor Neuron-restrictive Silencer Factor/Repressor Element-1 Silencing Transcription Factor in DNA Binding and Nuclear Localization* , 2001, The Journal of Biological Chemistry.
[18] Anne-Claude Gingras,et al. A Lentiviral Functional Proteomics Approach Identifies Chromatin Remodeling Complexes Important for the Induction of Pluripotency* , 2010, Molecular & Cellular Proteomics.
[19] B. Frey,et al. Deep surveying of alternative splicing complexity in the human transcriptome by high-throughput sequencing , 2008, Nature Genetics.
[20] Gail Mandel,et al. REST: A mammalian silencer protein that restricts sodium channel gene expression to neurons , 1995, Cell.
[21] D. Anderson,et al. Constitutive expression of the neuron-restrictive silencer factor (NRSF)/REST in differentiating neurons disrupts neuronal gene expression and causes axon pathfinding errors in vivo. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[22] Eric T. Wang,et al. Alternative Isoform Regulation in Human Tissue Transcriptomes , 2008, Nature.
[23] Douglas L. Black,et al. Neuronal regulation of alternative pre-mRNA splicing , 2007, Nature Reviews Neuroscience.
[24] J. Valcárcel,et al. Splicing regulation in Drosophila sex determination. , 2003, Progress in molecular and subcellular biology.
[25] F. Miller,et al. Lfc and Tctex-1 regulate the genesis of neurons from cortical precursor cells , 2009, Nature Neuroscience.
[26] B. Blencowe,et al. Smg1 is required for embryogenesis and regulates diverse genes via alternative splicing coupled to nonsense-mediated mRNA decay , 2010, Proceedings of the National Academy of Sciences.
[27] N. Belluardo,et al. Neuronal Expression of Zinc Finger Transcription Factor REST/NRSF/XBR Gene , 1998, The Journal of Neuroscience.
[28] A. Mortazavi,et al. Genome-Wide Mapping of in Vivo Protein-DNA Interactions , 2007, Science.
[29] J. Stewart,et al. Regulation and role of REST and REST4 variants in modulation of gene expression in in vivo and in vitro in epilepsy models , 2006, Neurobiology of Disease.
[30] Mei Zhen,et al. Networking in a global world: establishing functional connections between neural splicing regulators and their target transcripts. , 2011, RNA.
[31] Raymond K. Auerbach,et al. A User's Guide to the Encyclopedia of DNA Elements (ENCODE) , 2011, PLoS biology.
[32] A. Paquette,et al. NRSF/REST is required in vivo for repression of multiple neuronal target genes during embryogenesis , 1998, Nature Genetics.
[33] Jeffrey L. Wrana,et al. An Alternative Splicing Switch Regulates Embryonic Stem Cell Pluripotency and Reprogramming , 2011, Cell.