The natural antisense transcript NATTD regulates the transcription of decapping scavenger (DcpS) enzyme.

[1]  Matthew C. Canver,et al.  Genome-wide CRISPR-Cas9 Screen Identifies Leukemia-Specific Dependence on a Pre-mRNA Metabolic Pathway Regulated by DCPS. , 2018, Cancer cell.

[2]  Jinghua Liu,et al.  Kelch-like Protein 21 (KLHL21) Targets IκB Kinase-β to Regulate Nuclear Factor κ-Light Chain Enhancer of Activated B Cells (NF-κB) Signaling Negatively* , 2016, The Journal of Biological Chemistry.

[3]  S. Freier,et al.  Natural antisense RNA promotes 3′ end processing and maturation of MALAT1 lncRNA , 2016, Nucleic acids research.

[4]  Martin J. Simard,et al.  The human decapping scavenger enzyme DcpS modulates microRNA turnover , 2015, Scientific Reports.

[5]  S. Dhanasekaran,et al.  The landscape of antisense gene expression in human cancers , 2015, Genome research.

[6]  Heather L. Plasterer,et al.  DcpS is a transcript-specific modulator of RNA in mammalian cells , 2015, RNA.

[7]  A. Milac,et al.  Decapping Scavenger (DcpS) enzyme: advances in its structure, activity and roles in the cap-dependent mRNA metabolism. , 2014, Biochimica et biophysica acta.

[8]  A. Iwasaki,et al.  A Promiscuous Lipid-Binding Protein Diversifies the Subcellular Sites of Toll-like Receptor Signal Transduction , 2014, Cell.

[9]  L. Steinmetz,et al.  Gene regulation by antisense transcription , 2013, Nature Reviews Genetics.

[10]  Heather L. Plasterer,et al.  The DcpS inhibitor RG3039 improves survival, function and motor unit pathologies in two SMA mouse models. , 2013, Human molecular genetics.

[11]  V. Ambros,et al.  The decapping scavenger enzyme DCS-1 controls microRNA levels in Caenorhabditis elegans. , 2013, Molecular cell.

[12]  Piero Carninci,et al.  Long non-coding antisense RNA controls Uchl1 translation through an embedded SINEB2 repeat , 2012, Nature.

[13]  Xuhong Song,et al.  AS1DHRS4, a head-to-head natural antisense transcript, silences the DHRS4 gene cluster in cis and trans , 2012, Proceedings of the National Academy of Sciences.

[14]  C. Wahlestedt,et al.  Regulation of chromatin structure by long noncoding RNAs: focus on natural antisense transcripts. , 2012, Trends in genetics : TIG.

[15]  C. Wahlestedt,et al.  Inhibition of natural antisense transcripts in vivo results in gene-specific transcriptional upregulation , 2012, Nature Biotechnology.

[16]  H. Ploegh,et al.  Accessory molecules for Toll-like receptors and their function , 2012, Nature Reviews Immunology.

[17]  Andrew B. Conley,et al.  Epigenetic regulation of human cis-natural antisense transcripts , 2012, Nucleic acids research.

[18]  Leonard Lipovich,et al.  Genome-wide computational identification and manual annotation of human long noncoding RNA genes. , 2010, RNA.

[19]  B. Beutler,et al.  Intracellular toll-like receptors. , 2010, Immunity.

[20]  Stephen A. Stanhope,et al.  A noncoding antisense RNA in tie-1 locus regulates tie-1 function in vivo. , 2010, Blood.

[21]  A. Werner,et al.  What do natural antisense transcripts regulate? , 2009, RNA biology.

[22]  T. Morgan,et al.  Expression of a noncoding RNA is elevated in Alzheimer's disease and drives rapid feed-forward regulation of β-secretase , 2008, Nature Medicine.

[23]  Yong Zhang,et al.  CPC: assess the protein-coding potential of transcripts using sequence features and support vector machine , 2007, Nucleic Acids Res..

[24]  Kazuho Ikeo,et al.  Transcriptional Interferences in cis Natural Antisense Transcripts of Humans and Mice , 2007, Genetics.

[25]  T. Lassmann,et al.  The human PINK1 locus is regulated in vivo by a non-coding natural antisense RNA during modulation of mitochondrial function , 2007, BMC Genomics.

[26]  Sin Lam Tan,et al.  Complex Loci in Human and Mouse Genomes , 2006, PLoS genetics.

[27]  Paul J Hertzog,et al.  Suppressor of cytokine signaling 1 negatively regulates Toll-like receptor signaling by mediating Mal degradation , 2006, Nature Immunology.

[28]  S. Batalov,et al.  Antisense Transcription in the Mammalian Transcriptome , 2005, Science.

[29]  D. Hume,et al.  Syntaxin 6 and Vti1b Form a Novel SNARE Complex, Which Is Up-regulated in Activated Macrophages to Facilitate Exocytosis of Tumor Necrosis Factor-α* , 2005, Journal of Biological Chemistry.

[30]  Yoshihide Hayashizaki,et al.  Antisense transcripts with FANTOM2 clone set and their implications for gene regulation. , 2003, Genome research.

[31]  Erez Y. Levanon,et al.  Widespread occurrence of antisense transcription in the human genome , 2003, Nature Biotechnology.

[32]  The FANTOM Consortium and the RIKEN Genome Exploration Team,et al.  Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs , 2002 .