Intragenic antagonistic roles of protein and circRNA in tumorigenesis

[1]  Arturo Díaz Quiroz Circular , 1856, The North-Western Medical and Surgical Journal.

[2]  J. Kjems,et al.  Circular RNAs in cancer: opportunities and challenges in the field , 2017, Oncogene.

[3]  Carmen Birchmeier,et al.  Loss of a mammalian circular RNA locus causes miRNA deregulation and affects brain function , 2017, Science.

[4]  Howard Y. Chang,et al.  Sensing Self and Foreign Circular RNAs by Intron Identity. , 2017, Molecular cell.

[5]  Nipun A. Mistry,et al.  ILF2 Is a Regulator of RNA Splicing and DNA Damage Response in 1q21-Amplified Multiple Myeloma. , 2017, Cancer cell.

[6]  N. Rajewsky,et al.  Translation of CircRNAs , 2017, Molecular cell.

[7]  N. Rajewsky,et al.  Circ-ZNF609 Is a Circular RNA that Can Be Translated and Functions in Myogenesis , 2017, Molecular cell.

[8]  Weining Yang,et al.  Foxo3 circular RNA retards cell cycle progression via forming ternary complexes with p21 and CDK2 , 2016, Nucleic acids research.

[9]  Dawood B. Dudekula,et al.  CircInteractome: A web tool for exploring circular RNAs and their interacting proteins and microRNAs , 2016, RNA biology.

[10]  T. Nakadai,et al.  The RNA Binding Complexes NF45-NF90 and NF45-NF110 Associate Dynamically with the c-fos Gene and Function as Transcriptional Coactivators* , 2015, The Journal of Biological Chemistry.

[11]  Thomas M. Keane,et al.  The BRAF Pseudogene Functions as a Competitive Endogenous RNA and Induces Lymphoma In Vivo , 2015, Cell.

[12]  P. Pandolfi,et al.  A genetic platform to model sarcomagenesis from primary adult mesenchymal stem cells. , 2015, Cancer discovery.

[13]  J. Mauer,et al.  Versatile functions for IL-6 in metabolism and cancer. , 2015, Trends in immunology.

[14]  J. Zuo,et al.  Regulation of cell cycle of hepatocellular carcinoma by NF90 through modulation of cyclin E1 mRNA stability , 2014, Oncogene.

[15]  Petar Glažar,et al.  circBase: a database for circular RNAs , 2014, RNA.

[16]  N. Rajewsky,et al.  circRNA biogenesis competes with pre-mRNA splicing. , 2014, Molecular cell.

[17]  Ling-Ling Chen,et al.  Complementary Sequence-Mediated Exon Circularization , 2014, Cell.

[18]  N. Sharpless,et al.  Detecting and characterizing circular RNAs , 2014, Nature Biotechnology.

[19]  Sanjay Tyagi,et al.  Fusion FISH Imaging: Single-Molecule Detection of Gene Fusion Transcripts In Situ , 2014, PloS one.

[20]  A. Mercurio,et al.  VEGF targets the tumour cell , 2013, Nature Reviews Cancer.

[21]  W. Gerald,et al.  Lrf suppresses prostate cancer through repression of a Sox9-dependent pathway for cellular senescence bypass and tumor invasion , 2013, Nature Genetics.

[22]  Pier Paolo Pandolfi,et al.  Role of LRF/Pokemon in lineage fate decisions. , 2013, Blood.

[23]  Sebastian D. Mackowiak,et al.  Circular RNAs are a large class of animal RNAs with regulatory potency , 2013, Nature.

[24]  J. Kjems,et al.  Natural RNA circles function as efficient microRNA sponges , 2013, Nature.

[25]  Michael K. Slevin,et al.  Circular RNAs are abundant, conserved, and associated with ALU repeats. , 2013, RNA.

[26]  Shuang Huang,et al.  Interleukin Enhancer-Binding Factor 3 Promotes Breast Tumor Progression by Regulating Sustained Urokinase-Type Plasminogen Activator Expression , 2012, Oncogene.

[27]  M. Gorospe,et al.  NF90 coordinately represses the senescence-associated secretory phenotype , 2012, Aging.

[28]  Howard Y. Chang,et al.  Chromatin Isolation by RNA Purification (ChIRP) , 2012, Journal of visualized experiments : JoVE.

[29]  Ferdinando Di Cunto,et al.  Coding-Independent Regulation of the Tumor Suppressor PTEN by Competing Endogenous mRNAs , 2011, Cell.

[30]  Sanjay Tyagi,et al.  Single molecule imaging of RNA in situ. , 2011, Methods in molecular biology.

[31]  M. Castillo-Martin,et al.  Characterization and comparison of the properties of sarcoma cell lines in vitro and in vivo , 2009, Human Cell.

[32]  P. Pandolfi,et al.  A coding-independent function of gene and pseudogene mRNAs regulates tumour biology , 2010, Nature.

[33]  V. Wysocki,et al.  NF45 and NF90 Regulate HS4-dependent Interleukin-13 Transcription in T Cells* , 2010, The Journal of Biological Chemistry.

[34]  P. Pandolfi,et al.  The Proto-Oncogene LRF Is under Post-Transcriptional Control of MiR-20a: Implications for Senescence , 2008, PloS one.

[35]  K. Phoenix,et al.  Double-Stranded RNA-Binding Protein Regulates Vascular Endothelial Growth Factor mRNA Stability, Translation, and Breast Cancer Angiogenesis , 2007, Molecular and Cellular Biology.

[36]  P. Kao,et al.  NF90 regulates inducible IL-2 gene expression in T cells , 2007, The Journal of experimental medicine.

[37]  P. Pandolfi,et al.  Regulation of B Versus T Lymphoid Lineage Fate Decision by the Proto-Oncogene LRF , 2007, Science.

[38]  J. Eberwine,et al.  Immunoprecipitation of mRNA-protein complexes , 2006, Nature Protocols.

[39]  P. Pandolfi,et al.  Role of the proto-oncogene Pokemon in cellular transformation and ARF repression , 2005, Nature.