A bimodular nuclear localization signal assembled via an extended double-stranded RNA-binding domain acts as an RNA-sensing signal for transportin 1

Pierre Barraud, Silpi Banerjee, Weaam I. Mohamed, Franz-Michael Jantsch, Frederic H. -T. Allain (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

The human RNA-editing enzyme adenosine deaminase acting on RNA (ADAR1) carries a unique nuclear localization signal (NLS) that overlaps one of its double-stranded RNA-binding domains (dsRBDs). This dsRBDNLS is recognized by the nuclear import receptor transportin 1 (Trn1; also called karyopherin-β2) in an RNA-sensitive manner. Most Trn1 cargos bear a well-characterized proline-tyrosine-NLS, which is missing from the dsRBD-NLS. Here, we report the structure of the dsRBD-NLS, which reveals an unusual dsRBD fold extended by an additional Nterminal α-helix that brings the N- and C-terminal flanking regions in close proximity. We demonstrate experimentally that the atypical ADAR1-NLS is bimodular and is formed by the combination of the two flexible fragments flanking the folded domain. The intervening dsRBD acts only as an RNA-sensing scaffold, allowing the two NLS modules to be properly positioned for interacting with Trn1. We also provide a structural model showing how Trn1 can recognize the dsRBD-NLS and how dsRNA binding can interfere with Trn1 binding.

Original languageEnglish
Pages (from-to)E1852-E1861
Number of pages10
JournalProceedings of the National Academy of Sciences of the United States of America (PNAS)
Volume111
Issue number18
DOIs
Publication statusPublished - 6 May 2014

Austrian Fields of Science 2012

  • 106023 Molecular biology

Keywords

  • NMR
  • RNA-binding protein
  • nucleocytoplasmic shuttling
  • RNA deamination
  • NMR STRUCTURE DETERMINATION
  • TORSION ANGLE DYNAMICS
  • EDITING ENZYME ADAR1
  • FISSION YEAST DICER
  • NUCLEOCYTOPLASMIC TRANSPORT
  • ESCHERICHIA-COLI
  • STRUCTURAL BASIS
  • MAMMALIAN-CELLS
  • PROTEIN IMPORT
  • EXPORT SIGNAL
  • Nucleocytoplasmic shuttling

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