Literature DB >> 27288441

Structural features of influenza A virus panhandle RNA enabling the activation of RIG-I independently of 5'-triphosphate.

Mi-Kyung Lee1, Hee-Eun Kim2, Eun-Byeol Park3, Janghyun Lee4, Ki-Hun Kim4, Kyungeun Lim4, Seoyun Yum3, Young-Hoon Lee4, Suk-Jo Kang5, Joon-Hwa Lee6, Byong-Seok Choi7.   

Abstract

Retinoic acid-inducible gene I (RIG-I) recognizes specific molecular patterns of viral RNAs for inducing type I interferon. The C-terminal domain (CTD) of RIG-I binds to double-stranded RNA (dsRNA) with the 5'-triphosphate (5'-PPP), which induces a conformational change in RIG-I to an active form. It has been suggested that RIG-I detects infection of influenza A virus by recognizing the 5'-triphosphorylated panhandle structure of the viral RNA genome. Influenza panhandle RNA has a unique structure with a sharp helical bending. In spite of extensive studies of how viral RNAs activate RIG-I, whether the structural elements of the influenza panhandle RNA confer the ability to activate RIG-I signaling has been poorly explored. Here, we investigated the dynamics of the influenza panhandle RNA in complex with RIG-I CTD using NMR spectroscopy and showed that the bending structure of the panhandle RNA negates the requirement of a 5'-PPP moiety for RIG-I activation.
© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.

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Year:  2016        PMID: 27288441      PMCID: PMC5041458          DOI: 10.1093/nar/gkw525

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  32 in total

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Authors:  Yeonee Seol; Gary M Skinner; Koen Visscher
Journal:  Phys Rev Lett       Date:  2004-09-10       Impact factor: 9.161

2.  A structural basis for discriminating between self and nonself double-stranded RNAs in mammalian cells.

Authors:  Joao Trindade Marques; Thalie Devosse; Die Wang; Maryam Zamanian-Daryoush; Paul Serbinowski; Rune Hartmann; Takashi Fujita; Mark A Behlke; Bryan R G Williams
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3.  Nonself RNA-sensing mechanism of RIG-I helicase and activation of antiviral immune responses.

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Journal:  Mol Cell       Date:  2008-01-31       Impact factor: 17.970

4.  RIG-I detects viral genomic RNA during negative-strand RNA virus infection.

Authors:  Jan Rehwinkel; Choon Ping Tan; Delphine Goubau; Oliver Schulz; Andreas Pichlmair; Katja Bier; Nicole Robb; Frank Vreede; Wendy Barclay; Ervin Fodor; Caetano Reis e Sousa
Journal:  Cell       Date:  2010-02-05       Impact factor: 41.582

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Authors:  Hiroki Kato; Kiyohiro Takahasi; Takashi Fujita
Journal:  Immunol Rev       Date:  2011-09       Impact factor: 12.988

6.  NMRPipe: a multidimensional spectral processing system based on UNIX pipes.

Authors:  F Delaglio; S Grzesiek; G W Vuister; G Zhu; J Pfeifer; A Bax
Journal:  J Biomol NMR       Date:  1995-11       Impact factor: 2.835

7.  RIG-I-mediated antiviral responses to single-stranded RNA bearing 5'-phosphates.

Authors:  Andreas Pichlmair; Oliver Schulz; Choon Ping Tan; Tanja I Näslund; Peter Liljeström; Friedemann Weber; Caetano Reis e Sousa
Journal:  Science       Date:  2006-10-12       Impact factor: 47.728

8.  Recognition of 5' triphosphate by RIG-I helicase requires short blunt double-stranded RNA as contained in panhandle of negative-strand virus.

Authors:  Martin Schlee; Andreas Roth; Veit Hornung; Cristina Amparo Hagmann; Vera Wimmenauer; Winfried Barchet; Christoph Coch; Markus Janke; Aleksandra Mihailovic; Greg Wardle; Stefan Juranek; Hiroki Kato; Taro Kawai; Hendrik Poeck; Katherine A Fitzgerald; Osamu Takeuchi; Shizuo Akira; Thomas Tuschl; Eicke Latz; Janos Ludwig; Gunther Hartmann
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Review 10.  Cytosolic sensing of viruses.

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Journal:  Immunity       Date:  2013-05-23       Impact factor: 31.745
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  16 in total

1.  Structural and biophysical properties of RIG-I bound to dsRNA with G-U wobble base pairs.

Authors:  Ki-Hun Kim; Jihyun Hwang; Jin Hong Kim; Kyung-Pyo Son; Yejin Jang; Meehyein Kim; Suk-Jo Kang; Jie-Oh Lee; Jin Young Kang; Byong-Seok Choi
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2.  Intranasal Delivery of RIG-I Agonist Drives Pulmonary Myeloid Cell Activation in Mice.

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Review 3.  Know Your Enemy: Successful Bioinformatic Approaches to Predict Functional RNA Structures in Viral RNAs.

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Journal:  Front Microbiol       Date:  2018-01-04       Impact factor: 5.640

Review 4.  Structural and Functional Motifs in Influenza Virus RNAs.

Authors:  Damien Ferhadian; Maud Contrant; Anne Printz-Schweigert; Redmond P Smyth; Jean-Christophe Paillart; Roland Marquet
Journal:  Front Microbiol       Date:  2018-03-29       Impact factor: 5.640

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6.  RIG-I Detects Kaposi's Sarcoma-Associated Herpesvirus Transcripts in a RNA Polymerase III-Independent Manner.

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7.  In Vitro Characterization of the Innate Immune Pathways Engaged by Live and Inactivated Tick-Borne Encephalitis Virus.

Authors:  Aurora Signorazzi; Jeroen L A Pennings; Marilena P Etna; Malou Noya; Eliana M Coccia; Anke Huckriede
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8.  Dependence of RIG-I Nucleic Acid-Binding and ATP Hydrolysis on Activation of Type I Interferon Response.

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9.  Systematic editing of synthetic RIG-I ligands to produce effective antiviral and anti-tumor RNA immunotherapies.

Authors:  Janghyun Lee; Eun-Byeol Park; Jiyoun Min; Si-Eun Sung; Yejin Jang; Jin Soo Shin; Dongmin Chun; Ki-Hun Kim; Jihyun Hwang; Mi-Kyung Lee; Yun Young Go; Dohyeong Kwon; Meehyein Kim; Suk-Jo Kang; Byong-Seok Choi
Journal:  Nucleic Acids Res       Date:  2018-02-28       Impact factor: 16.971

10.  Influenza A virus NS1 optimises virus infectivity by enhancing genome packaging in a dsRNA-binding dependent manner.

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Journal:  Virol J       Date:  2020-07-16       Impact factor: 4.099
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