Literature DB >> 19914820

The ins and outs of four-tunneled Reoviridae RNA-dependent RNA polymerases.

Sarah M McDonald1, Yizhi J Tao, John T Patton.   

Abstract

RNA-dependent RNA polymerases (RdRps) of the segmented double-stranded (ds) RNA viruses of the Reoviridae family exhibit distinguishing structural elements, enabling the enzymes to function within the confines of a proteinaceous core particle. These globular, cage-like polymerases are traversed by four well-defined tunnels, which not only allow template RNAs, nucleotides, and divalent cations to access the interior catalytic site, but also provide two distinct exit conduits for RNA templates and products--one leading out of the core and the other back inside the core. Although Reoviridae RdRps are intrinsically capable of binding template, their catalytic activities are tightly regulated by interactions with core shell proteins. This intra-particle mechanism of RNA synthesis coordinates genome packaging with replication during the infectious cycle.

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Year:  2009        PMID: 19914820      PMCID: PMC2798595          DOI: 10.1016/j.sbi.2009.10.007

Source DB:  PubMed          Journal:  Curr Opin Struct Biol        ISSN: 0959-440X            Impact factor:   6.809


  19 in total

1.  RNA synthesis in a cage--structural studies of reovirus polymerase lambda3.

Authors:  Yizhi Tao; Diane L Farsetta; Max L Nibert; Stephen C Harrison
Journal:  Cell       Date:  2002-11-27       Impact factor: 41.582

2.  Reovirus polymerase lambda 3 localized by cryo-electron microscopy of virions at a resolution of 7.6 A.

Authors:  Xing Zhang; Stephen B Walker; Paul R Chipman; Max L Nibert; Timothy S Baker
Journal:  Nat Struct Biol       Date:  2003-11-09

3.  Shared and group-specific features of the rotavirus RNA polymerase reveal potential determinants of gene reassortment restriction.

Authors:  Sarah M McDonald; Daniel Aguayo; Fernando D Gonzalez-Nilo; John T Patton
Journal:  J Virol       Date:  2009-04-08       Impact factor: 5.103

Review 4.  Analysis of RNA-dependent RNA polymerase structure and function as guided by known polymerase structures and computer predictions of secondary structure.

Authors:  E K O'Reilly; C C Kao
Journal:  Virology       Date:  1998-12-20       Impact factor: 3.616

5.  Structure of the RNA-dependent RNA polymerase of poliovirus.

Authors:  J L Hansen; A M Long; S C Schultz
Journal:  Structure       Date:  1997-08-15       Impact factor: 5.006

6.  Crystal structure of the RNA-dependent RNA polymerase of hepatitis C virus.

Authors:  H Ago; T Adachi; A Yoshida; M Yamamoto; N Habuka; K Yatsunami; M Miyano
Journal:  Structure       Date:  1999-11-15       Impact factor: 5.006

7.  Rotavirus RNA polymerase requires the core shell protein to synthesize the double-stranded RNA genome.

Authors:  J T Patton; M T Jones; A N Kalbach; Y W He; J Xiaobo
Journal:  J Virol       Date:  1997-12       Impact factor: 5.103

8.  Structure of a covalently trapped catalytic complex of HIV-1 reverse transcriptase: implications for drug resistance.

Authors:  H Huang; R Chopra; G L Verdine; S C Harrison
Journal:  Science       Date:  1998-11-27       Impact factor: 47.728

9.  Reovirus protein lambda 3 is a poly(C)-dependent poly(G) polymerase.

Authors:  M C Starnes; W K Joklik
Journal:  Virology       Date:  1993-03       Impact factor: 3.616

10.  Purified recombinant bluetongue virus VP1 exhibits RNA replicase activity.

Authors:  Mark Boyce; Josa Wehrfritz; Rob Noad; Polly Roy
Journal:  J Virol       Date:  2004-04       Impact factor: 5.103
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  31 in total

1.  Mutational analysis of residues involved in nucleotide and divalent cation stabilization in the rotavirus RNA-dependent RNA polymerase catalytic pocket.

Authors:  Kristen M Ogden; Harish N Ramanathan; John T Patton
Journal:  Virology       Date:  2012-06-02       Impact factor: 3.616

2.  Architecture and regulation of negative-strand viral enzymatic machinery.

Authors:  Philip J Kranzusch; Sean P J Whelan
Journal:  RNA Biol       Date:  2012-07-01       Impact factor: 4.652

3.  Mechanism of intraparticle synthesis of the rotavirus double-stranded RNA genome.

Authors:  Kristen M Guglielmi; Sarah M McDonald; John T Patton
Journal:  J Biol Chem       Date:  2010-03-29       Impact factor: 5.157

4.  Residues of the rotavirus RNA-dependent RNA polymerase template entry tunnel that mediate RNA recognition and genome replication.

Authors:  Kristen M Ogden; Harish N Ramanathan; John T Patton
Journal:  J Virol       Date:  2010-12-08       Impact factor: 5.103

5.  In situ Structure of Rotavirus VP1 RNA-Dependent RNA Polymerase.

Authors:  Simon Jenni; Eric N Salgado; Tobias Herrmann; Zongli Li; Timothy Grant; Nikolaus Grigorieff; Stefano Trapani; Leandro F Estrozi; Stephen C Harrison
Journal:  J Mol Biol       Date:  2019-06-21       Impact factor: 5.469

6.  Molecular architecture of the vesicular stomatitis virus RNA polymerase.

Authors:  Amal A Rahmeh; Andreas D Schenk; Eric I Danek; Philip J Kranzusch; Bo Liang; Thomas Walz; Sean P J Whelan
Journal:  Proc Natl Acad Sci U S A       Date:  2010-11-01       Impact factor: 11.205

7.  Rotavirus VP2 core shell regions critical for viral polymerase activation.

Authors:  Sarah M McDonald; John T Patton
Journal:  J Virol       Date:  2011-01-19       Impact factor: 5.103

8.  A Temperature-Sensitive Lesion in the N-Terminal Domain of the Rotavirus Polymerase Affects Its Intracellular Localization and Enzymatic Activity.

Authors:  Allison O McKell; Leslie E W LaConte; Sarah M McDonald
Journal:  J Virol       Date:  2017-03-13       Impact factor: 5.103

9.  Group A Rotavirus VP1 Polymerase and VP2 Core Shell Proteins: Intergenotypic Sequence Variation and In Vitro Functional Compatibility.

Authors:  Courtney L Steger; Crystal E Boudreaux; Leslie E LaConte; James B Pease; Sarah M McDonald
Journal:  J Virol       Date:  2019-01-04       Impact factor: 5.103

10.  RNA virus replication complexes.

Authors:  Yizhi Jane Tao; Qiaozhen Ye
Journal:  PLoS Pathog       Date:  2010-07-22       Impact factor: 6.823
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