Literature DB >> 21522191

Subversion of the actin cytoskeleton during viral infection.

Matthew P Taylor1, Orkide O Koyuncu, Lynn W Enquist.   

Abstract

Viral infection converts the normal functions of a cell to optimize viral replication and virion production. One striking observation of this conversion is the reconfiguration and reorganization of cellular actin, affecting every stage of the viral life cycle, from entry through assembly to egress. The extent and degree of cytoskeletal reorganization varies among different viral infections, suggesting the evolution of myriad viral strategies. In this Review, we describe how the interaction of viral proteins with the cell modulates the structure and function of the actin cytoskeleton to initiate, sustain and spread infections. The molecular biology of such interactions continues to engage virologists in their quest to understand viral replication and informs cell biologists about the role of the cytoskeleton in the uninfected cell.

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Year:  2011        PMID: 21522191      PMCID: PMC3229036          DOI: 10.1038/nrmicro2574

Source DB:  PubMed          Journal:  Nat Rev Microbiol        ISSN: 1740-1526            Impact factor:   60.633


  161 in total

1.  Extraction of actin- and myosin-like proteins from liver mitochondria.

Authors:  T OHNISHI; T OHNISHI
Journal:  J Biochem       Date:  1962-09       Impact factor: 3.387

2.  Properties and behavior of hamster embryo cells transformed by human adenovirus type 5.

Authors:  R D Goldman; C Chang; J F Williams
Journal:  Cold Spring Harb Symp Quant Biol       Date:  1975

3.  Expression of rotavirus NSP4 alters the actin network organization through the actin remodeling protein cofilin.

Authors:  Zuzana Berkova; Sue E Crawford; Sarah E Blutt; Andrew P Morris; Mary K Estes
Journal:  J Virol       Date:  2007-01-17       Impact factor: 5.103

Review 4.  Actin and Rho GTPases in herpesvirus biology.

Authors:  Herman W Favoreel; L W Enquist; Becket Feierbach
Journal:  Trends Microbiol       Date:  2007-08-30       Impact factor: 17.079

5.  Viral infectivity and intracellular distribution of matrix (M) protein of canine distemper virus are affected by actin filaments.

Authors:  F Klauschies; T Gützkow; S Hinkelmann; V von Messling; B Vaske; G Herrler; L Haas
Journal:  Arch Virol       Date:  2010-07-13       Impact factor: 2.574

6.  Identification and functional evaluation of cellular and viral factors involved in the alteration of nuclear architecture during herpes simplex virus 1 infection.

Authors:  Martha Simpson-Holley; Robert C Colgrove; Grzegorz Nalepa; J Wade Harper; David M Knipe
Journal:  J Virol       Date:  2005-10       Impact factor: 5.103

7.  Interaction of assembled progeny pox viruses with the cellular cytoskeleton.

Authors:  G Hiller; K Weber; L Schneider; C Parajsz; C Jungwirth
Journal:  Virology       Date:  1979-10-15       Impact factor: 3.616

8.  Cell target genes of Epstein-Barr virus transcription factor EBNA-2: induction of the p55alpha regulatory subunit of PI3-kinase and its role in survival of EREB2.5 cells.

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Journal:  J Gen Virol       Date:  2006-10       Impact factor: 3.891

9.  M protein (M1) of influenza virus: antigenic analysis and intracellular localization with monoclonal antibodies.

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Journal:  PLoS One       Date:  2009-03-26       Impact factor: 3.240
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  165 in total

1.  Direct interaction of baculovirus capsid proteins VP39 and EXON0 with kinesin-1 in insect cells determined by fluorescence resonance energy transfer-fluorescence lifetime imaging microscopy.

Authors:  John O Danquah; Stanley Botchway; Ananya Jeshtadi; Linda A King
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Review 2.  Nuclear actin and myosins: life without filaments.

Authors:  Primal de Lanerolle; Leonid Serebryannyy
Journal:  Nat Cell Biol       Date:  2011-11-02       Impact factor: 28.824

3.  Inhibitory Effect of PIK-24 on Respiratory Syncytial Virus Entry by Blocking Phosphatidylinositol-3 Kinase Signaling.

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Journal:  Antimicrob Agents Chemother       Date:  2020-09-21       Impact factor: 5.191

4.  Loss of cytoskeletal transport during egress critically attenuates ectromelia virus infection in vivo.

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Journal:  J Virol       Date:  2012-04-24       Impact factor: 5.103

Review 5.  Exploitation of Cytoskeletal Networks during Early Viral Infection.

Authors:  Derek Walsh; Mojgan H Naghavi
Journal:  Trends Microbiol       Date:  2018-07-20       Impact factor: 17.079

6.  A prophage-encoded actin-like protein required for efficient viral DNA replication in bacteria.

Authors:  Catriona Donovan; Antonia Heyer; Eugen Pfeifer; Tino Polen; Anja Wittmann; Reinhard Krämer; Julia Frunzke; Marc Bramkamp
Journal:  Nucleic Acids Res       Date:  2015-04-27       Impact factor: 16.971

7.  Differential Effects of Strategies to Improve the Transduction Efficiency of Lentiviral Vector that Conveys an Anti-HIV Protein, Nullbasic, in Human T Cells.

Authors:  Lina Rustanti; Hongping Jin; Dongsheng Li; Mary Lor; Haran Sivakumaran; David Harrich
Journal:  Virol Sin       Date:  2018-03-14       Impact factor: 4.327

Review 8.  Molecular mechanisms driving respiratory syncytial virus assembly.

Authors:  Fyza Y Shaikh; James E Crowe
Journal:  Future Microbiol       Date:  2013-01       Impact factor: 3.165

9.  Interleukin-27 treated human macrophages induce the expression of novel microRNAs which may mediate anti-viral properties.

Authors:  Sanjay Swaminathan; Xiaojun Hu; Xin Zheng; Yuliya Kriga; Jyoti Shetty; Yongmei Zhao; Robert Stephens; Bao Tran; Michael W Baseler; Jun Yang; Richard A Lempicki; Dawei Huang; H Clifford Lane; Tomozumi Imamichi
Journal:  Biochem Biophys Res Commun       Date:  2013-03-25       Impact factor: 3.575

10.  Orsay δ Protein Is Required for Nonlytic Viral Egress.

Authors:  Wang Yuan; Ying Zhou; Yanlin Fan; Yizhi J Tao; Weiwei Zhong
Journal:  J Virol       Date:  2018-06-29       Impact factor: 5.103
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