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Items: 1 to 20 of 23

1.

Structural insights into the coupling of virion assembly and rotavirus replication.

Trask SD, McDonald SM, Patton JT.

Nat Rev Microbiol. 2012 Jan 23;10(3):165-77. doi: 10.1038/nrmicro2673. Review. Erratum in: Nat Rev Microbiol. 2014 Jan;12(1):70.

2.

Atomic model of an infectious rotavirus particle.

Settembre EC, Chen JZ, Dormitzer PR, Grigorieff N, Harrison SC.

EMBO J. 2011 Jan 19;30(2):408-16. doi: 10.1038/emboj.2010.322. Epub 2010 Dec 14.

3.

α-enolase autoantibodies cross-reactive to viral proteins in a mouse model of biliary atresia.

Lu BR, Brindley SM, Tucker RM, Lambert CL, Mack CL.

Gastroenterology. 2010 Nov;139(5):1753-61. doi: 10.1053/j.gastro.2010.07.042. Epub 2010 Jul 23.

4.

An N-terminal domain of adenovirus protein VI fragments membranes by inducing positive membrane curvature.

Maier O, Galan DL, Wodrich H, Wiethoff CM.

Virology. 2010 Jun 20;402(1):11-9. doi: 10.1016/j.virol.2010.03.043. Epub 2010 Apr 20.

5.

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

Guglielmi KM, McDonald SM, Patton JT.

J Biol Chem. 2010 Jun 11;285(24):18123-8. doi: 10.1074/jbc.R110.117671. Epub 2010 Mar 29.

6.

X-ray crystal structure of the rotavirus inner capsid particle at 3.8 A resolution.

McClain B, Settembre E, Temple BR, Bellamy AR, Harrison SC.

J Mol Biol. 2010 Mar 26;397(2):587-99. doi: 10.1016/j.jmb.2010.01.055. Epub 2010 Feb 1.

7.

A rotavirus spike protein conformational intermediate binds lipid bilayers.

Trask SD, Kim IS, Harrison SC, Dormitzer PR.

J Virol. 2010 Feb;84(4):1764-70. doi: 10.1128/JVI.01682-09. Epub 2009 Dec 9.

8.

Rotavirus architecture at subnanometer resolution.

Li Z, Baker ML, Jiang W, Estes MK, Prasad BV.

J Virol. 2009 Feb;83(4):1754-66. doi: 10.1128/JVI.01855-08. Epub 2008 Nov 26.

9.

Rotavirus spike protein VP4 binds to and remodels actin bundles of the epithelial brush border into actin bodies.

Gardet A, Breton M, Fontanges P, Trugnan G, Chwetzoff S.

J Virol. 2006 Apr;80(8):3947-56.

10.

Alternative intermolecular contacts underlie the rotavirus VP5* two- to three-fold rearrangement.

Yoder JD, Dormitzer PR.

EMBO J. 2006 Apr 5;25(7):1559-68. Epub 2006 Mar 2.

11.

pH-induced conformational change of the rotavirus VP4 spike: implications for cell entry and antibody neutralization.

Pesavento JB, Crawford SE, Roberts E, Estes MK, Prasad BV.

J Virol. 2005 Jul;79(13):8572-80.

12.
13.

VP7 mediates the interaction of rotaviruses with integrin alphavbeta3 through a novel integrin-binding site.

Zárate S, Romero P, Espinosa R, Arias CF, López S.

J Virol. 2004 Oct;78(20):10839-47.

14.

Structural rearrangements in the membrane penetration protein of a non-enveloped virus.

Dormitzer PR, Nason EB, Prasad BV, Harrison SC.

Nature. 2004 Aug 26;430(7003):1053-8.

15.

Nodavirus coat protein imposes dodecahedral RNA structure independent of nucleotide sequence and length.

Tihova M, Dryden KA, Le TV, Harvey SC, Johnson JE, Yeager M, Schneemann A.

J Virol. 2004 Mar;78(6):2897-905.

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18.

Fine mapping of sequential neutralization epitopes on the subunit protein VP8 of human rotavirus.

Kovacs-Nolan J, Yoo D, Mine Y.

Biochem J. 2003 Nov 15;376(Pt 1):269-75.

19.

Interaction of rotaviruses with Hsc70 during cell entry is mediated by VP5.

Zárate S, Cuadras MA, Espinosa R, Romero P, Juárez KO, Camacho-Nuez M, Arias CF, López S.

J Virol. 2003 Jul;77(13):7254-60.

20.
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