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Items: 1 to 20 of 529

1.
2.

Cytoplasmic Motifs in the Nipah Virus Fusion Protein Modulate Virus Particle Assembly and Egress.

Johnston GP, Contreras EM, Dabundo J, Henderson BA, Matz KM, Ortega V, Ramirez A, Park A, Aguilar HC.

J Virol. 2017 Apr 28;91(10). pii: e02150-16. doi: 10.1128/JVI.02150-16. Print 2017 May 15.

PMID:
28250132
3.

The YPLGVG sequence of the Nipah virus matrix protein is required for budding.

Patch JR, Han Z, McCarthy SE, Yan L, Wang LF, Harty RN, Broder CC.

Virol J. 2008 Nov 10;5:137. doi: 10.1186/1743-422X-5-137.

4.

Efficient reverse genetics reveals genetic determinants of budding and fusogenic differences between Nipah and Hendra viruses and enables real-time monitoring of viral spread in small animal models of henipavirus infection.

Yun T, Park A, Hill TE, Pernet O, Beaty SM, Juelich TL, Smith JK, Zhang L, Wang YE, Vigant F, Gao J, Wu P, Lee B, Freiberg AN.

J Virol. 2015 Jan 15;89(2):1242-53. doi: 10.1128/JVI.02583-14. Epub 2014 Nov 12.

5.

Ubiquitin-regulated nuclear-cytoplasmic trafficking of the Nipah virus matrix protein is important for viral budding.

Wang YE, Park A, Lake M, Pentecost M, Torres B, Yun TE, Wolf MC, Holbrook MR, Freiberg AN, Lee B.

PLoS Pathog. 2010 Nov 11;6(11):e1001186. doi: 10.1371/journal.ppat.1001186.

6.

Receptor binding, fusion inhibition, and induction of cross-reactive neutralizing antibodies by a soluble G glycoprotein of Hendra virus.

Bossart KN, Crameri G, Dimitrov AS, Mungall BA, Feng YR, Patch JR, Choudhary A, Wang LF, Eaton BT, Broder CC.

J Virol. 2005 Jun;79(11):6690-702.

8.

Inhibition of henipavirus infection by Nipah virus attachment glycoprotein occurs without cell-surface downregulation of ephrin-B2 or ephrin-B3.

Sawatsky B, Grolla A, Kuzenko N, Weingartl H, Czub M.

J Gen Virol. 2007 Feb;88(Pt 2):582-91.

PMID:
17251577
9.

Vacuolar protein sorting pathway contributes to the release of Marburg virus.

Kolesnikova L, Strecker T, Morita E, Zielecki F, Mittler E, Crump C, Becker S.

J Virol. 2009 Mar;83(5):2327-37. doi: 10.1128/JVI.02184-08. Epub 2008 Dec 17.

10.

[Generation of recombinant vaccinia virus expressing attachment glycoprotein of Nipah virus].

Wang XJ, Wang OH, Ge JY, Hu S, Bu ZG.

Wei Sheng Wu Xue Bao. 2006 Aug;46(4):644-8. Chinese.

PMID:
17037071
11.

Nipah Virus Matrix Protein Influences Fusogenicity and Is Essential for Particle Infectivity and Stability.

Dietzel E, Kolesnikova L, Sawatsky B, Heiner A, Weis M, Kobinger GP, Becker S, von Messling V, Maisner A.

J Virol. 2015 Dec 16;90(5):2514-22. doi: 10.1128/JVI.02920-15.

12.

Mutations in the Transmembrane Domain and Cytoplasmic Tail of Hendra Virus Fusion Protein Disrupt Virus-Like-Particle Assembly.

Cifuentes-Muñoz N, Sun W, Ray G, Schmitt PT, Webb S, Gibson K, Dutch RE, Schmitt AP.

J Virol. 2017 Jun 26;91(14). pii: e00152-17. doi: 10.1128/JVI.00152-17. Print 2017 Jul 15.

PMID:
28468881
14.

Requirements for budding of paramyxovirus simian virus 5 virus-like particles.

Schmitt AP, Leser GP, Waning DL, Lamb RA.

J Virol. 2002 Apr;76(8):3952-64.

15.

Mumps virus matrix, fusion, and nucleocapsid proteins cooperate for efficient production of virus-like particles.

Li M, Schmitt PT, Li Z, McCrory TS, He B, Schmitt AP.

J Virol. 2009 Jul;83(14):7261-72. doi: 10.1128/JVI.00421-09. Epub 2009 May 13.

16.

Measles virus nucleocapsid transport to the plasma membrane requires stable expression and surface accumulation of the viral matrix protein.

Runkler N, Pohl C, Schneider-Schaulies S, Klenk HD, Maisner A.

Cell Microbiol. 2007 May;9(5):1203-14. Epub 2007 Jan 9.

PMID:
17217427
17.

Inhibition of Henipavirus infection by RNA interference.

Mungall BA, Schopman NC, Lambeth LS, Doran TJ.

Antiviral Res. 2008 Dec;80(3):324-31. doi: 10.1016/j.antiviral.2008.07.004. Epub 2008 Aug 5.

PMID:
18687361
20.

[Study of fusion protein and attachment glycoprotein of Nipah virus expressed in recombinant baculovirus].

Wang XJ, Hu S, Ge JY, Wang QH, Qin LT, Bu ZG.

Sheng Wu Gong Cheng Xue Bao. 2006 May;22(3):418-24. Chinese.

PMID:
16755921

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