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Items: 1 to 20 of 266

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Genetic analysis of the SARS-coronavirus spike glycoprotein functional domains involved in cell-surface expression and cell-to-cell fusion.

Petit CM, Melancon JM, Chouljenko VN, Colgrove R, Farzan M, Knipe DM, Kousoulas KG.

Virology. 2005 Oct 25;341(2):215-30. Epub 2005 Aug 15.

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Aromatic amino acids in the juxtamembrane domain of severe acute respiratory syndrome coronavirus spike glycoprotein are important for receptor-dependent virus entry and cell-cell fusion.

Howard MW, Travanty EA, Jeffers SA, Smith MK, Wennier ST, Thackray LB, Holmes KV.

J Virol. 2008 Mar;82(6):2883-94. doi: 10.1128/JVI.01805-07. Epub 2008 Jan 16.

7.

A novel sorting signal for intracellular localization is present in the S protein of a porcine coronavirus but absent from severe acute respiratory syndrome-associated coronavirus.

Schwegmann-Wessels C, Al-Falah M, Escors D, Wang Z, Zimmer G, Deng H, Enjuanes L, Naim HY, Herrler G.

J Biol Chem. 2004 Oct 15;279(42):43661-6. Epub 2004 Aug 10.

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Synthesis and characterization of a native, oligomeric form of recombinant severe acute respiratory syndrome coronavirus spike glycoprotein.

Song HC, Seo MY, Stadler K, Yoo BJ, Choo QL, Coates SR, Uematsu Y, Harada T, Greer CE, Polo JM, Pileri P, Eickmann M, Rappuoli R, Abrignani S, Houghton M, Han JH.

J Virol. 2004 Oct;78(19):10328-35.

11.

Identification of a Golgi complex-targeting signal in the cytoplasmic tail of the severe acute respiratory syndrome coronavirus envelope protein.

Cohen JR, Lin LD, Machamer CE.

J Virol. 2011 Jun;85(12):5794-803. doi: 10.1128/JVI.00060-11. Epub 2011 Mar 30.

12.

Pathways of cross-species transmission of synthetically reconstructed zoonotic severe acute respiratory syndrome coronavirus.

Sheahan T, Rockx B, Donaldson E, Corti D, Baric R.

J Virol. 2008 Sep;82(17):8721-32. doi: 10.1128/JVI.00818-08. Epub 2008 Jun 25.

13.

Characterization of a highly conserved domain within the severe acute respiratory syndrome coronavirus spike protein S2 domain with characteristics of a viral fusion peptide.

Madu IG, Roth SL, Belouzard S, Whittaker GR.

J Virol. 2009 Aug;83(15):7411-21. doi: 10.1128/JVI.00079-09. Epub 2009 May 13.

14.

Antigenicity and receptor-binding ability of recombinant SARS coronavirus spike protein.

Ho TY, Wu SL, Cheng SE, Wei YC, Huang SP, Hsiang CY.

Biochem Biophys Res Commun. 2004 Jan 23;313(4):938-47.

PMID:
14706633
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Studies on membrane topology, N-glycosylation and functionality of SARS-CoV membrane protein.

Voss D, Pfefferle S, Drosten C, Stevermann L, Traggiai E, Lanzavecchia A, Becker S.

Virol J. 2009 Jun 18;6:79. doi: 10.1186/1743-422X-6-79.

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Identifying SARS-CoV membrane protein amino acid residues linked to virus-like particle assembly.

Tseng YT, Chang CH, Wang SM, Huang KJ, Wang CT.

PLoS One. 2013 May 20;8(5):e64013. doi: 10.1371/journal.pone.0064013. Print 2013.

18.

Palmitoylation of the cysteine-rich endodomain of the SARS-coronavirus spike glycoprotein is important for spike-mediated cell fusion.

Petit CM, Chouljenko VN, Iyer A, Colgrove R, Farzan M, Knipe DM, Kousoulas KG.

Virology. 2007 Apr 10;360(2):264-74. Epub 2006 Nov 28.

19.

Identification of two critical amino acid residues of the severe acute respiratory syndrome coronavirus spike protein for its variation in zoonotic tropism transition via a double substitution strategy.

Qu XX, Hao P, Song XJ, Jiang SM, Liu YX, Wang PG, Rao X, Song HD, Wang SY, Zuo Y, Zheng AH, Luo M, Wang HL, Deng F, Wang HZ, Hu ZH, Ding MX, Zhao GP, Deng HK.

J Biol Chem. 2005 Aug 19;280(33):29588-95. Epub 2005 Jun 24.

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