0022-5223 < 0022-538X < 0022-8710

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List of bibliographic references

Number of relevant bibliographic references: 166.
[0-20] [0 - 20][0 - 50][20-40]

Ident.	Authors (with country if any)	Title
001C63 (2007)	Corrin E. Mcbride [États-Unis] ; Jie Li ; Carolyn E. Machamer	The cytoplasmic tail of the severe acute respiratory syndrome coronavirus spike protein contains a novel endoplasmic reticulum retrieval signal that binds COPI and promotes interaction with membrane protein.
001C64 (2007)	Gijs A. Versteeg [Pays-Bas] ; Paula S. Van De Nes ; Peter J. Bredenbeek ; Willy J M. Spaan	The coronavirus spike protein induces endoplasmic reticulum stress and upregulation of intracellular chemokine mRNA concentrations.
001C69 (2007)	Scott R. Schaecher [États-Unis] ; Jason M. Mackenzie ; Andrew Pekosz	The ORF7b protein of severe acute respiratory syndrome coronavirus (SARS-CoV) is expressed in virus-infected cells and incorporated into SARS-CoV particles.
001C74 (2007)	Barry Rockx [États-Unis] ; Timothy Sheahan ; Eric Donaldson ; Jack Harkema ; Amy Sims ; Mark Heise ; Raymond Pickles ; Mark Cameron ; David Kelvin ; Ralph Baric	Synthetic reconstruction of zoonotic and early human severe acute respiratory syndrome coronavirus isolates that produce fatal disease in aged mice.
001C85 (2007)	Dong P. Han [États-Unis] ; Motashim Lohani ; Michael W. Cho	Specific asparagine-linked glycosylation sites are critical for DC-SIGN- and L-SIGN-mediated severe acute respiratory syndrome coronavirus entry.
001C89 (2007)	Chandra Tangudu [États-Unis] ; Heidi Olivares ; Jason Netland ; Stanley Perlman ; Thomas Gallagher	Severe acute respiratory syndrome coronavirus protein 6 accelerates murine coronavirus infections.
001C90 (2007)	Sarah A. Kopecky-Bromberg [États-Unis] ; Luis Martínez-Sobrido ; Matthew Frieman ; Ralph A. Baric ; Peter Palese	Severe acute respiratory syndrome coronavirus open reading frame (ORF) 3b, ORF 6, and nucleocapsid proteins function as interferon antagonists.
001C91 (2007)	Chien-Te K. Tseng [États-Unis] ; Cheng Huang ; Patrick Newman ; Nan Wang ; Krishna Narayanan ; Douglas M. Watts ; Shinji Makino ; Michelle M. Packard ; Sherif R. Zaki ; Teh-Sheng Chan ; Clarence J. Peters	Severe acute respiratory syndrome coronavirus infection of mice transgenic for the human Angiotensin-converting enzyme 2 virus receptor.
001C93 (2007)	Scott R. Schaecher [États-Unis] ; Erin Touchette ; Jill Schriewer ; R Mark Buller ; Andrew Pekosz	Severe acute respiratory syndrome coronavirus gene 7 products contribute to virus-induced apoptosis.
001C94 (2007)	Marc G. Wathelet [États-Unis] ; Melissa Orr ; Matthew B. Frieman ; Ralph S. Baric	Severe acute respiratory syndrome coronavirus evades antiviral signaling: role of nsp1 and rational design of an attenuated strain.
001C97 (2007)	Cheng Huang [États-Unis] ; C J Peters ; Shinji Makino	Severe acute respiratory syndrome coronavirus accessory protein 6 is a virion-associated protein and is released from 6 protein-expressing cells.
001C99 (2007)	Matthew Frieman [États-Unis] ; Boyd Yount ; Mark Heise ; Sarah A. Kopecky-Bromberg ; Peter Palese ; Ralph S. Baric	Severe acute respiratory syndrome coronavirus ORF6 antagonizes STAT1 function by sequestering nuclear import factors on the rough endoplasmic reticulum/Golgi membrane.
001D11 (2007)	Patricia Eifart [Allemagne] ; Kai Ludwig ; Christoph Böttcher ; Cornelis A M. De Haan ; Peter J M. Rottier ; Thomas Korte ; Andreas Herrmann	Role of endocytosis and low pH in murine hepatitis virus strain A59 cell entry.
001D12 (2007)	Anna H Y. Law [République populaire de Chine] ; Davy C W. Lee ; Benny K W. Cheung ; Howard C H. Yim ; Allan S Y. Lau	Role for nonstructural protein 1 of severe acute respiratory syndrome coronavirus in chemokine dysregulation.
001D13 (2007)	Kumar Singh Saikatendu [États-Unis] ; Jeremiah S. Joseph ; Vanitha Subramanian ; Benjamin W. Neuman ; Michael J. Buchmeier ; Raymond C. Stevens ; Peter Kuhn	Ribonucleocapsid formation of severe acute respiratory syndrome coronavirus through molecular action of the N-terminal domain of N protein.
001D29 (2007)	Zhongbin Chen [États-Unis] ; Yanhua Wang ; Kiira Ratia ; Andrew D. Mesecar ; Keith D. Wilkinson ; Susan C. Baker	Proteolytic processing and deubiquitinating activity of papain-like proteases of human coronavirus NL63.
001D44 (2007)	Noriyo Nagata [Japon] ; Naoko Iwata ; Hideki Hasegawa ; Shuetsu Fukushi ; Masaru Yokoyama ; Ayako Harashima ; Yuko Sato ; Masayuki Saijo ; Shigeru Morikawa ; Tetsutaro Sata	Participation of both host and virus factors in induction of severe acute respiratory syndrome (SARS) in F344 rats infected with SARS coronavirus.
001D50 (2007)	Pedro Serrano [États-Unis] ; Margaret A. Johnson ; Marcius S. Almeida ; Reto Horst ; Torsten Herrmann ; Jeremiah S. Joseph ; Benjamin W. Neuman ; Vanitha Subramanian ; Kumar S. Saikatendu ; Michael J. Buchmeier ; Raymond C. Stevens ; Peter Kuhn ; Kurt Wüthrich	Nuclear magnetic resonance structure of the N-terminal domain of nonstructural protein 3 from the severe acute respiratory syndrome coronavirus.
001D51 (2007)	Marcius S. Almeida [États-Unis] ; Margaret A. Johnson ; Torsten Herrmann ; Michael Geralt ; Kurt Wüthrich	Novel beta-barrel fold in the nuclear magnetic resonance structure of the replicase nonstructural protein 1 from the severe acute respiratory syndrome coronavirus.
001D54 (2007)	Shih-Cheng Chen [Pays-Bas] ; Erwin Van Den Born ; Sjoerd H E. Van Den Worm ; Cornelis W A. Pleij ; Eric J. Snijder ; René C L. Olsthoorn	New structure model for the packaging signal in the genome of group IIa coronaviruses.
001D56 (2007)	Li Liu [États-Unis] ; Qing Fang ; Fei Deng ; Hanzhong Wang ; Christopher E. Yi ; Lei Ba ; Wenjie Yu ; Richard D. Lin ; Taisheng Li ; Zhihong Hu ; David D. Ho ; Linqi Zhang ; Zhiwei Chen	Natural mutations in the receptor binding domain of spike glycoprotein determine the reactivity of cross-neutralization between palm civet coronavirus and severe acute respiratory syndrome coronavirus.

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