Yue Huang, Zhi-yong Yang, W. Kong, G. Nabel (2004)
Generation of Synthetic Severe Acute Respiratory Syndrome Coronavirus Pseudoparticles: Implications for Assembly and Vaccine ProductionJournal of Virology, 78
R. Rowland, V. Chauhan, Ying Fang, A. Pekosz, M. Kerrigan, M. Burton (2005)
Intracellular Localization of the Severe Acute Respiratory Syndrome Coronavirus Nucleocapsid Protein: Absence of Nucleolar Accumulation during Infection and after Expression as a Recombinant Protein in Vero CellsJournal of Virology, 79
Jianping Guo, M. Petric, W. Campbell, P. Mcgeer (2004)
SARS corona virus peptides recognized by antibodies in the sera of convalescent casesVirology, 324
C. Haan, H. Vennema, P. Rottier (2000)
Assembly of the Coronavirus Envelope: Homotypic Interactions between the M ProteinsJournal of Virology, 74
R. Paterson, R. Lamb (1993)
The molecular biology of influenza viruses and paramyxoviruses
E. Qin, Huiying Shi, L. Tang, Cui’e Wang, Guo-hui Chang, Z. Ding, K. Zhao, Jian Wang, Ze Chen, Man Yu, B. Si, Jianyuan Liu, Dong-lai Wu, Xiaojie Cheng, Bao’an Yang, Wenming Peng, Q. Meng, Bohua Liu, Weiguo Han, Xunnan Yin, Hong-yuan Duan, Dawei Zhan, Long Tian, Shuangli Li, Jinsong Wu, Gang Tan, Yi Li, Yuchuan Li, Yonggang Liu, Hong Liu, Fushuang Lv, Yu Zhang, X. Kong, B. Fan, T. Jiang, S. Xu, Xiaomei Wang, Changwen Li, Xiaohong Wu, Yongqiang Deng, Min Zhao, Qingyu Zhu (2005)
Immunogenicity and protective efficacy in monkeys of purified inactivated Vero-cell SARS vaccineVaccine, 24
L. Holsinger, Robert Alams (1991)
Influenza virus M2 integral membrane protein is a homotetramer stabilized by formation of disulfide bonds.Virology, 183 1
B. Fielding, Y. Tan, Shen Shuo, Timothy Tan, E. Ooi, S. Lim, W. Hong, P. Goh (2004)
Characterization of a Unique Group-Specific Protein (U122) of the Severe Acute Respiratory Syndrome CoronavirusJournal of Virology, 78
E. Manders, F. Verbeek, J. Aten (1993)
Measurement of co‐localization of objects in dual‐colour confocal imagesJournal of Microscopy, 169
Byron Martina, B. Haagmans, T. Kuiken, R. Fouchier, G. Rimmelzwaan, G. Amerongen, J. Peiris, W. Lim, A. Osterhaus (2003)
SARS virus infection of cats and ferretsNature, 425
C. Astell, R. Holt, Steven Jones, M. Marra (2005)
Genome organization and structural aspects of the SARS-related virusCoronaviruses with Special Emphasis on First Insights Concerning SARS
A. Schmidt, M. Wolff, O. Weber (2005)
Coronaviruses with special emphasis on first insights concerning SARS.
Volker Thiel, S. Siddell (1994)
Internal ribosome entry in the coding region of murine hepatitis virus mRNA 5.The Journal of general virology, 75 ( Pt 11)
K. Lim, H. Xu, D. Liu (2001)
Physical interaction between the membrane (M) and envelope (E) proteins of the coronavirus avian infectious bronchitis virus (IBV).Advances in experimental medicine and biology, 494
B. Yount, Rhonda Roberts, A. Sims, Damon Deming, M. Frieman, Jennifer Sparks, M. Denison, N. Davis, R. Baric (2005)
Severe Acute Respiratory Syndrome Coronavirus Group-Specific Open Reading Frames Encode Nonessential Functions for Replication in Cell Cultures and MiceJournal of Virology, 79
A. Pekosz, R. Lamb (1998)
Influenza C virus CM2 integral membrane glycoprotein is produced from a polypeptide precursor by cleavage of an internal signal sequence.Proceedings of the National Academy of Sciences of the United States of America, 95 22
I. Brierley, F. Ramos (2005)
Programmed ribosomal frameshifting in HIV-1 and the SARS–CoVVirus Research, 119
C. Qin, Jianwei Wang, Q. Wei, M. She, W. Marasco, Hong Jiang, Xinming Tu, Hua Zhu, L. Ren, Hong Gao, Li Guo, Lan Huang, Ren-quan Yang, Z. Cong, Lan Guo, Yan-bin Wang, Yali Liu, Yi-lin Sun, S. Duan, J. Qu, Liang-biao Chen, W. Tong, L. Ruan, Pei-mao Liu, Hua Zhang, Jianmin Zhang, Huiyuan Zhang, De-Pei Liu, Qian Liu, T. Hong, Wei He (2005)
An animal model of SARS produced by infection of Macaca mulatta with SARS coronavirusThe Journal of Pathology, 206
Wendong Li, Zhengli Shi, Meng Yu, Wuze Ren, Craig Smith, J. Epstein, Hanzhong Wang, G. Crameri, Zhìhóng Hú, Huajun Zhang, Jianhong Zhang, Jennifer McEachern, H. Field, P. Daszak, B. Eaton, Shuyi Zhang, Lin‐Fa Wang (2005)
Bats Are Natural Reservoirs of SARS-Like CoronavirusesScience, 310
Dong-lai Wu, C. Tu, C. Xin, H. Xuan, Q. Meng, Yonggang Liu, Yedong Yu, Y. Guan, Yu Jiang, Xunnan Yin, G. Crameri, Muping Wang, Changwen Li, Shengwang Liu, M. Liao, Li Feng, Hua Xiang, Jinfu Sun, Jinding Chen, Yanwei Sun, S. Gu, N. Liu, Dexia Fu, B. Eaton, Lin‐Fa Wang, X. Kong (2005)
Civets Are Equally Susceptible to Experimental Infection by Two Different Severe Acute Respiratory Syndrome Coronavirus IsolatesJournal of Virology, 79
R. Casais, Marc Davies, D. Cavanagh, P. Britton (2005)
Gene 5 of the Avian Coronavirus Infectious Bronchitis Virus Is Not Essential for ReplicationJournal of Virology, 79
C. Nelson, A. Pekosz, C. Lee, M. Diamond, D. Fremont (2005)
Structure and Intracellular Targeting of the SARS-Coronavirus Orf7a Accessory ProteinStructure (London, England : 1993), 13
P. Rota, M. Oberste, S. Monroe, W. Nix, R. Campagnoli, J. Icenogle, Silvia Peñaranda, B. Bankamp, K. Maher, Min-Hsin Chen, Suxiong Tong, A. Tamin, Luis Lowe, M. Frace, J. Derisi, Qi Chen, David Wang, D. Erdman, T. Peret, C. Burns, T. Ksiazek, P. Rollin, A. Sanchez, Stephanie Liffick, B. Holloway, J. Limor, K. McCaustland, M. Olsen-Rasmussen, R. Fouchier, S. Günther, A. Osterhaus, C. Drosten, M. Pallansch, L. Anderson, W. Bellini (2003)
Characterization of a Novel Coronavirus Associated with Severe Acute Respiratory SyndromeScience, 300
W. Hwang, Y. Ryu, Jong Park, E. Park, J. Koo, S. Kang (2004)
Molecular evolution of the SARS coronavirus during the course of the SARS epidemic in China.Science, 303 5664
M. Takeda, A. Pekosz, Kevin Shuck, L. Pinto, R. Lamb (2002)
Influenza A Virus M2 Ion Channel Activity Is Essential for Efficient Replication in Tissue CultureJournal of Virology, 76
N. Ito, E. Mossel, Krishna Narayanan, V. Popov, Cheng Huang, Taisuke Inoue, C. Peters, S. Makino (2005)
Severe Acute Respiratory Syndrome Coronavirus 3a Protein Is a Viral Structural ProteinJournal of Virology, 79
E. Corse, C. Machamer (2000)
Infectious Bronchitis Virus E Protein Is Targeted to the Golgi Complex and Directs Release of Virus-Like ParticlesJournal of Virology, 74
Rong Zeng, Rui-Fu Yang, M. Shi, M. Jiang, Youhua Xie, Hongqiang Ruan, Xiao-Sheng Jiang, Lv Shi, Hu Zhou, Lei Zhang, Xiaodong Wu, Ying Lin, Yongyong Ji, Lei Xiong, Yang Jin, E. Dai, Xiao-yi Wang, Bin-Ying Si, Jin Wang, Hong-Xia Wang, Cui-e Wang, Y. Gan, Yu-chuan Li, Ju Cao, J. Zuo, Shi-Fang Shan, En Xie, Song-hua Chen, Zhitao Jiang, Xi Zhang, Y. Wang, G. Pei, Bing Sun, Jia-Rui Wu (2004)
Characterization of the 3a Protein of SARS-associated Coronavirus in Infected Vero E6 Cells and SARS Patients☆Journal of Molecular Biology, 341
Y. Tan, E. Teng, S. Shen, Timothy Tan, P. Goh, B. Fielding, E. Ooi, H. Tan, S. Lim, W. Hong (2004)
A Novel Severe Acute Respiratory Syndrome Coronavirus Protein, U274, Is Transported to the Cell Surface and Undergoes EndocytosisJournal of Virology, 78
W. Rodgers (2002)
Making membranes green: construction and characterization of GFP-fusion proteins targeted to discrete plasma membrane domains.BioTechniques, 32 5
J. Peiris, S. Lai, L. Poon, Y. Guan, L. Yam, W. Lim, J. Nicholls, W. Yee, WW Yan, Mt Cheung, V. Cheng, K. Chan, D. Tsang, R. Yung, T. Ng, K. Yuen (2003)
Coronavirus as a possible cause of severe acute respiratory syndromeLancet (London, England), 361
K. Subbarao, A. Roberts (2006)
Is there an ideal animal model for SARS?Trends in Microbiology, 14
S. Senanayake, D. Brian (1997)
Bovine coronavirus I protein synthesis follows ribosomal scanning on the bicistronic N mRNAVirus Research, 48
Ying-Yu Chen, Bao Shuang, Ya-xia Tan, Min-jie Meng, Pu Han, Xiao-ning Mo, Q. Song, X. Qiu, Xin Luo, Qi-ni Gan, Xin Zhang, Ying Zheng, Shunai Liu, Xiao-ning Wang, N. Zhong, D. Ma (2005)
The protein X4 of severe acute respiratory syndrome-associated coronavirus is expressed on both virus-infected cells and lung tissue of severe acute respiratory syndrome patients and inhibits growth of Balb/c 3T3 cell line.Chinese medical journal, 118 4
Krishna Narayanan, A. Maeda, J. Maeda, S. Makino (2000)
Characterization of the Coronavirus M Protein and Nucleocapsid Interaction in Infected CellsJournal of Virology, 74
M. Kozak (1987)
At least six nucleotides preceding the AUG initiator codon enhance translation in mammalian cells.Journal of molecular biology, 196 4
S. Shen, P. Lin, Y. Chao, Aihua Zhang, Xiaoming Yang, S. Lim, W. Hong, Y. Tan (2005)
The severe acute respiratory syndrome coronavirus 3a is a novel structural proteinBiochemical and Biophysical Research Communications, 330
T. Rowe, G. Gao, R. Hogan, R. Crystal, T. Voss, R. Grant, Peter Bell, G. Kobinger, N. Wivel, James Wilson (2004)
Macaque Model for Severe Acute Respiratory SyndromeJournal of Virology, 78
Ingrid Jordens, M. Marsman, C. Kuijl, J. Neefjes (2005)
Rab Proteins, Connecting Transport and Vesicle FusionTraffic, 6
J. McAuliffe, Leatrice Vogel, A. Roberts, G. Fahle, S. Fischer, W. Shieh, E. Butler, S. Zaki, M. Claire, B. Murphy, K. Subbarao (2004)
Replication of SARS coronavirus administered into the respiratory tract of African Green, rhesus and cynomolgus monkeysVirology, 330
S. Senanayake, Martin Hofmann, J. Maki, D. Brian (1992)
The nucleocapsid protein gene of bovine coronavirus is bicistronicJournal of Virology, 66
J. Ortego, I. Sola, F. Almazán, Juan Ceriani, C. Riquelme, M. Balasch, J. Plana, L. Enjuanes (2003)
Transmissible gastroenteritis coronavirus gene 7 is not essential but influences in vivo virus replication and virulenceVirology, 308
M. McCown, M. Diamond, A. Pekosz (2003)
The utility of siRNA transcripts produced by RNA polymerase i in down regulating viral gene expression and replication of negative- and positive-strand RNA viruses.Virology, 313 2
V. Thiel, Konstantin Ivanov, A. Putics, Tobias Hertzig, B. Schelle, S. Bayer, B. Weissbrich, E. Snijder, H. Rabenau, H. Doerr, A. Gorbalenya, J. Ziebuhr (2003)
Mechanisms and enzymes involved in SARS coronavirus genome expression.The Journal of general virology, 84 Pt 9
S. Lau, P. Woo, K. Li, Yi Huang, H. Tsoi, Beatrice Wong, Samson Wong, S. Leung, Kwok-Hung Chan, K. Yuen (2005)
Severe acute respiratory syndrome coronavirus-like virus in Chinese horseshoe bats.Proceedings of the National Academy of Sciences of the United States of America, 102 39
K. Chung, G. Nybakken, Bruce Thompson, Michael Engle, Anantha Marri, D. Fremont, M. Diamond (2006)
Antibodies against West Nile Virus Nonstructural Protein NS1 Prevent Lethal Infection through Fc γ Receptor-Dependent and -Independent MechanismsJournal of Virology, 80
Y. Tan, B. Fielding, P. Goh, S. Shen, Timothy Tan, S. Lim, W. Hong (2004)
Overexpression of 7a, a Protein Specifically Encoded by the Severe Acute Respiratory Syndrome Coronavirus, Induces Apoptosis via a Caspase-Dependent PathwayJournal of Virology, 78
J. Macdonald, J. Tonry, R. Hall, B. Williams, G. Palacios, Mundrigi Ashok, O. Jabado, D. Clark, R. Tesh, T. Briese, W. Lipkin (2005)
NS1 Protein Secretion during the Acute Phase of West Nile Virus InfectionJournal of Virology, 79
J. Lawler, T. Endy, L. Hensley, A. Garrison, Elizabeth Fritz, M. Lesar, R. Baric, D. Kulesh, D. Norwood, L. Wasieloski, M. Ulrich, T. Slezak, E. Vitalis, J. Huggins, P. Jahrling, J. Paragas (2006)
Cynomolgus Macaque as an Animal Model for Severe Acute Respiratory SyndromePLoS Medicine, 3
A. Sims, R. Baric, B. Yount, Susan Burkett, P. Collins, R. Pickles (2005)
Severe Acute Respiratory Syndrome Coronavirus Infection of Human Ciliated Airway Epithelia: Role of Ciliated Cells in Viral Spread in the Conducting Airways of the LungsJournal of Virology, 79
M. Stein, Jianbo Dong, A. Wandinger-Ness (2003)
Rab proteins and endocytic trafficking: potential targets for therapeutic intervention.Advanced drug delivery reviews, 55 11
T. Ksiazek, D. Erdman, C. Goldsmith, S. Zaki, T. Peret, S. Emery, S. Tong, C. Urbani, J. Comer, W. Lim, P. Rollin, S. Dowell, A. Ling, C. Humphrey, W. Shieh, J. Guarner, C. Paddock, P. Rota, B. Fields, J. Derisi, J. Yang, N. Cox, J. Hughes, J. Leduc, W. Bellini, L. Anderson (2003)
A novel coronavirus associated with severe acute respiratory syndrome.The New England journal of medicine, 348 20
(2006)
Reference deleted . 74 . Reference deleted
Cheng Huang, N. Ito, C. Tseng, S. Makino (2006)
Severe Acute Respiratory Syndrome Coronavirus 7a Accessory Protein Is a Viral Structural ProteinJournal of Virology, 80
T. Sakaguchi, G. Leser, R. Lamb (1996)
The ion channel activity of the influenza virus M2 protein affects transport through the Golgi apparatusThe Journal of Cell Biology, 133
J. Mackenzie, Malcolm Jones, E. Westaway (1999)
Markers for trans-Golgi Membranes and the Intermediate Compartment Localize to Induced Membranes with Distinct Replication Functions in Flavivirus-Infected CellsJournal of Virology, 73
Erik Prentice, W. Jerome, T. Yoshimori, N. Mizushima, M. Denison (2004)
Coronavirus Replication Complex Formation Utilizes Components of Cellular Autophagy*The Journal of Biological Chemistry, 279
C. Haan, L. Kuo, P. Masters, H. Vennema, P. Rottier (1998)
Coronavirus Particle Assembly: Primary Structure Requirements of the Membrane ProteinJournal of Virology, 72
M. McCown, A. Pekosz (2005)
The Influenza A Virus M2 Cytoplasmic Tail Is Required for Infectious Virus Production and Efficient Genome PackagingJournal of Virology, 79
A. Davison, R. Elliott (1993)
Molecular virology: a practical approach
K. Stadler, A. Roberts, S. Becker, Leatrice Vogel, M. Eickmann, L. Kolesnikova, H. Klenk, B. Murphy, R. Rappuoli, S. Abrignani, K. Subbarao (2005)
SARS Vaccine Protective in MiceEmerging Infectious Diseases, 11
J. Mackenzie, Malcolm Jones, P. Young, P. Young (1996)
Immunolocalization of the dengue virus nonstructural glycoprotein NS1 suggests a role in viral RNA replication.Virology, 220 1
B. Nal, C. Chan, F. Kien, L. Siu, J. Tse, K. Chu, Jason Kam, I. Staropoli, B. Crescenzo-Chaigne, N. Escriou, S. Werf, K. Yuen, R. Altmeyer (2005)
Differential maturation and subcellular localization of severe acute respiratory syndrome coronavirus surface proteins S, M and E.The Journal of general virology, 86 Pt 5
Cheng Huang, Krishna Narayanan, N. Ito, C. Peters, S. Makino (2006)
Severe Acute Respiratory Syndrome Coronavirus 3a Protein Is Released in Membranous Structures from 3a Protein-Expressing Cells and Infected CellsJournal of Virology, 80
C. Drosten, S. Günther, W. Preiser, S. Werf, H. Brodt, S. Becker, H. Rabenau, M. Panning, L. Kolesnikova, R. Fouchier, A. Berger, A. Burguière, J. Cinatl, M. Eickmann, N. Escriou, Klaus Grywna, S. Kramme, J. Manuguerra, S. Müller, V. Rickerts, M. Stürmer, Simon Vieth, H. Klenk, A. Osterhaus, H. Schmitz, H. Doerr (2003)
Identification of a novel coronavirus in patients with severe acute respiratory syndrome.The New England journal of medicine, 348 20
B. Yount, K. Curtis, Elizabeth Fritz, L. Hensley, P. Jahrling, Erik Prentice, M. Denison, T. Geisbert, R. Baric (2003)
Reverse genetics with a full-length infectious cDNA of severe acute respiratory syndrome coronavirusProceedings of the National Academy of Sciences of the United States of America, 100
S. Zebedee, Christopher Richardson, A. Robert, '. Lamb (1985)
Characterization of the influenza virus M2 integral membrane protein and expression at the infected-cell surface from cloned cDNAJournal of Virology, 56
R. Lamb, S. Zebedee, C. Richardson (1985)
Influenza virus M2 protein is an integral membrane protein expressed on the infected-cell surfaceCell, 40
L. Pewe, Haixia Zhou, Jason Netland, Chandra Tangudu, Heidi Olivares, Lei Shi, D. Look, T. Gallagher, S. Perlman (2005)
A Severe Acute Respiratory Syndrome-Associated Coronavirus-Specific Protein Enhances Virulence of an Attenuated Murine CoronavirusJournal of Virology, 79
P. Law, C. Wong, T. Au, C. Chuck, S. Kong, P. Chan, K. To, A. Lo, J. Chan, Y. Suen, H. Chan, K. Fung, M. Waye, Joseph Sung, Y. Lo, S. Tsui (2005)
The 3a protein of severe acute respiratory syndrome-associated coronavirus induces apoptosis in Vero E6 cells.The Journal of general virology, 86 Pt 7
H. Plutner, H. Davidson, J. Saraste, W. Balch (1992)
Morphological analysis of protein transport from the ER to Golgi membranes in digitonin-permeabilized cells: role of the P58 containing compartmentThe Journal of Cell Biology, 119
J. O'Connor, D. Brian (2000)
Downstream Ribosomal Entry for Translation of Coronavirus TGEV Gene 3bVirology, 269
A. McGoldrick, J. Lowings, D. Paton (2014)
Characterisation of a recent virulent transmissible gastroenteritis virus from Britain with a deleted ORF 3aArchives of Virology, 144
Sarah Kopecky-Bromberg, L. Martínez-Sobrido, P. Palese (2006)
7a Protein of Severe Acute Respiratory Syndrome Coronavirus Inhibits Cellular Protein Synthesis and Activates p38 Mitogen-Activated Protein KinaseJournal of Virology, 80
Teri Hodgson, P. Britton, D. Cavanagh (2006)
Neither the RNA nor the Proteins of Open Reading Frames 3a and 3b of the Coronavirus Infectious Bronchitis Virus Are Essential for ReplicationJournal of Virology, 80
W. Chan, Chun‐qin Wu, S. Chow, T. Cheung, K. To, W. Leung, P. Chan, Kam‐cheong Lee, H. Ng, D. Au, A. Lo (2005)
Coronaviral hypothetical and structural proteins were found in the intestinal surface enterocytes and pneumocytes of severe acute respiratory syndrome (SARS)Modern Pathology, 18
Niwa Hitoshi, Yamamura Ken-ichi, Miyazaki Junichi (1991)
Efficient selection for high-expression transfectants with a novel eukaryotic vectorGene, 108
Jie Zhang, G. Leser, Andrew Pekosz, R Lamb, R. Lamb (2000)
The cytoplasmic tails of the influenza virus spike glycoproteins are required for normal genome packaging.Virology, 269 2
(2003)
Revised U.S. surveillance case definition for severe acute respiratory syndrome (SARS) and update on SARS cases--United States and worldwide, December 2003.MMWR. Morbidity and mortality weekly report, 52 49
R. Gilmore, G. Blobel (1983)
Transient involvement of signal recognition particle and its receptor in the microsomal membrane prior to protein translocationCell, 35
L. Reed, H. Muench (1938)
A SIMPLE METHOD OF ESTIMATING FIFTY PER CENT ENDPOINTSAmerican Journal of Epidemiology, 27
E. Snijder, P. Bredenbeek, J. Dobbe, V. Thiel, J. Ziebuhr, L. Poon, Y. Guan, M. Rozanov, W. Spaan, A. Gorbalenya (2003)
Unique and Conserved Features of Genome and Proteome of SARS-coronavirus, an Early Split-off From the Coronavirus Group 2 LineageJournal of Molecular Biology, 331
C. Haan, P. Masters, Xiaolan Shen, S. Weiss, P. Rottier (2002)
The Group-Specific Murine Coronavirus Genes Are Not Essential, but Their Deletion, by Reverse Genetics, Is Attenuating in the Natural HostVirology, 296
F. Ramos, Marlene Carrasco, T. Doyle, I. Brierley (2004)
Programmed -1 ribosomal frameshifting in the SARS coronavirus.Biochemical Society transactions, 32 Pt 6
Xiaoling Yuan, Jianyong Li, Y. Shan, Zhen-wen Yang, Zhenhu Zhao, Bo Chen, Z. Yao, Bo Dong, Shengqi Wang, Jiapei Chen, Yu-wen Cong (2005)
Subcellular localization and membrane association of SARS-CoV 3a proteinVirus Research, 109
L. Poon, D. Chu, Kwok-Hung Chan, O. Wong, T. Ellis, Y. Leung, S. Lau, P. Woo, K. Suen, K. Yuen, Y. Guan, J. Peiris (2005)
Identification of a Novel Coronavirus in BatsJournal of Virology, 79
J. Meulen, Alexander Bakker, E. Brink, G. Weverling, B. Martina, B. Haagmans, T. Kuiken, J. Kruif, W. Preiser, W. Spaan, H. Gelderblom, J. Goudsmit, A. Osterhaus (2004)
Human monoclonal antibody as prophylaxis for SARS coronavirus infection in ferretsLancet (London, England), 363
LSU Digital Commons LSU Digital Commons Altering the tropism of lentiviral vectors through pseudotyping Altering the tropism of lentiviral vectors through pseudotyping
D. Cavanagh (2005)
Coronaviridae: a review of coronaviruses and torovirusesCoronaviruses with Special Emphasis on First Insights Concerning SARS
David Wang, A. Urisman, Yu-Tseung Liu, Michael Springer, T. Ksiazek, D Erdman, E. Mardis, M. Hickenbotham, V. Magrini, James Eldred, J. Latreille, Richard Wilson, D. Ganem, Joseph DeRisi (2003)
Viral Discovery and Sequence Recovery Using DNA MicroarraysPLoS Biology, 1
K. Hänel, T. Stangler, M. Stoldt, D. Willbold (2005)
Solution structure of the X4 protein coded by the SARS related coronavirus reveals an immunoglobulin like fold and suggests a binding activity to integrin I domainsJournal of Biomedical Science, 13
A. Roberts, Leatrice Vogel, J. Guarner, N. Hayes, B. Murphy, S. Zaki, K. Subbarao (2005)
Severe Acute Respiratory Syndrome Coronavirus Infection of Golden Syrian HamstersJournal of Virology, 79
M. Marra, Steven Jones, C. Astell, R. Holt, A. Brooks-Wilson, Y. Butterfield, J. Khattra, J. Asano, Sarah Barber, Susanna Chan, A. Cloutier, S. Coughlin, Doug Freeman, Noreen Girn, O. Griffith, S. Leach, Michael Mayo, H. McDonald, S. Montgomery, P. Pandoh, A. Petrescu, A. Robertson, J. Schein, Asim Siddiqui, D. Smailus, J. Stott, George Yang, Francis Plummer, A. Andonov, H. Artsob, N. Bastien, K. Bernard, T. Booth, Donnie Bowness, M. Czub, M. Drebot, Lisa Fernando, R. Flick, M. Garbutt, Michael Gray, A. Grolla, Steven Jones, H. Feldmann, A. Meyers, A. Kabani, Yan Li, Susan Normand, Ute Stroher, G. Tipples, S. Tyler, Robert Vogrig, D. Ward, Brynn Watson, R. Brunham, M. Krajden, M. Petric, D. Skowronski, C. Upton, R. Roper (2003)
The Genome Sequence of the SARS-Associated CoronavirusScience, 300
T. Greenough, A. Carville, J. Coderre, M. Somasundaran, J. Sullivan, K. Luzuriaga, K. Mansfield (2005)
Pneumonitis and Multi-Organ System Disease in Common Marmosets (Callithrix jacchus) Infected with the Severe Acute Respiratory Syndrome-Associated CoronavirusThe American Journal of Pathology, 167
Journal of Virology – Unpaywall
Published: Dec 27, 2006
Access the full text.
Sign up today, get DeepDyve free for 14 days.