M. Takeda, Chung-ke Chang, T. Ikeya, P. Güntert, Yuan-Hsiang Chang, Yen-lan Hsu, Tai-Huang Huang, M. Kainosho (2007)
Solution Structure of the C-terminal Dimerization Domain of SARS Coronavirus Nucleocapsid Protein Solved by the SAIL-NMR MethodJournal of Molecular Biology, 380
C. Oldfield, Jingwei Meng, Jack Yang, M. Yang, V. Uversky, V. Uversky, A. Dunker (2008)
Flexible nets: disorder and induced fit in the associations of p53 and 14-3-3 with their partnersBMC Genomics, 9
James Cuff, G. Barton (2000)
Application of multiple sequence alignment profiles to improve protein secondary structure predictionProteins: Structure, 40
Benjamin Shoemaker, J. Portman, P. Wolynes (2000)
Speeding molecular recognition by using the folding funnel: the fly-casting mechanism.Proceedings of the National Academy of Sciences of the United States of America, 97 16
Xiang Xu, Yunqing Liu, S. Weiss, E. Arnold, S. Sarafianos, Jianping Ding (2003)
Molecular model of SARS coronavirus polymerase: implications for biochemical functions and drug designNucleic Acids Research, 31
(1992)
Determination of the regularization parameter in indirect-transform methods using perceptual criteriaJournal of Applied Crystallography, 25
V. Hilser, E. Thompson (2007)
Intrinsic disorder as a mechanism to optimize allosteric coupling in proteinsProceedings of the National Academy of Sciences, 104
Meng Guo, P. Gorman, M. Rico, A. Chakrabartty, D. Laurents (2005)
Charge substitution shows that repulsive electrostatic interactions impede the oligomerization of Alzheimer amyloid peptidesFEBS Letters, 579
H. Jayaram, H. Fan, B. Bowman, A. Ooi, J. Jayaram, E. Collisson, J. Lescar, B. Prasad (2006)
X-Ray Structures of the N- and C-Terminal Domains of a Coronavirus Nucleocapsid Protein: Implications for Nucleocapsid FormationJournal of Virology, 80
David Karlin, F. Ferron, B. Canard, S. Longhi (2003)
Structural disorder and modular organization in Paramyxovirinae N and P.The Journal of general virology, 84 Pt 12
Haibin Luo, F. Ye, Kaixian Chen, Xu Shen, Hualiang Jiang (2005)
SR-rich motif plays a pivotal role in recombinant SARS coronavirus nucleocapsid protein multimerization.Biochemistry, 44 46
C. Kalodimos, N. Biris, A. Bonvin, M. Levandoski, Marc Guennuegues, R. Boelens, R. Kaptein (2004)
Structure and Flexibility Adaptation in Nonspecific and Specific Protein-DNA ComplexesScience, 305
T. Tang, M. Wu, Shui‐Tsung Chen, M. Hou, Ming-Hsiang Hong, F. Pan, Hui‐Ming Yu, Jenn‐Han Chen, C. Yao, A. Wang (2005)
Biochemical and immunological studies of nucleocapsid proteins of severe acute respiratory syndrome and 229E human coronavirusesProteomics, 5
H. Fan, A. Ooi, Yong Tan, Sifang Wang, Shouguo Fang, D. Liu, J. Lescar (2005)
The Nucleocapsid Protein of Coronavirus Infectious Bronchitis Virus: Crystal Structure of Its N-Terminal Domain and Multimerization PropertiesStructure (London, England : 1993), 13
K. Saikatendu, J. Joseph, V. Subramanian, B. Neuman, M. Buchmeier, R. Stevens, P. Kuhn (2007)
Ribonucleocapsid Formation of Severe Acute Respiratory Syndrome Coronavirus through Molecular Action of the N-Terminal Domain of N ProteinJournal of Virology, 81
M. Lai (1990)
Coronavirus: organization, replication and expression of genome.Annual review of microbiology, 44
Chun-Yuan Chen, Chung-ke Chang, Yi-Wei Chang, S. Sue, Hsin-I Bai, Lilianty Riang, C. Hsiao, Tai-Huang Huang (2007)
Structure of the SARS Coronavirus Nucleocapsid Protein RNA-binding Dimerization Domain Suggests a Mechanism for Helical Packaging of Viral RNAJournal of Molecular Biology, 368
C. Luo, Haibin Luo, Suxin Zheng, C. Gui, Liduo Yue, Changying Yu, Tao Sun, Peilan He, Jing Chen, Jianhua Shen, Xiaomin Luo, Yi-Xue Li, Hong Liu, D. Bai, Jingkang Shen, Yiming Yang, Fangqiu Li, Jianping Zuo, R. Hilgenfeld, G. Pei, Kaixian Chen, Xu Shen, Hualiang Jiang (2004)
Nucleocapsid protein of SARS coronavirus tightly binds to human cyclophilin ABiochemical and Biophysical Research Communications, 321
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
R. Ivanyi-Nagy, J. Lavergne, C. Gabus, D. Ficheux, J. Darlix (2007)
RNA chaperoning and intrinsic disorder in the core proteins of FlaviviridaeNucleic Acids Research, 36
M. Petoukhov, D. Svergun (2005)
Global rigid body modeling of macromolecular complexes against small-angle scattering data.Biophysical journal, 89 2
S. Zúñiga, I. Sola, José Moreno, Patricia Sabella, J. Plana-duran, L. Enjuanes (2006)
Coronavirus nucleocapsid protein is an RNA chaperoneVirology, 357
Qiulong Huang, Liping Yu, A. Petros, A. Gunasekera, Zhihong Liu, N. Xu, P. Hajduk, J. Mack, S. Fesik, E. Olejniczak (2004)
Structure of the N-terminal RNA-binding domain of the SARS CoV nucleocapsid protein.Biochemistry, 43 20
R. He, Frederick Dobie, M. Ballantine, A. Leeson, Yan Li, N. Bastien, T. Cutts, A. Andonov, Jingxin Cao, T. Booth, F. Plummer, S. Tyler, Lindsay Baker, Xuguang Li (2004)
Analysis of multimerization of the SARS coronavirus nucleocapsid proteinBiochemical and Biophysical Research Communications, 316
Pascal García, L. Serrano, M. Rico, M. Bruix (2002)
An NMR view of the folding process of a CheY mutant at the residue level.Structure, 10 9
Haibin Luo, Qing Chen, Jing Chen, Kaixian Chen, Xu Shen, Hualiang Jiang (2005)
The nucleocapsid protein of SARS coronavirus has a high binding affinity to the human cellular heterogeneous nuclear ribonucleoprotein A1Febs Letters, 579
Chung-ke Chang, S. Sue, Tsan-hung Yu, Chiu-Min Hsieh, Chen-Kun Tsai, Yen-Chieh Chiang, Shin-jye Lee, H. Hsiao, Wen-Jin Wu, Wei-Lun Chang, Chun-Hung Lin, Tai-Huang Huang (2005)
Modular organization of SARS coronavirus nucleocapsid proteinJournal of Biomedical Science, 13
I. Yu, M. Oldham, Jingqiang Zhang, Jue Chen (2006)
Crystal Structure of the Severe Acute Respiratory Syndrome (SARS) Coronavirus Nucleocapsid Protein Dimerization Domain Reveals Evolutionary Linkage between Corona- and Arteriviridae*The Journal of Biological Chemistry, 281
P. Tompa, P. Csermely (2004)
The role of structural disorder in the function of RNA and protein chaperonesThe FASEB Journal, 18
M. Parker, P. Masters (1990)
Sequence comparison of the N genes of five strains of the coronavirus mouse hepatitis virus suggests a three domain structure for the nucleocapsid protein☆Virology, 179
Chung-ke Chang, S. Sue, Tsan-hung Yu, Chiu-Min Hsieh, Chen-Kun Tsai, Yen-Chieh Chiang, Shin-jye Lee, H. Hsiao, Wen-Jin Wu, Chi-Fon Chang, Tai-Huang Huang (2005)
The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus‐like structureFebs Letters, 579
Xingang Zhao, J. Nicholls, Ye-Guang Chen (2008)
Severe Acute Respiratory Syndrome-associated Coronavirus Nucleocapsid Protein Interacts with Smad3 and Modulates Transforming Growth Factor-β SignalingThe Journal of Biological Chemistry, 283
Milan Surjit, Ravinder Kumar, Rabi Mishra, M. Reddy, V. Chow, S. Lal (2005)
The Severe Acute Respiratory Syndrome Coronavirus Nucleocapsid Protein Is Phosphorylated and Localizes in the Cytoplasm by 14-3-3-Mediated TranslocationJournal of Virology, 79
R. He, A. Leeson, M. Ballantine, A. Andonov, Lindsay Baker, Frederick Dobie, Yan Li, N. Bastien, H. Feldmann, Ute Strocher, S. Theriault, T. Cutts, Jingxin Cao, T. Booth, F. Plummer, S. Tyler, Xuguang Li (2004)
Characterization of protein–protein interactions between the nucleocapsid protein and membrane protein of the SARS coronavirusVirus Research, 105
Yingchun Zeng, L. Ye, Shenglin Zhu, Hong Zheng, Peng Zhao, Weijia Cai, Liya Su, Ying-long She, Zheng-hui Wu (2008)
The nucleocapsid protein of SARS-associated coronavirus inhibits B23 phosphorylationBiochemical and Biophysical Research Communications, 369
T. Kuiken, R. Fouchier, M. Schutten, G. Rimmelzwaan, G. Amerongen, D. Riel, J. Laman, Ton Jong, G. Doornum, W. Lim, A. Ling, Paul Chan, J. Tam, M. Zambon, R. Gopal, C. Drosten, S. Werf, N. Escriou, J. Manuguerra, K. Stöhr, J. Peiris, A. Osterhaus (2003)
Newly discovered coronavirus as the primary cause of severe acute respiratory syndromeLancet (London, England), 362
T. Peng, Kuan-rong Lee, W. Tarn (2008)
Phosphorylation of the arginine/serine dipeptide‐rich motif of the severe acute respiratory syndrome coronavirus nucleocapsid protein modulates its multimerization, translation inhibitory activity and cellular localizationThe Febs Journal, 275
Haibin Luo, Jing Chen, Kaixian Chen, Xu Shen, Hualiang Jiang (2006)
Carboxyl terminus of severe acute respiratory syndrome coronavirus nucleocapsid protein: self-association analysis and nucleic acid binding characterization.Biochemistry, 45 39
F. Chiti, M. Stefani, N. Taddei, G. Ramponi, C. Dobson (2003)
Rationalization of the effects of mutations on peptide andprotein aggregation ratesNature, 424
Journal of Virology – Unpaywall
Published: Dec 4, 2008
Access the full text.
Sign up today, get DeepDyve free for 14 days.