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List of bibliographic references

Number of relevant bibliographic references: 16.
Ident.Authors (with country if any)Title
000A73 (2018) Mukesh Mahajan [Singapour] ; Deepak Chatterjee [Singapour] ; Kannaian Bhuvaneswari [Singapour] ; Shubhadra Pillay [Singapour] ; Surajit Bhattacharjya [Singapour]NMR structure and localization of a large fragment of the SARS-CoV fusion protein: Implications in viral cell fusion.
001049 (2014) Halil Aydin [Canada] ; Dina Al-Khooly ; Jeffrey E. LeeInfluence of hydrophobic and electrostatic residues on SARS-coronavirus S2 protein stability: insights into mechanisms of general viral fusion and inhibitor design.
001065 (2014) Vicente M. Aguilella [Espagne] ; Carmina Verdiá-Báguena ; Antonio AlcarazLipid charge regulation of non-specific biological ion channels.
001195 (2013) Carmina Verdiá-Báguena [Espagne] ; Jose L. Nieto-Torres ; Antonio Alcaraz ; Marta L. Dediego ; Luis Enjuanes ; Vicente M. AguilellaAnalysis of SARS-CoV E protein ion channel activity by tuning the protein and lipid charge.
001460 (2011) Rima Chaudhuri [États-Unis] ; Sishi Tang ; Guijun Zhao ; Hui Lu ; David A. Case ; Michael E. JohnsonComparison of SARS and NL63 papain-like protease binding sites and binding site dynamics: inhibitor design implications.
001482 (2011) Jessica Celigoy [États-Unis] ; Susanna Mcreynolds ; Michael CaffreyThe SARS-CoV heptad repeat 2 exhibits pH-induced helix formation.
001580 (2011) Zai Wang [République populaire de Chine] ; Jian-Dong Huang ; Kin-Ling Wong ; Pei-Gang Wang ; Hao-Jie Zhang ; Julian A. Tanner ; Ottavia Spiga ; Andrea Bernini ; Bo-Jian Zheng ; Neri NiccolaiOn the mechanisms of bananin activity against severe acute respiratory syndrome coronavirus.
001659 (2010) Justyna A. Wojdyla [Allemagne] ; Ioannis Manolaridis ; Puck B. Van Kasteren ; Marjolein Kikkert ; Eric J. Snijder ; Alexander E. Gorbalenya ; Paul A. TuckerPapain-like protease 1 from transmissible gastroenteritis virus: crystal structure and enzymatic activity toward viral and cellular substrates.
001821 (2009) Nicholas E. Grossoehme [États-Unis] ; Lichun Li ; Sarah C. Keane ; Pinghua Liu ; Charles E. Dann ; Julian L. Leibowitz ; David P. GiedrocCoronavirus N protein N-terminal domain (NTD) specifically binds the transcriptional regulatory sequence (TRS) and melts TRS-cTRS RNA duplexes.
001C23 (2008) James Solowiej [États-Unis] ; James A. Thomson ; Kevin Ryan ; Chun Luo ; Mingying He ; Jihong Lou ; Brion W. MurraySteady-state and pre-steady-state kinetic evaluation of severe acute respiratory syndrome coronavirus (SARS-CoV) 3CLpro cysteine protease: development of an ion-pair model for catalysis.
001F33 (2007) Ting-Wai Lee [Canada] ; Maia M. Cherney ; Jie Liu ; Karen Ellis James ; James C. Powers ; Lindsay D. Eltis ; Michael N G. JamesCrystal structures reveal an induced-fit binding of a substrate-like Aza-peptide epoxide to SARS coronavirus main peptidase.
002078 (2006) Haibin Luo [République populaire de Chine] ; Jing Chen ; Kaixian Chen ; Xu Shen ; Hualiang JiangCarboxyl terminus of severe acute respiratory syndrome coronavirus nucleocapsid protein: self-association analysis and nucleic acid binding characterization.
002411 (2006) Haibin Luo [République populaire de Chine] ; Dalei Wu ; Can Shen ; Kaixian Chen ; Xu Shen ; Hualiang JiangSevere acute respiratory syndrome coronavirus membrane protein interacts with nucleocapsid protein mostly through their carboxyl termini by electrostatic attraction.
002779 (2005) Stéphane Duquerroy [France] ; Armelle Vigouroux ; Peter J M. Rottier ; Félix A. Rey ; Berend Jan BoschCentral ions and lateral asparagine/glutamine zippers stabilize the post-fusion hairpin conformation of the SARS coronavirus spike glycoprotein.
002A39 (2004) Chi-Yuan Chou [Taïwan] ; Hui-Chuan Chang ; Wen-Chi Hsu ; Tien-Zheng Lin ; Chao-Hsiung Lin ; Gu-Gang ChangQuaternary structure of the severe acute respiratory syndrome (SARS) coronavirus main protease.
002A89 (2004) Qi-Shi Du [République populaire de Chine] ; Shu-Qing Wang ; Yu Zhu ; Dong-Qing Wei ; Hong Guo ; Suzanne Sirois ; Kuo-Chen ChouPolyprotein cleavage mechanism of SARS CoV Mpro and chemical modification of the octapeptide.

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