Chapel Hill (Caroline du Nord) < Chicago < Châtenay-Malabry

Facettes : AffPays.f Mesh.f AffRegion.f AffVille.f

List of bibliographic references

Number of relevant bibliographic references: 22.
[0-20] [0 - 20][0 - 22][20-21][20-40]

Ident.	Authors (with country if any)	Title
001403 (2006)	Susanna Hakansson-Mcreynolds [États-Unis] ; Shaokai Jiang ; Lijun Rong ; Michael Caffrey	Solution structure of the severe acute respiratory syndrome-coronavirus heptad repeat 2 domain in the prefusion state.
001796 (2006)	Melissa Coughlin [États-Unis] ; Gin Lou [États-Unis] ; Osvaldo Martinez [États-Unis] ; Stephanie K. Masterman [Canada] ; Ole A. Olsen [Canada] ; Angelica A. Moksa [Canada] ; Michael Farzan [États-Unis] ; John S. Babcook [Canada] ; Bellur S. Prabhakar [États-Unis]	Generation and characterization of human monoclonal neutralizing antibodies with distinct binding and sequence features against SARS coronavirus using XenoMouse®
001A60 (2007)	Arun K. Ghosh [États-Unis] ; Kai Xi [États-Unis] ; Valerie Grum-Tokars [États-Unis] ; Xiaoming Xu [États-Unis] ; Kiira Ratia [États-Unis] ; Wentao Fu [États-Unis] ; Katherine V. Houser [États-Unis] ; Susan C. Baker [États-Unis] ; Michael E. Johnson [États-Unis] ; Andrew D. Mesecar [États-Unis]	Structure-based design, synthesis, and biological evaluation of peptidomimetic SARS-CoV 3CLpro inhibitors
001C76 (2008)	Susanna Mcreynolds [États-Unis] ; Shaokai Jiang ; Ying Guo ; Jessica Celigoy ; Christine Schar ; Lijun Rong ; Michael Caffrey	Characterization of the prefusion and transition states of severe acute respiratory syndrome coronavirus S2-HR2.
001D48 (2008)	Arun K. Ghosh [États-Unis] ; Gangli Gong [États-Unis] ; Valerie Grum-Tokars [États-Unis] ; Debbie C. Mulhearn [États-Unis] ; Susan C. Baker [États-Unis] ; Melissa Coughlin [États-Unis] ; Bellur S. Prabhakar [États-Unis] ; Katrina Sleeman [États-Unis] ; Michael E. Johnson [États-Unis] ; Andrew D. Mesecar [États-Unis]	Design, synthesis and antiviral efficacy of a series of potent chloropyridyl ester-derived SARS-CoV 3CLpro inhibitors
001F76 (2006)	Arun K. Ghosh [États-Unis] ; Kai Xi [États-Unis] ; Michael E. Johnson [États-Unis] ; Susan C. Baker [États-Unis] ; Andrew D. Mesecar [États-Unis]	Progress in Anti-SARS Coronavirus Chemistry, Biology and Chemotherapy
001F97 (2009)	Melissa M. Coughlin [États-Unis] ; John Babcook ; Bellur S. Prabhakar	Human monoclonal antibodies to SARS-coronavirus inhibit infection by different mechanisms.
002014 (2009)	Susanna Mcreynolds [États-Unis] ; Shaokai Jiang ; Lijun Rong ; Michael Caffrey	Dynamics of SARS-coronavirus HR2 domain in the prefusion and transition states.
002018 (2009)	Ying Guo [États-Unis] ; Jennifer Tisoncik ; Susanna Mcreynolds ; Michael Farzan ; Bellur S. Prabhakar ; Thomas Gallagher ; Lijun Rong ; Michael Caffrey	Identification of a new region of SARS-CoV S protein critical for viral entry.
002373 (2011)	Jessica Celigoy [États-Unis] ; Susanna Mcreynolds ; Michael Caffrey	The SARS-CoV heptad repeat 2 exhibits pH-induced helix formation.
002384 (2011)	Jessica Celigoy [États-Unis] ; Benjamin Ramirez ; Michael Caffrey	SARS-CoV heptad repeat 2 is a trimer of parallel helices.
002400 (2011)	Rima Chaudhuri [États-Unis] ; Sishi Tang [États-Unis] ; Guijun Zhao [États-Unis] ; Hui Lu [États-Unis] ; David A. Case [États-Unis] ; Michael E. Johnson [États-Unis]	Comparison of SARS and NL63 Papain-Like Protease Binding Sites and Binding Site Dynamics: Inhibitor Design Implications
002447 (2012)	Hyun Lee [États-Unis] ; Jaime Torres ; Lena Truong ; Rima Chaudhuri ; Anuradha Mittal ; Michael E. Johnson	Reducing agents affect inhibitory activities of compounds: results from multiple drug targets.
002590 (2012)	Hatem A. Elshabrawy [États-Unis] ; Melissa M. Coughlin ; Susan C. Baker ; Bellur S. Prabhakar	Human monoclonal antibodies against highly conserved HR1 and HR2 domains of the SARS-CoV spike protein are more broadly neutralizing.
002693 (2013)	Hyun Lee [États-Unis] ; Shuyi Cao ; Kirk E. Hevener ; Lena Truong ; Joseph L. Gatuz ; Kavankumar Patel ; Arun K. Ghosh ; Michael E. Johnson	Synergistic inhibitor binding to the papain-like protease of human SARS coronavirus: mechanistic and inhibitor design implications.
002741 (2013)	Andy Kilianski [États-Unis] ; Anna M. Mielech ; Xufang Deng ; Susan C. Baker	Assessing activity and inhibition of Middle East respiratory syndrome coronavirus papain-like and 3C-like proteases using luciferase-based biosensors.
002823 (2014)	Hatem A. Elshabrawy [États-Unis] ; Jilao Fan ; Christine S. Haddad ; Kiira Ratia ; Christopher C. Broder ; Michael Caffrey ; Bellur S. Prabhakar	Identification of a broad-spectrum antiviral small molecule against severe acute respiratory syndrome coronavirus and Ebola, Hendra, and Nipah viruses by using a novel high-throughput screening assay.
002825 (2013)	Anna M. Mielech [États-Unis] ; Andy Kilianski [États-Unis] ; Yahira M. Baez-Santos [États-Unis] ; Andrew D. Mesecar [États-Unis] ; Susan C. Baker [États-Unis]	MERS-CoV papain-like protease has deISGylating and deubiquitinating activities
002A44 (2015)	Hyun Lee [États-Unis] ; Hao Lei [États-Unis] ; Bernard D. Santarsiero [États-Unis] ; Joseph L. Gatuz [États-Unis] ; Shuyi Cao [États-Unis] ; Amy J. Rice [États-Unis] ; Kavankumar Patel [États-Unis] ; Michael Z. Szypulinski [États-Unis] ; Isabel Ojeda ; Arun K. Ghosh [États-Unis] ; Michael E. Johnson [États-Unis]	Inhibitor recognition specificity of MERS-CoV papain-like protease may differ from that of SARS-CoV.
002F69 (2018)	Daniela Niemeyer [Allemagne] ; Kirstin Mösbauer [Allemagne] ; Eva M. Klein [Allemagne] ; Andrea Sieberg [Allemagne] ; Robert C. Mettelman [États-Unis] ; Anna M. Mielech [États-Unis] ; Ronald Dijkman [Suisse] ; Susan C. Baker [États-Unis] ; Christian Drosten [Allemagne] ; Marcel A. Müller [Allemagne]	The papain-like protease determines a virulence trait that varies among members of the SARS-coronavirus species
003217 (2020)	Katelyn Gostic [États-Unis] ; Ana Cr Gomez [États-Unis] ; Riley O. Mummah [États-Unis] ; Adam J. Kucharski [Royaume-Uni] ; James O. Lloyd-Smith [États-Unis]	Estimated effectiveness of symptom and risk screening to prevent the spread of COVID-19.

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