Mutagenesis, Insertional < Mutagenesis, Site-Directed < Mutagens

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List of bibliographic references indexed by Mutagenesis, Site-Directed

Number of relevant bibliographic references: 49.
[0-20] [0 - 20][0 - 49][20-40]

Ident.	Authors (with country if any)	Title
000E03 (2017)	Jaimee R. Compton [États-Unis] ; Matthew J. Mickey [États-Unis] ; Xin Hu [États-Unis] ; Juan J. Marugan [États-Unis] ; Patricia M. Legler [États-Unis]	Mutation of Asn-475 in the Venezuelan Equine Encephalitis Virus nsP2 Cysteine Protease Leads to a Self-Inhibited State.
001277 (2015)	Garvita Gupta [Singapour] ; Liangzhong Lim [Singapour] ; Jianxing Song [Singapour]	NMR and MD Studies Reveal That the Isolated Dengue NS3 Protease Is an Intrinsically Disordered Chymotrypsin Fold Which Absolutely Requests NS2B for Correct Folding and Functional Dynamics.
001629 (2014)	Halil Aydin ; Dina Al-Khooly ; Jeffrey E. Lee	Influence of hydrophobic and electrostatic residues on SARS‐coronavirus S2 protein stability: Insights into mechanisms of general viral fusion and inhibitor design
001651 (2014)	Tianlei Ying [Israël] ; Lanying Du [États-Unis] ; Tina W. Ju [États-Unis] ; Ponraj Prabakaran [États-Unis] ; Candy C Y. Lau [Hong Kong] ; Lu Lu [République populaire de Chine] ; Qi Liu [République populaire de Chine] ; Lili Wang [États-Unis] ; Yang Feng [États-Unis] ; Yanping Wang [États-Unis] ; Bo-Jian Zheng [États-Unis] ; Kwok-Yung Yuen [États-Unis] ; Shibo Jiang [République populaire de Chine] ; Dimiter S. Dimitrov [Israël]	Exceptionally potent neutralization of Middle East respiratory syndrome coronavirus by human monoclonal antibodies.
001825 (2013)	Chung-Ke Chang [République populaire de Chine] ; Chia-Min Michael Chen ; Ming-Hui Chiang ; Yen-Lan Hsu ; Tai-Huang Huang	Transient oligomerization of the SARS-CoV N protein--implication for virus ribonucleoprotein packaging.
001919 (2013)	Ying-Tzu Tseng [Taïwan] ; Chia-Hui Chang ; Shiu-Mei Wang ; Kuo-Jung Huang ; Chin-Tien Wang	Identifying SARS-CoV membrane protein amino acid residues linked to virus-like particle assembly.
001985 (2013)	Tomonari Muramatsu ; Yong-Tae Kim ; Wataru Nishii ; Takaho Terada ; Mikako Shirouzu ; Shigeyuki Yokoyama	Autoprocessing mechanism of severe acute respiratory syndrome coronavirus 3C‐like protease (SARS‐CoV 3CLpro) from its polyproteins
001C41 (2012)	Aartjan J W. Te Velthuis [Pays-Bas] ; Sjoerd H E. Van Den Worm ; Eric J. Snijder	The SARS-coronavirus nsp7+nsp8 complex is a unique multimeric RNA polymerase capable of both de novo initiation and primer extension.
002456 (2010)	Snawar Hussain [États-Unis] ; Tom Gallagher	SARS-coronavirus protein 6 conformations required to impede protein import into the nucleus.
002463 (2010)	Choong-Tat Keng [Singapour] ; Sara Kerström [Suède] ; Cynthia Sau-Wai Leung [République populaire de Chine] ; Leo L. M. Poon [République populaire de Chine] ; J. S. Malik Peiris [République populaire de Chine] ; Ali Mirazimi [Suède] ; Yee-Joo Tan [Singapour]	SARS coronavirus 8b reduces viral replication by down-regulating E via an ubiquitin-independent proteasome pathway
002504 (2010)	Shuai Chen [Allemagne] ; Felix Jonas ; Can Shen ; Rolf Hilgenfeld ; Rolf Higenfeld	Liberation of SARS-CoV main protease from the viral polyprotein: N-terminal autocleavage does not depend on the mature dimerization mode.
002588 (2010)	Corrin E. Mcbride [États-Unis] ; Carolyn E. Machamer	A single tyrosine in the severe acute respiratory syndrome coronavirus membrane protein cytoplasmic tail is important for efficient interaction with spike protein.
002881 (2010)	Yuxuan Hou [République populaire de Chine] ; Cheng Peng [République populaire de Chine] ; Meng Yu [Australie] ; Yan Li [République populaire de Chine] ; Zhenggang Han [République populaire de Chine] ; Fang Li [États-Unis] ; Lin-Fa Wang [Australie] ; Zhengli Shi [République populaire de Chine]	Angiotensin-converting enzyme 2 (ACE2) proteins of different bat species confer variable susceptibility to SARS-CoV entry
002A07 (2009)	Daniel Voss [Allemagne] ; Susanne Pfefferle ; Christian Drosten ; Lea Stevermann ; Elisabetta Traggiai ; Antonio Lanzavecchia ; Stephan Becker	Studies on membrane topology, N-glycosylation and functionality of SARS-CoV membrane protein.
002A18 (2009)	Zachary J. Miknis [États-Unis] ; Eric F. Donaldson ; Timothy C. Umland ; Ryan A. Rimmer ; Ralph S. Baric ; L Wayne Schultz	Severe acute respiratory syndrome coronavirus nsp9 dimerization is essential for efficient viral growth.
002A24 (2009)	Ikenna G. Madu ; Sandrine Belouzard ; Gary R. Whittaker	SARS-coronavirus spike S2 domain flanked by cysteine residues C822 and C833 is important for activation of membrane fusion
002A48 (2009)	Yoshiyuki Yamada ; Ding Xiang Liu	Proteolytic activation of the spike protein at a novel RRRR/S motif is implicated in furin-dependent entry, syncytium formation, and infectivity of coronavirus infectious bronchitis virus in cultured cells.
002B01 (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.
002B53 (2009)	Nicholas E. Grossoehme [États-Unis] ; Lichun Li ; Sarah C. Keane ; Pinghua Liu ; Charles E. Dann ; Julian L. Leibowitz ; David P. Giedroc	Coronavirus N protein N-terminal domain (NTD) specifically binds the transcriptional regulatory sequence (TRS) and melts TRS-cTRS RNA duplexes.
002B90 (2009)	Sandrine Belouzard [États-Unis] ; Victor C. Chu ; Gary R. Whittaker	Activation of the SARS coronavirus spike protein via sequential proteolytic cleavage at two distinct sites.
002B91 (2009)	Yoshiyuki Yamada [Singapour] ; Xiao Bo Liu ; Shou Guo Fang ; Felicia P L. Tay ; Ding Xiang Liu	Acquisition of cell-cell fusion activity by amino acid substitutions in spike protein determines the infectivity of a coronavirus in cultured cells.

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