Fusion cellulaire (physiologie) < Fusion membranaire < Fusion membranaire ()

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List of bibliographic references indexed by Fusion membranaire

Number of relevant bibliographic references: 39.
[0-20] [0 - 20][0 - 39][20-38][20-40]

Ident.	Authors (with country if any)	Title
000199 (2020)	Jian Shang [États-Unis] ; Yushun Wan [États-Unis] ; Chang Liu [États-Unis] ; Boyd Yount [États-Unis] ; Kendra Gully [États-Unis] ; Yang Yang [États-Unis] ; Ashley Auerbach [États-Unis] ; Guiqing Peng [République populaire de Chine] ; Ralph Baric [États-Unis] ; Fang Li [États-Unis]	Structure of mouse coronavirus spike protein complexed with receptor reveals mechanism for viral entry.
000541 (2020)	Shuai Xia [République populaire de Chine] ; Meiqin Liu [République populaire de Chine] ; Chao Wang [République populaire de Chine] ; Wei Xu [République populaire de Chine] ; Qiaoshuai Lan [République populaire de Chine] ; Siliang Feng [République populaire de Chine] ; Feifei Qi [République populaire de Chine] ; Linlin Bao [République populaire de Chine] ; Lanying Du [États-Unis] ; Shuwen Liu [République populaire de Chine] ; Chuan Qin [République populaire de Chine] ; Fei Sun [République populaire de Chine] ; Zhengli Shi [République populaire de Chine] ; Yun Zhu [République populaire de Chine] ; Shibo Jiang [République populaire de Chine, États-Unis] ; Lu Lu [République populaire de Chine]	Inhibition of SARS-CoV-2 (previously 2019-nCoV) infection by a highly potent pan-coronavirus fusion inhibitor targeting its spike protein that harbors a high capacity to mediate membrane fusion
000C09 (2018)	Stacy R. Webb [États-Unis] ; Stacy E. Smith [États-Unis] ; Michael G. Fried [États-Unis] ; Rebecca Ellis Dutch [États-Unis]	Transmembrane Domains of Highly Pathogenic Viral Fusion Proteins Exhibit Trimeric Association In Vitro.
000D88 (2017)	Jean Kaoru Millet ; Gary R. Whittaker	Physiological and molecular triggers for SARS-CoV membrane fusion and entry into host cells
000E02 (2017)	Mukesh Mahajan ; Deepak Chatterjee ; Kannaian Bhuvaneswari ; Shubhadra Pillay ; Surajit Bhattacharjya	NMR structure and localization of a large fragment of the SARS-CoV fusion protein: Implications in viral cell fusion
000F45 (2016)	Luis G M. Basso [Brésil] ; Eduardo F. Vicente [Brésil] ; Edson Crusca [Brésil] ; Eduardo M. Cilli [Brésil] ; Antonio J. Costa-Filho [Brésil]	SARS-CoV fusion peptides induce membrane surface ordering and curvature.
000F61 (2016)	Robert N. Kirchdoerfer [États-Unis] ; Christopher A. Cottrell [États-Unis] ; Nianshuang Wang [États-Unis] ; Jesper Pallesen [États-Unis] ; Hadi M. Yassine [États-Unis] ; Hannah L. Turner [États-Unis] ; Kizzmekia S. Corbett [États-Unis] ; Barney S. Graham [États-Unis] ; Jason S. Mclellan [États-Unis] ; Andrew B. Ward [États-Unis]	Pre-fusion structure of a human coronavirus spike protein.
001008 (2016)	Xiuyuan Ou [République populaire de Chine] ; Wangliang Zheng [République populaire de Chine] ; Yiwei Shan [République populaire de Chine] ; Zhixia Mu [République populaire de Chine] ; Samuel R. Dominguez [États-Unis] ; Kathryn V. Holmes [États-Unis] ; Zhaohui Qian [Oman]	Identification of the Fusion Peptide-Containing Region in Betacoronavirus Spike Glycoproteins.
001206 (2015)	Arthur Weininger [Canada] ; Susan Weininger [Canada]	Using common spatial distributions of atoms to relate functionally divergent influenza virus N10 and N11 protein structures to functionally characterized neuraminidase structures, toxin cell entry domains, and non-influenza virus cell entry domains.
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
002972 (2009)	Fumihiro Taguchi [Japon] ; Shutoku Matsuyama	[Cell entry mechanisms of coronaviruses].
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
002A68 (2009)	Jeroen Corver [Pays-Bas] ; Rene Broer ; Puck Van Kasteren ; Willy Spaan	Mutagenesis of the transmembrane domain of the SARS coronavirus spike glycoprotein: refinement of the requirements for SARS coronavirus cell entry.
003008 (2008)	Jaime Guillén [Espagne] ; Rodrigo F M. De Almeida ; Manuel Prieto ; José Villalaín	Structural and dynamic characterization of the interaction of the putative fusion peptide of the S2 SARS-CoV virus protein with lipid membranes.
003171 (2008)	Jaime Guillén [Espagne] ; Ana J. Pérez-Berná ; Miguel R. Moreno ; José Villalaín	A second SARS-CoV S2 glycoprotein internal membrane-active peptide. Biophysical characterization and membrane interaction.
003570 (2007)	Chih-Fong Chou [Singapour] ; Shuo Shen ; Geetha Mahadevappa ; Seng Gee Lim ; Wanjin Hong ; Yee-Joo Tan	The use of hepatitis C virus NS3/4A and secreted alkaline phosphatase to quantitate cell-cell membrane fusion mediated by severe acute respiratory syndrome coronavirus S protein and the receptor angiotensin-converting enzyme 2.
003611 (2007)	Patricia Eifart [Allemagne] ; Kai Ludwig ; Christoph Böttcher ; Cornelis A M. De Haan ; Peter J M. Rottier ; Thomas Korte ; Andreas Herrmann	Role of endocytosis and low pH in murine hepatitis virus strain A59 cell entry.
003643 (2007)	Chad M. Petit [États-Unis] ; Vladimir N. Chouljenko ; Arun Iyer ; Robin Colgrove ; Michael Farzan ; David M. Knipe ; K G Kousoulas	Palmitoylation of the cysteine-rich endodomain of the SARS-coronavirus spike glycoprotein is important for spike-mediated cell fusion.
003743 (2007)	Daniel R. Beniac [Canada] ; Shauna L. Devarennes ; Anton Andonov ; Runtao He ; Tim F. Booth	Conformational reorganization of the SARS coronavirus spike following receptor binding: implications for membrane fusion.
003C88 (2006)	Yiqun Deng [États-Unis] ; Jie Liu ; Qi Zheng ; Wei Yong ; Min Lu	Structures and polymorphic interactions of two heptad-repeat regions of the SARS virus S2 protein.
003D25 (2006)	I-Chueh Huang [États-Unis] ; Berend Jan Bosch ; Wenhui Li ; Michael Farzan ; Peter M. Rottier ; Hyeryun Choe	SARS-CoV, but not HCoV-NL63, utilizes cathepsins to infect cells: viral entry.

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