Virus Assembly < Virus Attachment < Virus Cultivation

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List of bibliographic references indexed by Virus Attachment

Number of relevant bibliographic references: 28.
[0-20] [0 - 20][0 - 28][20-27][20-40]

Ident.	Authors (with country if any)	Title
000120 (2020)	Kristian G. Andersen [États-Unis] ; Andrew Rambaut [Royaume-Uni] ; W Ian Lipkin [États-Unis] ; Edward C. Holmes [Australie] ; Robert F. Garry [États-Unis]	The proximal origin of SARS-CoV-2.
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.
000218 (2020)	Daniel Batlle [États-Unis] ; Jan Wysocki [États-Unis] ; Karla Satchell [États-Unis]	Soluble angiotensin-converting enzyme 2: a potential approach for coronavirus infection therapy?
000463 (2020)	Mirko Baglivo [Italie] ; Manuela Baronio [Italie] ; Giuseppe Natalini [Italie] ; Tommaso Beccari [Italie] ; Pietro Chiurazzi [Italie] ; Ezio Fulcheri [Italie] ; Paolo Pietro Petralia [Italie] ; Sandro Michelini [Italie] ; Giovanni Fiorentini [Italie] ; Giacinto Abele Miggiano [Italie] ; Assunta Morresi [Italie] ; Gerolamo Tonini [Italie] ; Matteo Bertelli [Italie]	Natural small molecules as inhibitors of coronavirus lipid-dependent attachment to host cells: a possible strategy for reducing SARS-COV-2 infectivity?
000C47 (2018)	Susanna K. P. Lau [République populaire de Chine] ; Rachel Y. Y. Fan [République populaire de Chine] ; Hayes K. H. Luk [République populaire de Chine] ; Longchao Zhu [République populaire de Chine] ; Joshua Fung [République populaire de Chine] ; Kenneth S. M. Li [République populaire de Chine] ; Emily Y. M. Wong [République populaire de Chine] ; Syed Shakeel Ahmed [République populaire de Chine] ; Jasper F. W. Chan [République populaire de Chine] ; Raven K. H. Kok [République populaire de Chine] ; Kwok-Hung Chan [République populaire de Chine] ; Ulrich Wernery [Émirats arabes unis] ; Kwok-Yung Yuen [République populaire de Chine] ; Patrick C. Y. Woo [République populaire de Chine]	Replication of MERS and SARS coronaviruses in bat cells offers insights to their ancestral origins
001003 (2016)	Jacob J. Swidorski [États-Unis] ; Zheng Liu [États-Unis] ; Zhiwei Yin [États-Unis] ; Tao Wang [États-Unis] ; David J. Carini [États-Unis] ; Sandhya Rahematpura [États-Unis] ; Ming Zheng [États-Unis] ; Kim Johnson [États-Unis] ; Sharon Zhang [États-Unis] ; Pin-Fang Lin [États-Unis] ; Dawn D. Parker [États-Unis] ; Wenying Li [États-Unis] ; Nicholas A. Meanwell [États-Unis] ; Lawrence G. Hamann [États-Unis] ; Alicia Regueiro-Ren [États-Unis]	Inhibitors of HIV-1 attachment: The discovery and structure-activity relationships of tetrahydroisoquinolines as replacements for the piperazine benzamide in the 3-glyoxylyl 6-azaindole pharmacophore.
001247 (2015)	Justin K. Taylor [États-Unis] ; Christopher M. Coleman [États-Unis] ; Sandra Postel [États-Unis] ; Jeanne M. Sisk [États-Unis] ; John G. Bernbaum [États-Unis] ; Thiagarajan Venkataraman [États-Unis] ; Eric J. Sundberg [États-Unis] ; Matthew B. Frieman [États-Unis]	Severe Acute Respiratory Syndrome Coronavirus ORF7a Inhibits Bone Marrow Stromal Antigen 2 Virion Tethering through a Novel Mechanism of Glycosylation Interference.
001292 (2015)	Xing-Lou Yang [République populaire de Chine] ; Ben Hu [République populaire de Chine] ; Bo Wang [République populaire de Chine] ; Mei-Niang Wang [République populaire de Chine] ; Qian Zhang [République populaire de Chine] ; Wei Zhang [République populaire de Chine] ; Li-Jun Wu [République populaire de Chine] ; Xing-Yi Ge [République populaire de Chine] ; Yun-Zhi Zhang [République populaire de Chine] ; Peter Daszak [États-Unis] ; Lin-Fa Wang [Singapour] ; Zheng-Li Shi [République populaire de Chine]	Isolation and Characterization of a Novel Bat Coronavirus Closely Related to the Direct Progenitor of Severe Acute Respiratory Syndrome Coronavirus.
001343 (2015)		Coronaviruses: An Overview of Their Replication and Pathogenesis
001638 (2014)	Aleksandra Milewska [Pologne] ; Miroslaw Zarebski [Pologne] ; Paulina Nowak [Pologne] ; Karol Stozek [Pologne] ; Jan Potempa [États-Unis] ; Krzysztof Pyrc [Pologne]	Human coronavirus NL63 utilizes heparan sulfate proteoglycans for attachment to target cells.
001694 (2014)	Hsin-Hou Chang [Taïwan] ; Po-Kong Chen [Taïwan] ; Guan-Ling Lin [Taïwan] ; Chun-Jen Wang [Taïwan] ; Chih-Hsien Liao [Taïwan] ; Yu-Cheng Hsiao [Taïwan] ; Jing-Hua Dong [Taïwan] ; Der-Shan Sun [Taïwan]	Cell adhesion as a novel approach to determining the cellular binding motif on the severe acute respiratory syndrome coronavirus spike protein.
001832 (2013)	Huihui Mou [Pays-Bas] ; V Stalin Raj ; Frank J M. Van Kuppeveld ; Peter J M. Rottier ; Bart L. Haagmans ; Berend Jan Bosch	The receptor binding domain of the new Middle East respiratory syndrome coronavirus maps to a 231-residue region in the spike protein that efficiently elicits neutralizing antibodies.
001897 (2013)	Guangwen Lu [République populaire de Chine] ; Yawei Hu ; Qihui Wang ; Jianxun Qi ; Feng Gao ; Yan Li ; Yanfang Zhang ; Wei Zhang ; Yuan Yuan ; Jinku Bao ; Buchang Zhang ; Yi Shi ; Jinghua Yan ; George F. Gao	Molecular basis of binding between novel human coronavirus MERS-CoV and its receptor CD26.
001929 (2013)	Stanley Perlman ; Jincun Zhao	Human Coronavirus EMC Is Not the Same as Severe Acute Respiratory Syndrome Coronavirus
001931 (2013)	Kozue Shimabukuro [Japon] ; Makoto Ujike ; Toshihiro Ito ; Hiroshi Tsunemitsu ; Hitoshi Oshitani ; Fumihiro Taguchi	Hemagglutination mediated by the spike protein of cell-adapted bovine torovirus.
001D14 (2012)	Marcel A. Müller ; V. Stalin Raj ; Doreen Muth ; Benjamin Meyer ; Stephan Kallies ; Saskia L. Smits ; Robert Wollny ; Theo M. Bestebroer ; Sabine Specht ; Tasnim Suliman ; Katrin Zimmermann ; Tabea Binger ; Isabella Eckerle ; Marco Tschapka ; Ali M. Zaki ; Albert D. M. E. Osterhaus ; Ron A. M. Fouchier ; Bart L. Haagmans ; Christian Drosten	Human Coronavirus EMC Does Not Require the SARS-Coronavirus Receptor and Maintains Broad Replicative Capability in Mammalian Cell Lines
001D35 (2012)	Yanchen Zhou [États-Unis] ; Graham Simmons	Development of novel entry inhibitors targeting emerging viruses.
001D52 (2012)	K K B. Li [République populaire de Chine] ; C W Yip ; C C Hon ; C Y Lam ; F. Zeng ; F C C. Leung	Characterisation of animal angiotensin-converting enzyme 2 receptors and use of pseudotyped virus to correlate receptor binding with susceptibility of SARS-CoV infection.
002020 (2011)	Christel Schwegmann-Wessels [Allemagne] ; Sandra Bauer ; Christine Winter ; Luis Enjuanes ; Hubert Laude ; Georg Herrler	The sialic acid binding activity of the S protein facilitates infection by porcine transmissible gastroenteritis coronavirus.
002161 (2011)	Kailang Wu [États-Unis] ; Lang Chen [États-Unis] ; Guiqing Peng [États-Unis] ; Wenbo Zhou [États-Unis] ; Christopher A. Pennell [États-Unis] ; Louis M. Mansky [États-Unis] ; Robert J. Geraghty [États-Unis] ; Fang Li [États-Unis]	A Virus-Binding Hot Spot on Human Angiotensin-Converting Enzyme 2 Is Critical for Binding of Two Different Coronaviruses▿
002B02 (2009)	Melissa M. Coughlin [États-Unis] ; John Babcook ; Bellur S. Prabhakar	Human monoclonal antibodies to SARS-coronavirus inhibit infection by different mechanisms.

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