Spike < Spike Glycoprotein, Coronavirus < Spike Glycoprotein, Coronavirus (administration & dosage)

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List of bibliographic references indexed by Spike Glycoprotein, Coronavirus

Number of relevant bibliographic references: 567.
[20-40] [0 - 20][0 - 50][40-60]

Ident.	Authors (with country if any)	Title
001D09 (2012)	Siqingaowa Suo [République populaire de Chine] ; Yudong Ren ; Guangxing Li ; Dante Zarlenga ; Ri-E Bu ; Dingding Su ; Xunliang Li ; Pengchong Li ; Fandan Meng ; Chao Wang ; Xiaofeng Ren	Immune responses induced by DNA vaccines bearing Spike gene of PEDV combined with porcine IL-18.
001D12 (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.
001D15 (2012)	Di-Qiu Liu [République populaire de Chine] ; Jun-Wei Ge ; Xin-Yuan Qiao ; Yan-Ping Jiang ; Song-Mei Liu ; Yi-Jing Li	High-level mucosal and systemic immune responses induced by oral administration with Lactobacillus-expressed porcine epidemic diarrhea virus (PEDV) S1 region combined with Lactobacillus-expressed N protein.
001D22 (2012)	Yutaka Terada [Japon] ; Yuto Shiozaki [Japon] ; Hiroshi Shimoda [Japon] ; Hassan Youssef Abdel Hamid Mahmoud [Japon] ; Keita Noguchi [Japon] ; Yumiko Nagao [Japon] ; Masayuki Shimojima [Japon] ; Hiroyuki Iwata [Japon] ; Takuya Mizuno [Japon] ; Masaru Okuda [Japon] ; Masahiro Morimoto [Japon] ; Toshiharu Hayashi [Japon] ; Yoshikazu Tanaka [Japon] ; Masami Mochizuki [Japon] ; Ken Maeda [Japon]	Feline infectious peritonitis virus with a large deletion in the 5'-terminal region of the spike gene retains its virulence for cats.
001D24 (2012)	Jean Kaoru Millet [République populaire de Chine] ; François Kien ; Chung-Yan Cheung ; Yu-Lam Siu ; Wing-Lim Chan ; Huiying Li ; Hiu-Lan Leung ; Martial Jaume ; Roberto Bruzzone ; Joseph S Malik Peiris ; Ralf Marius Altmeyer ; Béatrice Nal	Ezrin interacts with the SARS coronavirus Spike protein and restrains infection at the entry stage.
001D33 (2012)	Kazuya Shirato ; Miyuki Kawase ; Oshi Watanabe [Japon] ; Chika Hirokawa [Japon] ; Shutoku Matsuyama ; Hidekazu Nishimura [Japon] ; Fumihiro Taguchi [Japon]	Differences in neutralizing antigenicity between laboratory and clinical isolates of HCoV-229E isolated in Japan in 2004-2008 depend on the S1 region sequence of the spike protein.
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.
001D54 (2012)	Xiang Qiu [République populaire de Chine] ; Chao Hong ; Yue Li ; Wanrong Bao ; Xiao-Ming Gao	Calreticulin as a hydrophilic chimeric molecular adjuvant enhances IgG responses to the spike protein of severe acute respiratory syndrome coronavirus.
001D61 (2012)	Kuan-Hsun Lin [Taïwan] ; Chuen-Fu Lin ; Shyan-Song Chiou ; Ai-Ping Hsu ; Min-Shiuh Lee ; Chao-Chin Chang ; Tien-Jye Chang ; Jui-Hung Shien ; Wei-Li Hsu	Application of purified recombinant antigenic spike fragments to the diagnosis of avian infectious bronchitis virus infection.
001E57 (2012)	Melissa M. Coughlin [États-Unis] ; Bellur S. Prabhakar [États-Unis]	Neutralizing human monoclonal antibodies to severe acute respiratory syndrome coronavirus: target, mechanism of action, and therapeutic potential
001F23 (2012)	Paulo E. Brandão [Brésil]	Avian coronavirus Spike Glycoprotein Ectodomain Shows a Low Codon Adaptation to Gallus gallus with Virus-Exclusive Codons in Strategic Amino Acids Positions
001F70 (2012)	Candice Clay [États-Unis] ; Nathan Donart [États-Unis] ; Ndingsa Fomukong [États-Unis] ; Jennifer B. Knight [États-Unis] ; WANLI LEI [États-Unis] ; Lance Price [États-Unis] ; Fletcher Hahn [États-Unis] ; Jesse Van Westrienen [États-Unis] ; Kevin S. Harrod [États-Unis]	Primary Severe Acute Respiratory Syndrome Coronavirus Infection Limits Replication but Not Lung Inflammation upon Homologous Rechallenge
001F73 (2012)	Masaya Fukushi [Japon] ; Yoshiyuki Yoshinaka [Japon] ; Yusuke Matsuoka [Japon] ; Seisuke Hatakeyama [Japon] ; Yukihito Ishizaka [Japon] ; Teruo Kirikae [Japon] ; Takehiko Sasazuki [Japon] ; Tohru Miyoshi-Akiyama [Japon]	Monitoring of S Protein Maturation in the Endoplasmic Reticulum by Calnexin Is Important for the Infectivity of Severe Acute Respiratory Syndrome Coronavirus
001F95 (2012)	Anna-Winona Struck [Allemagne] ; Marco Axmann [Allemagne] ; Susanne Pfefferle [Allemagne] ; Christian Drosten [Allemagne] ; Bernd Meyer [Allemagne]	A hexapeptide of the receptor-binding domain of SARS corona virus spike protein blocks viral entry into host cells via the human receptor ACE2
002003 (2011)	Shutoku Matsuyama [Japon]	[Protease-dependent cell entry mechanism of coronaviruses].
002006 (2011)	Fumihiro Taguchi [Japon]	[Coronaviruses].
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.
002049 (2011)	Meagan Bolles [États-Unis] ; Eric Donaldson [États-Unis] ; Ralph Baric [États-Unis]	SARS-CoV and emergent coronaviruses: viral determinants of interspecies transmission
002062 (2011)	Lanying Du [États-Unis] ; Xiujuan Zhang ; Jixiang Liu ; Shibo Jiang	Protocol for recombinant RBD-based SARS vaccines: protein preparation, animal vaccination and neutralization detection.
002077 (2011)	Kazuya Shirato [Japon] ; Madoka Maejima ; Shutoku Matsuyama ; Makoto Ujike ; Ayako Miyazaki ; Natsumi Takeyama ; Hidetoshi Ikeda ; Fumihiro Taguchi	Mutation in the cytoplasmic retrieval signal of porcine epidemic diarrhea virus spike (S) protein is responsible for enhanced fusion activity.
002078 (2011)	Nabil Ben Salem Abid [Russie] ; Sergei A. Chupin ; Olga P. Bjadovskaya ; Olga G. Andreeva ; Mahjoub Aouni ; Javier Buesa ; Taufik Z. Baybikov ; Larisa B. Prokhvatilova	Molecular study of porcine transmissible gastroenteritis virus after serial animal passages revealed point mutations in S protein.

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