Immunophénotypage < Immunoprécipitation < Immunoprécipitation de la chromatine

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List of bibliographic references indexed by Immunoprécipitation

Number of relevant bibliographic references: 20.

Ident.	Authors (with country if any)	Title
000D89 (2017)	Su-Hua Huang [Taïwan] ; Tzu-Ying Lee [Taïwan] ; Ying-Ju Lin [Taïwan] ; Lei Wan [Taïwan] ; Chih-Ho Lai [Taïwan] ; Cheng-Wen Lin [Taïwan]	Phage display technique identifies the interaction of severe acute respiratory syndrome coronavirus open reading frame 6 protein with nuclear pore complex interacting protein NPIPB3 in modulating Type I interferon antagonism.
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.
001549 (2014)	Jose M. Jimenez-Guarde O ; Jose L. Nieto-Torres ; Marta L. Dediego ; Jose A. Regla-Nava ; Raul Fernandez-Delgado ; Carlos Casta O-Rodriguez ; Luis Enjuanes	The PDZ-Binding Motif of Severe Acute Respiratory Syndrome Coronavirus Envelope Protein Is a Determinant of Viral Pathogenesis
001890 (2013)	Adeyemi O. Adedeji [États-Unis] ; William Severson ; Colleen Jonsson ; Kamalendra Singh ; Susan R. Weiss ; Stefan G. Sarafianos	Novel inhibitors of severe acute respiratory syndrome coronavirus entry that act by three distinct mechanisms.
001C55 (2012)	Enrique Calvo [Espagne] ; Marta L. Dediego ; Pilar García ; Juan A. L Pez ; Pilar Pérez-Bre A ; Ana Falc N	Severe acute respiratory syndrome coronavirus accessory proteins 6 and 9b interact in vivo.
001C63 (2012)	Wei-Yen Wei [Taïwan] ; Hui-Chun Li ; Chiung-Yao Chen ; Chee-Hing Yang ; Shen-Kao Lee ; Chia-Wen Wang ; Hsin-Chieh Ma ; Yue-Li Juang ; Shih-Yen Lo	SARS-CoV nucleocapsid protein interacts with cellular pyruvate kinase protein and inhibits its activity.
002157 (2011)	Ana Shulla [États-Unis] ; Taylor Heald-Sargent ; Gitanjali Subramanya ; Jincun Zhao ; Stanley Perlman ; Tom Gallagher	A transmembrane serine protease is linked to the severe acute respiratory syndrome coronavirus receptor and activates virus entry.
002462 (2010)	Natalia Vasilenko [Canada] ; Igor Moshynskyy ; Alexander Zakhartchouk	SARS coronavirus protein 7a interacts with human Ap4A-hydrolase.
002528 (2010)	Wei Gao [République populaire de Chine] ; Wenqi He ; Kui Zhao ; Huijun Lu ; Wenzhi Ren ; Chongtao Du ; Keyan Chen ; Yungang Lan ; Deguang Song ; Feng Gao	Identification of NCAM that interacts with the PHE-CoV spike protein.
002962 (2009)	Hsiang-I. Liao ; C. Anders Olson [États-Unis] ; Seungmin Hwang ; Hongyu Deng ; Elaine Wong ; Ralph S. Baric ; Richard W. Roberts ; Ren Sun	mRNA Display Design of Fibronectin-based Intrabodies That Detect and Inhibit Severe Acute Respiratory Syndrome Coronavirus Nucleocapsid Protein*
002B19 (2009)	Shih-Chi Chen [Taïwan] ; Shih-Yen Lo ; Hsin-Chieh Ma ; Hui-Chun Li	Expression and membrane integration of SARS-CoV E protein and its interaction with M protein.
002B93 (2009)	Wataru Kamitani [États-Unis] ; Cheng Huang ; Krishna Narayanan ; Kumari G. Lokugamage ; Shinji Makino	A two-pronged strategy to suppress host protein synthesis by SARS coronavirus Nsp1 protein.
002F85 (2008)	Christine Winter [Allemagne] ; Christel Schwegmann-Wessels ; Ulrich Neumann ; Georg Herrler	The spike protein of infectious bronchitis virus is retained intracellularly by a tyrosine motif.
002F87 (2008)	Bing Zhou [République populaire de Chine] ; Junli Liu ; Qiuna Wang ; Xuan Liu ; Xiaorong Li ; Ping Li ; Qingjun Ma ; Cheng Cao	The nucleocapsid protein of severe acute respiratory syndrome coronavirus inhibits cell cytokinesis and proliferation by interacting with translation elongation factor 1alpha.
003096 (2008)	Min Hong [République populaire de Chine] ; Weizhong Li ; Lichun Wang ; Li Jiang ; Longding Liu ; Hongling Zhao ; Qihan Li	Identification of a novel transcriptional repressor (HEPIS) that interacts with nsp-10 of SARS coronavirus.
003573 (2007)	Purnima Kumar [Inde] ; Vithiagaran Gunalan ; Boping Liu ; Vincent T K. Chow ; Julian Druce ; Chris Birch ; Mike Catton ; Burtram C. Fielding ; Yee-Joo Tan ; Sunil K. Lal	The nonstructural protein 8 (nsp8) of the SARS coronavirus interacts with its ORF6 accessory protein.
003648 (2007)	Xue Zhang [République populaire de Chine] ; Kailang Wu [République populaire de Chine] ; Di Wang [République populaire de Chine] ; Xin Yue [République populaire de Chine] ; Degui Song [République populaire de Chine] ; Ying Zhu [République populaire de Chine] ; Jianguo Wu [République populaire de Chine]	Nucleocapsid protein of SARS-CoV activates interleukin-6 expression through cellular transcription factor NF-κB
003C57 (2006)	Milan Surjit [Inde] ; Boping Liu ; Vincent T K. Chow ; Sunil K. Lal	The nucleocapsid protein of severe acute respiratory syndrome-coronavirus inhibits the activity of cyclin-cyclin-dependent kinase complex and blocks S phase progression in mammalian cells.
003C63 (2006)	Choong-Tat Keng ; Yook-Wah Choi ; Matthijs R. A. Welkers ; Daphne Z. L. Chan ; Shuo Shen ; Seng Gee Lim ; Wanjin Hong ; Yee-Joo Tan	The human severe acute respiratory syndrome coronavirus (SARS-CoV) 8b protein is distinct from its counterpart in animal SARS-CoV and down-regulates the expression of the envelope protein in infected cells
003D12 (2006)	Cheng Huang [États-Unis] ; Krishna Narayanan ; Naoto Ito ; C J Peters ; Shinji Makino	Severe acute respiratory syndrome coronavirus 3a protein is released in membranous structures from 3a protein-expressing cells and infected cells.

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