Development of a stable insect cell line constitutively expressing rotavirus VP2 (original) (raw)
Formation of self-assembled triple-layered rotavirus-like particles (tlRLPs) by constitutive co-expression of VP2, VP6, and VP7 in stably transfected high-five insect cell lines
Maria Tornesello
Journal of Medical Virology, 2014
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Intracellular distribution of rotavirus structural proteins and virus-like particles expressed in the insect cell-baculovirus system
Laura A. Palomares
Journal of Biotechnology, 2006
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Assembly of double-shelled rotaviruslike particles by simultaneous expression of recombinant VP6 and VP7 proteins
Lorne Babiuk
Journal of virology, 1991
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Challenges for the production of virus-like particles in insect cells: The case of rotavirus-like particles
Laura A. Palomares
Biochemical Engineering Journal, 2009
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Expression and characterization of human group C rotavirus virus-like particles in insect cells
Merry Liu, Baoming Jiang
Virology, 2009
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Strategies for manipulating the relative concentration of recombinant rotavirus structural proteins during simultaneous production by insect cells
Laura A. Palomares
Biotechnology and Bioengineering, 2002
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Cloning and Expression of Simian Rotavirus Spike Protein (VP4) in Insect Cells by Baculovirus Expression System
Mazaher Khodabandehloo
Iranian Biomedical …, 2009
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EXPRESSION AND CHARACTERIZATION OF VP2 PROTEIN OF HUMAN ROTAVIRUS A IN A MAMMALIAN LUNG CELL LINE
Farzaneh Pourasgari
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Molecular characterization and expression of human Rotavirus recombinant protein VP 2 , VP 6 , and VP 7 transfected in Vero cell
Marselina Tan
2017
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Production of rotavirus-like particles in Spodoptera frugiperda larvae
Oscar Taboga
Journal of Virological Methods, 2008
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Intracellular dynamics in rotavirus-like particles production: Evaluation of multigene and monocistronic infection strategies
Helena Vieira
Process Biochemistry, 2006
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Purified Recombinant Rotavirus VP7 Forms Soluble, Calcium-Dependent Trimers
Harry Greenberg
Virology, 2000
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Recombinant outer capsid glycoprotein (VP7) of rotavirus expressed in insect cells induces neutralizing antibodies in rabbits
Mazaher Khodabandehloo
Iranian journal of public health, 2012
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Expression and immunoreactivity of a human group a rotavirus Vp4
TB Chen
Virologica Sinica, 2007
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Proteolysis of Monomeric Recombinant Rotavirus VP4 Yields an Oligomeric VP5* Core
Harry Greenberg
Journal of Virology, 2001
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Production of rotavirus core-like particles in Sf9 cells using recombinase-mediated cassette exchange
MARCOS HENRIQUE FONSECA SOUSA
Journal of Biotechnology, 2014
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Characterization of rotavirus replication intermediates: A model for the assembly of single-shelled particles
John Patton
Virology, 1989
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Synthesis of double-layered rotavirus-like particles using internal ribosome entry site vector system in stably-transformed Drosophila melanogaster
Hà Chung
Biotechnology Letters, 2010
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Chimaeric Virus-Like Particles Derived from Consensus Genome Sequences of Human Rotavirus Strains Co-Circulating in Africa
Khuzwayo Jere
PLoS ONE, 2014
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Structure of rotavirus particle: interaction of the inner capsid protein VP6 with the core polypeptide VP3
Ana Maria Sandino
Biological research, 1994
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Biochemical and immunologic comparison of virus-like particles for a rotavirus subunit vaccine
Vicki Barniak
Vaccine, 1999
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Chimeric recombinant rotavirus-like particles as a vehicle for the display of heterologous epitopes
Oscar Taboga
Virology Journal, 2009
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Triple layered rotavirus VLP production: Kinetics of vector replication, mRNA stability and recombinant protein production
Helena L A Vieira
Journal of Biotechnology, 2005
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Rotavirus assembly - interaction of surface protein VP7 with middle layer protein VP6
Harry Greenberg
Archives of Virology, 2001
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Molecular biology of rotaviruses. I. Characterization of basic growth parameters and pattern of macromolecular synthesis. J Virol 39: 490-496
Malcolm McCrae
Journal of Virology
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Inhibition of in vitro reconstitution of rotavirus transcriptionally active particles by anti-VP6 monoclonal antibodies
Eugenio Spencer
Archives of Virology, 1994
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The VP5 Domain of VP4 Can Mediate Attachment of Rotaviruses to Cells
Selene Zárate
Journal of Virology, 2000
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A rapid method to produce high yields of purified rotavirus particles
Guillermo Villegas
Journal of Virological Methods, 2002
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