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A potential nanobiotechnology platform based on infectious bursal disease subviral particles.


ABSTRACT: We describe a novel nanobiotechnology platform based on subviral particles derived from infectious bursal disease virus (IBD-SVPs). The major virus coat protein VP2 assembles into spherical, 23 nm SVPs when expressed as a heterologous protein in the yeast Pichia pastoris. We recovered up to 38 mg of IBD-SVPs at > 95% purity from 1 L of recombinant yeast culture. The purified particles were able to tolerate organic solvents up to 20% concentration (ethanol or dimethylsulfoxide), they resisted temperatures up to 65 °C and remained stable over a wide pH range (2.5-9.0). We achieved bioconjugation to the amine groups of lysine residues and to the carboxyl groups of aspartic and glutamic acid residues, allowing the functionalization of IBD-SVPs with biotin. The accessibility of surface amine groups was measured using Alexa Fluor 488 N-hydroxysuccinimide (NHS) ester, an amine-selective fluorescent dye, revealing that approximately 60 dye molecules were attached to the surface of each particle. IBD-SVPs can therefore be exploited as a robust and versatile nanoscaffold to display diverse functional ligands.

SUBMITTER: Taghavian O 

PROVIDER: S-EPMC5476370 | biostudies-literature | 2012 Mar

REPOSITORIES: biostudies-literature

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A potential nanobiotechnology platform based on infectious bursal disease subviral particles.

Taghavian Omid O   Mandal Manoj K MK   Steinmetz Nicole F NF   Rasche Stefan S   Spiegel Holger H   Fischer Rainer R   Schillberg Stefan S  

RSC advances 20120109 5


We describe a novel nanobiotechnology platform based on subviral particles derived from <i>infectious bursal disease virus</i> (IBD-SVPs). The major virus coat protein VP2 assembles into spherical, 23 nm SVPs when expressed as a heterologous protein in the yeast <i>Pichia pastoris</i>. We recovered up to 38 mg of IBD-SVPs at > 95% purity from 1 L of recombinant yeast culture. The purified particles were able to tolerate organic solvents up to 20% concentration (ethanol or dimethylsulfoxide), the  ...[more]

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