posted on 2020-04-03, 13:09authored byXinlei Huang, Lyudmila M. Bronstein, John Retrum, Chris Dufort, Irina Tsvetkova, Stella Aniagyei, Barry Stein, Galen Stucky, Brandon McKenna, Nicholas Remmes, David Baxter, C. Cheng Kao, Bogdan Dragnea
Efficient encapsulation of functionalized spherical nanoparticles by viral protein cages was found to occur even if the nanoparticle is larger
than the inner cavity of the native capsid. This result raises the intriguing possibility of reprogramming the self-assembly of viral structural
proteins. The iron oxide nanotemplates used in this work are superparamagnetic, with a blocking temperature of about 250 K, making these
virus-like particles interesting for applications such as magnetic resonance imaging and biomagnetic materials. Another novel feature of the
virus-like particle assembly described in this work is the use of an anionic lipid micelle coat instead of a molecular layer covalently bound
to the inorganic nanotemplate. Differences between the two functionalization strategies are discussed.