Abstract
Materials science is beginning to focus on biotemplation, and in support of that trend, it is realized that protein cages-proteins that assemble from multiple monomers into architectures with hollow interiors-can instill a number of unique advantages to nanomaterials. In addition, the structural and functional plasticity of many protein-cage systems permits their engineering for specific applications. In this review, the most commonly used viral and non-viral protein cages, which exhibit a wide diversity of size, functionality, and chemical and thermal stabilities, are described. Moreover, how they have been exploited for nanomaterial and nanotechnology applications is summarized.
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