Abstract
The construction of three-dimensional (3D) array materials from nanoscale building blocks has drawn significant interest because of their potential to exhibit collective properties and functions arising from the interactions between individual building blocks. Protein cages such as virus-like particles (VLPs) have distinct advantages as building blocks for higher-order assemblies because they are extremely homogeneous in size and can be engineered with new functionalities by chemical and/or genetic modification. In this chapter, we describe a protocol for constructing a new class of protein-based superlattices, called protein macromolecular frameworks (PMFs). We also describe an exemplary method to evaluate the catalytic activity of enzyme-enclosed PMFs, which exhibit enhanced catalytic activity due to the preferential partitioning of charged substrates into the PMF.
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