Encapsulins are robust and engineerable proteins that form hollow, nanosized, icosahedral capsids, making them attractive vehicles for drug delivery, scaffolds for synthetic bionanoreactors, and artificial organelles. A major limitation of native encapsulins is the small size of pores in the protein shell. At 3 Å diameter, these pores impose significant restrictions on the molecular weight and diffusion rate of potential substrates. By redesigning the pore-forming loop region in encapsulin from Thermotoga maritima, we successfully enlarged pore diameter up to an estimated 11 Å and increased mass transport rates by 7-fold as measured by lanthanide ion diffusion assay. Our study demonstrates the high tolerance of encapsulin for protein engineering and has created a set of novel, functionally improved scaffolds for applications as bionanoreactors.
Keywords: encapsulin; nanocompartments; protein engineering.