Abstract
Prokaryotes organize intracellular compartments with protein-based organelles called encapsulins. Encapsulins with icosahedral symmetry can encapsulate specific cargo proteins mediated by targeting peptides or encapsulation-mediating domains. Encapsulins have been used in eukaryotic cells for bioengineering, vaccine development, and nanoparticle alignment. Their versatility makes them attractive for research; however, detailed structural information on encapsulins is crucial for further applied research. However, cargo proteins are randomly oriented inside the icosahedral encapsulins. The random orientation of cargo proteins presents a challenge for structural analysis that relies on averaging processes such as x-ray crystallography and cryo-electron microscopy (cryo-EM) single-particle imaging. Therefore, we aimed to accurately estimate the secondary structure content and elucidate the structure of cargo proteins inside the particle by measuring the circular dichroism (CD) spectra using vacuum ultraviolet circular dichroism (VUVCD) spectroscopy. Thus, the structure of the cargo protein inside encapsulin was evaluated. This approach could potentially set a standard for evaluating cargo proteins inside particles in future applied research on encapsulins.
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