Triggered Reversible Disassembly of an Engineered Protein Nanocage**

Protein nanocages play crucial roles in sub-cellular compartmentalization and spatial control in all domains of life and have been used as biomolecular tools for applications in biocatalysis, drug delivery, and bionanotechnology. The ability to control their assembly state under physiological conditions would further expand their practical utility. To gain such control, we introduced a peptide capable of triggering conformational change at a key structural position in the largest known encapsulin nanocompartment. We report the structure of the resulting engineered nanocage and demonstrate its ability to disassemble and reassemble on demand under physiological conditions. We demonstrate its capacity for in vivo encapsulation of proteins of choice while also demonstrating in vitro cargo loading capabilities. Our results represent a functionally robust addition to the nanocage toolbox and a novel approach for controlling protein nanocage disassembly and reassembly under mild conditions.

Automated summary

Researchers introduced a peptide capable of triggering conformational change in the largest known encapsulin nanocompartment, enabling controlled disassembly and reassembly under physiological conditions. The engineered nanocage demonstrated the ability to encapsulate proteins of choice in vivo and load cargo in vitro, serving as a functionally robust addition to the nanocage toolbox and a novel approach for controlling protein nanocage assembly.