Micro- and nanoparticles are often designed by mimicking naturally occurring structures. Bacterial spores are dormant cells elaborated by some Gram-positive bacteria during poor growth conditions to protect their genetic material from harsh environmental stresses. In Bacillus subtilis, this protection is, in part, conferred by a proteinaceous shell, the "coat", which is composed of ~80 different proteins. The basement layer of the coat contains two unusual proteins, which we have recently reconstituted around silica beads to generate synthetic spore-like particles termed "SSHELs". Here, we describe the protocol for generating SSHEL particles, and describe the procedure to covalently link molecules of interest (in this case an anti-HER2 affibody) to SSHEL surfaces. SSHELs therefore represent a versatile platform for the display of ligands or antigens for the site-specific delivery of cargo or vaccines.
Keywords: C. difficile; Cancer; Drug delivery; Nanoparticle; SpoIVA; SpoVM; Sporulation; Synthetic biology.
© 2024. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.