Hollow octadecameric self-assembly of collagen-like peptides

dc.contributor.authorYu, Le Tracy
dc.contributor.authorHancu, Maria C.
dc.contributor.authorKreutzberger, Mark A. B.
dc.contributor.authorHenrickson, Amy
dc.contributor.authorDemeler, Borries
dc.contributor.authorEgelman, Edward H.
dc.contributor.authorHartgerink, Jeffrey D.
dc.date.accessioned2026-05-25T23:14:08Z
dc.date.issued2023
dc.descriptionAccepted author manuscript
dc.description.abstractThe folding of collagen is a hierarchical process that starts with three peptides associating into the characteristic triple helical fold. Depending on the specific collagen in question, these triple helices then assemble into bundles reminiscent of α-helical coiled-coils. Unlike α-helices, however, the bundling of collagen triple helices is very poorly understood with almost no direct experimental data available. In order to shed light on this critical step of collagen hierarchical assembly, we have examined the collagenous region of complement component 1q. Thirteen synthetic peptides were prepared to dissect the critical regions allowing for its octadecameric self-assembly. We find that short peptides (under 40 amino acids) are able to self-assemble into specific (ABC)6 octadecamers. This requires the ABC heterotrimeric composition as the self-assembly subunit, but does not require disulfide bonds. Self-assembly into this octadecamer is aided by short noncollagenous sequences at the N-terminus, although they are not entirely required. The mechanism of self-assembly appears to begin with the very slow formation of the ABC heterotrimeric helix, followed by rapid bundling of triple helices into progressively larger oligomers, terminating in the formation of the (ABC)6 octadecamer. Cryo-electron microscopy reveals the (ABC)6 assembly as a remarkable, hollow, crown-like structure with an open channel approximately 18 Å at the narrow end and 30 Å at the wide end. This work helps to illuminate the structure and assembly mechanism of a critical protein in the innate immune system and lays the groundwork for the de novo design of higher order collagen mimetic peptide assemblies.
dc.description.peer-reviewYes
dc.identifier.citationYu, L. T., Hancu, M. C., Kreutzberger, M. A. B., Henrickson, A., Demeler, B., Egelman, E. H., & Hartgerink, J. D. (2023). Hollow octadecameric self-assembly of collagen-like peptides. Journal of the American Chemical Society, 145(9), 5285-5296. https://doi.org/10.1021/jacs.2c12931
dc.identifier.urihttps://hdl.handle.net/10133/7426
dc.language.isoen
dc.publisherACS Publications
dc.publisher.departmentDepartment of Chemistry and Biochemistry
dc.publisher.facultyArts and Science
dc.publisher.institutionRice University
dc.publisher.institutionUniversity of Virginia
dc.publisher.institutionUniversity of Lethbridge
dc.publisher.urlhttps://doi.org/10.1021/jacs.2c12931
dc.subjectBipolymers
dc.subjectDisulfides
dc.subjectMelting
dc.subjectMonomers
dc.subjectPeptides and proteins
dc.titleHollow octadecameric self-assembly of collagen-like peptides
dc.typeArticle

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