Litcius/Paper detail

Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases

Franziska Jehle, Elena Macías‐Sánchez, Sanja Sviben, Peter Fratzl, Luca Bertinetti, Matthew J. Harrington

2020Nature Communications79 citationsDOIOpen Access PDF

Abstract

Complex hierarchical structure governs emergent properties in biopolymeric materials; yet, the material processing involved remains poorly understood. Here, we investigated the multi-scale structure and composition of the mussel byssus cuticle before, during and after formation to gain insight into the processing of this hard, yet extensible metal cross-linked protein composite. Our findings reveal that the granular substructure crucial to the cuticle's function as a wear-resistant coating of an extensible polymer fiber is pre-organized in condensed liquid phase secretory vesicles. These are phase-separated into DOPA-rich proto-granules enveloped in a sulfur-rich proto-matrix which fuses during secretion, forming the sub-structure of the cuticle. Metal ions are added subsequently in a site-specific way, with iron contained in the sulfur-rich matrix and vanadium coordinated by DOPA-catechol in the granule. We posit that this hierarchical structure self-organizes via phase separation of specific amphiphilic proteins within secretory vesicles, resulting in a meso-scale structuring that governs cuticle function.

Topics & Concepts

ChemistryVesicleAmphiphileByssusGranule (geology)FibrilBiophysicsVanadiumChemical engineeringMaterials scienceNanotechnologyPolymerMembraneBiochemistryMusselOrganic chemistryComposite materialBiologyEngineeringCopolymerEcologyPolymer Surface Interaction StudiesLubricants and Their AdditivesSurface Modification and Superhydrophobicity