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Side‐Chain Chemistry Governs Hierarchical Order of Charge‐Complementary β‐sheet Peptide Coassemblies

Renjie Liu, Xin Dong, Dillon T. Seroski, Bethsymarie Soto Morales, Kong M. Wong, Alicia S. Robang, Lucas Melgar, Thomas E. Angelini, Anant K. Paravastu, Carol K. Hall, Gregory A. Hudalla

2023Angewandte Chemie International Edition13 citationsDOIOpen Access PDF

Abstract

Self-assembly of proteinaceous biomolecules into functional materials with ordered structures that span length scales is common in nature yet remains a challenge with designer peptides under ambient conditions. This report demonstrates how charged side-chain chemistry affects the hierarchical co-assembly of a family of charge-complementary β-sheet-forming peptide pairs known as CATCH(X+/Y-) at physiologic pH and ionic strength in water. In a concentration-dependent manner, the CATCH(6K+) (Ac-KQKFKFKFKQK-Am) and CATCH(6D-) (Ac-DQDFDFDFDQD-Am) pair formed either β-sheet-rich microspheres or β-sheet-rich gels with a micron-scale plate-like morphology, which were not observed with other CATCH(X+/Y-) pairs. This hierarchical order was disrupted by replacing D with E, which increased fibril twisting. Replacing K with R, or mutating the N- and C-terminal amino acids in CATCH(6K+) and CATCH(6D-) to Qs, increased observed co-assembly kinetics, which also disrupted hierarchical order. Due to the ambient assembly conditions, active CATCH(6K+)-green fluorescent protein fusions could be incorporated into the β-sheet plates and microspheres formed by the CATCH(6K+/6D-) pair, demonstrating the potential to endow functionality.

Topics & Concepts

PeptideOrder (exchange)Charge (physics)Chain (unit)ChemistrySide chainNanotechnologyBiophysicsComputer scienceMaterials sciencePhysicsBiochemistryBiologyOrganic chemistryBusinessQuantum mechanicsPolymerFinanceSupramolecular Self-Assembly in MaterialsChemical Synthesis and AnalysisPhotochromic and Fluorescence Chemistry