3J89: Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies

Numerous instances can be seen in evolution in which protein quaternary structures have diverged while the sequences of the building blocks have remained fairly conserved. However, the path through which such divergence has taken place is usually not known. We have designed two synthetic 29-residue alpha-helical peptides, based on the coiled-coil structural motif, that spontaneously self-assemble into helical nanotubes in vitro. Using electron cryomicroscopy with a newly available direct electron detection capability, we can achieve near-atomic resolution of these thin structures. We show how conservative changes of only one or two amino acids result in dramatic changes in quaternary structure, in which the assemblies can be switched between two very different forms. This system provides a framework for understanding how small sequence changes in evolution can translate into very large changes in supramolecular structure, a phenomenon that may have significant implications for the de novo design of synthetic peptide assemblies.
PDB ID: 3J89Download
MMDB ID: 126796
PDB Deposition Date: 2014/10/7
Updated in MMDB: 2018/06
Experimental Method:
electron microscopy
Resolution: 3.6  Å
Source Organism:
Similar Structures:
Biological Unit for 3J89: nonadecameric; determined by author
Molecular Components in 3J89
Label Count Molecule
Proteins (19 molecules)
Synthetic Peptide
Molecule annotation
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