4.8 Article

A novel form of beta-strand assembly observed in A beta(33-42) adsorbed onto graphene

Journal

NANOSCALE
Volume 7, Issue 37, Pages 15341-15348

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/c5nr00555h

Keywords

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Funding

  1. 100-Talent Project from Chinese Academy of Science, the Ministry of Science and Technology (MOST) 973 program [2013CB933704, 2012CB932504]
  2. National Natural Science Foundation of China (NSFC) [21273240]
  3. IBM Blue Gene Science Program
  4. Villum Fonden [00007194] Funding Source: researchfish

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Peptide assembly plays a seminal role in the fabrication of structural and functional architectures in cells. Characteristically, peptide assemblies are often dominated by beta-sheet structures, wherein component molecules are connected by backbone hydrogen bonds in a parallel or an antiparallel fashion. While beta-rich peptide scaffolds are implicated in an array of neurodegenerative diseases, the mechanisms by which toxic peptides assemble and mediate neuropathic effects are still poorly understood. In this work, we employ molecular dynamics simulations to study the adsorption and assembly of the fragment A beta(33-42) (taken from the A beta-42 peptide widely associated with Alzheimer's disease) on a graphene surface. We observe that such A beta(33-42) fragments, which are largely hydrophobic in character, readily adsorb onto the graphitic surface and coalesce into a well-structured, beta-strand-like assembly. Strikingly, the structure of such complex is quite unique: hydrophobic side-chains extend over the graphene surface and interact with adjacent peptides, yielding a well-defined mosaic of hydrophobic interaction patches. This ordered structure is markedly depleted of backbone hydrogen bonds. Hence, our simulation results reveal a distinct type of beta-strand assembly, maintained by hydrophobic side-chain interactions. Our finding suggests the backbone hydrogen bond is no longer crucial to the peptide assembly. Further studies concerning whether such beta-strand assembly can be realized in other peptide systems and in biologically-relevant contexts are certainly warranted.

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