Article

The Conformations of Amino Acids on a Gold(111) Surface

  1. Martin Hoefling1,
  2. Francesco Iori Dr.2,3,
  3. Stefano Corni Dr.2,
  4. Kay-Eberhard Gottschalk Dr.1,4

Article first published online: 18 MAR 2010

DOI: 10.1002/cphc.200900990

Issue

ChemPhysChem

ChemPhysChem

Volume 11, Issue 8, pages 1763–1767, June 7, 2010

Additional Information

How to Cite

Hoefling, M., Iori, F., Corni, S. and Gottschalk, K.-E. (2010), The Conformations of Amino Acids on a Gold(111) Surface. ChemPhysChem, 11: 1763–1767. doi: 10.1002/cphc.200900990

Author Information

  1. 1

    Chair for Applied Physics, Biophysics and Molecular Materials, Ludwig-Maximilians Universität, Amalienstr. 54, 80799 Munich (Germany), Fax: (+49) 89 2180 2050

  2. 2

    S3, CNR-Instituto di Nanoscienze via Campi 213/A, 41125 Modena (Italy)

  3. 3

    Dept. of Physics, University of Modena and Reggio Emilia via Campi 213/A, 41125 Modena (Italy)

  4. 4

    Current address: ZIK HIKE, Ernst Moritz Arndt University Greifswald, Fleischmannstraße 42–44, 17475 Greifswald (Germany)

Publication History

  1. Issue published online: 31 MAY 2010
  2. Article first published online: 18 MAR 2010
  3. Manuscript Received: 11 DEC 2009

Funded by

  • FP6. Grant Number: FP6-NEST-028331
  • FCI
  • BMBF. Grant Number: ZIK HIKE, FKZ 03Z2CK1

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Keywords:

  • amino acids;
  • conformation analysis;
  • density functional theory;
  • gold;
  • molecular dynamics

Abstract

The interactions of amino acids with inorganic surfaces are of interest for biologists and biotechnologists alike. However, the structural determinants of peptide–surface interactions have remained elusive, but are important for a structural understanding of the interactions of biomolecules with gold surfaces. Molecular dynamics simulations are a tool to analyze structures of amino acids on surfaces. However, such an approach is challenging due to lacking parameterization for many surfaces and the polarizability of metal surfaces. Herein, we report DFT calculations of amino acid fragments in vacuo and molecular dynamics simulations of the interaction of all amino acids with a gold(111) surface in explicit solvent, using the recently introduced polarizable gold force field GolP. We describe preferred orientations of the amino acids on the metal surface. We find that all amino acids preferably interact with the gold surface at least partially with their backbone, underlining an unfolding propensity of gold surfaces.

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