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Molecular dynamics simulation of the interactions between EHD1 EH domain and multiple peptides.


ABSTRACT: To provide essential information for peptide inhibitor design, the interactions of Eps15 homology domain of Eps15 homology domain-containing protein 1 (EHD1 EH domain) with three peptides containing NPF (asparagine-proline-phenylalanine), DPF (aspartic acid-proline-phenylalanine), and GPF (glycine-proline-phenylalanine) motifs were deciphered at the atomic level. The binding affinities and the underlying structure basis were investigated.Molecular dynamics (MD) simulations were performed on EHD1 EH domain/peptide complexes for 60 ns using the GROMACS package. The binding free energies were calculated and decomposed by molecular mechanics/generalized Born surface area (MM/GBSA) method using the AMBER package. The alanine scanning was performed to evaluate the binding hot spot residues using FoldX software.The different binding affinities for the three peptides were affected dominantly by van der Waals interactions. Intermolecular hydrogen bonds provide the structural basis of contributions of van der Waals interactions of the flanking residues to the binding.van der Waals interactions should be the main consideration when we design peptide inhibitors of EHD1 EH domain with high affinities. The ability to form intermolecular hydrogen bonds with protein residues can be used as the factor for choosing the flanking residues.

SUBMITTER: Yu H 

PROVIDER: S-EPMC4609540 | biostudies-literature | 2015 Oct

REPOSITORIES: biostudies-literature

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Molecular dynamics simulation of the interactions between EHD1 EH domain and multiple peptides.

Yu Hua H   Wang Mao-jun MJ   Xuan Nan-xia NX   Shang Zhi-cai ZC   Wu Jun J  

Journal of Zhejiang University. Science. B 20151001 10


<h4>Objective</h4>To provide essential information for peptide inhibitor design, the interactions of Eps15 homology domain of Eps15 homology domain-containing protein 1 (EHD1 EH domain) with three peptides containing NPF (asparagine-proline-phenylalanine), DPF (aspartic acid-proline-phenylalanine), and GPF (glycine-proline-phenylalanine) motifs were deciphered at the atomic level. The binding affinities and the underlying structure basis were investigated.<h4>Methods</h4>Molecular dynamics (MD)  ...[more]

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