Proteins: Structure, Function and Genetics

, volume 78 , issue 8 , pages 1950-1958

Improved side-chain torsion potentials for the Amber ff99SB protein force field

Kresten Lindorff-Larsen ¹

Stefano Piana ²

Kim Palmo ²

Paul Maragakis ²

John L Klepeis ²

Ron O. Dror ²

David A. Shaw ^{3, 4}

Hide authors affiliations Show authors affiliations: 4 affiliations

D E Shaw Research, New York, New York 10036, USA. |

D. E. Shaw Research, New York, New York, 10036. |

Center for Computational Biology and Bioinformatics, Columbia University, New York, New York 10032 |

⁴

D. E. Shaw Research, New York, New York 10036 |

Publication type: Journal Article

Publication date: 2010-03-09

Wiley

Proteins: Structure, Function and Genetics

scimago Q1

wos Q2

SJR: 1.400

CiteScore: 7.2

Impact factor: 2.8

ISSN: 08873585, 10970134

DOI: 10.1002/prot.22711

Copy DOI

PubMed ID: 20408171

Biochemistry

Molecular Biology

Structural Biology

Abstract

Recent advances in hardware and software have enabled increasingly long molecular dynamics (MD) simulations of biomolecules, exposing certain limitations in the accuracy of the force fields used for such simulations and spurring efforts to refine these force fields. Recent modifications to the Amber and CHARMM protein force fields, for example, have improved the backbone torsion potentials, remedying deficiencies in earlier versions. Here, we further advance simulation accuracy by improving the amino acid side-chain torsion potentials of the Amber ff99SB force field. First, we used simulations of model alpha-helical systems to identify the four residue types whose rotamer distribution differed the most from expectations based on Protein Data Bank statistics. Second, we optimized the side-chain torsion potentials of these residues to match new, high-level quantum-mechanical calculations. Finally, we used microsecond-timescale MD simulations in explicit solvent to validate the resulting force field against a large set of experimental NMR measurements that directly probe side-chain conformations. The new force field, which we have termed Amber ff99SB-ILDN, exhibits considerably better agreement with the NMR data.

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GOST Copy

Lindorff-Larsen K. et al. Improved side-chain torsion potentials for the Amber ff99SB protein force field // Proteins: Structure, Function and Genetics. 2010. Vol. 78. No. 8. pp. 1950-1958.

GOST all authors (up to 50) Copy

Lindorff-Larsen K., Piana S., Palmo K., Maragakis P., Klepeis J. L., Dror R. O., Shaw D. A. Improved side-chain torsion potentials for the Amber ff99SB protein force field // Proteins: Structure, Function and Genetics. 2010. Vol. 78. No. 8. pp. 1950-1958.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1002/prot.22711

UR - https://doi.org/10.1002/prot.22711

TI - Improved side-chain torsion potentials for the Amber ff99SB protein force field

T2 - Proteins: Structure, Function and Genetics

AU - Lindorff-Larsen, Kresten

AU - Piana, Stefano

AU - Palmo, Kim

AU - Maragakis, Paul

AU - Klepeis, John L

AU - Dror, Ron O.

AU - Shaw, David A.

PY - 2010

DA - 2010/03/09

PB - Wiley

SP - 1950-1958

IS - 8

VL - 78

PMID - 20408171

SN - 0887-3585

SN - 1097-0134

ER -

BibTex |

Cite this

BibTex (up to 50 authors) Copy

@article{2010_Lindorff-Larsen,

author = {Kresten Lindorff-Larsen and Stefano Piana and Kim Palmo and Paul Maragakis and John L Klepeis and Ron O. Dror and David A. Shaw},

title = {Improved side-chain torsion potentials for the Amber ff99SB protein force field},

journal = {Proteins: Structure, Function and Genetics},

year = {2010},

volume = {78},

publisher = {Wiley},

month = {mar},

url = {https://doi.org/10.1002/prot.22711},

number = {8},

pages = {1950--1958},

doi = {10.1002/prot.22711}

}

MLA

Cite this

MLA Copy

Lindorff-Larsen, Kresten, et al. “Improved side-chain torsion potentials for the Amber ff99SB protein force field.” Proteins: Structure, Function and Genetics, vol. 78, no. 8, Mar. 2010, pp. 1950-1958. https://doi.org/10.1002/prot.22711.

Publisher

Wiley

Journal

Proteins: Structure, Function and Genetics

scimago Q1

wos Q2

SJR

1.400

CiteScore

7.2

Impact factor

2.8

ISSN

08873585 (Print)

10970134 (Electronic)