Conformational structures of a decapeptide validated by first principles calculations and cold ion spectroscopy

Tapta Kanchan Roy; Vladimir Kopysov; Natalia S. Nagornova; Thomas R. Rizzo; Oleg V. Boyarkin; R. Benny Gerber

doi:10.1002/cphc.201500085

Conformational structures of a decapeptide validated by first principles calculations and cold ion spectroscopy

Tapta Kanchan Roy, Vladimir Kopysov, Natalia S. Nagornova, Thomas R. Rizzo, Oleg V. Boyarkin, R. Benny Gerber^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

Calculated structures of the two most stable conformers of a protonated decapeptide gramicidin S in the gas phase have been validated by comparing the vibrational spectra, calculated from first- principles and measured in a wide spectral range using infrared (IR)-UV double resonance cold ion spectroscopy. All the 522 vibrational modes of each conformer were calculated quantum mechanically and compared with the experiment without any recourse to an empirical scaling. The study demonstrates that first-principles calculations, when accounting for vibrational anharmonicity, can reproduce high-resolution experimental spectra well enough for validating structures of molecules as large as of 200 atoms. The validated accurate structures of the peptide may serve as templates for in silico drug design and absolute calibration of ion mobility measurements.

Original language	English
Pages (from-to)	1374-1378
Number of pages	5
Journal	ChemPhysChem
Volume	16
Issue number	7
DOIs	https://doi.org/10.1002/cphc.201500085
State	Published - 18 May 2015

Bibliographical note

Publisher Copyright:
© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Keywords

ab initio calculations
cold-ion spectroscopy
gramicidin S
peptides
vibrational self-consistent field theory

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10.1002/cphc.201500085

Cite this

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abstract = "Calculated structures of the two most stable conformers of a protonated decapeptide gramicidin S in the gas phase have been validated by comparing the vibrational spectra, calculated from first- principles and measured in a wide spectral range using infrared (IR)-UV double resonance cold ion spectroscopy. All the 522 vibrational modes of each conformer were calculated quantum mechanically and compared with the experiment without any recourse to an empirical scaling. The study demonstrates that first-principles calculations, when accounting for vibrational anharmonicity, can reproduce high-resolution experimental spectra well enough for validating structures of molecules as large as of 200 atoms. The validated accurate structures of the peptide may serve as templates for in silico drug design and absolute calibration of ion mobility measurements.",

keywords = "ab initio calculations, cold-ion spectroscopy, gramicidin S, peptides, vibrational self-consistent field theory",

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doi = "10.1002/cphc.201500085",

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AU - Roy, Tapta Kanchan

AU - Kopysov, Vladimir

AU - Nagornova, Natalia S.

AU - Rizzo, Thomas R.

AU - Boyarkin, Oleg V.

AU - Gerber, R. Benny

PY - 2015/5/18

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AB - Calculated structures of the two most stable conformers of a protonated decapeptide gramicidin S in the gas phase have been validated by comparing the vibrational spectra, calculated from first- principles and measured in a wide spectral range using infrared (IR)-UV double resonance cold ion spectroscopy. All the 522 vibrational modes of each conformer were calculated quantum mechanically and compared with the experiment without any recourse to an empirical scaling. The study demonstrates that first-principles calculations, when accounting for vibrational anharmonicity, can reproduce high-resolution experimental spectra well enough for validating structures of molecules as large as of 200 atoms. The validated accurate structures of the peptide may serve as templates for in silico drug design and absolute calibration of ion mobility measurements.

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KW - vibrational self-consistent field theory

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Conformational structures of a decapeptide validated by first principles calculations and cold ion spectroscopy

Abstract

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Keywords

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