RPA(D) and HRPA(D): Calculating NMR Spin-Spin Coupling Constants in Free Amino Acid Residues

Christoffer Hammar S Møller; Stephan P. A. Sauer

doi:10.1002/mrc.5514

RPA(D) and HRPA(D): Calculating NMR Spin-Spin Coupling Constants in Free Amino Acid Residues

Christoffer Hammar S Møller, Stephan P. A. Sauer^*

^*Corresponding author for this work

Department of Chemistry

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

In the pursuit of computational methods which boast both low computational cost and a high degree of accuracy the SOPPA-derived methods RPA(D) and HRPA(D) are showing great promise. This study aims to further the benchmarking of these two methods in comparison to both the original SOPPA and the CCSD method by calculating NMR spin-spin coupling constants in the backbone structure of free amino acid residues. Based on a small basis set study, the relative performance of the methods was not found to be heavily dependent on the size of the basis set. While HRPA(D) was found to reproduce the SOPPA results to a consistently high degree of accuracy, RPA(D) reproduced the CCSD results for the one-bond coupling constants more accurately than both HRPA(D) and SOPPA.

Original language	English
Journal	Magnetic Resonance in Chemistry
Volume	63
Issue number	4
Pages (from-to)	328-345
Number of pages	18
ISSN	0749-1581
DOIs	https://doi.org/10.1002/mrc.5514
Publication status	Published - 2025

Keywords

Faculty of Science
HRPA(D)
RPA(D)
aminoacids
Spin-spin coupling constant
NMR
CCSD

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Cite this

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title = "RPA(D) and HRPA(D): Calculating NMR Spin-Spin Coupling Constants in Free Amino Acid Residues",

abstract = "In the pursuit of computational methods which boast both low computational cost and a high degree of accuracy the SOPPA-derived methods RPA(D) and HRPA(D) are showing great promise. This study aims to further the benchmarking of these two methods in comparison to both the original SOPPA and the CCSD method by calculating NMR spin-spin coupling constants in the backbone structure of free amino acid residues. Based on a small basis set study, the relative performance of the methods was not found to be heavily dependent on the size of the basis set. While HRPA(D) was found to reproduce the SOPPA results to a consistently high degree of accuracy, RPA(D) reproduced the CCSD results for the one-bond coupling constants more accurately than both HRPA(D) and SOPPA.",

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T2 - Calculating NMR Spin-Spin Coupling Constants in Free Amino Acid Residues

AU - Møller, Christoffer Hammar S

AU - Sauer, Stephan P. A.

PY - 2025

Y1 - 2025

N2 - In the pursuit of computational methods which boast both low computational cost and a high degree of accuracy the SOPPA-derived methods RPA(D) and HRPA(D) are showing great promise. This study aims to further the benchmarking of these two methods in comparison to both the original SOPPA and the CCSD method by calculating NMR spin-spin coupling constants in the backbone structure of free amino acid residues. Based on a small basis set study, the relative performance of the methods was not found to be heavily dependent on the size of the basis set. While HRPA(D) was found to reproduce the SOPPA results to a consistently high degree of accuracy, RPA(D) reproduced the CCSD results for the one-bond coupling constants more accurately than both HRPA(D) and SOPPA.

AB - In the pursuit of computational methods which boast both low computational cost and a high degree of accuracy the SOPPA-derived methods RPA(D) and HRPA(D) are showing great promise. This study aims to further the benchmarking of these two methods in comparison to both the original SOPPA and the CCSD method by calculating NMR spin-spin coupling constants in the backbone structure of free amino acid residues. Based on a small basis set study, the relative performance of the methods was not found to be heavily dependent on the size of the basis set. While HRPA(D) was found to reproduce the SOPPA results to a consistently high degree of accuracy, RPA(D) reproduced the CCSD results for the one-bond coupling constants more accurately than both HRPA(D) and SOPPA.

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KW - HRPA(D)

KW - RPA(D)

KW - aminoacids

KW - Spin-spin coupling constant

KW - NMR

KW - CCSD

U2 - 10.1002/mrc.5514

DO - 10.1002/mrc.5514

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