Repository logo
 

Doubling the Power of DP4 for Computational Structure Elucidation

Accepted version
Peer-reviewed

Type

Article

Change log

Authors

Goodman, JM 
Parkes, KEB 
Agback, T 

Abstract

A large-scale optimisation of density functional theory (DFT) conditions for computational NMR structure elucidation has been conducted by systematically screening the DFT functionals and statistical models. The extended PyDP4 workflow was tested on a diverse and challenging set of 42 biologically-active and stereochemically rich compounds, including highly flexible molecules. MMFF/mPW1PW91/M06-2X in combination with 2 Gaussian, 1 region statistical model was capable of identifying the correct diastereomer among up to 32 potential diastereomer upper limit. Overall a 2-fold reduction in structural uncertainty and 7-fold reduction in model overconfidence has been achieved. Tools for rapid set-up and analysis of computational and experimental results, as well as for the statistical model generation have been developed and are provided. All of this should facilitate rapid and reliable computational NMR structure elucidation, which has become a valuable tool to natural product chemists and synthetic chemists alike.

Description

Keywords

0104 Statistics

Journal Title

Organic & Biomolecular Chemistry

Conference Name

Journal ISSN

1477-0520
1477-0539

Volume Title

Publisher

Royal Society of Chemistry
Sponsorship
Funding from the Higher Education Funding Council for England and funding from the Science and Technology Facilities Council./