The development of an NMR chemical shift prediction application with the accuracy necessary to grade proton NMR spectra for identity

We have developed an NMR chemical shift prediction system that enables high throughput automatic grading of NMR spectra. In support of high throughput synthetic efforts for our drug discovery program, a rapid and accurate analysis for identity was needed. The system was designed and implemented to t...

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Bibliographic Details
Published in:Magnetic resonance in chemistry 2009-12, Vol.47 (12), p.1055-1061
Main Authors: Spanton, Stephen G., Whittern, David
Format: Article
Language:English
Subjects:
13C
Automated
chemical shift prediction
Drugs
Estimates
Grading
Magnetic resonance
Magnetic Resonance Spectroscopy - methods
Magnetic Resonance Spectroscopy - standards
NMR
Nuclear magnetic resonance
Permissible error
Protons
Reference Standards
Software
Spectra
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Summary:We have developed an NMR chemical shift prediction system that enables high throughput automatic grading of NMR spectra. In support of high throughput synthetic efforts for our drug discovery program, a rapid and accurate analysis for identity was needed. The system was designed and implemented to take advantage of the NMR assignments that had been tabulated on internally generated research compounds. The system has been operational for four years and has been used in conjunction with an internally written grading program to successfully analyze several hundred thousand samples based only on their 1D 1H spectrum. A focused test of the system's accuracy on 1006 molecules demonstrated the ability to estimate the proton chemical shift with an average error of +/−0.16 ppm. This level of chemical shift accuracy allows for reliable structure confirmation by automated analysis using only proton NMR. Copyright © 2009 John Wiley & Sons, Ltd. An NMR chemical shift prediction system was developed that enables high throughput automatic grading of NMR Spectra. This system used atom connectivity, stereochemistry, and experimental solvent. The accuracy of the system was demonstrated to estimate proton chemical shifts with an average error of +/−0.16 ppm.
ISSN:0749-1581
1097-458X
1097-458X
DOI:10.1002/mrc.2512