DEEP Picker1D and Voigt Fitter1D: a versatile tool set for the automated quantitative spectral deconvolution of complex 1D-NMR spectra
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Published:2023-02-08
Issue:1
Volume:4
Page:19-26
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ISSN:2699-0016
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Container-title:Magnetic Resonance
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language:en
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Short-container-title:Magn. Reson.
Author:
Li Da-WeiORCID, Bruschweiler-Li Lei, Hansen Alexandar L., Brüschweiler Rafael
Abstract
Abstract. The quantitative deconvolution of 1D-NMR spectra into individual resonances or peaks is a key step in many modern NMR workflows as it critically
affects downstream analysis and interpretation. Depending on the complexity of the NMR spectrum, spectral deconvolution can be a notable
challenge. Based on the recent deep neural network DEEP Picker and Voigt Fitter for 2D NMR spectral deconvolution, we present here an accurate, fully automated solution for 1D-NMR spectral analysis, including peak picking, fitting, and reconstruction. The method is demonstrated for complex
1D solution NMR spectra showing excellent performance also for spectral regions with multiple strong overlaps and a large dynamic range whose
analysis is challenging for current computational methods. The new tool will help streamline 1D-NMR spectral analysis for a wide range of
applications and expand their reach toward ever more complex molecular systems and their mixtures.
Funder
National Science Foundation National Institutes of Health
Publisher
Copernicus GmbH
Subject
Atomic and Molecular Physics, and Optics,Condensed Matter Physics,Analytical Chemistry
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