Small Molecule Accurate Recognition Technology (SMART) to Enhance Natural Products Research.
2017-10-27 | journal article. A publication with affiliation to the University of Göttingen.
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Cite this publication
Small Molecule Accurate Recognition Technology (SMART) to Enhance Natural Products Research.
Zhang, C.; Idelbayev, Y.; Roberts, N.; Tao, Y.; Nannapaneni, Y.; Duggan, B. M. & Min, J. et al. (2017)
Scientific reports, 7(1) art. 14243. DOI: https://doi.org/10.1038/s41598-017-13923-x
Documents & Media
Details
- Authors
- Zhang, Chen; Idelbayev, Yerlan; Roberts, Nicholas; Tao, Yiwen; Nannapaneni, Yashwanth; Duggan, Brendan M.; Min, Jie; Lin, Eugene C.; Gerwick, Erik C.; Cottrell, Garrison W.; Gerwick, William H.
- Abstract
- Various algorithms comparing 2D NMR spectra have been explored for their ability to dereplicate natural products as well as determine molecular structures. However, spectroscopic artefacts, solvent effects, and the interactive effect of functional group(s) on chemical shifts combine to hinder their effectiveness. Here, we leveraged Non-Uniform Sampling (NUS) 2D NMR techniques and deep Convolutional Neural Networks (CNNs) to create a tool, SMART, that can assist in natural products discovery efforts. First, an NUS heteronuclear single quantum coherence (HSQC) NMR pulse sequence was adapted to a state-of-the-art nuclear magnetic resonance (NMR) instrument, and data reconstruction methods were optimized, and second, a deep CNN with contrastive loss was trained on a database containing over 2,054 HSQC spectra as the training set. To demonstrate the utility of SMART, several newly isolated compounds were automatically located with their known analogues in the embedded clustering space, thereby streamlining the discovery pipeline for new natural products.
- Issue Date
- 27-October-2017
- Journal
- Scientific reports
- Organization
- Fakultät für Physik
- ISSN
- 2045-2322
- Language
- English
