AI Article Synopsis
- Natural products are vital for biomedicine, but existing methods often rediscover known compounds instead of finding new ones.
- Researchers used advanced NMR techniques to enhance the detection of boron-containing metabolites, successfully identifying compounds like aplasmomycin and autoinducer-2 as a proof of concept.
- A screening of various plant and microbial extracts revealed a surprising abundance of boron-containing metabolites, indicating that the new NMR method could be effective for discovering novel natural compounds.
Article Abstract
Natural products are biologically relevant metabolites exploited for biomedicine and biotechnology. The frequent reisolation of known natural products questions whether existing discovery models are still capable of identifying novel compounds. As innovative NMR-based screening techniques can help overcome these challenges, we applied a phase cycling composite pulse sequence to B NMR experiments to enhance their sensitivity to screen libraries for novel boron-containing molecules. Aplasmomycin and autoinducer-2 were detected in crude and enhanced microbial fractions, via their boron signals, as proof of concept. Subsequently, a screen of 21 crude plant and 50 crude marine microbial extracts were chosen at random and analyzed with the optimized B experiment for feasibility as a high throughput discovery method. Eight of the plant samples and 13 of the microbial samples were identified as boron-containing, suggesting that there is a higher presence of boron metabolites available from natural sources than previously known due to a lack of appropriate discovery methods. As a result, we believe that this optimized B NMR experiment can serve as a robust method for quick and facile discovery of novel boron-containing metabolites from a variety of natural sources.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9088847 | PMC |
| http://dx.doi.org/10.1021/acs.orglett.2c00885 | DOI Listing |
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