Structural characterisation of natural products by means of quantum chemical calculations of NMR parameters: new insights

In the early 2000s, the first articles regarding the calculation of NMR parameters for natural products appeared in the literature. Since then, modelling 1H and 13C chemical shifts and spin–spin coupling constants for this class of compounds has experienced a remarkable increase in precision, access...

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Published inOrganic chemistry frontiers an international journal of organic chemistry Vol. 8; no. 9; pp. 2019 - 2058
Main Authors Costa, Fabio L P, Ana C F de Albuquerque, Fiorot, Rodolfo G, Lião, Luciano M, Martorano, Lucas H, Mota, Gunar V S, Valverde, Alessandra L, Carneiro, José W M, Fernando M dos Santos Junior
Format Journal Article
LanguageEnglish
Published London Royal Society of Chemistry 07.05.2021
Subjects
Computer applications
Coupling (molecular)
Data processing
Learning algorithms
Literature reviews
Machine learning
Natural products
NMR
Nuclear magnetic resonance
Organic chemistry
Parameters
Quantum chemistry
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Summary:In the early 2000s, the first articles regarding the calculation of NMR parameters for natural products appeared in the literature. Since then, modelling 1H and 13C chemical shifts and spin–spin coupling constants for this class of compounds has experienced a remarkable increase in precision, accessibility, and application, leading to considerable advances in the field. More recently, significant contributions from several authors have led to continuous growth in this research field, updating and broadening the simulation of NMR parameters, in particular with the application of new techniques for data treatment. Nowadays, such studies are routinely found in the high impact literature. In this review, we intend to cover the general guidelines and the main advances in NMR calculations of natural products published since 2012. We intend to address the bottlenecks of quantum chemical calculations of NMR parameters, including mathematical definitions, updates, and a discussion of relevant examples, and to highlight novel tools, for example DU8+, CP3, DP4, DP4+ and J-DP4. We will cover all aspects of NMR simulation focusing on natural products, from the fundamentals to the new computational toolboxes available, combining advanced quantum chemical calculations with complex upstream data processing and machine learning.
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ISSN:2052-4110
2052-4110
DOI:10.1039/d1qo00034a