Application of INADEQUATE NMR techniques for directly tracing out the carbon skeleton of a natural product

Fyaz M D Ismail; Lutfun Nahar; Satyajit D Sarker

doi:10.1002/pca.2976

Application of INADEQUATE NMR techniques for directly tracing out the carbon skeleton of a natural product

Phytochem Anal. 2021 Jan;32(1):7-23. doi: 10.1002/pca.2976. Epub 2020 Jul 15.

Authors

Fyaz M D Ismail¹, Lutfun Nahar^{1

2}, Satyajit D Sarker¹

Affiliations

¹ Centre for Natural Products Discovery, School of Pharmacy and Biomolecular Sciences, Liverpool John Moores University, Byrom Street, Liverpool, Merseyside, L3 3AF, UK.
² Laboratory of Growth Regulators, Institute of Experimental Botany ASCR & Palacký University, Olomouc, Czech Republic.

PMID: 32671944
DOI: 10.1002/pca.2976

Abstract

Introduction: Nuclear magnetic resonance (NMR) measurement of ¹ J_CC coupling by two-dimensional (2D) INADEQUATE (incredible natural abundance double quantum transfer experiment), which is a special case of double-quantum (DQ) spectroscopy that offers unambiguous determination of ¹³ C-¹³ C spin-spin connectivities through the DQ transitions of the spin system, is especially suited to solving structures rich in quaternary carbons and poor in hydrogen content (Crews rule).

Objective: To review published literature on the application of NMR methods to determine structure in the liquid-state, which specifically considers the interaction of a pair of carbon-13 (¹³ C) nuclei adjacent to one another, to allow direct tracing out of contiguous carbon connectivity using 2D INADEQUATE.

Methodology: A comprehensive literature search was implemented with various databases: Web of Knowledge, PubMed and SciFinder, and other relevant published materials including published monographs. The keywords used, in various combinations, with INADEQUATE being present in all combinations, in the search were 2D NMR, ¹ J_CC coupling, natural product, structure elucidation, ¹³ C-¹³ C connectivity, cryoprobe and CASE (computer-assisted structure elucidation)/PANACEA (protons and nitrogen and carbon et alia).

Results: The 2D INADEQUATE continues to solve "intractable" problems in natural product chemistry, and using milligram quantities with cryoprobe techniques combined with CASE/PANACEA experiments can increase machine time efficiency. The ¹³ C-¹³ C-based structural elucidation by dissolution single-scan dynamic nuclear polarisation NMR can overcome disadvantages of ¹³ C insensitivity at natural abundance. Selected examples have demonstrated the trajectory of INADEQUATE spectroscopy from structural determination to clarification of metabolomics analysis and use of DFT (density functional theory) and coupling constants to clarify the connectivity, hybridisation and stereochemistry within natural products.

Conclusions: Somewhat neglected over the years because of perceived lack of sensitivity, the 2D INADEQUATE NMR technique has re-emerged as a useful tool for solving natural products structures, which are rich in quaternary carbons and poor in hydrogen content.

Keywords: 13C-13C connectivity; 1JCC coupling; 2D NMR; CASE/PANACEA; INADEQUATE; cryoprobe; natural product; structure elucidation.

MeSH terms

Biological Products*
Carbon Isotopes
Carbon*
Magnetic Resonance Spectroscopy
Metabolomics
Skeleton

Substances

Biological Products
Carbon Isotopes
Carbon