Journal article
Chemical and Antiplasmodial Investigations on Eremophila-Derived Alkaloids and Semisynthetic Ether Analogues
C Zhang, KY Lum, JM White, S Duffy, AM Lock, VM Avery, RA Davis
Journal of Natural Products | AMER CHEMICAL SOC | Published : 2024
Abstract
Microthecaline A (1), the known antiplasmodial quinoline serrulatane alkaloid from the roots of Eremophila microtheca F. Muell. ex Benth. (Scrophulariaceae), was targeted for isolation and subsequent use in the generation of a semisynthetic ether library. A large-scale extraction and isolation yielded the previously undescribed quinoline serrulatane microthecaline B (2), along with crystalline 1 that enabled the first X-ray crystallographic analysis to be undertaken on this rare alkaloid structure class. The X-ray diffraction analysis of 1 supported the absolute configuration assignment of microthecaline A, which was originally assigned by ECD data analysis. Microthecaline A (1) was converte..
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Grants
Awarded by Griffith University
Funding Acknowledgements
The authors acknowledge the Australian Research Council (ARC) for support toward NMR and MS equipment (grants LE0668477, LE140100119, and LE0237908). C.Z. would like to thank Griffith University for Ph.D. scholarships (GUPRS and GUIPRS). The authors also thank and acknowledge the Australian Red Cross LifeBlood for the provision of fresh red blood cells, which are critical for antiplasmodial research.