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Abstract The indolizinium natural product ficuseptine, produced by the tropical fig tree Ficus septica, has been reported to have antibacterial properties. Herein, the synthesis of ficuseptine, ten analogues with differing aryl substituents, and two aryl regioisomers is reported. Despite several previous total syntheses, synthetically prepared ficuseptine has not been subjected to biological testing to confirm its activity. In our hands, ficuseptine was moderately active in Gram-positive B. spizizenii, with an MIC of 32 μg/mL, which was maintained for most aryl substituents. The position of the aryl rings was crucial, however, since regioisomeric ficuseptine analogues, mimicking related natural products, were found to be inactive. Finally, all ficuseptine derivatives were inactive (MIC >128 μg/mL) against Gram-negative E. coli. Understanding these structure–activity relationships (SAR) is helpful for future studies to understand the molecule’s mechanism of action or further develop its antibacterial properties.
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Total Synthesis and Antibacterial Investigations of 1‐Hydroxyboivinianin A
Abstract Synthetic investigations of natural products has been instrumental in the development of novel antibacterial small molecules. 1‐hydroxyboivinianin A, a lactone containing phenolic bisabolane isolated from marine sediment, has reported antibacterial activity against the aquatic pathogenVibrio harveyi. The total synthesis of 1‐hydroxyboivinianin A and its enantiomer was completed in a six‐step sequence in 42 % overall yield. The synthesis leveraged a key diastereoselective nucleophilic addition with chiral imidazolidinone to establish the benzylic tertiary alcohol and intramolecular Horner‐Wadsworth Emmons to furnish the lactone. Both enantiomers were found to have negligible antibacterial activity against a panel of gram‐positive and negative bacteria and minimal antifungal activity against phytopathogens. Investigations of a possiblein vitrolactone hydrolysis to produce an inactive linear acid led to the discovery of a spontaneous cyclization, suggesting the lactone is resistant to hydrolysis and the lactone is not degrading to produce an inactive species.
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- Award ID(s):
- 2003692
- PAR ID:
- 10384620
- Publisher / Repository:
- Wiley Blackwell (John Wiley & Sons)
- Date Published:
- Journal Name:
- ChemMedChem
- Volume:
- 17
- Issue:
- 23
- ISSN:
- 1860-7179
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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