Browsing by Author "Campbell, Rose"

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    Bokeelamides: Lipopeptides from Bacteria Associated with Marine Egg Masses
    Campbell, Rose; Kyei, Lois; Piedl, Karla; Zhang, Zheye; Chen, Ming; Mevers, Emily (American Chemical Society, 2024-11)
    Moon snails (family: Naticidae) lay egg masses that are rich in bacterial species distinct from the surrounding environment. We hypothesized that this microbiome chemically defends the moon snail eggs from predation and pathogens. Herein, we report the discovery of bokeelamides, new lipopeptides from the egg mass-associated bacterium, Ectopseudomonas khazarica, which were discovered using mass spectrometry (MS)-based metabolomics. The structures of the bokeelamides were elucidated using two-dimensional (2D) nuclear magnetic resonance (NMR), tandem MS, Marfey’s, and genomic analyses.
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    Design, Synthesis, and Antifungal Activity of 3-substituted-2(5H)-Oxaboroles
    Campbell, Rose; Buchbinder, Nicklas W. ; Szwetkowski, Connor; Zhu, Yumeng; Piedl, Karla; Truong, Mindy; Matson, John B.; Santos, Webster L.; Mevers, Emily (American Chemical Society, 2024-02-22)
    Next generation antimicrobial therapeutics are desperately needed as new pathogens with multiple resistance mechanisms continually emerge. Two oxaboroles, tavaborole and crisaborole, were recently approved as topical treatments for onychomycosis and atopic dermatitis, respectively, warranting further studies into this privileged structural class. Herein, we report the antimicrobial properties of 3-substituted-2(5H)-oxaboroles, an unstudied family of medicinally relevant oxaboroles. Our results revealed minimum inhibitory concentrations as low as 6.25 and 5.20 μg/mL against fungal (e.g., Penicillium chrysogenum) and yeast (Saccharomyces cerevisiae) pathogens, respectively. These oxaboroles were nonhemolytic and nontoxic to rat myoblast cells (H9c2). Structure-activity relationship studies suggest that planarity is important for antimicrobial activity, possibly due to the effects of extended conjugation between the oxaborole and benzene rings.