Solvent and water mediated structural variations in deoxynivalenol and their potential implications on the disruption of ribosomal function

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Date
2016
Authors
Foroud, Nora Afsaneh
Shank, Roxanne A.
Kiss, Douglas
Eudes, François
Hazendonk, Paul
Journal Title
Journal ISSN
Volume Title
Publisher
Frontiers Media
Abstract
Fusarium head blight (FHB) is a disease of cereal crops caused by trichothecene producing Fusarium species. Trichothecenes, macrocylicic fungal metabolites composed of three fused rings (A–C) with one epoxidef unctionality, area class of mycotoxins known to inhibit protein synthesis in eukaryotic ribosomes. These toxins accumulate in the kernels of infected plants rendering them unsuitable for human and animal consumption. Among the four classes of trichothecenes (A–D) A and B are associated with FHB, where the type B trichothecene deoxynivalenol (DON) is most relevant. While it is known that these toxins inhibit protein synthesis by disrupting peptidyl transferase activity, the exact mechanism of this inhibition is poorly understood. The three-dimensional structures and H-bonding behavior of DON were evaluated using one-and two-dimensional nuclear magnetic resonance (NMR) spectroscopy techniques. Comparisons of the NMR structure presented here with the recently reported crystal structure of DON bound in the yeast ribosome reveal insights into the possible toxicity mechanism of this compound. The work described herein identifies a waterbinding pocket in the core structure of DON, where the 3OH plays an important role in this interaction. These results provide preliminary insights into how substitution at C3 reduces trichothecene toxicity. Further investigations along these lines will provide opportunities to develop trichothecene remediation strategies based on the disruption of water binding interactions with 3OH.
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Sherpa Romeo green journal: open access
Keywords
Deoxynivalenoi (DON) , Fusarium head blight , Fusarium graminearum , NMR spectroscopy , Mycotoxins , Chemical structure
Citation
Foroud, N. A., Shank, R. A., Kiss, D., Eudes, F., & Hazendonk, P. (2016). Solvent and water mediated structural variations in deoxynivalenol and their potential implicaitons on the disruption of ribosomal function. Frontiers in Microbiology, 7(1239). doi:10.3389/fmicb.2016.01239
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