Audiologic Demonstration of Ototoxicity From Teprotumumab Treatment in a Patient With Thyroid Eye Disease

Many Fusarium species produce trichothecenes, sesquiterpene epoxides that differ in patterns of oxygenation and esterification at carbon positions C-3, C-4, C-7, C-8, and C-15. For the first comprehensive and quantitative comparison of the effects of oxygenation and esterification on trichothecene phytotoxicity, we tested 24 precursors, intermediates, and end products of the trichothecene biosynthetic pathway in an Arabidopsis thaliana detached leaf assay. At 100 microM, the highest concentration tested, only the trichothecene precursor trichodiene was nontoxic. Among trichothecenes, toxicity varied more than 200-fold. Oxygenation at C-4, C-8, C-7/8, or C-15 was, on average, as likely to decrease as to increase toxicity. Esterification at C-4, C-8, or C-15 generally increased toxicity. Esterification at C-3 increased toxicity in one case and decreased toxicity in three of eight cases tested. Thus, the increase in structural complexity along the trichothecene biosynthetic pathway in Fusarium is not necessarily associated with an increase in phytotoxicity.

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Michael Appell

B3LYP/6-311++G** study of α- and β-d-glucopyranose and 1,5-anhydro-d-glucitol: 4C1 and 1C4 chairs, 3,OB and B3,O boats, and skew-boat conformations

B3LYP/6-311++G** study of monohydrates of α- and β-d-glucopyranose: hydrogen bonding, stress energies, and effect of hydration on internal coordinates

B3LYP/6-311++G** geometry-optimization study of pentahydrates of α- and β-d-glucopyranose

Structure−Activity Relationships of Trichothecene Toxins in an Arabidopsis thaliana Leaf Assay

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