Ian W. Gilbert scite author profile

A synthesis of the proposed structure of lineariifolianone has been achieved in eight steps and 9% overall yield starting from (+)-valencene, leading to a reassignment of the absolute configuration of this unusual cyclopropenone-containing natural product. Key steps in the synthetic route include kinetic protonation of an enolate to epimerize the C7 stereocenter and a stereoconvergent epoxide opening to establish the trans-diaxial diol functionality. The syntheses of the enantiomers of two other closely related natural products are also reported, confirming that all three compounds belong to the eremophilane class of sesquiterpenoids.

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Acid- and Base-Mediated Hydrolysis of Dichloroacetamide Herbicide Safeners

McFadden

Patterson

Reber

et al. 2021

Environ. Sci. Technol.

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Safeners are used extensively in commercial herbicide formulations. Although safeners are regulated as inert ingredients, some of their transformation products have enhanced biological activity. Here, to fill gaps in our understanding of safener environmental fate, we determined rate constants and transformation products associated with the acid- and base-mediated hydrolysis of dichloroacetamide safeners AD-67, benoxacor, dichlormid, and furilazole. Second-order rate constants for acid- (HCl) and base-mediated (NaOH) dichloroacetamide hydrolysis (2.8 × 10 –3 to 0.46 and 0.3–500 M –1 h –1 , respectively) were, in many cases (5 of 8), greater than those reported for their chloroacetamide herbicide co-formulants. In particular, the rate constant for base-mediated hydrolysis of benoxacor was 2 orders of magnitude greater than that of its active ingredient co-formulant, S -metolachlor. At circumneutral pH, only benoxacor underwent appreciable hydrolysis (5.3 × 10 –4 h –1 ), and under high-pH conditions representative of lime-soda softening, benoxacor’s half-life was 13 h—a timescale consistent with partial transformation during water treatment. Based on Orbitrap LC–MS/MS analysis of dichloroacetamide hydrolysis product mixtures, we propose structures for major products and three distinct mechanistic pathways that depend on the system pH and compound structure. These include base-mediated amide cleavage, acid-mediated amide cleavage, and acid-mediated oxazolidine ring opening. Collectively, this work will help to identify systems in which hydrolysis contributes to the transformation of dichloroacetamides, while also highlighting important differences in the reactivity of dichloroacetamides and their active chloroacetamide co-formulants.

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Incisional Hernia: Complications & Quality of Life

Rogmark

Petersson

Hu³

et al. 2015

Hernia

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Ian W. Gilbert

Synthesis of (+)-Lineariifolianone and Related Cyclopropenone-Containing Sesquiterpenoids

Acid- and Base-Mediated Hydrolysis of Dichloroacetamide Herbicide Safeners

Incisional Hernia: Complications & Quality of Life

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