Georgia Mantel scite author profile

Transient changes in molecular geometry are key to the function of many important biochemical systems. Here, we show that diphenic acids undergo out-of-equilibrium changes in dihedral angle when reacted with a carbodiimide chemical fuel. Treatment of appropriately functionalized diphenic acids with EDC (N-(3-(dimethylamino)propyl)-N′-ethylcarbodiimide hydrochloride) yields the corresponding diphenic anhydrides, reducing the torsional angle about the biaryl bond by ∼45°, regardless of substitution. In the absence of steric resistance, the reaction is well-described by a simple mechanism; the resulting kinetic parameters can be used to derive important properties of the system, such as yields and lifetimes. The reaction tolerates steric hindrance ortho to the biaryl bond, although the competing formation of (transient) byproducts complicates quantitative analysis.

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Substituent Effects on Transient, Carbodiimide-Induced Geometry Changes in Diphenic Acids

Jayalath

Gerken

Mantel

et al. 2021

J. Org. Chem.

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Nucleotide-induced conformational changes in motor proteins are key to many important cell functions. Inspired by this biological behavior, we report a simple chemically fueled system that exhibits carbodiimide-induced geometry changes. Bridging via transient anhydride formation leads to a significant reduction of the twist about the biaryl bond of substituted diphenic acids, giving a simple molecular clamp. The kinetics are welldescribed by a simple mechanism, allowing structure−property effects to be determined. The kinetic parameters can be used to derive important characteristics of the system such as the efficiencies (anhydride yields), maximum anhydride concentrations, and overall lifetimes. Transient diphenic anhydrides tolerate steric hindrance ortho to the biaryl bond but are significantly affected by electronic effects, with electron-deficient substituents giving lower yields, peak conversions, and lifetimes. The results provide useful guidelines for the design of functional systems incorporating diphenic acid units.

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Chemically Fueled Transient Geometry Changes in Diphenic Acids

Jayalath¹,

Wang²,

Mantel³

et al. 2020

Preprint

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Transient changes in molecular geometry are key to the function of many important biochemical systems. Here, we show that diphenic acids undergo out-of-equilibrium changes in dihedral angle when reacted with a carbodiimide chemical fuel. Treatment of appropriately functionalized diphenic acids with EDC (<i>N</i>-(3-dimethylaminopropyl)-<i>N</i>′-ethylcarbodiimide hydrochloride) yields the corresponding diphenic anhydrides, reducing the torsional angle about the biaryl bond by approximately 45°, regardless of substitution. In the absence of steric resistance, the reaction is well-described by a simple mechanism; the resulting kinetic parameters can be used to derive important properties of the system, such as yields and lifetimes. The reaction tolerates steric hindrance ortho to the biaryl bond, although the competing formation of (transient) byproducts complicates quantitative analysis.

show abstract

Substituent Effects on Transient, Carbodiimide-Fueled Geometry Changes in Diphenic Acids

Jayalath¹,

Gerken²,

Mantel³

et al. 2021

Preprint

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Nucleotide-fueled conformational changes in motor proteins are key to many important cell functions. Inspired by this biological behavior, we report a simple chemical system that exhibits carbodiimide-fueled geometry changes. Bridging via transient anhydride formation leads to a significant reduction of the twist about the biaryl bond of substituted diphenic acids, giving a simple molecular clamp. The kinetics are well-described by a simple mechanism, allowing structure–property effects to be determined. The kinetic parameters can be used to derive important characteristics of the system such as the efficiencies (anhydride yields), maximum anhydride concentrations, and overall lifetimes. Transient diphenic anhydrides tolerate steric hindrance ortho to the biaryl bond but are significantly affected by electronic effects, with electron-deficient substituents giving lower yields, peak conversions, and lifetimes. The results provide useful guidelines for the design of functional systems incorporating diphenic acid units

show abstract

Substituent Effects on Transient, Carbodiimide-Fueled Geometry Changes in Diphenic Acids

Jayalath¹,

Gerken²,

Mantel³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

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Georgia Mantel

Chemically Fueled Transient Geometry Changes in Diphenic Acids

Substituent Effects on Transient, Carbodiimide-Induced Geometry Changes in Diphenic Acids

Chemically Fueled Transient Geometry Changes in Diphenic Acids

Substituent Effects on Transient, Carbodiimide-Fueled Geometry Changes in Diphenic Acids

Substituent Effects on Transient, Carbodiimide-Fueled Geometry Changes in Diphenic Acids

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