Wojtek Treyde scite author profile

Knowledge of reliable X−H bond dissociation energies (X = C, N, O, S) for amino acids in proteins is key for studying the radical chemistry of proteins. X−H bond dissociation energies of model dipeptides were computed using the isodesmic reaction method at the BMK/6-31+G(2df,p) and G4(MP2)-6X levels of theory. The density functional theory values agree well with the composite- level calculations. By this high level of theory, combined with a careful choice of reference compounds and peptide model systems, our work provides a highly valuable data set of bond dissociation energies with unprecedented accuracy and comprehensiveness. It will likely prove useful to predict protein biochemistry involving radicals, e.g., by machine learning.

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Bond dissociation energies of X−H bonds in proteins

Treyde

Riedmiller

Gräter

2022

Preprint

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Wojtek Treyde

Bond dissociation energies of X–H bonds in proteins

Bond dissociation energies of X−H bonds in proteins

Bond dissociation energies of X−H bonds in proteins

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