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Abstract
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.
Supplementary materials
Title
Supplementary Material for Bond dissociation energies of X−H bonds in proteins
Description
Additional Figures, Tables and experimental details.
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Supplementary weblinks
Title
Bond dissociation energies of X−H bonds in proteins [data]
Description
Structures and Energies
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