Document Type
Article
Publication Date
9-7-2015
Publication Title
International Journal of Molecular Sciences
Volume
16
Abstract
The dipole interaction model is a classical electromagnetic theory for calculating circular dichroism (CD) resulting from the π-π* transitions of amides. The theoretical model, pioneered by J. Applequist, is assembled into a package, DInaMo, written in Fortran allowing for treatment of proteins. DInaMo reads Protein Data Bank formatted files of structures generated by molecular mechanics or reconstructed secondary structures. Crystal structures cannot be used directly with DInaMo; they either need to be rebuilt with idealized bond angles and lengths, or they need to be energy minimized to adjust bond lengths and bond angles because it is common for crystal structure geometries to have slightly short bond lengths, and DInaMo is sensitive to this. DInaMo reduces all the amide chromophores to points with anisotropic polarizability and all nonchromophoric aliphatic atoms including hydrogens to points with isotropic polarizability; all other atoms are ignored. By determining the interactions among the chromophoric and nonchromophoric parts of the molecule using empirically derived polarizabilities, the rotational and dipole strengths are determined leading to the calculation of CD. Furthermore, ignoring hydrogens bound to methyl groups is initially explored and proves to be a good approximation. Theoretical calculations on 24 proteins agree with experiment showing bands with similar morphology and maxima.
Issue
9
First Page
21237
Last Page
21276
DOI
10.3390/ijms160921237
ISSN
1422-0067
Rights
Copyright to International Journal of Molecular Sciences.
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Recommended Citation
Igor V. Uporov, Neville Y. Forlemu, Rahul Nori, et al.. "Introducing DInaMo: A Package for Calculating Protein Circular Dichroism Using Classical Electromagnetic Theory" (2015). Chemistry Faculty Publications. 1.
https://commons.und.edu/chem-fac/1