The influence of Mg2+ coordination on 13C and 15N chemical shifts in CKI1RD protein domain from experiment and molecular dynamics/density functional theory calculations

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Authors

VÍCHA Jan BABINSKÝ Martin DEMO Gabriel OTRUSINOVÁ Olga JANSEN Séverine PEKÁROVÁ Blanka ŽÍDEK Lukáš MUNZAROVÁ Markéta

Year of publication 2016
Type Article in Periodical
Magazine / Source Proteins: Structure, Function, and Bioinformatics
MU Faculty or unit

Faculty of Science

Citation
Doi http://dx.doi.org/10.1002/prot.25019
Field Physical chemistry and theoretical chemistry
Keywords Arabidopsis thaliana; CKI1 histidine kinase; Mg2+ coordination; NMR chemical shift; 13C; 15N; molecular dynamics; density functional theory
Description Sequence dependence of 13C and 15N chemical shifts in the receiver domain of CKI1 protein from Arabidopsis thaliana, CKI1RD, and its complexed form, CKI1RD.Mg2+, was studied by means of MD/DFT calculations. MD simulations of a 20–ns production run length were performed. Nine explicitly hydrated structures of increasing complexity were explored, up to a 40-amino-acid structure. The size of the model necessary depended on the type of nucleus, the type of amino acid and its sequence neighbors, other spatially close amino acids, and the orientation of amino acid NH groups and their surface/interior position. Using models covering a 10 and a 15 A environment of Mg2+, a semi-quantitative agreement has been obtained between experiment and theory for the V67-I73 sequence. The influence of Mg2+ binding was described better by the 15 A as compared to the 10 A model. Thirteen chemical shifts were analyzed in terms of the effect of Mg2+ insertion and geometry preparation. The effect of geometry was significant and opposite in sign to the effect of Mg2+ binding. The strongest individual effects were found for 15N of D70, S74, and V68, where the electrostatics dominated; for 13C_beta of D69 and 15N of K76, where the influences were equal, and for 13C_alpha of F72 and 13C_beta of K76, where the geometry adjustment dominated. A partial correlation between dominant geometry influence and torsion angle shifts upon the coordination has been observed.
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