Model of EcEndoV-DNA complex.
Endonuclease V (EndoV) is a metal-dependent DNA repair enzyme involved in removal of deaminated bases, with pairing specificities different from the original bases. EndoV has been combined with DNA ligase to develop an enzymatic method for mutation scanning and has been engineered to obtain variants with different substrate specificities that serve as improved tools in mutation recognition and cancer mutation scanning. However, at the date of our analysis, little was known about the structure and mechanism of substrate DNA binding by EndoV. Thus, by combining fold-recognition, comparative modeling, de novo modeling and docking methods, we constructed a structural model of EndoV from Escherichia coli in complex with dsDNA and cofactor metal ions. The model has allowed us to provide a structural context for sequence conservation within EndoV proteins family, and to highlight the previously obtained mutations that have been shown to change its specificity. Shortly after the acceptance of the final version of our manuscript [1], the crystal structure of Thermotoga maritima EndoV was published [2] giving a possibility for direct comparison of our model with the native structure of the close homolog. Our modeling can be considered successful, as it correctly predicts EndoV topology as well as the position of all catalytic residues and several residues taking part in protein-DNA interaction. Although our model contains two cofactor Mg2+ ions and the crystal structure of TmEndoV contains only one, authors agree, that in organisms like E.coli, where Asp is the last catalytic residue of EndoV (TmEndoV contains His), the two-metal binding site would be preferred, with the second Mg2+ cation functioning as a bridge to diminish the phosphate-carboxylate electrostatic repulsion. References:
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EcEndoV-DNA model Native structure of TmEndoV-DNA complex Read our manuscript: Download PDF Gallery:   |
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