Abstract
Predicting the effect of mutations on protein-protein interactions is important for relating structure to function, as well as for in silico affinity maturation. The effect of mutations on protein-protein binding energy (ΔΔG) can be predicted by a variety of atomic simulation methods involving full or limited flexibility, and explicit or implicit solvent. Methods which consider only limited flexibility are naturally more economical, and many of them are quite accurate, however results are dependent on the atomic coordinate set used. In this work we perform a sequence and structure based search of the Protein Data Bank to find additional coordinate sets and repeat the calculation on each. The method increases precision and Positive Predictive Value, and decreases Root Mean Square Error, compared to using single structures. Given the ongoing growth of near-redundant structures in the Protein Data Bank, our method will only increase in applicability and accuracy.
Highlights
In this work we are interested in predicting the change in protein-protein interaction (PPI) energy (ΔΔG) resulting from amino acid substitutions at the protein-protein interface
The automated steps are, in short: 1) Do a sequence search of the Protein Data Bank (PDB) for structures having all the chains specified by the user, within a specified e-value and sequence identity
The Root Mean Square Error (RMSE) decreases as number of available homologs increases from 1 to 4 (S2 Fig)
Summary
In this work we are interested in predicting the change in protein-protein interaction (PPI) energy (ΔΔG) resulting from amino acid substitutions at the protein-protein interface. As the accuracy of computational methods increases, hope grows that these will match the accuracy of experimental ΔΔG measurement, heralding a new age of in the development of biologics–proteins which have therapeutic and/or diagnostic utility [1]. It would help design proteins for purification, catalysis, and other purposes
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