CorNet: Assigning function to networks of co-evolving residues by automated literature mining

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Abstract

CorNet is a web-based tool for the analysis of co-evolving residue positions in protein super-family sequence alignments. CorNet projects external information such as mutation data extracted from literature on interactively displayed groups of co-evolving residue positions to shed light on the functions associated with these groups and the residues in them. We used CorNet to analyse six enzyme super-families and found that groups of strongly co-evolving residues tend to consist of residues involved in a same function such as activity, specificity, co-factor binding, or enantioselectivity. This finding allows to assign a function to residues for which no data is available yet in the literature. A mutant library was designed to mutate residues observed in a group of co-evolving residues predicted to be involved in enantioselectivity, but for which no literature data is available yet. The resulting set of mutations indeed showed many instances of increased enantioselectivity.

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Van Den Bergh, T., Tamo, G., Nobili, A., Tao, Y., Tan, T., Bornscheuer, U. T., … Joosten, H. J. (2017). CorNet: Assigning function to networks of co-evolving residues by automated literature mining. PLoS ONE, 12(5). https://doi.org/10.1371/journal.pone.0176427

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