Analysis of the Evolution of the MoxR ATPases.

Abstract

MoxR proteins comprise a family of ATPases Associated with diverse cellular Activities (AAA+). These proteins are widespread and found across the diversity of prokaryotic species. Despite their ubiquity, members of the group remain poorly characterized. Only a few examples of MoxR proteins have been associated with cellular roles, where they have been shown to perform chaperone-like functions. A characteristic feature of MoxR proteins is their association with proteins containing the von Willebrand factor type A (VWA) domain. In an effort to understand the spread and diversity of the MoxR family, an evolutionary approach was undertaken. Phylogenetic techniques were used to define nine major subfamilies within the MoxR family. A combination of phylogenetic and genomic approaches was utilized to explore the extent of the partnership between the MoxR and VWA domain containing proteins (VWA proteins). These analyses led to the clarification of genetic linkages between MoxR and VWA proteins. A significant partnership is described here, as seven of nine MoxR subfamilies were found to be linked to VWA proteins. Available genomic data were also used to assess the intraprotein diversification of MoxR and VWA protein sequences. Data clearly indicated that, in MoxR proteins, the ATPase domain is maintained with high conservation while the remaining protein sequence evolves at a faster rate; a similar pattern was observed for the VWA domain in VWA proteins. Overall, our data present insights into the modular evolution of MoxR ATPases.