In silico ionomics segregates parasitic from free-living eukaryotes

Abstract

Ion transporters are fundamental tolife.Dueto their ancient origin and conservation in sequence, ion transporters are also particularly well suited for comparative genomics of distantly related species. Here, we perform genome-wide ion transporter profiling as a basis for comparative genomics of eukaryotes. From a given predicted proteome, we identify all bonafideion channels, ionporters, andion pumps. Concentrating on unicellular eukaryotes (n=37),we demonstrate that clustering of species according to their repertoire of ion transporters segregates obligate end oparasites (n=23) on the one hand, from free-living species and facultative parasites (n=14) on the other hand. This surprising finding indicates strong convergent evolution of the parasites regarding the acquisition and homeostasis of inorganic ions. Random forest classification identifies transporters of ammonia, plus transporters of iron and other transition metals, as the most informative for distinguishing the obligate parasites. Thus, in silico ionomics further underscores the importance of iron in infection biology and suggests access to host sources of nitrogen and transition metals to be selective forces in the evolution of parasitism. This finding is in agreement with the phenomenon of iron withholding as a primordial antimicrobial strategy of infected mammals. © The Author(s) 2013.