The Bacterial Kinase AnmK Integrates into Tick Genome and Biology

Horizontal Gene Transfer (HGT) contributes to eukaryotic evolution, potentially bringing phenotypic novelties to the recipient organisms. Ticks pose a severe threat to human health as vectors of various pathogens, including viruses, bacteria and protozoa, while stably hosting endosymbiotic bacteria. As such, these obligate blood-feeding parasites have been and continue to be exposed to HGT from a broad range of donors. To determine whether bacterial-to-tick HGT has contributed to important tick traits, we surveyed Ixodes tick genomes for HGT events. We revealed duplications of the known bacteria-derived gene dae2 and discovered two novel cases of bacterial HGT, the most remarkable of which involves a bacterial peptidoglycan metabolic gene (anmK) acquired by the common ancestor of ticks. The acquisition of an intron demonstrates "eukaryotization" of anmK within tick genomes. Transcript profiling revealed that anmK expression is upregulated during blood feeding, peaking in female ovaries, a niche occupied by horizontally acquired endosymbionts. Biochemical analysis confirmed that, to some extent, recombinant AnmK retains kinase activity on its cognate substrate - the bacterial cell wall component 1,6-anhydro-N-acetylmuramic acid. Immunolocalization showed that the enzyme is predominantly localized towards outer layers of the vitellogenic oocytes. Silencing of anmK in different tick species compromised blood-feeding and reproduction, demonstrating that this domesticated bacterial enzyme underpins reproductive fitness across tick species. Our findings exemplify the ability of horizontally acquired genes to integrate into the host biology and thereby shape host life history.