Horizontally acquired fungal killer protein genes affect cell development in mosses.

SUMMARY: The moss Physcomitrium patens is crucial for studying plant development and evolution. Although the P. patens genome includes genes acquired from bacteria, fungi and viruses, the functions and evolutionary significance of these acquired genes remain largely unclear. Killer protein 4 (KP4) is a toxin secreted by the phytopathogenic fungus Ustilago maydis that inhibits the growth of sensitive target strains by blocking their calcium uptake. Here, we show that KP4 genes in mosses were acquired from fungi through at least three independent events of horizontal gene transfer. Two paralogous copies of KP4 (PpKP4‐1 and PpKP4‐2) exist in P. patens. Knockout mutants ppkp4‐1 and ppkp4‐2 showed cell death at the protonemal stage, and ppkp4‐2 also exhibited defects in tip growth. We provide experimental evidence indicating that PpKP4‐1/2 affects P. patens protonemal cell development by mediating cytoplasmic calcium and that KP4 genes are functionally conserved between P. patens and fungi. The present study provides additional insights into the role of horizontal gene transfer in land plant development and evolution. Significance Statement: Plants are intimately associated with fungi. However, it remains largely unclear how fungi may have affected the biology of plant partners through genetic integration (e.g. horizontal gene transfer) following organismal interaction. In the present study, we show that KP4 genes in mosses were acquired from fungi through at least three independent horizontal gene transfer events and that the acquired KP4 genes affect the protonemal development of mosses. [ABSTRACT FROM AUTHOR]