Evolutionary History of Subtilases in Land Plants and Their Involvement in Symbiotic Interactions

Abstract

Subtilases, a family of proteases involved in a variety of developmental processes in land plants, are also involved in both mutualistic symbiosis and host-pathogen interactions in different angiosperm lineages. We examined the evolutionary history of subtilase genes across land plants through a phylogenetic analysis integrating amino acid sequence data from full genomes, transcriptomes, and characterized subtilases of 341 species of diverse green algae and land plants along with subtilases from 12 species of other eukaryotes, archaea, and bacteria. Our analysis reconstructs the subtilase gene phylogeny and identifies 11 new gene lineages, six of which have no previously characterized members. Two large, previously unnamed, subtilase gene lineages that diverged before the origin of angiosperms accounted for the majority of subtilases shown to be associated with symbiotic interactions. These lineages expanded through both whole-genome and tandem duplication, with differential neofunctionalization and subfunctionalization creating paralogs associated with different symbioses, including nodulation with nitrogen-fixing bacteria, arbuscular mycorrhizae, and pathogenesis in different plant clades. This study demonstrates for the first time that a key gene family involved in plant-microbe interactions proliferated in size and functional diversity before the explosive radiation of angiosperms.