Pan-phylum genomes of hornworts reveal conserved autosomes but dynamic accessory and sex chromosomes

Hornworts, one of the three bryophyte phyla, show some of the deepest divergences in extant land plants, with some families separated by more than 300 million years. Previous hornwort genomes represented only one genus, limiting the ability to infer evolution within hornworts and their early land plant ancestors. Here we report ten new chromosome-scale genomes representing all hornwort families and most of the genera. We found that, despite the deep divergence, synteny was surprisingly conserved across all hornwort genomes, a pattern that might be related to the absence of whole-genome duplication. We further uncovered multiple accessory and putative sex chromosomes that are highly repetitive and CpG methylated. In contrast to autosomes, these chromosomes mostly lack syntenic relationships with one another and are evolutionarily labile. Notable gene retention and losses were identified, including those responsible for flavonoid biosynthesis, stomata patterning and phytohormone reception, which have implications in reconstructing the evolution of early land plants. Together, our pan-phylum genomes revealed an array of conserved and divergent genomic features in hornworts, highlighting the uniqueness of this deeply diverged lineage. This study presents 11 new hornwort (Anthocerotophyta) genomes that clarify the structure and evolution of sex and accessory chromosomes in bryophytes and shed new light on the early evolution of land plants.