Replitrons: A major group of eukaryotic transposons encoding HUH endonuclease.

HUH endonucleases of the Rep (replication protein) class mediate the replication of highly diverse plasmids and viral genomes across all domains of life. HUH transposases have independently evolved from Reps, giving rise to three major transposable element groups: the prokaryotic insertion sequences IS/IS and IS/IS, and the eukaryotic Helitrons. Here, I present Replitrons, a second group of eukaryotic transposons encoding Rep HUH endonuclease. Replitron transposases feature a Rep domain with one catalytic Tyr (Y1) and an adjacent domain that may function in oligomerization, contrasting with Helitron transposases that feature Rep with two Tyr (Y2) and a fused helicase domain (i.e., RepHel). Protein clustering found no link between Replitron transposases and described HUH transposases, and instead recovered a weak association with Reps of circular Rep-encoding single-stranded (CRESS) DNA viruses and their related plasmids (pCRESS). The predicted tertiary structure of the transposase of , the founding member of the group that is active in the green alga , closely resembles that of CRESS-DNA viruses and other HUH endonucleases. Replitrons are present in at least three eukaryotic supergroups and reach high copy numbers in nonseed plant genomes. Replitron DNA sequences feature short direct repeats at, or potentially near, their termini. Finally, I characterize -and- de novo insertions of using long-read sequencing of experimental lines. These results support an ancient and evolutionarily independent origin of Replitrons, in line with other major groups of eukaryotic transposons. This work expands the known diversity of both transposons and HUH endonucleases in eukaryotes.