AcademH, a lineage of Academ DNA transposons encoding helicase found in animals and fungi

• Main Author: Kenji K. Kojima
• Format: Article
• Language: English
• Published: BMC 2020-04-01
• Series: Mobile DNA
• Subjects: DNA transposon; Academ; Helicase; Target site duplication; Transposase; Plant homeodomain
• Online Access: http://link.springer.com/article/10.1186/s13100-020-00211-1

Abstract Background DNA transposons are ubiquitous components of eukaryotic genomes. Academ superfamily of DNA transposons is one of the least characterized DNA transposon superfamilies in eukaryotes. DNA transposons belonging to the Academ superfamily have been reported from various animals, one red algal species Chondrus crispus, and one fungal species Puccinia graminis. Six Academ families from P. graminis encode a helicase in addition to putative transposase, while some other families encode a single protein which contains a putative transposase and an XPG nuclease. Results Systematic searches on Repbase and BLAST searches against publicly available genome sequences revealed that several species of fungi and animals contain multiple Academ transposon families encoding a helicase. These AcademH families generate 9 or 10-bp target site duplications (TSDs) while Academ families lacking helicase generate 3 or 4-bp TSDs. Phylogenetic analysis clearly shows two lineages inside of Academ, designated here as AcademH and AcademX for encoding helicase or XPG nuclease, respectively. One sublineage of AcademH in animals encodes plant homeodomain (PHD) finger in its transposase, and its remnants are found in several fish genomes. Conclusions The AcademH lineage of TEs is widely distributed in animals and fungi, and originated early in the evolution of Academ DNA transposons. This analysis highlights the structural diversity in one less studied superfamily of eukaryotic DNA transposons.