Structure and Evolution of the hAT Transposon Superfamily

Structure and Evolution of the hAT Transposon Superfamily

Eitan Rubin^a, Gila Lithwick^a, and Avraham A. Levy^a
^a Department of Plant Sciences, The Weizmann Institute of Science, Rehovot 76100, Israel

Corresponding author: Avraham A. Levy, Plant Sciences, Weizmann Institute of Science, Rehovot 76100, Israel., avi.levy{at}weizmann.ac.il (E-mail)

Communicating editor: S. HENIKOFF

The maize transposon Activator (Ac) was the first mobile DNAelement to be discovered. Since then, other elements were foundthat share similarity to Ac, suggesting that it belongs to atransposon superfamily named hAT after hobo from Drosophila,Ac from maize, and Tam3 from snapdragon. We addressed the structureand evolution of hAT elements by developing new tools for transposonmining and searching the public sequence databases for the hallmarksof hAT elements, namely the transposase and short terminal invertedrepeats (TIRs) flanked by 8-bp host duplications. We found 147hAT-related sequences in plants, animals, and fungi. Six conservedblocks could be identified in the transposase of most hAT elements.A total of 41 hAT sequences were flanked by TIRs and 8-bp hostduplications and, out of these, 34 sequences had TIRs similarto the consensus determined in this work, suggesting that theyare active or recently active transposons. Phylogenetic analysisand clustering of hAT sequences suggest that the hAT superfamilyis very ancient, probably predating the plant-fungi-animal separation,and that, unlike previously proposed, there is no evidence thathorizontal gene transfer was involved in the evolution of hATelements.

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