Abstract
BackgroundMutator-like transposable elements (MULEs) are widespread with members in fungi, plants, and animals. Most of the research on the MULE superfamily has focused on plant MULEs where they were discovered and where some are extremely active and have significant impact on genome structure. The maize MuDR element has been widely used as a tool for both forward and reverse genetic studies because of its high transposition rate and preference for targeting genic regions. However, despite being widespread, only a few active MULEs have been identified, and only one, the rice Os3378, has demonstrated activity in a non-host organism.ResultsHere we report the identification of potentially active MULEs in the mosquito Aedes aegypti. We demonstrate that one of these, Muta1, is capable of excision and reinsertion in a yeast transposition assay. Element reinsertion generated either 8 bp or 9 bp target site duplications (TSDs) with no apparent sequence preference. Mutagenesis analysis of donor site TSDs in the yeast assay indicates that their presence is important for precise excision and enhanced transposition. Site directed mutagenesis of the putative DDE catalytic motif and other conserved residues in the transposase protein abolished transposition activity.ConclusionsCollectively, our data indicates that the Muta1 transposase of Ae. aegypti can efficiently catalyze both excision and reinsertion reactions in yeast. Mutagenesis analysis reveals that several conserved amino acids, including the DDE triad, play important roles in transposase function. In addition, donor site TSD also impacts the transposition of Muta1.
Highlights
Mutator-like transposable elements (MULEs) are widespread with members in fungi, plants, and animals
Members share the same terminal inverted repeats (TIRs) and target site duplications (TSDs) of the same length allowing them to move in trans by utilizing the transposase encoded by the autonomous family member(s) [3]
The conserved MULE DDE domain sequences were used as queries in TBlastN searches against the Ae. aegypti genome through the TARGeT program, which is designed for Transposable element (TE) discovery [20, 33]
Summary
Mutator-like transposable elements (MULEs) are widespread with members in fungi, plants, and animals. Transposable elements (TEs) are mobile fragments of DNA that can move from one locus to another in the host genome, often replicating in the process. TEs usually make up the largest fraction of eukaryotic genomes; accounting for almost half of the human genome, and more than 70% of the genomes of some grass species [1]. Based on their transposition intermediate, eukaryotic TEs are divided into two classes. Members share the same terminal inverted repeats (TIRs) and target site duplications (TSDs) of the same length allowing them to move in trans by utilizing the transposase encoded by the autonomous family member(s) [3]
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