Abstract

Miniature inverted-repeat transposable elements (MITEs) are short, non autonomous DNA elements that are widespread and abundant in plant genomes. The high sequence and size conservation observed in many MITE families suggest that they have spread recently throughout their respective host genomes. Here we present a maize genome wide analysis of three Tourist-like MITE families, mPIF, and two previously uncharacterized families, ZmV1 and Zead8. We undertook a bioinformatic analysis of MITE insertion sites, developed methyl-sensitive transposon display (M-STD) assays to estimate the associated level of CpG methylation at MITE flanking regions, and conducted a population genetics approach to investigate MITE patterns of expansion. Our results reveal that the three MITE families insert into genomic regions that present specific molecular features: they are preferentially AT rich, present low level of cytosine methylation as compared to the LTR retrotransposon Grande, and target site duplications are flanked by large and conserved palindromic sequences. Moreover, the analysis of MITE distances from predicted genes shows that 73% of 263 copies are inserted at less than 5 kb from the nearest predicted gene, and copies from Zead8 family are significantly more abundant upstream of genes. By employing a population genetic approach we identified contrasting patterns of expansion among the three MITE families. All elements seem to have inserted roughly 1 million years ago but ZmV1 and Zead8 families present evidences for activity of several master copies within the last 0.4 Mya.

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