Heidi J. T. Pagán scite author profile

DNA transposons, or class 2 transposable elements, have successfully propagated in a wide variety of genomes. However, it is widely believed that DNA transposon activity has ceased in mammalian genomes for at least the last 40 million years. We recently reported evidence for the relatively recent activity of hAT and Helitron elements, two distinct groups of DNA transposons, in the lineage of the vespertilionid bat Myotis lucifugus. Here, we describe seven additional families that have also been recently active in the bat lineage. Early vespertilionid genome evolution was dominated by the activity of Helitrons, mariner-like and Tc2-like elements. This was followed by the colonization of Tc1-like elements, and by a more recent explosion of hAT-like elements. Finally, and most recently, piggyBac-like elements have amplified within the Myotis genome and our results indicate that one of these families is probably still expanding in natural populations. Together, these data suggest that there has been tremendous recent activity of various DNA transposons in the bat lineage that far exceeds those previously reported for any mammalian lineage. The diverse and recent populations of DNA transposons in genus Myotis will provide an unprecedented opportunity to study the impact of this class of elements on mammalian genome evolution and to better understand what makes some species more susceptible to invasion by genomic parasites than others.

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Bats with hATs: Evidence for Recent DNA Transposon Activity in Genus Myotis

Ray

Pagán

Thompson

et al. 2006

Molecular Biology and Evolution

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Transposable elements make up a significant fraction of many eukaryotic genomes. Although both classes of transposable elements, the DNA transposons and the retrotransposons, show substantial expansion in plants and invertebrates, the DNA transposons are thought to have become inactive in mammalian genomes long ago. Here, we report the first evidence for recent activity of DNA transposons in a mammalian lineage, the bat genus Myotis. Six recently active families of nonautonomous hobo/Activator/TAM transposons were identified in the Myotis lucifugus genome using computational tools. Low sequence divergence among the individual sequences and between individual sequences and their respective consensus sequences suggest their recent expansion in the M. lucifugus genome. Furthermore, amplification and sequencing of polymorphic insertion loci in a related taxon, M. austroriparius, confirms their recent activity. Myotis is one of the largest mammalian genera with 103 species. The discovery of DNA transposon activity in this genus may therefore influence our understanding of genome evolution and diversification in bats and in mammals in general. Furthermore, the identification of a likely autonomous element may lead to new approaches for mammalian genetic manipulation.

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Complete mitochondrial genome sequences of three bats species and whole genome mitochondrial analyses reveal patterns of codon bias and lend support to a basal split in Chiroptera

Meganathan

Pagán

McCulloch

et al. 2012

Gene

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Survey Sequencing Reveals Elevated DNA Transposon Activity, Novel Elements, and Variation in Repetitive Landscapes among Vesper Bats

Pagán

Macas

Novák

et al. 2012

Genome Biology and Evolution

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The repetitive landscapes of mammalian genomes typically display high Class I (retrotransposon) transposable element (TE) content, which usually comprises around half of the genome. In contrast, the Class II (DNA transposon) contribution is typically small (<3% in model mammals). Most mammalian genomes exhibit a precipitous decline in Class II activity beginning roughly 40 Ma. The first signs of more recently active mammalian Class II TEs were obtained from the little brown bat, Myotis lucifugus, and are reflected by higher genome content (∼5%). To aid in determining taxonomic limits and potential impacts of this elevated Class II activity, we performed 454 survey sequencing of a second Myotis species as well as four additional taxa within the family Vespertilionidae and an outgroup species from Phyllostomidae. Graph-based clustering methods were used to reconstruct the major repeat families present in each species and novel elements were identified in several taxa. Retrotransposons remained the dominant group with regard to overall genome mass. Elevated Class II TE composition (3–4%) was observed in all five vesper bats, while less than 0.5% of the phyllostomid reads were identified as Class II derived. Differences in satellite DNA and Class I TE content are also described among vespertilionid taxa. These analyses present the first cohesive description of TE evolution across closely related mammalian species, revealing genome-scale differences in TE content within a single family.

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Heidi J. T. Pagán

Multiple waves of recent DNA transposon activity in the bat, Myotis lucifugus

Bats with hATs: Evidence for Recent DNA Transposon Activity in Genus Myotis

Complete mitochondrial genome sequences of three bats species and whole genome mitochondrial analyses reveal patterns of codon bias and lend support to a basal split in Chiroptera

Survey Sequencing Reveals Elevated DNA Transposon Activity, Novel Elements, and Variation in Repetitive Landscapes among Vesper Bats

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