Evolutionary history of LTR-retrotransposons among 20 Drosophila species

Bargues, Nicolas; Lerat, Emmanuelle

doi:10.1186/s13100-017-0090-3

Cited by 32 publications

(68 citation statements)

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“…TE composition varies substantially among and within species (Bargues & Lerat, ; Bergman, Han, Nelson, Bondarenko, & Kozeretska, ), which could have important biological consequences. Variation in TE abundance among populations may be the hallmark of a recent TE invasion (Anxolabéhère, Kidwell, & Periquet, ; Kofler, Hill, Nolte, Betancourt, & Schlötterer, ) and may even drive speciation (Serrato‐Capuchina & Matute, ).…”

Section: Introductionmentioning

confidence: 99%

DeviaTE: Assembly‐free analysis and visualization of mobile genetic element composition

Weilguny¹,

Kofler²

2019

Molecular Ecology Resources

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Section: Introductionmentioning

confidence: 99%

DeviaTE: Assembly‐free analysis and visualization of mobile genetic element composition

Weilguny¹,

Kofler²

2019

Molecular Ecology Resources

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“…Phylogenetic analyses were performed using the amino acid alignment obtained after resolving all gaps and leaving all nucleotide sequences in frame. Fifty amino acid sequences belonging to each of the five main clades recently established by [15] for the Micropia/Sacco group within Ty3/Gypsy were selected from the alignment provided by the authors. These sequences were included as a “taxonomic framework” to guide conclusions related to new Micropia sequences in our phylogenetic analyses, in which a Copia-like transposable element sequence from D. melanogaster (GenBank access number X01472) was used as outgroup.…”

Section: Methodsmentioning

confidence: 99%

“…A large fraction of the genomes of most eukaryotes is composed by TEs known as retroelements [12, 13, 14], some of which belong to the LTR order. Phylogenetic analyses of such retroelements reveal an evolutionary history consisting mainly of vertical transmissions and intraspecific diversification [15]. However, autonomous TEs are able to invade naïve genomes through horizontal transposon transfers (HTT), in which they make copies of themselves and evade host defense systems before becoming fully silenced by genomic anti-TE mechanisms [16, 17].…”

Section: Introductionmentioning

confidence: 99%

“…A growing number of studies have identified HTTs using distinct analysis strategies [15, 16, 23, 24, 25]. For instance, a patchy taxonomic distribution among monophyletic species is expected if TEs are moving horizontally rather than being vertically inherited.…”

Section: Introductionmentioning

confidence: 99%

“…Until recently, there were only four best-characterized Micropia elements, and these were found in the genomes of D. hydei (named dhMiF2 and dhMiF8) and D. melanogaster (named Dm11 and Dm2) [33, 34, 35]. Recently, complete and probably active Micropia reference sequences were found in the genomes of D. simulans and D. sechellia [15]. Nevertheless, Micropia related sequences are also present in the genomes of several Drosophila and Zaprionus species, showing an irregular pattern of distribution [36, 37, 38, 39, 40, 41].…”

Section: Introductionmentioning

confidence: 99%

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Evolutionary history and classification of Micropia retroelements in Drosophilidae species

Cordeiro

Carvalho

Valente

et al. 2019

Preprint

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25Current knowledge indicates TEs have been shaping the evolution of genomes and host 26 species, contributing to the creation of new genes and promoting rearrangements 27 frequently associated with new regulatory networks. Support for these hypothesis 28 frequently result from studies with model species, and Drosophila detaches as a great 29 model organism to the study of TEs. Micropia belongs to the Ty3/Gypsy group of LTR 30 retroelements, and comprises one of the least studied Drosophila transposable elements. 31 In this study, we assessed the evolutionary history of Micropia within Drosophilidae, 32 while trying to assist in the classification of this TE. At first, we analyzed its presence in 33 the genome of several species from natural populations and then, based on searches 34 within genomic databases, we retrieved Micropia-like sequences from distinct 35 Drosophilidae species genomes. We expanded the knowledge of Micropia distribution 36 within Drosophila, and detected an array of divergent sequences, which allowed 37 subdividing this retroelement in 20 subfamilies. Even so, a patchy distribution of 38 Micropia sequences within the Drosophilidae phylogeny could be identified combined 39 with incongruences of the species and the Micropia phylogenies. Comparing dS values 40 between Micropia and host nuclear sequences, we found several cases of unexpected 41 high levels of similarity between Micropia sequences found in divergent species. All 42 these findings propose a hypothesis to the evolution of Micropia within Drosophilidae, 43 including several VTTs and HTTs events, associated to ancestral polymorphisms and 44 recurrent Micropia sequences diversification.45 46 Key words: transposable elements diversification; LTR retrotransposon subfamilies; 47 cardini group; repleta group; melanogaster group; horizontal transposon transfer; 48 vertical transposon transfer 50Since Barbara McClintock publication of maize genes moving around the 51 genome, transposable elements (TEs) went from junk to pivotal characters in the control 52 and evolution of genomes. The discovery of unexpected high amounts of TEs in the 53 genome of distinct species has pointed out toward functions of TEs on these genomes 54 [1, 2, 3]. In fact, current knowledge indicates TEs have been shaping the evolution of 55 genomes and host species [4], contributing to the creation of new genes [5, 6] and 56 promoting rearrangements frequently associated with new regulatory networks [7, 8 9]. 57More than this, there is even evidence that TEs may assist in the control of embryonic 58 development [9, 10] and genomic plasticity [11]. 59A large fraction of the genomes of most eukaryotes is composed by TEs known 60 as retroelements [12, 13, 14], some of which belong to the LTR order. Phylogenetic 61 analyses of such retroelements reveal an evolutionary history consisting mainly of 62 vertical transmissions and intraspecific diversification [15]. However, autonomous TEs 63 are able to invade naïve genomes through horizontal transposon ...

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Horizontal Transfers and Transposable Elements

LERAT

2024

Transposable Elements and Genome Evolution

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Evolutionary history of LTR-retrotransposons among 20 Drosophila species

Cited by 32 publications

References 50 publications

DeviaTE: Assembly‐free analysis and visualization of mobile genetic element composition

DeviaTE: Assembly‐free analysis and visualization of mobile genetic element composition

Evolutionary history and classification of Micropia retroelements in Drosophilidae species

Horizontal Transfers and Transposable Elements

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