The mobilome of reptiles: Evolution, structure, and function

Stéphane Boissinot; Yann Bourgeois; Joseph D. Manthey; Robert P. Ruggiero

doi:10.1159/000496416

The mobilome of reptiles: Evolution, structure, and function

Stéphane Boissinot, Yann Bourgeois, Joseph D. Manthey, Robert P. Ruggiero

Biological Sciences

Research output: Contribution to journal › Review article › peer-review

12 Scopus citations

Abstract

Transposable elements (TE) constitute one of the most variable genomic features among vertebrates, impacting genome size, structure, and composition. Despite their important role in shaping genomic diversity, they have mostly been studied in mammals, which display one of the least diverse genomes in terms of TE diversity. Recent new resources in reptilian genomics have opened a broader perspective about TE evolution in amniotes. We discuss these recent results by showing that TE diversity is high in reptiles, particularly in squamates, with strong heterogeneity in the number of TE classes retained in each lineage, even at short evolutionary scales. More research is needed to uncover the exact mechanisms that regulate TE proliferation in reptiles and to what extent these selfish elements can play a role in local adaptation or in the emergence of barriers to gene flow.

Original language	English
Pages (from-to)	21-33
Number of pages	13
Journal	Cytogenetic and Genome Research
Volume	157
Issue number	1-2
DOIs	https://doi.org/10.1159/000496416
State	Published - Apr 1 2019

Keywords

Birds
Reptiles
Retrotransposons
Transposons

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10.1159/000496416

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title = "The mobilome of reptiles: Evolution, structure, and function",

abstract = "Transposable elements (TE) constitute one of the most variable genomic features among vertebrates, impacting genome size, structure, and composition. Despite their important role in shaping genomic diversity, they have mostly been studied in mammals, which display one of the least diverse genomes in terms of TE diversity. Recent new resources in reptilian genomics have opened a broader perspective about TE evolution in amniotes. We discuss these recent results by showing that TE diversity is high in reptiles, particularly in squamates, with strong heterogeneity in the number of TE classes retained in each lineage, even at short evolutionary scales. More research is needed to uncover the exact mechanisms that regulate TE proliferation in reptiles and to what extent these selfish elements can play a role in local adaptation or in the emergence of barriers to gene flow.",

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AU - Boissinot, Stéphane

AU - Bourgeois, Yann

AU - Manthey, Joseph D.

AU - Ruggiero, Robert P.

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AB - Transposable elements (TE) constitute one of the most variable genomic features among vertebrates, impacting genome size, structure, and composition. Despite their important role in shaping genomic diversity, they have mostly been studied in mammals, which display one of the least diverse genomes in terms of TE diversity. Recent new resources in reptilian genomics have opened a broader perspective about TE evolution in amniotes. We discuss these recent results by showing that TE diversity is high in reptiles, particularly in squamates, with strong heterogeneity in the number of TE classes retained in each lineage, even at short evolutionary scales. More research is needed to uncover the exact mechanisms that regulate TE proliferation in reptiles and to what extent these selfish elements can play a role in local adaptation or in the emergence of barriers to gene flow.

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The mobilome of reptiles: Evolution, structure, and function

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