Expansion of LINEs and species-specific DNA repeats drives genome expansion in Asian Gypsy Moths

Hébert, François; Freschi, Luca; Blackburn, Gwylim S.; Béliveau, Catherine; Dewar, Ken; Boyle, Brian; Gundersen‐Rindal, Dawn E.; Sparks, Michael E.; Cusson, Michel; Hamelin, Richard; Levesque, Roger C.

doi:10.1038/s41598-019-52840-z

Cited by 9 publications

(7 citation statements)

References 67 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…By contrast, TE represent less than 1% of the genomes of the Antarctic midge ( Belgica antarctica , Diptera, 83.9 Mb) ( Kelley et al., 2014 ) and the body louse ( Pediculus humanus humanus , Phthiraptera, 108 Mb) ( Kirkness et al., 2010 ). Some studies have reported that the specific accumulation of LINE retrotransposons and DNA transposons leads to GS variation among wood-white butterfly species (genus Leptidea ) ( Talla et al., 2017 ) and Asian gypsy moths (genus Lymantria ) ( Hebert et al., 2019 ). In addition, the massive horizontal transfer of some TEs, such as the Gypsy, Bel-Pao, and Copia LTR superfamilies, significantly influences GS in mosquitoes ( Melo and Wallau 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Transposons and non-coding regions drive the intrafamily differences of genome size in insects

Cong¹,

Ye²,

Yang³

et al. 2022

iScience

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

Transposons and non-coding regions drive the intrafamily differences of genome size in insects

Cong¹,

Ye²,

Yang³

et al. 2022

iScience

View full text Add to dashboard Cite

“…Remarkably, the proportion of LINE elements identified in the S. littoralis genome was the highest reported so far in arthropods 78 , accounting for 52.18% of all repetitive elements. In two subspecies of the Asian gypsy moth Lymantria dispar, the accumulation of this particular class of transposable elements was found to be responsible for their large genome size 79 , a phenomenon also observed in other insect species 75 . The accumulation of the same elements in the S. littoralis genome could explain its larger size compared to its Spodoptera counterparts (470Mb vs ~400Mb for S. frugiperda, 438Mb for S. litura, 408-448Mb for S. exigua).…”

Section: Annotation Of Transposable Elements Enrichment Analysis and Selection Pressurementioning

confidence: 67%

Spodoptera littoralis genome mining brings insights on the dynamic of expansion of gustatory receptors in polyphagous noctuidae

Meslin

Mainet

Montagné

et al. 2021

Preprint

View full text Add to dashboard Cite

The bitter taste, triggered via gustatory receptors, serves as an important natural defense against the ingestion of poisonous foods in animals, and the diversity of food diet is usually linked to an increase in the number of gustatory receptor genes. This has been especially observed in polyphagous insect species, such as noctuid species from the Spodoptera genus. However, the dynamic and physical mechanisms leading to these gene expansions and the evolutionary pressures behind them remain elusive. Among major drivers of genome dynamics are the transposable elements but, surprisingly, their potential role in insect gustatory receptors expansion has not been considered yet. In this work, we hypothesized that transposable elements and possibly positive selection would be involved in the active dynamic of gustatory receptor evolution in Spodoptera spp. We first sequenced de novo the full 465Mb genome of S. littoralis, and manually annotated all chemosensory genes, including a large repertoire of 373 gustatory receptor genes (including 19 pseudogenes). We also improved the completeness of S. frugiperda and S. litura gustatory receptor repertoires. Then, we annotated transposable elements and revealed that a particular category of class I retrotransposons, the SINE transposons, was significantly enriched in the vicinity of gustatory receptor gene clusters, suggesting a transposon-mediated mechanism for the formation of these clusters. Selection pressure analyses indicated that positive selection within the gustatory receptor gene family is cryptic, only 7 receptors being identified as positively selected. Altogether, our data provide a new good quality Spodoptera genome, pinpoint interesting gustatory receptor candidates for further functional studies and bring valuable genomic information on the mechanisms of gustatory receptor expansions in polyphagous insect species.

show abstract

“…Remarkably, the proportion of LINE elements identified in the S. littoralis genome was the highest reported so far in arthropods ( Petersen et al 2019 ), accounting for 52.18% of all repetitive elements. In 2 subspecies of the Asian gypsy moth Lymantria dispar , the accumulation of this particular class of TEs was found to be responsible for their large genome size ( Hebert et al 2019 ), a phenomenon also observed in other insect species ( Maumus et al 2015 ). The accumulation of the same elements in the S. littoralis genome could explain its larger size compared with its Spodoptera counterparts (465 Mb vs ∼400Mb for S. frugiperda , 438 Mb for S. litura , 408–448 Mb for S. exigua ).…”

Section: Resultsmentioning

confidence: 85%

Spodoptera littoralis genome mining brings insights on the dynamic of expansion of gustatory receptors in polyphagous noctuidae

Meslin

Mainet

Montagné

et al. 2022

G3 Genes|Genomes|Genetics

View full text Add to dashboard Cite

The bitter taste, triggered via gustatory receptors, serves as an important natural defense against the ingestion of poisonous foods in animals, and the increased host breadth is usually linked to an increase in the number of gustatory receptor genes. This has been especially observed in polyphagous insect species, such as noctuid species from the Spodoptera genus. However, the dynamic and physical mechanisms leading to these gene expansions and the evolutionary pressures behind them remain elusive. Among major drivers of genome dynamics are the transposable elements but, surprisingly, their potential role in insect gustatory receptor expansion has not been considered yet. In this work, we hypothesized that transposable elements and possibly positive selection would be involved in the highly dynamic evolution of gustatory receptor in Spodoptera spp. We first sequenced de novo the full 465 Mb genome of S. littoralis, and manually annotated the main chemosensory genes, including a large repertoire of 373 gustatory receptor genes (including 19 pseudogenes). We also improved the completeness of S. frugiperda and S. litura gustatory receptor gene repertoires. Then, we annotated transposable elements and revealed that a particular category of class I retrotransposons, the SINE transposons, was significantly enriched in the vicinity of gustatory receptor gene clusters, suggesting a transposon-mediated mechanism for the formation of these clusters. Selection pressure analyses indicated that positive selection within the gustatory receptor gene family is cryptic, only 7 receptors being identified as positively selected. Altogether, our data provide a new good quality Spodoptera genome, pinpoint interesting gustatory receptor candidates for further functional studies and bring valuable genomic information on the mechanisms of gustatory receptor expansions in polyphagous insect species.

show abstract

Expansion of LINEs and species-specific DNA repeats drives genome expansion in Asian Gypsy Moths

Cited by 9 publications

References 67 publications

Transposons and non-coding regions drive the intrafamily differences of genome size in insects

Transposons and non-coding regions drive the intrafamily differences of genome size in insects

Spodoptera littoralis genome mining brings insights on the dynamic of expansion of gustatory receptors in polyphagous noctuidae

Spodoptera littoralis genome mining brings insights on the dynamic of expansion of gustatory receptors in polyphagous noctuidae

Contact Info

Product

Resources

About