Molecular dissection of a natural transposable element invasion

Robert Kofler; Kirsten André Senti; Viola Nolte; Ray Tobler; Christian Schlötterer

doi:10.1101/gr.228627.117

Molecular dissection of a natural transposable element invasion

Robert Kofler
, Kirsten André Senti
, Viola Nolte
, Ray Tobler
, Christian Schlötterer^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

55 Citations (Scopus)

Abstract

The first tracking of the dynamics of a natural invasion by a transposable element (TE) provides unprecedented details on the establishment of host defense mechanisms against TEs. We captured a D. simulans population at an early stage of a P-element invasion and studied the spread of the TE in replicated experimentally evolving populations kept under hot and cold conditions. We analyzed the factors controlling the invasion by NGS, RNA-FISH, and gonadal dysgenesis assays. Under hot conditions, the P-element spread rapidly for 20 generations, but no further spread was noted later on. This plateauing of the invasion was mediated by the rapid emergence of P-element-specific piRNAs. Under cold conditions, we observed a lower expression of the P-element and a slower emergence of the piRNA defense, resulting in a three times slower invasion that continued beyond 40 generations. We conclude that the environment is a major factor determining the evolution of TEs in their host.

Original language	English
Pages (from-to)	824-835
Number of pages	12
Journal	Genome Research
Volume	28
Issue number	6
DOIs	https://doi.org/10.1101/gr.228627.117
Publication status	Published - Jun 2018
Externally published	Yes

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title = "Molecular dissection of a natural transposable element invasion",

abstract = "The first tracking of the dynamics of a natural invasion by a transposable element (TE) provides unprecedented details on the establishment of host defense mechanisms against TEs. We captured a D. simulans population at an early stage of a P-element invasion and studied the spread of the TE in replicated experimentally evolving populations kept under hot and cold conditions. We analyzed the factors controlling the invasion by NGS, RNA-FISH, and gonadal dysgenesis assays. Under hot conditions, the P-element spread rapidly for 20 generations, but no further spread was noted later on. This plateauing of the invasion was mediated by the rapid emergence of P-element-specific piRNAs. Under cold conditions, we observed a lower expression of the P-element and a slower emergence of the piRNA defense, resulting in a three times slower invasion that continued beyond 40 generations. We conclude that the environment is a major factor determining the evolution of TEs in their host.",

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AU - Kofler, Robert

AU - Senti, Kirsten André

AU - Nolte, Viola

AU - Tobler, Ray

AU - Schlötterer, Christian

PY - 2018/6

Y1 - 2018/6

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AB - The first tracking of the dynamics of a natural invasion by a transposable element (TE) provides unprecedented details on the establishment of host defense mechanisms against TEs. We captured a D. simulans population at an early stage of a P-element invasion and studied the spread of the TE in replicated experimentally evolving populations kept under hot and cold conditions. We analyzed the factors controlling the invasion by NGS, RNA-FISH, and gonadal dysgenesis assays. Under hot conditions, the P-element spread rapidly for 20 generations, but no further spread was noted later on. This plateauing of the invasion was mediated by the rapid emergence of P-element-specific piRNAs. Under cold conditions, we observed a lower expression of the P-element and a slower emergence of the piRNA defense, resulting in a three times slower invasion that continued beyond 40 generations. We conclude that the environment is a major factor determining the evolution of TEs in their host.

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DO - 10.1101/gr.228627.117

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JO - Genome Research

JF - Genome Research

IS - 6

ER -

Molecular dissection of a natural transposable element invasion

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