Transposable Elements Direct The Coevolution between Plants and Microbes

Michael F Seidl; Bart P H J Thomma

doi:10.1016/j.tig.2017.07.003

Transposable Elements Direct The Coevolution between Plants and Microbes

Michael F Seidl, Bart P H J Thomma

Laboratory of Phytopathology, Wageningen University and Research, Droevendaalsesteeg 1, 6708 PB Wageningen, The Netherlands; Both authors contributed equally. Electronic address: [email protected].
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Research output: Contribution to journal › Review article › peer-review

Abstract

Transposable elements are powerful drivers of genome evolution in many eukaryotes. Although they are mostly considered as 'selfish' genetic elements, increasing evidence suggests that they contribute to genetic variability; particularly under stress conditions. Over the past few years, the role of transposable elements during host-microbe interactions has been recognised. It has been proposed that many pathogenic microbes have evolved a 'two-speed' genome with regions that show increased variability and that are enriched in transposable elements and pathogenicity-related genes. Plants similarly display structured genomes with transposable-element-rich regions that mediate accelerated evolution. Immune receptor genes typically reside in such regions. Various mechanisms have recently been identified through which transposable elements contribute to the coevolution between plants and their associated microbes.

Original language	English
Pages (from-to)	842-851
Number of pages	10
Journal	Trends in Genetics
Volume	33
Issue number	11
DOIs	https://doi.org/10.1016/j.tig.2017.07.003
Publication status	Published - Nov 2017
Externally published	Yes

Keywords

DNA Transposable Elements
Evolution, Molecular
Fungi/genetics
Host-Pathogen Interactions
Plants/genetics

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10.1016/j.tig.2017.07.003

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title = "Transposable Elements Direct The Coevolution between Plants and Microbes",

abstract = "Transposable elements are powerful drivers of genome evolution in many eukaryotes. Although they are mostly considered as 'selfish' genetic elements, increasing evidence suggests that they contribute to genetic variability; particularly under stress conditions. Over the past few years, the role of transposable elements during host-microbe interactions has been recognised. It has been proposed that many pathogenic microbes have evolved a 'two-speed' genome with regions that show increased variability and that are enriched in transposable elements and pathogenicity-related genes. Plants similarly display structured genomes with transposable-element-rich regions that mediate accelerated evolution. Immune receptor genes typically reside in such regions. Various mechanisms have recently been identified through which transposable elements contribute to the coevolution between plants and their associated microbes.",

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AU - Seidl, Michael F

AU - Thomma, Bart P H J

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N2 - Transposable elements are powerful drivers of genome evolution in many eukaryotes. Although they are mostly considered as 'selfish' genetic elements, increasing evidence suggests that they contribute to genetic variability; particularly under stress conditions. Over the past few years, the role of transposable elements during host-microbe interactions has been recognised. It has been proposed that many pathogenic microbes have evolved a 'two-speed' genome with regions that show increased variability and that are enriched in transposable elements and pathogenicity-related genes. Plants similarly display structured genomes with transposable-element-rich regions that mediate accelerated evolution. Immune receptor genes typically reside in such regions. Various mechanisms have recently been identified through which transposable elements contribute to the coevolution between plants and their associated microbes.

AB - Transposable elements are powerful drivers of genome evolution in many eukaryotes. Although they are mostly considered as 'selfish' genetic elements, increasing evidence suggests that they contribute to genetic variability; particularly under stress conditions. Over the past few years, the role of transposable elements during host-microbe interactions has been recognised. It has been proposed that many pathogenic microbes have evolved a 'two-speed' genome with regions that show increased variability and that are enriched in transposable elements and pathogenicity-related genes. Plants similarly display structured genomes with transposable-element-rich regions that mediate accelerated evolution. Immune receptor genes typically reside in such regions. Various mechanisms have recently been identified through which transposable elements contribute to the coevolution between plants and their associated microbes.

KW - DNA Transposable Elements

KW - Evolution, Molecular

KW - Fungi/genetics

KW - Host-Pathogen Interactions

KW - Plants/genetics

U2 - 10.1016/j.tig.2017.07.003

DO - 10.1016/j.tig.2017.07.003

M3 - Review article

C2 - 28800915

SN - 0168-9525

VL - 33

SP - 842

EP - 851

JO - Trends in Genetics

JF - Trends in Genetics

IS - 11

ER -

Transposable Elements Direct The Coevolution between Plants and Microbes

Abstract

Keywords

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