A phylogenomic approach reveals a low somatic mutation rate in a long-lived plant

Adam J. Orr; Amanda Padovan; David Kainer; Carsten Külheim; Lindell Bromham; Carlos Bustos-Segura; William Foley; Tonya Haff; Ji Fan Hsieh; Alejandro Morales-Suarez; Reed A. Cartwright; Robert Lanfear

doi:10.1098/rspb.2019.2364

A phylogenomic approach reveals a low somatic mutation rate in a long-lived plant

Adam J. Orr, Amanda Padovan, David Kainer, Carsten Külheim, Lindell Bromham, Carlos Bustos-Segura, William Foley, Tonya Haff, Ji Fan Hsieh, Alejandro Morales-Suarez, Reed A. Cartwright, Robert Lanfear^*

^*Corresponding author for this work

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

36 Citations (Scopus)

Abstract

Somatic mutations can have important effects on the life history, ecology and evolution of plants, but the rate at which they accumulate is poorly understood and difficult to measure directly. Here, we develop a method to measure somatic mutations in individual plants and use it to estimate the somatic mutation rate in a large, long-lived, phenotypically mosaic Eucalyptus melliodora tree. Despite being 100 times larger than Arabidopsis, this tree has a per-generation mutation rate only ten times greater, which suggests that this species may have evolved mechanisms to reduce the mutation rate per unit of growth. This adds to a growing body of evidence that illuminates the correlated evolutionary shifts in mutation rate and life history in plants.

Original language	English
Article number	20192364
Journal	Proceedings of the Royal Society B: Biological Sciences
Volume	287
Issue number	1922
DOIs	https://doi.org/10.1098/rspb.2019.2364
Publication status	Published - 11 Mar 2020

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Orr, A. J., Padovan, A., Kainer, D., Külheim, C., Bromham, L., Bustos-Segura, C., Foley, W., Haff, T., Hsieh, J. F., Morales-Suarez, A., Cartwright, R. A., & Lanfear, R. (2020). A phylogenomic approach reveals a low somatic mutation rate in a long-lived plant. Proceedings of the Royal Society B: Biological Sciences, 287(1922), Article 20192364. https://doi.org/10.1098/rspb.2019.2364

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abstract = "Somatic mutations can have important effects on the life history, ecology and evolution of plants, but the rate at which they accumulate is poorly understood and difficult to measure directly. Here, we develop a method to measure somatic mutations in individual plants and use it to estimate the somatic mutation rate in a large, long-lived, phenotypically mosaic Eucalyptus melliodora tree. Despite being 100 times larger than Arabidopsis, this tree has a per-generation mutation rate only ten times greater, which suggests that this species may have evolved mechanisms to reduce the mutation rate per unit of growth. This adds to a growing body of evidence that illuminates the correlated evolutionary shifts in mutation rate and life history in plants.",

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AU - Orr, Adam J.

AU - Padovan, Amanda

AU - Kainer, David

AU - Külheim, Carsten

AU - Bromham, Lindell

AU - Bustos-Segura, Carlos

AU - Foley, William

AU - Haff, Tonya

AU - Hsieh, Ji Fan

AU - Morales-Suarez, Alejandro

AU - Cartwright, Reed A.

AU - Lanfear, Robert

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N2 - Somatic mutations can have important effects on the life history, ecology and evolution of plants, but the rate at which they accumulate is poorly understood and difficult to measure directly. Here, we develop a method to measure somatic mutations in individual plants and use it to estimate the somatic mutation rate in a large, long-lived, phenotypically mosaic Eucalyptus melliodora tree. Despite being 100 times larger than Arabidopsis, this tree has a per-generation mutation rate only ten times greater, which suggests that this species may have evolved mechanisms to reduce the mutation rate per unit of growth. This adds to a growing body of evidence that illuminates the correlated evolutionary shifts in mutation rate and life history in plants.

AB - Somatic mutations can have important effects on the life history, ecology and evolution of plants, but the rate at which they accumulate is poorly understood and difficult to measure directly. Here, we develop a method to measure somatic mutations in individual plants and use it to estimate the somatic mutation rate in a large, long-lived, phenotypically mosaic Eucalyptus melliodora tree. Despite being 100 times larger than Arabidopsis, this tree has a per-generation mutation rate only ten times greater, which suggests that this species may have evolved mechanisms to reduce the mutation rate per unit of growth. This adds to a growing body of evidence that illuminates the correlated evolutionary shifts in mutation rate and life history in plants.

KW - Bioinformatics

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A phylogenomic approach reveals a low somatic mutation rate in a long-lived plant

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