Signatures of the Evolution of Parthenogenesis and Cryptobiosis in the Genomes of Panagrolaimid Nematodes

Philipp H. Schiffer; Etienne G.J. Danchin; Ann M. Burnell; Christopher J. Creevey; Simon Wong; Ilona Dix; Georgina O'Mahony; Bridget A. Culleton; Corinne Rancurel; Gary Stier; Elizabeth A. Martínez-Salazar; Aleksandra Marconi; Urmi Trivedi; Michael Kroiher; Michael A.S. Thorne; Einhard Schierenberg; Thomas Wiehe; Mark Blaxter

doi:10.1016/j.isci.2019.10.039

Signatures of the Evolution of Parthenogenesis and Cryptobiosis in the Genomes of Panagrolaimid Nematodes

Philipp H. Schiffer^*, Etienne G.J. Danchin, Ann M. Burnell, Christopher J. Creevey, Simon Wong, Ilona Dix, Georgina O'Mahony, Bridget A. Culleton, Corinne Rancurel, Gary Stier, Elizabeth A. Martínez-Salazar, Aleksandra Marconi, Urmi Trivedi, Michael Kroiher, Michael A.S. Thorne, Einhard Schierenberg, Thomas Wiehe, Mark Blaxter

^*Corresponding author for this work

School of Biological Sciences

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

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Abstract

Most animal species reproduce sexually and fully parthenogenetic lineages are usually short lived in evolution. Still, parthenogenesis may be advantageous as it avoids the cost of sex and permits colonization by single individuals. Panagrolaimid nematodes have colonized environments ranging from arid deserts to Arctic and Antarctic biomes. Many are obligatory meiotic parthenogens, and most have cryptobiotic abilities, being able to survive repeated cycles of complete desiccation and freezing. To identify systems that may contribute to these striking abilities, we sequenced and compared the genomes and transcriptomes of parthenogenetic and outcrossing panagrolaimid species, including cryptobionts and non-cryptobionts. The parthenogens are triploids, most likely originating through hybridization. Adaptation to cryptobiosis shaped the genomes of panagrolaimid nematodes and is associated with the expansion of gene families and signatures of selection on genes involved in cryptobiosis. All panagrolaimids have acquired genes through horizontal gene transfer, some of which are likely to contribute to cryptobiosis.

Original language	English
Pages (from-to)	587-602
Number of pages	16
Journal	iScience
Volume	21
Early online date	24 Oct 2019
DOIs	https://doi.org/10.1016/j.isci.2019.10.039
Publication status	Published - 22 Nov 2019

Keywords

Evolutionary Biology
Phylogenetics
Transcriptomics

ASJC Scopus subject areas

General

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Signatures of the Evolution of Parthenogenesis and Cryptobiosis in the Genomes of Panagrolaimid Nematodes
Copyright 2019 the authors. This is an open access article published under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
Final published version, 7.56 MBLicence: CC BY

Cite this

Schiffer, P. H., Danchin, E. G. J., Burnell, A. M., Creevey, C. J., Wong, S., Dix, I., O'Mahony, G., Culleton, B. A., Rancurel, C., Stier, G., Martínez-Salazar, E. A., Marconi, A., Trivedi, U., Kroiher, M., Thorne, M. A. S., Schierenberg, E., Wiehe, T., & Blaxter, M. (2019). Signatures of the Evolution of Parthenogenesis and Cryptobiosis in the Genomes of Panagrolaimid Nematodes. iScience, 21, 587-602. https://doi.org/10.1016/j.isci.2019.10.039

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abstract = "Most animal species reproduce sexually and fully parthenogenetic lineages are usually short lived in evolution. Still, parthenogenesis may be advantageous as it avoids the cost of sex and permits colonization by single individuals. Panagrolaimid nematodes have colonized environments ranging from arid deserts to Arctic and Antarctic biomes. Many are obligatory meiotic parthenogens, and most have cryptobiotic abilities, being able to survive repeated cycles of complete desiccation and freezing. To identify systems that may contribute to these striking abilities, we sequenced and compared the genomes and transcriptomes of parthenogenetic and outcrossing panagrolaimid species, including cryptobionts and non-cryptobionts. The parthenogens are triploids, most likely originating through hybridization. Adaptation to cryptobiosis shaped the genomes of panagrolaimid nematodes and is associated with the expansion of gene families and signatures of selection on genes involved in cryptobiosis. All panagrolaimids have acquired genes through horizontal gene transfer, some of which are likely to contribute to cryptobiosis.",

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Schiffer, PH, Danchin, EGJ, Burnell, AM, Creevey, CJ, Wong, S, Dix, I, O'Mahony, G, Culleton, BA, Rancurel, C, Stier, G, Martínez-Salazar, EA, Marconi, A, Trivedi, U, Kroiher, M, Thorne, MAS, Schierenberg, E, Wiehe, T & Blaxter, M 2019, 'Signatures of the Evolution of Parthenogenesis and Cryptobiosis in the Genomes of Panagrolaimid Nematodes', iScience, vol. 21, pp. 587-602. https://doi.org/10.1016/j.isci.2019.10.039

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AU - Stier, Gary

AU - Martínez-Salazar, Elizabeth A.

AU - Marconi, Aleksandra

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AU - Thorne, Michael A.S.

AU - Schierenberg, Einhard

AU - Wiehe, Thomas

AU - Blaxter, Mark

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N2 - Most animal species reproduce sexually and fully parthenogenetic lineages are usually short lived in evolution. Still, parthenogenesis may be advantageous as it avoids the cost of sex and permits colonization by single individuals. Panagrolaimid nematodes have colonized environments ranging from arid deserts to Arctic and Antarctic biomes. Many are obligatory meiotic parthenogens, and most have cryptobiotic abilities, being able to survive repeated cycles of complete desiccation and freezing. To identify systems that may contribute to these striking abilities, we sequenced and compared the genomes and transcriptomes of parthenogenetic and outcrossing panagrolaimid species, including cryptobionts and non-cryptobionts. The parthenogens are triploids, most likely originating through hybridization. Adaptation to cryptobiosis shaped the genomes of panagrolaimid nematodes and is associated with the expansion of gene families and signatures of selection on genes involved in cryptobiosis. All panagrolaimids have acquired genes through horizontal gene transfer, some of which are likely to contribute to cryptobiosis.

AB - Most animal species reproduce sexually and fully parthenogenetic lineages are usually short lived in evolution. Still, parthenogenesis may be advantageous as it avoids the cost of sex and permits colonization by single individuals. Panagrolaimid nematodes have colonized environments ranging from arid deserts to Arctic and Antarctic biomes. Many are obligatory meiotic parthenogens, and most have cryptobiotic abilities, being able to survive repeated cycles of complete desiccation and freezing. To identify systems that may contribute to these striking abilities, we sequenced and compared the genomes and transcriptomes of parthenogenetic and outcrossing panagrolaimid species, including cryptobionts and non-cryptobionts. The parthenogens are triploids, most likely originating through hybridization. Adaptation to cryptobiosis shaped the genomes of panagrolaimid nematodes and is associated with the expansion of gene families and signatures of selection on genes involved in cryptobiosis. All panagrolaimids have acquired genes through horizontal gene transfer, some of which are likely to contribute to cryptobiosis.

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Signatures of the Evolution of Parthenogenesis and Cryptobiosis in the Genomes of Panagrolaimid Nematodes

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Keywords

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