Repeat-sequence turnover shifts fundamentally in species with large genomes

Petr Novák; Maite S. Guignard; Pavel Neumann; Laura J. Kelly; Jelena Mlinarec; Andrea Koblížková; Steven Dodsworth; Aleš Kovařík; Jaume Pellicer; Wencai Wang; Jiří Macas; Ilia J. Leitch; Andrew R. Leitch

doi:10.1038/s41477-020-00785-x

Repeat-sequence turnover shifts fundamentally in species with large genomes

Petr Novák
, Maite S. Guignard
, Pavel Neumann
, Laura J. Kelly
, Jelena Mlinarec
, Andrea Koblížková
, Steven Dodsworth
, Aleš Kovařík
, Jaume Pellicer
, Wencai Wang
, Jiří Macas
, Ilia J. Leitch
, Andrew R. Leitch

Institute of Biomedical and Environmental Science & Technology (IBEST)

Biology Centre of Academy of Sciences of the Czech Republic
Queen Mary University of London
Royal Botanic Gardens, Kew
University of Zagreb
Institute of the Biophysics of the Czech Academy of Sciences
Institut Botànic de Barcelona (IBB CSIC-Ajuntament de Barcelona)
Guangzhou University of Chinese Medicine

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

110 Citations (Scopus)

4 Downloads (Pure)

Abstract

Given the 2,400-fold range of genome sizes (0.06–148.9 Gbp (gigabase pair)) of seed plants (angiosperms and gymnosperms) with a broadly similar gene content (amounting to approximately 0.03 Gbp), the repeat-sequence content of the genome might be expected to increase with genome size, resulting in the largest genomes consisting almost entirely of repetitive sequences. Here we test this prediction, using the same bioinformatic approach for 101 species to ensure consistency in what constitutes a repeat. We reveal a fundamental change in repeat turnover in genomes above around 10 Gbp, such that species with the largest genomes are only about 55% repetitive. Given that genome size influences many plant traits, habits and life strategies, this fundamental shift in repeat dynamics is likely to affect the evolutionary trajectory of species lineages.

Original language	English
Pages (from-to)	1325-1329
Journal	Nature Plants
Volume	6
Issue number	11
DOIs	https://doi.org/10.1038/s41477-020-00785-x
Publication status	Published - 19 Oct 2020

Keywords

Genome
repeat-sequence

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10.1038/s41477-020-00785-x

Nov k et al 2020 AAM (1)Accepted author manuscript, 2.08 MBLicence: CC BY-NC-ND

https://www.nature.com/articles/s41477-020-00785-x

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@article{d9563e4160e840a6865ce1e2e6d05d0c,

title = "Repeat-sequence turnover shifts fundamentally in species with large genomes",

abstract = "Given the 2,400-fold range of genome sizes (0.06–148.9 Gbp (gigabase pair)) of seed plants (angiosperms and gymnosperms) with a broadly similar gene content (amounting to approximately 0.03 Gbp), the repeat-sequence content of the genome might be expected to increase with genome size, resulting in the largest genomes consisting almost entirely of repetitive sequences. Here we test this prediction, using the same bioinformatic approach for 101 species to ensure consistency in what constitutes a repeat. We reveal a fundamental change in repeat turnover in genomes above around 10 Gbp, such that species with the largest genomes are only about 55\% repetitive. Given that genome size influences many plant traits, habits and life strategies, this fundamental shift in repeat dynamics is likely to affect the evolutionary trajectory of species lineages.",

keywords = "Genome, repeat-sequence",

author = "Petr Nov{\'a}k and Guignard, \{Maite S.\} and Pavel Neumann and Kelly, \{Laura J.\} and Jelena Mlinarec and Andrea Kobl{\'i}{\v z}kov{\'a} and Steven Dodsworth and Ale{\v s} Kova{\v r}{\'i}k and Jaume Pellicer and Wencai Wang and Ji{\v r}{\'i} Macas and Leitch, \{Ilia J.\} and Leitch, \{Andrew R.\}",

year = "2020",

month = oct,

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doi = "10.1038/s41477-020-00785-x",

language = "English",

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T1 - Repeat-sequence turnover shifts fundamentally in species with large genomes

AU - Novák, Petr

AU - Guignard, Maite S.

AU - Neumann, Pavel

AU - Kelly, Laura J.

AU - Mlinarec, Jelena

AU - Koblížková, Andrea

AU - Dodsworth, Steven

AU - Kovařík, Aleš

AU - Pellicer, Jaume

AU - Wang, Wencai

AU - Macas, Jiří

AU - Leitch, Ilia J.

AU - Leitch, Andrew R.

PY - 2020/10/19

Y1 - 2020/10/19

N2 - Given the 2,400-fold range of genome sizes (0.06–148.9 Gbp (gigabase pair)) of seed plants (angiosperms and gymnosperms) with a broadly similar gene content (amounting to approximately 0.03 Gbp), the repeat-sequence content of the genome might be expected to increase with genome size, resulting in the largest genomes consisting almost entirely of repetitive sequences. Here we test this prediction, using the same bioinformatic approach for 101 species to ensure consistency in what constitutes a repeat. We reveal a fundamental change in repeat turnover in genomes above around 10 Gbp, such that species with the largest genomes are only about 55% repetitive. Given that genome size influences many plant traits, habits and life strategies, this fundamental shift in repeat dynamics is likely to affect the evolutionary trajectory of species lineages.

AB - Given the 2,400-fold range of genome sizes (0.06–148.9 Gbp (gigabase pair)) of seed plants (angiosperms and gymnosperms) with a broadly similar gene content (amounting to approximately 0.03 Gbp), the repeat-sequence content of the genome might be expected to increase with genome size, resulting in the largest genomes consisting almost entirely of repetitive sequences. Here we test this prediction, using the same bioinformatic approach for 101 species to ensure consistency in what constitutes a repeat. We reveal a fundamental change in repeat turnover in genomes above around 10 Gbp, such that species with the largest genomes are only about 55% repetitive. Given that genome size influences many plant traits, habits and life strategies, this fundamental shift in repeat dynamics is likely to affect the evolutionary trajectory of species lineages.

KW - Genome

KW - repeat-sequence

U2 - 10.1038/s41477-020-00785-x

DO - 10.1038/s41477-020-00785-x

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SN - 2055-026X

VL - 6

SP - 1325

EP - 1329

JO - Nature Plants

JF - Nature Plants

IS - 11

ER -

Repeat-sequence turnover shifts fundamentally in species with large genomes

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Keywords

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