The genomics of linkage drag in inbred lines of sunflower

Kaichi Huang; Mojtaba Jahani; Jérôme Gouzy; Alexandra Legendre; Sébastien Carrere; José Miguel Lázaro-Guevara; Eric Gerardo González Segovia; Marco Todesco; Baptiste Mayjonade; Nathalie Rodde; Stéphane Cauet; Isabelle Dufau; S. Evan Staton; Nicolas Pouilly; Marie Claude Boniface; Camille Tapy; Brigitte Mangin; Alexandra Duhnen; Véronique Gautier; Charles Poncet; Cécile Donnadieu; Tali Mandel; Sariel Hübner; John M. Burke; Sonia Vautrin; Arnaud Bellec; Gregory L. Owens; Nicolas Langlade; Stéphane Muños; Loren H. Rieseberg

doi:10.1073/pnas.2205783119

The genomics of linkage drag in inbred lines of sunflower

Kaichi Huang, Mojtaba Jahani, Jérôme Gouzy, Alexandra Legendre, Sébastien Carrere, José Miguel Lázaro-Guevara, Eric Gerardo González Segovia, Marco Todesco, Baptiste Mayjonade, Nathalie Rodde, Stéphane Cauet, Isabelle Dufau, S. Evan Staton, Nicolas Pouilly, Marie Claude Boniface, Camille Tapy, Brigitte Mangin, Alexandra Duhnen, Véronique Gautier, Charles PoncetCécile Donnadieu, Tali Mandel, Sariel Hübner, John M. Burke, Sonia Vautrin, Arnaud Bellec, Gregory L. Owens, Nicolas Langlade, Stéphane Muños, Loren H. Rieseberg

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

Abstract

Crop wild relatives represent valuable sources of alleles for crop improvement, including adaptation to climate change and emerging diseases. However, introgressions from wild relatives might have deleterious effects on desirable traits, including yield, due to linkage drag. Here, we analyzed the genomic and phenotypic impacts of wild introgressions in inbred lines of cultivated sunflower to estimate the impacts of linkage drag. First, we generated reference sequences for seven cultivated and one wild sunflower genotype, as well as improved assemblies for two additional cultivars. Next, relying on previously generated sequences from wild donor species, we identified introgressions in the cultivated reference sequences, as well as the sequence and structural variants they contain. We then used a ridge-regression best linear unbiased prediction (BLUP) model to test the effects of the introgressions on phenotypic traits in the cultivated sunflower association mapping population. We found that introgression has introduced substantial sequence and structural variation into the cultivated sunflower gene pool, including >3,000 new genes. While introgressions reduced genetic load at protein-coding sequences, they mostly had negative impacts on yield and quality traits. Introgressions found at high frequency in the cultivated gene pool had larger effects than low-frequency introgressions, suggesting that the former likely were targeted by artificial selection. Also, introgressions from more distantly related species were more likely to be maladaptive than those from the wild progenitor of cultivated sunflower. Thus, breeding efforts should focus, as far as possible, on closely related and fully compatible wild relatives.

Original language	English
Article number	e2205783119
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	120
Issue number	14
DOIs	https://doi.org/10.1073/pnas.2205783119
State	Published - 4 Apr 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © 2023 the Author(s).

Keywords

introgression
linkage drag
plant breeding
structural variation
sunflower

ASJC Scopus subject areas

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1073/pnas.2205783119

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Huang, K., Jahani, M., Gouzy, J., Legendre, A., Carrere, S., Lázaro-Guevara, J. M., González Segovia, E. G., Todesco, M., Mayjonade, B., Rodde, N., Cauet, S., Dufau, I., Staton, S. E., Pouilly, N., Boniface, M. C., Tapy, C., Mangin, B., Duhnen, A., Gautier, V., ... Rieseberg, L. H. (2023). The genomics of linkage drag in inbred lines of sunflower. Proceedings of the National Academy of Sciences of the United States of America, 120(14), Article e2205783119. https://doi.org/10.1073/pnas.2205783119

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abstract = "Crop wild relatives represent valuable sources of alleles for crop improvement, including adaptation to climate change and emerging diseases. However, introgressions from wild relatives might have deleterious effects on desirable traits, including yield, due to linkage drag. Here, we analyzed the genomic and phenotypic impacts of wild introgressions in inbred lines of cultivated sunflower to estimate the impacts of linkage drag. First, we generated reference sequences for seven cultivated and one wild sunflower genotype, as well as improved assemblies for two additional cultivars. Next, relying on previously generated sequences from wild donor species, we identified introgressions in the cultivated reference sequences, as well as the sequence and structural variants they contain. We then used a ridge-regression best linear unbiased prediction (BLUP) model to test the effects of the introgressions on phenotypic traits in the cultivated sunflower association mapping population. We found that introgression has introduced substantial sequence and structural variation into the cultivated sunflower gene pool, including >3,000 new genes. While introgressions reduced genetic load at protein-coding sequences, they mostly had negative impacts on yield and quality traits. Introgressions found at high frequency in the cultivated gene pool had larger effects than low-frequency introgressions, suggesting that the former likely were targeted by artificial selection. Also, introgressions from more distantly related species were more likely to be maladaptive than those from the wild progenitor of cultivated sunflower. Thus, breeding efforts should focus, as far as possible, on closely related and fully compatible wild relatives.",

keywords = "introgression, linkage drag, plant breeding, structural variation, sunflower",

author = "Kaichi Huang and Mojtaba Jahani and J{\'e}r{\^o}me Gouzy and Alexandra Legendre and S{\'e}bastien Carrere and L{\'a}zaro-Guevara, {Jos{\'e} Miguel} and {Gonz{\'a}lez Segovia}, {Eric Gerardo} and Marco Todesco and Baptiste Mayjonade and Nathalie Rodde and St{\'e}phane Cauet and Isabelle Dufau and Staton, {S. Evan} and Nicolas Pouilly and Boniface, {Marie Claude} and Camille Tapy and Brigitte Mangin and Alexandra Duhnen and V{\'e}ronique Gautier and Charles Poncet and C{\'e}cile Donnadieu and Tali Mandel and Sariel H{\"u}bner and Burke, {John M.} and Sonia Vautrin and Arnaud Bellec and Owens, {Gregory L.} and Nicolas Langlade and St{\'e}phane Mu{\~n}os and Rieseberg, {Loren H.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 the Author(s).",

year = "2023",

month = apr,

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doi = "10.1073/pnas.2205783119",

language = "English",

volume = "120",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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Huang, K, Jahani, M, Gouzy, J, Legendre, A, Carrere, S, Lázaro-Guevara, JM, González Segovia, EG, Todesco, M, Mayjonade, B, Rodde, N, Cauet, S, Dufau, I, Staton, SE, Pouilly, N, Boniface, MC, Tapy, C, Mangin, B, Duhnen, A, Gautier, V, Poncet, C, Donnadieu, C, Mandel, T, Hübner, S, Burke, JM, Vautrin, S, Bellec, A, Owens, GL, Langlade, N, Muños, S & Rieseberg, LH 2023, 'The genomics of linkage drag in inbred lines of sunflower', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 14, e2205783119. https://doi.org/10.1073/pnas.2205783119

TY - JOUR

T1 - The genomics of linkage drag in inbred lines of sunflower

AU - Huang, Kaichi

AU - Jahani, Mojtaba

AU - Gouzy, Jérôme

AU - Legendre, Alexandra

AU - Carrere, Sébastien

AU - Lázaro-Guevara, José Miguel

AU - González Segovia, Eric Gerardo

AU - Todesco, Marco

AU - Mayjonade, Baptiste

AU - Rodde, Nathalie

AU - Cauet, Stéphane

AU - Dufau, Isabelle

AU - Staton, S. Evan

AU - Pouilly, Nicolas

AU - Boniface, Marie Claude

AU - Tapy, Camille

AU - Mangin, Brigitte

AU - Duhnen, Alexandra

AU - Gautier, Véronique

AU - Poncet, Charles

AU - Donnadieu, Cécile

AU - Mandel, Tali

AU - Hübner, Sariel

AU - Burke, John M.

AU - Vautrin, Sonia

AU - Bellec, Arnaud

AU - Owens, Gregory L.

AU - Langlade, Nicolas

AU - Muños, Stéphane

AU - Rieseberg, Loren H.

PY - 2023/4/4

Y1 - 2023/4/4

N2 - Crop wild relatives represent valuable sources of alleles for crop improvement, including adaptation to climate change and emerging diseases. However, introgressions from wild relatives might have deleterious effects on desirable traits, including yield, due to linkage drag. Here, we analyzed the genomic and phenotypic impacts of wild introgressions in inbred lines of cultivated sunflower to estimate the impacts of linkage drag. First, we generated reference sequences for seven cultivated and one wild sunflower genotype, as well as improved assemblies for two additional cultivars. Next, relying on previously generated sequences from wild donor species, we identified introgressions in the cultivated reference sequences, as well as the sequence and structural variants they contain. We then used a ridge-regression best linear unbiased prediction (BLUP) model to test the effects of the introgressions on phenotypic traits in the cultivated sunflower association mapping population. We found that introgression has introduced substantial sequence and structural variation into the cultivated sunflower gene pool, including >3,000 new genes. While introgressions reduced genetic load at protein-coding sequences, they mostly had negative impacts on yield and quality traits. Introgressions found at high frequency in the cultivated gene pool had larger effects than low-frequency introgressions, suggesting that the former likely were targeted by artificial selection. Also, introgressions from more distantly related species were more likely to be maladaptive than those from the wild progenitor of cultivated sunflower. Thus, breeding efforts should focus, as far as possible, on closely related and fully compatible wild relatives.

AB - Crop wild relatives represent valuable sources of alleles for crop improvement, including adaptation to climate change and emerging diseases. However, introgressions from wild relatives might have deleterious effects on desirable traits, including yield, due to linkage drag. Here, we analyzed the genomic and phenotypic impacts of wild introgressions in inbred lines of cultivated sunflower to estimate the impacts of linkage drag. First, we generated reference sequences for seven cultivated and one wild sunflower genotype, as well as improved assemblies for two additional cultivars. Next, relying on previously generated sequences from wild donor species, we identified introgressions in the cultivated reference sequences, as well as the sequence and structural variants they contain. We then used a ridge-regression best linear unbiased prediction (BLUP) model to test the effects of the introgressions on phenotypic traits in the cultivated sunflower association mapping population. We found that introgression has introduced substantial sequence and structural variation into the cultivated sunflower gene pool, including >3,000 new genes. While introgressions reduced genetic load at protein-coding sequences, they mostly had negative impacts on yield and quality traits. Introgressions found at high frequency in the cultivated gene pool had larger effects than low-frequency introgressions, suggesting that the former likely were targeted by artificial selection. Also, introgressions from more distantly related species were more likely to be maladaptive than those from the wild progenitor of cultivated sunflower. Thus, breeding efforts should focus, as far as possible, on closely related and fully compatible wild relatives.

KW - introgression

KW - linkage drag

KW - plant breeding

KW - structural variation

KW - sunflower

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U2 - 10.1073/pnas.2205783119

DO - 10.1073/pnas.2205783119

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AN - SCOPUS:85150995727

SN - 0027-8424

VL - 120

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 14

M1 - e2205783119

ER -

The genomics of linkage drag in inbred lines of sunflower

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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