The genomic basis of the plant island syndrome in Darwin’s giant daisies

José Cerca; Bent Petersen; José Miguel Lazaro-Guevara; Angel Rivera-Colón; Siri Birkeland; Joel Vizueta; Siyu Li; Qionghou Li; João Loureiro; Chatchai Kosawang; Patricia Jaramillo Díaz; Gonzalo Rivas-Torres; Mario Fernández-Mazuecos; Pablo Vargas; Ross A. McCauley; Gitte Petersen; Luisa Santos-Bay; Nathan Wales; Julian M. Catchen; Daniel Machado; Michael D. Nowak; Alexander Suh; Neelima R. Sinha; Lene R. Nielsen; Ole Seberg; M. Thomas P. Gilbert; James H. Leebens-Mack; Loren H. Rieseberg; Michael D. Martin

doi:10.1038/s41467-022-31280-w

The genomic basis of the plant island syndrome in Darwin’s giant daisies

José Cerca^*
, Bent Petersen
, José Miguel Lazaro-Guevara
, Angel Rivera-Colón
, Siri Birkeland
, Joel Vizueta
, Siyu Li
, Qionghou Li
, João Loureiro
, Chatchai Kosawang
, Patricia Jaramillo Díaz
, Gonzalo Rivas-Torres
, Mario Fernández-Mazuecos
, Pablo Vargas
, Ross A. McCauley
, Gitte Petersen
, Luisa Santos-Bay
, Nathan Wales
, Julian M. Catchen
, Daniel Machado

Michael D. Nowak, Alexander Suh, Neelima R. Sinha, Lene R. Nielsen, Ole Seberg, M. Thomas P. Gilbert, James H. Leebens-Mack, Loren H. Rieseberg, Michael D. Martin^*

^*Autor correspondiente de este trabajo

Norwegian University of Science and Technology
University of Copenhagen
AIMST University
University of British Columbia
University of Illinois at Urbana-Champaign
Norwegian University of Life Sciences
University of Oslo
University of Copenhagen
University of California, Davis
University of Coimbra, Centre for Functional Ecology
Charles Darwin Foundation
University of Malaga
University of North Carolina
University of Florida
Universidad Autónoma de Madrid
CSIC - Royal Botanic Garden of Madrid
Fort Lewis College
Stockholm University
University of York
University of East Anglia
Uppsala University
University of Georgia

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14 Citas (Scopus)

Resumen

The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the ‘plant island syndrome’, include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Galápagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin’s giant daisies.

Idioma original	Inglés
Número de artículo	3729
Publicación	Nature Communications
Volumen	13
N.º	1
DOI	https://doi.org/10.1038/s41467-022-31280-w
Estado	Publicada - dic. 2022

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Cerca, J., Petersen, B., Lazaro-Guevara, J. M., Rivera-Colón, A., Birkeland, S., Vizueta, J., Li, S., Li, Q., Loureiro, J., Kosawang, C., Díaz, P. J., Rivas-Torres, G., Fernández-Mazuecos, M., Vargas, P., McCauley, R. A., Petersen, G., Santos-Bay, L., Wales, N., Catchen, J. M., ... Martin, M. D. (2022). The genomic basis of the plant island syndrome in Darwin’s giant daisies. Nature Communications, 13(1), Artículo 3729. https://doi.org/10.1038/s41467-022-31280-w

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title = "The genomic basis of the plant island syndrome in Darwin{\textquoteright}s giant daisies",

abstract = "The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the {\textquoteleft}plant island syndrome{\textquoteright}, include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Gal{\'a}pagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin{\textquoteright}s giant daisies.",

author = "Jos{\'e} Cerca and Bent Petersen and Lazaro-Guevara, \{Jos{\'e} Miguel\} and Angel Rivera-Col{\'o}n and Siri Birkeland and Joel Vizueta and Siyu Li and Qionghou Li and Jo{\~a}o Loureiro and Chatchai Kosawang and D{\'i}az, \{Patricia Jaramillo\} and Gonzalo Rivas-Torres and Mario Fern{\'a}ndez-Mazuecos and Pablo Vargas and McCauley, \{Ross A.\} and Gitte Petersen and Luisa Santos-Bay and Nathan Wales and Catchen, \{Julian M.\} and Daniel Machado and Nowak, \{Michael D.\} and Alexander Suh and Sinha, \{Neelima R.\} and Nielsen, \{Lene R.\} and Ole Seberg and Gilbert, \{M. Thomas P.\} and Leebens-Mack, \{James H.\} and Rieseberg, \{Loren H.\} and Martin, \{Michael D.\}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-31280-w",

language = "Ingl{\'e}s",

volume = "13",

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Cerca, J, Petersen, B, Lazaro-Guevara, JM, Rivera-Colón, A, Birkeland, S, Vizueta, J, Li, S, Li, Q, Loureiro, J, Kosawang, C, Díaz, PJ, Rivas-Torres, G, Fernández-Mazuecos, M, Vargas, P, McCauley, RA, Petersen, G, Santos-Bay, L, Wales, N, Catchen, JM, Machado, D, Nowak, MD, Suh, A, Sinha, NR, Nielsen, LR, Seberg, O, Gilbert, MTP, Leebens-Mack, JH, Rieseberg, LH & Martin, MD 2022, 'The genomic basis of the plant island syndrome in Darwin’s giant daisies', Nature Communications, vol. 13, n.º 1, 3729. https://doi.org/10.1038/s41467-022-31280-w

TY - JOUR

T1 - The genomic basis of the plant island syndrome in Darwin’s giant daisies

AU - Cerca, José

AU - Petersen, Bent

AU - Lazaro-Guevara, José Miguel

AU - Rivera-Colón, Angel

AU - Birkeland, Siri

AU - Vizueta, Joel

AU - Li, Siyu

AU - Li, Qionghou

AU - Loureiro, João

AU - Kosawang, Chatchai

AU - Díaz, Patricia Jaramillo

AU - Rivas-Torres, Gonzalo

AU - Fernández-Mazuecos, Mario

AU - Vargas, Pablo

AU - McCauley, Ross A.

AU - Petersen, Gitte

AU - Santos-Bay, Luisa

AU - Wales, Nathan

AU - Catchen, Julian M.

AU - Machado, Daniel

AU - Nowak, Michael D.

AU - Suh, Alexander

AU - Sinha, Neelima R.

AU - Nielsen, Lene R.

AU - Seberg, Ole

AU - Gilbert, M. Thomas P.

AU - Leebens-Mack, James H.

AU - Rieseberg, Loren H.

AU - Martin, Michael D.

PY - 2022/12

Y1 - 2022/12

N2 - The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the ‘plant island syndrome’, include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Galápagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin’s giant daisies.

AB - The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the ‘plant island syndrome’, include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Galápagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin’s giant daisies.

UR - https://www.scopus.com/pages/publications/85132977043

U2 - 10.1038/s41467-022-31280-w

DO - 10.1038/s41467-022-31280-w

M3 - Artículo

C2 - 35764640

AN - SCOPUS:85132977043

SN - 2041-1723

VL - 13

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3729

ER -

The genomic basis of the plant island syndrome in Darwin’s giant daisies

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