Evolutionary genomics of the emergence of brown algae as key components of coastal ecosystems

France Denoeud; Olivier Godfroy; Corinne Cruaud; Svenja Heesch; Zofia Nehr; Nachida Tadrent; Arnaud Couloux; Loraine Brillet-Guéguen; Ludovic Delage; Dean Mckeown; Taizo Motomura; Duncan Sussfeld; Xiao Fan; Lisa Mazéas; Nicolas Terrapon; Josué Barrera-Redondo; Romy Petroll; Lauric Reynes; Seok Wan Choi; Jihoon Jo; Kavitha Uthanumallian; Kenny Bogaert; Céline Duc; Pélagie Ratchinski; Agnieszka Lipinska; Benjamin Noel; Eleanor A. Murphy; Martin Lohr; Ananya Khatei; Pauline Hamon-Giraud; Christophe Vieira; Komlan Avia; Svea Sanja Akerfors; Shingo Akita; Yacine Badis; Tristan Barbeyron; Arnaud Belcour; Wahiba Berrabah; Samuel Blanquart; Ahlem Bouguerba-Collin; Trevor Bringloe; Rose Ann Cattolico; Alexandre Cormier; Helena Cruz de Carvalho; Romain Dallet; Olivier De Clerck; Ahmed Debit; Erwan Denis; Christophe Destombe; Erica Dinatale; Simon Dittami; Elodie Drula; Sylvain Faugeron; Jeanne Got; Louis Graf; Agnès Groisillier; Marie Laure Guillemin; Lars Harms; William John Hatchett; Bernard Henrissat; Galice Hoarau; Chloé Jollivet; Alexander Jueterbock; Ehsan Kayal; Andrew H. Knoll; Kazuhiro Kogame; Arthur Le Bars; Catherine Leblanc; Line Le Gall; Ronja Ley; Xi Liu; Steven T. LoDuca; Pascal Jean Lopez; Philippe Lopez; Eric Manirakiza; Karine Massau; Stéphane Mauger; Laetitia Mest; Gurvan Michel; Catia Monteiro; Chikako Nagasato; Delphine Nègre; Eric Pelletier; Naomi Phillips; Philippe Potin; Stefan A. Rensing; Ellyn Rousselot; Sylvie Rousvoal; Declan Schroeder; Delphine Scornet; Anne Siegel; Leila Tirichine; Thierry Tonon; Klaus Valentin; Heroen Verbruggen; Florian Weinberger; Glen Wheeler; Hiroshi Kawai; Akira F. Peters; Hwan Su Yoon; Cécile Hervé; Naihao Ye; Eric Bapteste; Myriam Valero; Gabriel V. Markov; Erwan Corre; Susana M. Coelho; Patrick Wincker; Jean Marc Aury; J. Mark Cock

doi:10.1016/j.cell.2024.10.049

Evolutionary genomics of the emergence of brown algae as key components of coastal ecosystems

France Denoeud, Olivier Godfroy, Corinne Cruaud, Svenja Heesch, Zofia Nehr, Nachida Tadrent, Arnaud Couloux, Loraine Brillet-Guéguen, Ludovic Delage, Dean Mckeown, Taizo Motomura, Duncan Sussfeld, Xiao Fan, Lisa Mazéas, Nicolas Terrapon, Josué Barrera-Redondo, Romy Petroll, Lauric Reynes, Seok Wan Choi, Jihoon JoKavitha Uthanumallian, Kenny Bogaert, Céline Duc, Pélagie Ratchinski, Agnieszka Lipinska, Benjamin Noel, Eleanor A. Murphy, Martin Lohr, Ananya Khatei, Pauline Hamon-Giraud, Christophe Vieira, Komlan Avia, Svea Sanja Akerfors, Shingo Akita, Yacine Badis, Tristan Barbeyron, Arnaud Belcour, Wahiba Berrabah, Samuel Blanquart, Ahlem Bouguerba-Collin, Trevor Bringloe, Rose Ann Cattolico, Alexandre Cormier, Helena Cruz de Carvalho, Romain Dallet, Olivier De Clerck, Ahmed Debit, Erwan Denis, Christophe Destombe, Erica Dinatale, Simon Dittami, Elodie Drula, Sylvain Faugeron, Jeanne Got, Louis Graf, Agnès Groisillier, Marie Laure Guillemin, Lars Harms, William John Hatchett, Bernard Henrissat, Galice Hoarau, Chloé Jollivet, Alexander Jueterbock, Ehsan Kayal, Andrew H. Knoll, Kazuhiro Kogame, Arthur Le Bars, Catherine Leblanc, Line Le Gall, Ronja Ley, Xi Liu, Steven T. LoDuca, Pascal Jean Lopez, Philippe Lopez, Eric Manirakiza, Karine Massau, Stéphane Mauger, Laetitia Mest, Gurvan Michel, Catia Monteiro, Chikako Nagasato, Delphine Nègre, Eric Pelletier, Naomi Phillips, Philippe Potin, Stefan A. Rensing, Ellyn Rousselot, Sylvie Rousvoal, Declan Schroeder, Delphine Scornet, Anne Siegel, Leila Tirichine, Thierry Tonon, Klaus Valentin, Heroen Verbruggen, Florian Weinberger, Glen Wheeler, Hiroshi Kawai, Akira F. Peters, Hwan Su Yoon, Cécile Hervé, Naihao Ye, Eric Bapteste, Myriam Valero, Gabriel V. Markov, Erwan Corre, Susana M. Coelho, Patrick Wincker, Jean Marc Aury, J. Mark Cock

Veterinary Population Medicine

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

4 Scopus citations

Abstract

Brown seaweeds are keystone species of coastal ecosystems, often forming extensive underwater forests, and are under considerable threat from climate change. In this study, analysis of multiple genomes has provided insights across the entire evolutionary history of this lineage, from initial emergence, through later diversification of the brown algal orders, down to microevolutionary events at the genus level. Emergence of the brown algal lineage was associated with a marked gain of new orthologous gene families, enhanced protein domain rearrangement, increased horizontal gene transfer events, and the acquisition of novel signaling molecules and key metabolic pathways, the latter notably related to biosynthesis of the alginate-based extracellular matrix, and halogen and phlorotannin biosynthesis. We show that brown algal genome diversification is tightly linked to phenotypic divergence, including changes in life cycle strategy and zoid flagellar structure. The study also showed that integration of large viral genomes has had a significant impact on brown algal genome content throughout the emergence of the lineage.

Original language	English (US)
Pages (from-to)	6943-6965.e39
Journal	Cell
Volume	187
Issue number	24
DOIs	https://doi.org/10.1016/j.cell.2024.10.049
State	Published - Nov 27 2024

Bibliographical note

Publisher Copyright:
© 2024 The Authors

Keywords

Ectocarpus
Phaeophyceae
Phaeovirus
brown algae
genome
intertidal and subtidal
multicellularity
stramenopile
viral genome insertions

PubMed: MeSH publication types

Journal Article

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10.1016/j.cell.2024.10.049

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Denoeud, F., Godfroy, O., Cruaud, C., Heesch, S., Nehr, Z., Tadrent, N., Couloux, A., Brillet-Guéguen, L., Delage, L., Mckeown, D., Motomura, T., Sussfeld, D., Fan, X., Mazéas, L., Terrapon, N., Barrera-Redondo, J., Petroll, R., Reynes, L., Choi, S. W., ... Cock, J. M. (2024). Evolutionary genomics of the emergence of brown algae as key components of coastal ecosystems. Cell, 187(24), 6943-6965.e39. https://doi.org/10.1016/j.cell.2024.10.049

Denoeud, F, Godfroy, O, Cruaud, C, Heesch, S, Nehr, Z, Tadrent, N, Couloux, A, Brillet-Guéguen, L, Delage, L, Mckeown, D, Motomura, T, Sussfeld, D, Fan, X, Mazéas, L, Terrapon, N, Barrera-Redondo, J, Petroll, R, Reynes, L, Choi, SW, Jo, J, Uthanumallian, K, Bogaert, K, Duc, C, Ratchinski, P, Lipinska, A, Noel, B, Murphy, EA, Lohr, M, Khatei, A, Hamon-Giraud, P, Vieira, C, Avia, K, Akerfors, SS, Akita, S, Badis, Y, Barbeyron, T, Belcour, A, Berrabah, W, Blanquart, S, Bouguerba-Collin, A, Bringloe, T, Cattolico, RA, Cormier, A, Cruz de Carvalho, H, Dallet, R, De Clerck, O, Debit, A, Denis, E, Destombe, C, Dinatale, E, Dittami, S, Drula, E, Faugeron, S, Got, J, Graf, L, Groisillier, A, Guillemin, ML, Harms, L, Hatchett, WJ, Henrissat, B, Hoarau, G, Jollivet, C, Jueterbock, A, Kayal, E, Knoll, AH, Kogame, K, Le Bars, A, Leblanc, C, Le Gall, L, Ley, R, Liu, X, LoDuca, ST, Lopez, PJ, Lopez, P, Manirakiza, E, Massau, K, Mauger, S, Mest, L, Michel, G, Monteiro, C, Nagasato, C, Nègre, D, Pelletier, E, Phillips, N, Potin, P, Rensing, SA, Rousselot, E, Rousvoal, S, Schroeder, D, Scornet, D, Siegel, A, Tirichine, L, Tonon, T, Valentin, K, Verbruggen, H, Weinberger, F, Wheeler, G, Kawai, H, Peters, AF, Yoon, HS, Hervé, C, Ye, N, Bapteste, E, Valero, M, Markov, GV, Corre, E, Coelho, SM, Wincker, P, Aury, JM & Cock, JM 2024, 'Evolutionary genomics of the emergence of brown algae as key components of coastal ecosystems', Cell, vol. 187, no. 24, pp. 6943-6965.e39. https://doi.org/10.1016/j.cell.2024.10.049

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abstract = "Brown seaweeds are keystone species of coastal ecosystems, often forming extensive underwater forests, and are under considerable threat from climate change. In this study, analysis of multiple genomes has provided insights across the entire evolutionary history of this lineage, from initial emergence, through later diversification of the brown algal orders, down to microevolutionary events at the genus level. Emergence of the brown algal lineage was associated with a marked gain of new orthologous gene families, enhanced protein domain rearrangement, increased horizontal gene transfer events, and the acquisition of novel signaling molecules and key metabolic pathways, the latter notably related to biosynthesis of the alginate-based extracellular matrix, and halogen and phlorotannin biosynthesis. We show that brown algal genome diversification is tightly linked to phenotypic divergence, including changes in life cycle strategy and zoid flagellar structure. The study also showed that integration of large viral genomes has had a significant impact on brown algal genome content throughout the emergence of the lineage.",

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doi = "10.1016/j.cell.2024.10.049",

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AU - Godfroy, Olivier

AU - Cruaud, Corinne

AU - Heesch, Svenja

AU - Nehr, Zofia

AU - Tadrent, Nachida

AU - Couloux, Arnaud

AU - Brillet-Guéguen, Loraine

AU - Delage, Ludovic

AU - Mckeown, Dean

AU - Motomura, Taizo

AU - Sussfeld, Duncan

AU - Fan, Xiao

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AU - Reynes, Lauric

AU - Choi, Seok Wan

AU - Jo, Jihoon

AU - Uthanumallian, Kavitha

AU - Bogaert, Kenny

AU - Duc, Céline

AU - Ratchinski, Pélagie

AU - Lipinska, Agnieszka

AU - Noel, Benjamin

AU - Murphy, Eleanor A.

AU - Lohr, Martin

AU - Khatei, Ananya

AU - Hamon-Giraud, Pauline

AU - Vieira, Christophe

AU - Avia, Komlan

AU - Akerfors, Svea Sanja

AU - Akita, Shingo

AU - Badis, Yacine

AU - Barbeyron, Tristan

AU - Belcour, Arnaud

AU - Berrabah, Wahiba

AU - Blanquart, Samuel

AU - Bouguerba-Collin, Ahlem

AU - Bringloe, Trevor

AU - Cattolico, Rose Ann

AU - Cormier, Alexandre

AU - Cruz de Carvalho, Helena

AU - Dallet, Romain

AU - De Clerck, Olivier

AU - Debit, Ahmed

AU - Denis, Erwan

AU - Destombe, Christophe

AU - Dinatale, Erica

AU - Dittami, Simon

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AU - Faugeron, Sylvain

AU - Got, Jeanne

AU - Graf, Louis

AU - Groisillier, Agnès

AU - Guillemin, Marie Laure

AU - Harms, Lars

AU - Hatchett, William John

AU - Henrissat, Bernard

AU - Hoarau, Galice

AU - Jollivet, Chloé

AU - Jueterbock, Alexander

AU - Kayal, Ehsan

AU - Knoll, Andrew H.

AU - Kogame, Kazuhiro

AU - Le Bars, Arthur

AU - Leblanc, Catherine

AU - Le Gall, Line

AU - Ley, Ronja

AU - Liu, Xi

AU - LoDuca, Steven T.

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AU - Lopez, Philippe

AU - Manirakiza, Eric

AU - Massau, Karine

AU - Mauger, Stéphane

AU - Mest, Laetitia

AU - Michel, Gurvan

AU - Monteiro, Catia

AU - Nagasato, Chikako

AU - Nègre, Delphine

AU - Pelletier, Eric

AU - Phillips, Naomi

AU - Potin, Philippe

AU - Rensing, Stefan A.

AU - Rousselot, Ellyn

AU - Rousvoal, Sylvie

AU - Schroeder, Declan

AU - Scornet, Delphine

AU - Siegel, Anne

AU - Tirichine, Leila

AU - Tonon, Thierry

AU - Valentin, Klaus

AU - Verbruggen, Heroen

AU - Weinberger, Florian

AU - Wheeler, Glen

AU - Kawai, Hiroshi

AU - Peters, Akira F.

AU - Yoon, Hwan Su

AU - Hervé, Cécile

AU - Ye, Naihao

AU - Bapteste, Eric

AU - Valero, Myriam

AU - Markov, Gabriel V.

AU - Corre, Erwan

AU - Coelho, Susana M.

AU - Wincker, Patrick

AU - Aury, Jean Marc

AU - Cock, J. Mark

PY - 2024/11/27

Y1 - 2024/11/27

N2 - Brown seaweeds are keystone species of coastal ecosystems, often forming extensive underwater forests, and are under considerable threat from climate change. In this study, analysis of multiple genomes has provided insights across the entire evolutionary history of this lineage, from initial emergence, through later diversification of the brown algal orders, down to microevolutionary events at the genus level. Emergence of the brown algal lineage was associated with a marked gain of new orthologous gene families, enhanced protein domain rearrangement, increased horizontal gene transfer events, and the acquisition of novel signaling molecules and key metabolic pathways, the latter notably related to biosynthesis of the alginate-based extracellular matrix, and halogen and phlorotannin biosynthesis. We show that brown algal genome diversification is tightly linked to phenotypic divergence, including changes in life cycle strategy and zoid flagellar structure. The study also showed that integration of large viral genomes has had a significant impact on brown algal genome content throughout the emergence of the lineage.

AB - Brown seaweeds are keystone species of coastal ecosystems, often forming extensive underwater forests, and are under considerable threat from climate change. In this study, analysis of multiple genomes has provided insights across the entire evolutionary history of this lineage, from initial emergence, through later diversification of the brown algal orders, down to microevolutionary events at the genus level. Emergence of the brown algal lineage was associated with a marked gain of new orthologous gene families, enhanced protein domain rearrangement, increased horizontal gene transfer events, and the acquisition of novel signaling molecules and key metabolic pathways, the latter notably related to biosynthesis of the alginate-based extracellular matrix, and halogen and phlorotannin biosynthesis. We show that brown algal genome diversification is tightly linked to phenotypic divergence, including changes in life cycle strategy and zoid flagellar structure. The study also showed that integration of large viral genomes has had a significant impact on brown algal genome content throughout the emergence of the lineage.

KW - Ectocarpus

KW - Phaeophyceae

KW - Phaeovirus

KW - brown algae

KW - genome

KW - intertidal and subtidal

KW - multicellularity

KW - stramenopile

KW - viral genome insertions

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DO - 10.1016/j.cell.2024.10.049

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AN - SCOPUS:85209916282

SN - 0092-8674

VL - 187

SP - 6943-6965.e39

JO - Cell

JF - Cell

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ER -

Evolutionary genomics of the emergence of brown algae as key components of coastal ecosystems

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

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