The Phaeodactylum genome reveals the evolutionary history of diatom genomes

Chris Bowler; Andrew E. Allen; Jonathan H. Badger; Jane Grimwood; Kamel Jabbari; Alan Kuo; Uma Maheswari; Cindy Martens; Florian Maumus; Robert P. Otillar; Edda Rayko; Asaf Salamov; Klaas Vandepoele; Bank Beszteri; Ansgar Gruber; Marc Heijde; Michael Katinka; Thomas Mock; Klaus Valentin; Fréderic Verret; John A. Berges; Colin Brownlee; Jean Paul Cadoret; Anthony Chiovitti; Chang Jae Choi; Sacha Coesel; Alessandra De Martino; J. Chris Detter; Colleen Durkin; Angela Falciatore; Jérome Fournet; Miyoshi Haruta; Marie J.J. Huysman; Bethany D. Jenkins; Katerina Jiroutova; Richard E. Jorgensen; Yolaine Joubert; Aaron Kaplan; Nils Kröger; Peter G. Kroth; Julie La Roche; Erica Lindquist; Markus Lommer; Véronique Martin-Jézéquel; Pascal J. Lopez; Susan Lucas; Manuela Mangogna; Karen McGinnis; Linda K. Medlin; Anton Montsant; Marie Pierre Oudot Le Secq; Carolyn Napoli; Miroslav Obornik; Micaela Schnitzler Parker; Jean Louis Petit; Betina M. Porcel; Nicole Poulsen; Matthew Robison; Leszek Rychlewski; Tatiana A. Rynearson; Jeremy Schmutz; Harris Shapiro; Magali Siaut; Michele Stanley; Michael R. Sussman; Alison R. Taylor; Assaf Vardi; Peter Von Dassow; Wim Vyverman; Anusuya Willis; Lucjan S. Wyrwicz; Daniel S. Rokhsar; Jean Weissenbach; E. Virginia Armbrust; Beverley R. Green; Yves Van De Peer; Igor V. Grigoriev

doi:10.1038/nature07410

The Phaeodactylum genome reveals the evolutionary history of diatom genomes

Chris Bowler, Andrew E. Allen, Jonathan H. Badger, Jane Grimwood, Kamel Jabbari, Alan Kuo, Uma Maheswari, Cindy Martens, Florian Maumus, Robert P. Otillar, Edda Rayko, Asaf Salamov, Klaas Vandepoele, Bank Beszteri, Ansgar Gruber, Marc Heijde, Michael Katinka, Thomas Mock, Klaus Valentin, Fréderic VerretJohn A. Berges, Colin Brownlee, Jean Paul Cadoret, Anthony Chiovitti, Chang Jae Choi, Sacha Coesel, Alessandra De Martino, J. Chris Detter, Colleen Durkin, Angela Falciatore, Jérome Fournet, Miyoshi Haruta, Marie J.J. Huysman, Bethany D. Jenkins, Katerina Jiroutova, Richard E. Jorgensen, Yolaine Joubert, Aaron Kaplan, Nils Kröger, Peter G. Kroth, Julie La Roche, Erica Lindquist, Markus Lommer, Véronique Martin-Jézéquel, Pascal J. Lopez, Susan Lucas, Manuela Mangogna, Karen McGinnis, Linda K. Medlin, Anton Montsant, Marie Pierre Oudot Le Secq, Carolyn Napoli, Miroslav Obornik, Micaela Schnitzler Parker, Jean Louis Petit, Betina M. Porcel, Nicole Poulsen, Matthew Robison, Leszek Rychlewski, Tatiana A. Rynearson, Jeremy Schmutz, Harris Shapiro, Magali Siaut, Michele Stanley, Michael R. Sussman, Alison R. Taylor, Assaf Vardi, Peter Von Dassow, Wim Vyverman, Anusuya Willis, Lucjan S. Wyrwicz, Daniel S. Rokhsar, Jean Weissenbach, E. Virginia Armbrust, Beverley R. Green, Yves Van De Peer, Igor V. Grigoriev

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Resumen

Diatoms are photosynthetic secondary endosymbionts found throughout marine and freshwater environments, and are believed to be responsible for around one-fifth of the primary productivity on Earth. The genome sequence of the marine centric diatom Thalassiosira pseudonana was recently reported, revealing a wealth of information about diatom biology. Here we report the complete genome sequence of the pennate diatom Phaeodactylum tricornutum and compare it with that of T. pseudonana to clarify evolutionary origins, functional significance and ubiquity of these features throughout diatoms. In spite of the fact that the pennate and centric lineages have only been diverging for 90 million years, their genome structures are dramatically different and a substantial fraction of genes (<40%) are not shared by these representatives of the two lineages. Analysis of molecular divergence compared with yeasts and metazoans reveals rapid rates of gene diversification in diatoms. Contributing factors include selective gene family expansions, differential losses and gains of genes and introns, and differential mobilization of transposable elements. Most significantly, we document the presence of hundreds of genes from bacteria. More than 300 of these gene transfers are found in both diatoms, attesting to their ancient origins, and many are likely to provide novel possibilities for metabolite management and for perception of environmental signals. These findings go a long way towards explaining the incredible diversity and success of the diatoms in contemporary oceans.

Idioma original	English
Páginas (desde-hasta)	239-244
Número de páginas	6
Publicación	Nature
Volumen	456
N.º	7219
DOI	https://doi.org/10.1038/nature07410
Estado	Published - nov. 13 2008
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
Acknowledgements Diatom genome sequencing at the JGI (USA) was performed under the auspices of the US Department of Energy’s Office of Science, Biological and Environmental Research Program, and by the University of California, Lawrence Berkeley National Laboratory, under contract no. DE-AC02-05CH11231, Lawrence Livermore National Laboratory under contract no. DE-AC52-07NA27344 and Los Alamos National Laboratory under contract no. DE-AC02-06NA25396. P. tricornutum ESTs were generated at Genoscope (France). Funding for this work was also obtained from the EU-funded FP6 Diatomics project (LSHG-CT-2004-512035), the EU-FP6 Marine Genomics Network of Excellence (GOCE-CT-2004-505403), an ATIP ‘Blanche’ grant from the CNRS (France) and the Agence Nationale de la Recherche (France). We are grateful to M. Muffato and H.-R. Crollius for the analysis reported in Supplementary Fig. 3a.

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Bowler, C., Allen, A. E., Badger, J. H., Grimwood, J., Jabbari, K., Kuo, A., Maheswari, U., Martens, C., Maumus, F., Otillar, R. P., Rayko, E., Salamov, A., Vandepoele, K., Beszteri, B., Gruber, A., Heijde, M., Katinka, M., Mock, T., Valentin, K., ... Grigoriev, I. V. (2008). The Phaeodactylum genome reveals the evolutionary history of diatom genomes. Nature, 456(7219), 239-244. https://doi.org/10.1038/nature07410

Bowler, C, Allen, AE, Badger, JH, Grimwood, J, Jabbari, K, Kuo, A, Maheswari, U, Martens, C, Maumus, F, Otillar, RP, Rayko, E, Salamov, A, Vandepoele, K, Beszteri, B, Gruber, A, Heijde, M, Katinka, M, Mock, T, Valentin, K, Verret, F, Berges, JA, Brownlee, C, Cadoret, JP, Chiovitti, A, Choi, CJ, Coesel, S, De Martino, A, Detter, JC, Durkin, C, Falciatore, A, Fournet, J, Haruta, M, Huysman, MJJ, Jenkins, BD, Jiroutova, K, Jorgensen, RE, Joubert, Y, Kaplan, A, Kröger, N, Kroth, PG, La Roche, J, Lindquist, E, Lommer, M, Martin-Jézéquel, V, Lopez, PJ, Lucas, S, Mangogna, M, McGinnis, K, Medlin, LK, Montsant, A, Secq, MPOL, Napoli, C, Obornik, M, Parker, MS, Petit, JL, Porcel, BM, Poulsen, N, Robison, M, Rychlewski, L, Rynearson, TA, Schmutz, J, Shapiro, H, Siaut, M, Stanley, M, Sussman, MR, Taylor, AR, Vardi, A, Von Dassow, P, Vyverman, W, Willis, A, Wyrwicz, LS, Rokhsar, DS, Weissenbach, J, Armbrust, EV, Green, BR, Van De Peer, Y & Grigoriev, IV 2008, 'The Phaeodactylum genome reveals the evolutionary history of diatom genomes', Nature, vol. 456, n.º 7219, pp. 239-244. https://doi.org/10.1038/nature07410

@article{35f87190b7e741ff982ed948c1b7aad9,

title = "The Phaeodactylum genome reveals the evolutionary history of diatom genomes",

abstract = "Diatoms are photosynthetic secondary endosymbionts found throughout marine and freshwater environments, and are believed to be responsible for around one-fifth of the primary productivity on Earth. The genome sequence of the marine centric diatom Thalassiosira pseudonana was recently reported, revealing a wealth of information about diatom biology. Here we report the complete genome sequence of the pennate diatom Phaeodactylum tricornutum and compare it with that of T. pseudonana to clarify evolutionary origins, functional significance and ubiquity of these features throughout diatoms. In spite of the fact that the pennate and centric lineages have only been diverging for 90 million years, their genome structures are dramatically different and a substantial fraction of genes (<40%) are not shared by these representatives of the two lineages. Analysis of molecular divergence compared with yeasts and metazoans reveals rapid rates of gene diversification in diatoms. Contributing factors include selective gene family expansions, differential losses and gains of genes and introns, and differential mobilization of transposable elements. Most significantly, we document the presence of hundreds of genes from bacteria. More than 300 of these gene transfers are found in both diatoms, attesting to their ancient origins, and many are likely to provide novel possibilities for metabolite management and for perception of environmental signals. These findings go a long way towards explaining the incredible diversity and success of the diatoms in contemporary oceans.",

author = "Chris Bowler and Allen, {Andrew E.} and Badger, {Jonathan H.} and Jane Grimwood and Kamel Jabbari and Alan Kuo and Uma Maheswari and Cindy Martens and Florian Maumus and Otillar, {Robert P.} and Edda Rayko and Asaf Salamov and Klaas Vandepoele and Bank Beszteri and Ansgar Gruber and Marc Heijde and Michael Katinka and Thomas Mock and Klaus Valentin and Fr{\'e}deric Verret and Berges, {John A.} and Colin Brownlee and Cadoret, {Jean Paul} and Anthony Chiovitti and Choi, {Chang Jae} and Sacha Coesel and {De Martino}, Alessandra and Detter, {J. Chris} and Colleen Durkin and Angela Falciatore and J{\'e}rome Fournet and Miyoshi Haruta and Huysman, {Marie J.J.} and Jenkins, {Bethany D.} and Katerina Jiroutova and Jorgensen, {Richard E.} and Yolaine Joubert and Aaron Kaplan and Nils Kr{\"o}ger and Kroth, {Peter G.} and {La Roche}, Julie and Erica Lindquist and Markus Lommer and V{\'e}ronique Martin-J{\'e}z{\'e}quel and Lopez, {Pascal J.} and Susan Lucas and Manuela Mangogna and Karen McGinnis and Medlin, {Linda K.} and Anton Montsant and Secq, {Marie Pierre Oudot Le} and Carolyn Napoli and Miroslav Obornik and Parker, {Micaela Schnitzler} and Petit, {Jean Louis} and Porcel, {Betina M.} and Nicole Poulsen and Matthew Robison and Leszek Rychlewski and Rynearson, {Tatiana A.} and Jeremy Schmutz and Harris Shapiro and Magali Siaut and Michele Stanley and Sussman, {Michael R.} and Taylor, {Alison R.} and Assaf Vardi and {Von Dassow}, Peter and Wim Vyverman and Anusuya Willis and Wyrwicz, {Lucjan S.} and Rokhsar, {Daniel S.} and Jean Weissenbach and Armbrust, {E. Virginia} and Green, {Beverley R.} and {Van De Peer}, Yves and Grigoriev, {Igor V.}",

note = "Funding Information: Acknowledgements Diatom genome sequencing at the JGI (USA) was performed under the auspices of the US Department of Energy{\textquoteright}s Office of Science, Biological and Environmental Research Program, and by the University of California, Lawrence Berkeley National Laboratory, under contract no. DE-AC02-05CH11231, Lawrence Livermore National Laboratory under contract no. DE-AC52-07NA27344 and Los Alamos National Laboratory under contract no. DE-AC02-06NA25396. P. tricornutum ESTs were generated at Genoscope (France). Funding for this work was also obtained from the EU-funded FP6 Diatomics project (LSHG-CT-2004-512035), the EU-FP6 Marine Genomics Network of Excellence (GOCE-CT-2004-505403), an ATIP {\textquoteleft}Blanche{\textquoteright} grant from the CNRS (France) and the Agence Nationale de la Recherche (France). We are grateful to M. Muffato and H.-R. Crollius for the analysis reported in Supplementary Fig. 3a.",

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doi = "10.1038/nature07410",

language = "English",

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pages = "239--244",

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T1 - The Phaeodactylum genome reveals the evolutionary history of diatom genomes

AU - Bowler, Chris

AU - Allen, Andrew E.

AU - Badger, Jonathan H.

AU - Grimwood, Jane

AU - Jabbari, Kamel

AU - Kuo, Alan

AU - Maheswari, Uma

AU - Martens, Cindy

AU - Maumus, Florian

AU - Otillar, Robert P.

AU - Rayko, Edda

AU - Salamov, Asaf

AU - Vandepoele, Klaas

AU - Beszteri, Bank

AU - Gruber, Ansgar

AU - Heijde, Marc

AU - Katinka, Michael

AU - Mock, Thomas

AU - Valentin, Klaus

AU - Verret, Fréderic

AU - Berges, John A.

AU - Brownlee, Colin

AU - Cadoret, Jean Paul

AU - Chiovitti, Anthony

AU - Choi, Chang Jae

AU - Coesel, Sacha

AU - De Martino, Alessandra

AU - Detter, J. Chris

AU - Durkin, Colleen

AU - Falciatore, Angela

AU - Fournet, Jérome

AU - Haruta, Miyoshi

AU - Huysman, Marie J.J.

AU - Jenkins, Bethany D.

AU - Jiroutova, Katerina

AU - Jorgensen, Richard E.

AU - Joubert, Yolaine

AU - Kaplan, Aaron

AU - Kröger, Nils

AU - Kroth, Peter G.

AU - La Roche, Julie

AU - Lindquist, Erica

AU - Lommer, Markus

AU - Martin-Jézéquel, Véronique

AU - Lopez, Pascal J.

AU - Lucas, Susan

AU - Mangogna, Manuela

AU - McGinnis, Karen

AU - Medlin, Linda K.

AU - Montsant, Anton

AU - Secq, Marie Pierre Oudot Le

AU - Napoli, Carolyn

AU - Obornik, Miroslav

AU - Parker, Micaela Schnitzler

AU - Petit, Jean Louis

AU - Porcel, Betina M.

AU - Poulsen, Nicole

AU - Robison, Matthew

AU - Rychlewski, Leszek

AU - Rynearson, Tatiana A.

AU - Schmutz, Jeremy

AU - Shapiro, Harris

AU - Siaut, Magali

AU - Stanley, Michele

AU - Sussman, Michael R.

AU - Taylor, Alison R.

AU - Vardi, Assaf

AU - Von Dassow, Peter

AU - Vyverman, Wim

AU - Willis, Anusuya

AU - Wyrwicz, Lucjan S.

AU - Rokhsar, Daniel S.

AU - Weissenbach, Jean

AU - Armbrust, E. Virginia

AU - Green, Beverley R.

AU - Van De Peer, Yves

AU - Grigoriev, Igor V.

N1 - Funding Information: Acknowledgements Diatom genome sequencing at the JGI (USA) was performed under the auspices of the US Department of Energy’s Office of Science, Biological and Environmental Research Program, and by the University of California, Lawrence Berkeley National Laboratory, under contract no. DE-AC02-05CH11231, Lawrence Livermore National Laboratory under contract no. DE-AC52-07NA27344 and Los Alamos National Laboratory under contract no. DE-AC02-06NA25396. P. tricornutum ESTs were generated at Genoscope (France). Funding for this work was also obtained from the EU-funded FP6 Diatomics project (LSHG-CT-2004-512035), the EU-FP6 Marine Genomics Network of Excellence (GOCE-CT-2004-505403), an ATIP ‘Blanche’ grant from the CNRS (France) and the Agence Nationale de la Recherche (France). We are grateful to M. Muffato and H.-R. Crollius for the analysis reported in Supplementary Fig. 3a.

PY - 2008/11/13

Y1 - 2008/11/13

N2 - Diatoms are photosynthetic secondary endosymbionts found throughout marine and freshwater environments, and are believed to be responsible for around one-fifth of the primary productivity on Earth. The genome sequence of the marine centric diatom Thalassiosira pseudonana was recently reported, revealing a wealth of information about diatom biology. Here we report the complete genome sequence of the pennate diatom Phaeodactylum tricornutum and compare it with that of T. pseudonana to clarify evolutionary origins, functional significance and ubiquity of these features throughout diatoms. In spite of the fact that the pennate and centric lineages have only been diverging for 90 million years, their genome structures are dramatically different and a substantial fraction of genes (<40%) are not shared by these representatives of the two lineages. Analysis of molecular divergence compared with yeasts and metazoans reveals rapid rates of gene diversification in diatoms. Contributing factors include selective gene family expansions, differential losses and gains of genes and introns, and differential mobilization of transposable elements. Most significantly, we document the presence of hundreds of genes from bacteria. More than 300 of these gene transfers are found in both diatoms, attesting to their ancient origins, and many are likely to provide novel possibilities for metabolite management and for perception of environmental signals. These findings go a long way towards explaining the incredible diversity and success of the diatoms in contemporary oceans.

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The Phaeodactylum genome reveals the evolutionary history of diatom genomes

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