Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans
The biology of many marine protists, such as stramenopiles, remains obscure. Here, the authors exploit single-cell genomics and metagenomics to analyze the genome content and apparent oceanic distribution of seven prevalent lineages of uncultured heterotrophic stramenopiles.
Guardado en:
Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
---|---|
Formato: | article |
Lenguaje: | EN |
Publicado: |
Nature Portfolio
2018
|
Materias: | |
Acceso en línea: | https://doaj.org/article/1fb8b9f08dee44feba89d53cf53dbe54 |
Etiquetas: |
Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
|
id |
oai:doaj.org-article:1fb8b9f08dee44feba89d53cf53dbe54 |
---|---|
record_format |
dspace |
spelling |
oai:doaj.org-article:1fb8b9f08dee44feba89d53cf53dbe542021-12-02T15:34:06ZSingle-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans10.1038/s41467-017-02235-32041-1723https://doaj.org/article/1fb8b9f08dee44feba89d53cf53dbe542018-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-02235-3https://doaj.org/toc/2041-1723The biology of many marine protists, such as stramenopiles, remains obscure. Here, the authors exploit single-cell genomics and metagenomics to analyze the genome content and apparent oceanic distribution of seven prevalent lineages of uncultured heterotrophic stramenopiles.Yoann SeeleuthnerSamuel MondyVincent LombardQuentin CarradecEric PelletierMarc WessnerJade LeconteJean-François MangotJulie PoulainKarine LabadieRamiro LogaresShinichi SunagawaVéronique de BerardinisMarcel SalanoubatCéline DimierStefanie Kandels-LewisMarc PicheralSarah SearsonTara Oceans CoordinatorsStephane PesantNicole PoultonRamunas StepanauskasPeer BorkChris BowlerPascal HingampMatthew B. SullivanDaniele IudiconeRamon MassanaJean-Marc AuryBernard HenrissatEric KarsentiOlivier JaillonMike SierackiColomban de VargasPatrick WinckerNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-10 (2018) |
institution |
DOAJ |
collection |
DOAJ |
language |
EN |
topic |
Science Q |
spellingShingle |
Science Q Yoann Seeleuthner Samuel Mondy Vincent Lombard Quentin Carradec Eric Pelletier Marc Wessner Jade Leconte Jean-François Mangot Julie Poulain Karine Labadie Ramiro Logares Shinichi Sunagawa Véronique de Berardinis Marcel Salanoubat Céline Dimier Stefanie Kandels-Lewis Marc Picheral Sarah Searson Tara Oceans Coordinators Stephane Pesant Nicole Poulton Ramunas Stepanauskas Peer Bork Chris Bowler Pascal Hingamp Matthew B. Sullivan Daniele Iudicone Ramon Massana Jean-Marc Aury Bernard Henrissat Eric Karsenti Olivier Jaillon Mike Sieracki Colomban de Vargas Patrick Wincker Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
description |
The biology of many marine protists, such as stramenopiles, remains obscure. Here, the authors exploit single-cell genomics and metagenomics to analyze the genome content and apparent oceanic distribution of seven prevalent lineages of uncultured heterotrophic stramenopiles. |
format |
article |
author |
Yoann Seeleuthner Samuel Mondy Vincent Lombard Quentin Carradec Eric Pelletier Marc Wessner Jade Leconte Jean-François Mangot Julie Poulain Karine Labadie Ramiro Logares Shinichi Sunagawa Véronique de Berardinis Marcel Salanoubat Céline Dimier Stefanie Kandels-Lewis Marc Picheral Sarah Searson Tara Oceans Coordinators Stephane Pesant Nicole Poulton Ramunas Stepanauskas Peer Bork Chris Bowler Pascal Hingamp Matthew B. Sullivan Daniele Iudicone Ramon Massana Jean-Marc Aury Bernard Henrissat Eric Karsenti Olivier Jaillon Mike Sieracki Colomban de Vargas Patrick Wincker |
author_facet |
Yoann Seeleuthner Samuel Mondy Vincent Lombard Quentin Carradec Eric Pelletier Marc Wessner Jade Leconte Jean-François Mangot Julie Poulain Karine Labadie Ramiro Logares Shinichi Sunagawa Véronique de Berardinis Marcel Salanoubat Céline Dimier Stefanie Kandels-Lewis Marc Picheral Sarah Searson Tara Oceans Coordinators Stephane Pesant Nicole Poulton Ramunas Stepanauskas Peer Bork Chris Bowler Pascal Hingamp Matthew B. Sullivan Daniele Iudicone Ramon Massana Jean-Marc Aury Bernard Henrissat Eric Karsenti Olivier Jaillon Mike Sieracki Colomban de Vargas Patrick Wincker |
author_sort |
Yoann Seeleuthner |
title |
Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
title_short |
Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
title_full |
Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
title_fullStr |
Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
title_full_unstemmed |
Single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
title_sort |
single-cell genomics of multiple uncultured stramenopiles reveals underestimated functional diversity across oceans |
publisher |
Nature Portfolio |
publishDate |
2018 |
url |
https://doaj.org/article/1fb8b9f08dee44feba89d53cf53dbe54 |
work_keys_str_mv |
AT yoannseeleuthner singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT samuelmondy singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT vincentlombard singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT quentincarradec singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT ericpelletier singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT marcwessner singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT jadeleconte singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT jeanfrancoismangot singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT juliepoulain singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT karinelabadie singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT ramirologares singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT shinichisunagawa singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT veroniquedeberardinis singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT marcelsalanoubat singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT celinedimier singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT stefaniekandelslewis singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT marcpicheral singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT sarahsearson singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT taraoceanscoordinators singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT stephanepesant singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT nicolepoulton singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT ramunasstepanauskas singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT peerbork singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT chrisbowler singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT pascalhingamp singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT matthewbsullivan singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT danieleiudicone singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT ramonmassana singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT jeanmarcaury singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT bernardhenrissat singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT erickarsenti singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT olivierjaillon singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT mikesieracki singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT colombandevargas singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans AT patrickwincker singlecellgenomicsofmultipleunculturedstramenopilesrevealsunderestimatedfunctionaldiversityacrossoceans |
_version_ |
1718386886520602624 |