Greengenes2 unifies microbial data in a single reference tree

McDonald Daniel; Jiang Yueyu; Balaban Metin; Cantrell Kalen; Zhu Qiyun; Gonzalez Antonio; Morton James T.; Nicolaou Giorgia; Parks Donovan H.; Karst Søren M.; Albertsen Mads; Hugenholtz Philip; DeSantis Todd; Song Se Jin; Bartko Andrew; Havulinna Aki S.; Jousilahti Pekka; Cheng Susan; Inouye Michael; Niiranen Teemu; Jain Mohit; Salomaa Veikko; Lahti Leo; Mirarab Siavash; Knight Rob
Greengenes2 unifies microbial data in a single reference tree

McDonald Daniel
Jiang Yueyu
Balaban Metin
Cantrell Kalen
Zhu Qiyun
Gonzalez Antonio
Morton James T.
Nicolaou Giorgia
Parks Donovan H.
Karst Søren M.
Albertsen Mads
Hugenholtz Philip
DeSantis Todd
Song Se Jin
Bartko Andrew
Havulinna Aki S.
Jousilahti Pekka
Cheng Susan
Inouye Michael
Niiranen Teemu
Jain Mohit
Salomaa Veikko
Lahti Leo
Mirarab Siavash
Knight Rob
Katso/Avaa
Lataukset: 

NATURE PORTFOLIO
doi:10.1038/s41587-023-01845-1
URI
https://doi.org/10.1038/s41587-023-01845-1
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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2025082784962
Tiivistelmä

Studies using 16S rRNA and shotgun metagenomics typically yield different results, usually attributed to PCR amplification biases. We introduce Greengenes2, a reference tree that unifies genomic and 16S rRNA databases in a consistent, integrated resource. By inserting sequences into a whole-genome phylogeny, we show that 16S rRNA and shotgun metagenomic data generated from the same samples agree in principal coordinates space, taxonomy and phenotype effect size when analyzed with the same tree.

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