Chloé Beaulieu, Cyril Libourel, Duchesse Lacourt Mbadinga Zamar, Karima El Mahboubi, David J. Hoey, George R. L. Greiff, Jean Keller, Camille Girou, Helene San Clemente, Issa Diop, Emilie Amblard, Baptiste Castel, Anthony Théron, Stéphane Cauet, Nathalie Rodde, Sabine Zachgo, Wiebke Halpape, Anja Meierhenrich, Bianca Laker, Andrea Bräutigam, The SLCU Outreach Consortium, Peter Szovenyi, Shifeng Cheng, Yasuhiro Tanizawa, Simon Aziz, James H. Leebens-Mack, Jeremy Schmutz, Jenell Webber, Jane Grimwood, Christophe Jacquet, Christophe Dunand, Jessica M. Nelson, Fabrice Roux, Hervé Philippe, Sebastian Schornack, Maxime Bonhomme, Pierre-Marc Delaux
{"title":"Marchantia polymorpha 泛基因组揭示了植物适应环境的古老机制","authors":"Chloé Beaulieu, Cyril Libourel, Duchesse Lacourt Mbadinga Zamar, Karima El Mahboubi, David J. Hoey, George R. L. Greiff, Jean Keller, Camille Girou, Helene San Clemente, Issa Diop, Emilie Amblard, Baptiste Castel, Anthony Théron, Stéphane Cauet, Nathalie Rodde, Sabine Zachgo, Wiebke Halpape, Anja Meierhenrich, Bianca Laker, Andrea Bräutigam, The SLCU Outreach Consortium, Peter Szovenyi, Shifeng Cheng, Yasuhiro Tanizawa, Simon Aziz, James H. Leebens-Mack, Jeremy Schmutz, Jenell Webber, Jane Grimwood, Christophe Jacquet, Christophe Dunand, Jessica M. Nelson, Fabrice Roux, Hervé Philippe, Sebastian Schornack, Maxime Bonhomme, Pierre-Marc Delaux","doi":"10.1038/s41588-024-02071-4","DOIUrl":null,"url":null,"abstract":"Plant adaptation to terrestrial life started 450 million years ago and has played a major role in the evolution of life on Earth. The genetic mechanisms allowing this adaptation to a diversity of terrestrial constraints have been mostly studied by focusing on flowering plants. Here, we gathered a collection of 133 accessions of the model bryophyte Marchantia polymorpha and studied its intraspecific diversity using selection signature analyses, a genome–environment association study and a pangenome. We identified adaptive features, such as peroxidases or nucleotide-binding and leucine-rich repeats (NLRs), also observed in flowering plants, likely inherited from the first land plants. The M. polymorpha pangenome also harbors lineage-specific accessory genes absent from seed plants. We conclude that different land plant lineages still share many elements from the genetic toolkit evolved by their most recent common ancestor to adapt to the terrestrial habitat, refined by lineage-specific polymorphisms and gene family evolution. Pangenome analyses of 133 wild accessions of the model bryophyte Marchantia polymorpha identify adaptive features and provide insights into the mechanisms of plant adaptation to the terrestrial environment.","PeriodicalId":18985,"journal":{"name":"Nature genetics","volume":"57 3","pages":"729-740"},"PeriodicalIF":25.5000,"publicationDate":"2025-02-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.nature.com/articles/s41588-024-02071-4.pdf","citationCount":"0","resultStr":"{\"title\":\"The Marchantia polymorpha pangenome reveals ancient mechanisms of plant adaptation to the environment\",\"authors\":\"Chloé Beaulieu, Cyril Libourel, Duchesse Lacourt Mbadinga Zamar, Karima El Mahboubi, David J. Hoey, George R. L. Greiff, Jean Keller, Camille Girou, Helene San Clemente, Issa Diop, Emilie Amblard, Baptiste Castel, Anthony Théron, Stéphane Cauet, Nathalie Rodde, Sabine Zachgo, Wiebke Halpape, Anja Meierhenrich, Bianca Laker, Andrea Bräutigam, The SLCU Outreach Consortium, Peter Szovenyi, Shifeng Cheng, Yasuhiro Tanizawa, Simon Aziz, James H. Leebens-Mack, Jeremy Schmutz, Jenell Webber, Jane Grimwood, Christophe Jacquet, Christophe Dunand, Jessica M. Nelson, Fabrice Roux, Hervé Philippe, Sebastian Schornack, Maxime Bonhomme, Pierre-Marc Delaux\",\"doi\":\"10.1038/s41588-024-02071-4\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Plant adaptation to terrestrial life started 450 million years ago and has played a major role in the evolution of life on Earth. The genetic mechanisms allowing this adaptation to a diversity of terrestrial constraints have been mostly studied by focusing on flowering plants. Here, we gathered a collection of 133 accessions of the model bryophyte Marchantia polymorpha and studied its intraspecific diversity using selection signature analyses, a genome–environment association study and a pangenome. We identified adaptive features, such as peroxidases or nucleotide-binding and leucine-rich repeats (NLRs), also observed in flowering plants, likely inherited from the first land plants. The M. polymorpha pangenome also harbors lineage-specific accessory genes absent from seed plants. We conclude that different land plant lineages still share many elements from the genetic toolkit evolved by their most recent common ancestor to adapt to the terrestrial habitat, refined by lineage-specific polymorphisms and gene family evolution. 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The Marchantia polymorpha pangenome reveals ancient mechanisms of plant adaptation to the environment
Plant adaptation to terrestrial life started 450 million years ago and has played a major role in the evolution of life on Earth. The genetic mechanisms allowing this adaptation to a diversity of terrestrial constraints have been mostly studied by focusing on flowering plants. Here, we gathered a collection of 133 accessions of the model bryophyte Marchantia polymorpha and studied its intraspecific diversity using selection signature analyses, a genome–environment association study and a pangenome. We identified adaptive features, such as peroxidases or nucleotide-binding and leucine-rich repeats (NLRs), also observed in flowering plants, likely inherited from the first land plants. The M. polymorpha pangenome also harbors lineage-specific accessory genes absent from seed plants. We conclude that different land plant lineages still share many elements from the genetic toolkit evolved by their most recent common ancestor to adapt to the terrestrial habitat, refined by lineage-specific polymorphisms and gene family evolution. Pangenome analyses of 133 wild accessions of the model bryophyte Marchantia polymorpha identify adaptive features and provide insights into the mechanisms of plant adaptation to the terrestrial environment.
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Nature Genetics publishes the very highest quality research in genetics. It encompasses genetic and functional genomic studies on human and plant traits and on other model organisms. Current emphasis is on the genetic basis for common and complex diseases and on the functional mechanism, architecture and evolution of gene networks, studied by experimental perturbation.
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