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Architecture and evolution of a minute plant genome

2013; Nature Portfolio; Volume: 498; Issue: 7452 Linguagem: Inglês

10.1038/nature12132

1476-4687

Enrique Ibarra‐Laclette, Eric Lyons, Gustavo Hernández-Guzmán, Claudia Pérez-Torres, Lorenzo Carretero‐Paulet, Tien Hao Chang, Tianying Lan, Andreanna J. Welch, María Jazmín Abraham‐Juárez, June Simpson, Araceli Fernández-Cortés, Mario A. Arteaga‐Vázquez, Elsa Góngora‐Castillo, Gustavo Acevedo-Hernández, Stephan C. Schuster, Heinz Himmelbauer, André E. Minoche, Sen Xu, Michael Lynch, Araceli Oropeza‐Aburto, Sergio Alan Cervantes-Pérez, María De Jesús Ortega-Estrada, Jacob Israel Cervantes-Luevano, Todd P. Michael, Todd C. Mockler, Douglas W. Bryant, Alfredo Herrera‐Estrella, Victor A. Albert, Luís Herrera‐Estrella,

Genomics and Phylogenetic Studies

It has been argued that the evolution of plant genome size is principally unidirectional and increasing owing to the varied action of whole-genome duplications (WGDs) and mobile element proliferation. However, extreme genome size reductions have been reported in the angiosperm family tree. Here we report the sequence of the 82-megabase genome of the carnivorous bladderwort plant Utricularia gibba. Despite its tiny size, the U. gibba genome accommodates a typical number of genes for a plant, with the main difference from other plant genomes arising from a drastic reduction in non-genic DNA. Unexpectedly, we identified at least three rounds of WGD in U. gibba since common ancestry with tomato (Solanum) and grape (Vitis). The compressed architecture of the U. gibba genome indicates that a small fraction of intergenic DNA, with few or no active retrotransposons, is sufficient to regulate and integrate all the processes required for the development and reproduction of a complex organism.