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Showing 1–14 of 14 results
Advanced filters: Author: Florent Murat Clear advanced filters

  • Evolutionary analyses of single-nucleus transcriptome data for testes from 11 species are reported, illuminating the molecular evolution of spermatogenesis and associated forces, and providing a resource for investigating the testis across mammals.

    • Florent Murat
    • Noe Mbengue
    • Henrik Kaessmann
    ResearchOpen Access
    Nature
    Volume: 613, P: 308-316

  • A cross-species analysis reveals how whole genome duplication underlies the cellular diversification of the vertebrate liver.

    • Francisca Hervas-Sotomayor
    • Florent Murat
    News & Views
    Nature Ecology & Evolution
    Volume: 8, P: 1788-1789

  • Zhangjun Fei and colleagues report the draft genome of a Chinese elite watermelon inbred line 97103 and resequencing of 20 diverse accessions that represent the three subspecies of Citrullus lunatus. Comparative genome-wide analyses identify the extent of genetic diversity and population structure of watermelon germplasm.

    • Shaogui Guo
    • Jianguo Zhang
    • Yong Xu
    ResearchOpen Access
    Nature Genetics
    Volume: 45, P: 51-58

  • Single-nucleus RNA-sequencing data from the cerebellum of human, mouse and opossum is used to analyse the developmental dynamics of cell types and states in mammalian cerebellum and provide evolutionary insights.

    • Mari Sepp
    • Kevin Leiss
    • Henrik Kaessmann
    ResearchOpen Access
    Nature
    Volume: 625, P: 788-796

  • This study provides a cell atlas of the sea lamprey brain based on single-cell RNA-seq and in situ sequencing data and includes comparative analyses with other vertebrates that reveal key features of the ancestral vertebrate brain as well as traits that arose later in evolution.

    • Francesco Lamanna
    • Francisca Hervas-Sotomayor
    • Henrik Kaessmann
    ResearchOpen Access
    Nature Ecology & Evolution
    Volume: 7, P: 1714-1728

  • Oaks can live hundreds of years. Comparative genomics using a high-quality genome sequence provides new insights that may explain tree longevity. Samples from branches and corresponding acorns also help quantify heritable somatic mutations.

    • Christophe Plomion
    • Jean-Marc Aury
    • Jérôme Salse
    ResearchOpen Access
    Nature Plants
    Volume: 4, P: 440-452

  • The Eucalyptus grandis genome has been sequenced, revealing the greatest number of tandem duplications of any plant genome sequenced so far, and the highest diversity of genes for specialized metabolites that act as chemical defence and provide unique pharmaceutical oils; genome sequencing of the sister species E. globulus and a set of inbred E. grandis tree genomes reveals dynamic genome evolution and hotspots of inbreeding depression.

    • Alexander A. Myburg
    • Dario Grattapaglia
    • Jeremy Schmutz
    ResearchOpen Access
    Nature
    Volume: 510, P: 356-362

  • Xavier Argout and colleagues report the draft genome of Theobroma cacao, the tropical crop that is the source of chocolate. The sequence assembly covers approximately 80% of the genome.

    • Xavier Argout
    • Jerome Salse
    • Claire Lanaud
    ResearchOpen Access
    Nature Genetics
    Volume: 43, P: 101-108

  • The genome of the wild grass Brachypodium distachyon (Brachypodium), a member of the Pooideae subfamily, is sequenced. The Pooideae are one of three subfamilies of grasses that provide the bulk of human nutrition and may become major sources of renewable energy. Availability of the genome sequence should help establish Brachypodium as a model for developing new energy and food crops.

    • John P. Vogel
    • David F. Garvin
    • Ivan Baxter
    Research
    Nature
    Volume: 463, P: 763-768

  • Jérôme Salse and colleagues report a reconstruction of the most recent common ancestor of modern monocots and eudicots, which dates to the late Triassic era. Their results represent a resource for plant geneticists to extend findings from model species to crops.

    • Florent Murat
    • Alix Armero
    • Jérôme Salse
    Research
    Nature Genetics
    Volume: 49, P: 490-496