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Showing 1–21 of 21 results
Advanced filters: Author: Detlev Arendt Clear advanced filters

  • In this article, the authors review the current understanding of the molecular mechanisms underlying cell type identity and discuss how new phenotypic features of cell types evolve. They explain how evolutionary lineage differs from developmental lineage and highlight how an evolutionary view of cell type identity can facilitate research in comparative cell biology.

    • Detlev Arendt
    • Jacob M. Musser
    • Günter P. Wagner
    Reviews
    Nature Reviews Genetics
    Volume: 17, P: 744-757

  • The origin of the annelids is buried in distant evolutionary time. A molecular phylogeny resolves their deep family interrelationships and provides a picture of their 'urannelid' ancestor. See Letter p.95

    • Detlev Arendt
    News & Views
    Nature
    Volume: 471, P: 44-45

  • The recent advent of cell type molecular fingerprinting has yielded initial insights into the evolutionary interrelationships of cell types between remote animal phyla, allowing the definition of some key principles of cell type diversification in animal evolution.

    • Detlev Arendt
    Reviews
    Nature Reviews Genetics
    Volume: 9, P: 868-882

  • The evolution of complex nervous systems is not well understood. In this Opinion article, Arendt and colleagues discuss comparative gene-expression data that suggest that the bilaterian brain emerged from the integration of distinct integrative centres present on opposite sides of a nerve net.

    • Detlev Arendt
    • Maria Antonietta Tosches
    • Heather Marlow
    Reviews
    Nature Reviews Neuroscience
    Volume: 17, P: 61-72

  • 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

  • The bilaterian mouth and anus evolved from a simple gut with one gastric opening. Here, the authors review comparative data on several organisms and conclude that the single opening probably evolved into both mouth and anus (amphistomy).

    • Claus Nielsen
    • Thibaut Brunet
    • Detlev Arendt
    Reviews
    Nature Ecology & Evolution
    Volume: 2, P: 1358-1376

  • Recent work suggests that microRNAs might have been important in the evolution of complexity in multicellular animals. Here it is shown that the most ancient known microRNA, miR–100, was initially active in neurosecretory cells around the mouth. Other highly conserved varieties were first present in specific tissues and organ systems. Thus, microRNA expression was initially restricted to an ancient set of ancient animal cell types and tissues.

    • Foteini Christodoulou
    • Florian Raible
    • Detlev Arendt
    Research
    Nature
    Volume: 463, P: 1084-1088

  • Embryos in a particular phylum of the animal kingdom tend to most resemble one another at a stage in the middle of embryogenesis known as the phylotypic period; a transcriptional analysis of embryogenesis from single embryos of ten different phyla reveals that the transcripts expressed at the phylotypic stage (or mid-developmental transition) differ greatly between phyla, and a ‘phylum’ may be defined as a set of species sharing the same signals and transcription factor networks during the mid-developmental transition.

    • Michal Levin
    • Leon Anavy
    • Itai Yanai
    Research
    Nature
    Volume: 531, P: 637-641

  • Comparative analysis of the genomes of one mollusc (Lottia gigantea) and two annelids (Capitella teleta and Helobdella robusta) enable a more complete reconstruction of genomic features of the last common ancestors of protostomes, bilaterians and metazoans; against this conserved background they provide the first glimpse into lineage-specific evolution and diversity of the lophotrochozoans.

    • Oleg Simakov
    • Ferdinand Marletaz
    • Daniel S. Rokhsar
    ResearchOpen Access
    Nature
    Volume: 493, P: 526-531

  • To understand the function of cortical circuits, it is necessary to catalog their cellular diversity. Past attempts to do so using anatomical, physiological or molecular features of cortical cells have not resulted in a unified taxonomy of neuronal or glial cell types, partly due to limited data. Single-cell transcriptomics is enabling, for the first time, systematic high-throughput measurements of cortical cells and generation of datasets that hold the promise of being complete, accurate and permanent. Statistical analyses of these data reveal clusters that often correspond to cell types previously defined by morphological or physiological criteria and that appear conserved across cortical areas and species. To capitalize on these new methods, we propose the adoption of a transcriptome-based taxonomy of cell types for mammalian neocortex. This classification should be hierarchical and use a standardized nomenclature. It should be based on a probabilistic definition of a cell type and incorporate data from different approaches, developmental stages and species. A community-based classification and data aggregation model, such as a knowledge graph, could provide a common foundation for the study of cortical circuits. This community-based classification, nomenclature and data aggregation could serve as an example for cell type atlases in other parts of the body.

    • Rafael Yuste
    • Michael Hawrylycz
    • Ed Lein
    Comments & OpinionOpen Access
    Nature Neuroscience
    Volume: 23, P: 1456-1468

  • Studying the ocean microbiome can inform international policies related to ocean governance, tackling climate change, ocean acidification and pollution, and can help promote achievement of multiple Sustainable Development Goals.

    • Andre Abreu
    • Etienne Bourgois
    • Jan Vanaverbeke
    Reviews
    Nature Microbiology
    Volume: 7, P: 937-947