430 results found
    1. Cancer Biology
    2. Computational and Systems Biology

    Defining the biological basis of radiomic phenotypes in lung cancer

    Patrick Grossmann et al.
    Radiomics allows automated quantification of the radiographic phenotype of a tumor across diverse patient cohorts and is connected to the underlying molecular pathway activities, which together determine the clinical outcome.
    1. Developmental Biology

    Computational 3D histological phenotyping of whole zebrafish by X-ray histotomography

    Yifu Ding et al.
    X-ray histotomography produces the first 3-dimensional images with the combined submicron resolution, centimeter fields-of-view, soft-tissue contrast, and potential throughput to enable quantitative, histopathological and centimeter-scale phenotyping for whole-organism phenomics.
    1. Cancer Biology
    2. Computational and Systems Biology

    Radiomics: Rethinking the role of clinical imaging

    James PB O'Connor
    Radiomics has the potential to improve the management of cancer patients, but further research is required before it can be adopted into routine clinical practice.
    Insight
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    1. Computational and Systems Biology

    Point of View: Data science for the scientific life cycle

    Daphne Ezer, Kirstie Whitaker
    Each stage of the scientific life cycle stands to benefit from the introduction of data science techniques.
  1. Research: Theory, models and biology

    Wenying Shou et al.
    Theoretical ideas have a rich history in many areas of biology, and new theories and mathematical models have much to offer in the future.
    Editorial
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    1. Cell Biology
    2. Computational and Systems Biology

    Science Forum: The Human Cell Atlas

    Aviv Regev et al.
    Advances in techniques for analysing single cells and tissues have inspired an international effort to create comprehensive reference maps of all human cells - the fundamental units of life - as a basis for both understanding human health and diagnosing, monitoring and treating disease.
    1. Ecology

    The Natural History of Model Organisms: The secret lives of Drosophila flies

    Therese Ann Markow
    After decades of intensive research, D. melanogaster and its relatives could provide important tools for investigating future biological questions about human health and environmental change, but only if we better understand their natural history.
  2. Cutting Edge: Using mobile sequencers in an academic classroom

    Sophie Zaaijer et al.
    A university genomics class provides detailed examples of how to design and execute Oxford Nanopore MinION hackathons as part of an academic curriculum.
  3. Meta-Research: Tracking the popularity and outcomes of all bioRxiv preprints

    Richard J Abdill, Ran Blekhman
    Data are reported for the monthly number of uploads to and downloads from bioRxiv, and for the number of preprints that are later published in peer-reviewed journals.
    1. Genetics and Genomics

    Cutting Edge: Changing the rules of the game

    Dan MacLean
    Genomics researchers have built a Facebook game that allows members of the public to join the effort to understand a disease that has killed millions of ash trees across Europe.

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