Issues
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Cover image
Cover Image
Cover: The skeleton of a mouse embryo at E18.5. Loss of Hox9 paralogous function causes dramatic defects in rib cage development. Thirteen thoracic ribs attach to the sternum instead of the normal seven, along with four extra vertebrae with unattached ribs. Hox5, Hox6 and Hox9 paralogous mutants all show dramatic defects in axial patterning. See research article by McIntyre et al. on p. 2981 .Close Modal - PDF Icon PDF LinkTable of contents
RESEARCH REPORT
RESEARCH ARTICLE
The TFIID subunit TAF4 regulates keratinocyte proliferation and has cell-autonomous and non-cell-autonomous tumour suppressor activity in mouse epidermis
DEVELOPMENT AND DISEASE
IN THIS ISSUE
Development Journal Meeting 2022: From Stem Cells to Human Development
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Following a virtual meeting in 2020, we are delighted to announce that the fifth iteration of our popular Journal Meeting will be held from 11-14 September 2022 at the historic Wotton House, Surrey. Registration is open now.
Preprints in Development
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As part of our efforts to support the use of preprints and help curate the preprint literature, we are delighted to launch a new article type: ‘In preprints’. These pieces will discuss one or more recent preprints and place them in a broader context.
Submit your next Techniques and Resources paper to Development
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Development regularly publishes Techniques and Resources papers. These manuscripts describe a novel technique, a substantial advance of an existing technique, or a new resource that will have a significant impact on developmental biology research. Find out more here.
Transitions in development: Rashmi Priya
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Rashmi Priya’s research group uses the zebrafish heart as a model system to understand the complex morphogenetic events of organogenesis. We interviewed Rashmi to learn about her career path so far, and to discuss the challenges of starting a lab in the middle of a global pandemic.
The Node Network
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The Node Network is a global directory of developmental and stem cell biologists, designed to help you find speakers, referees, panel members and potential collaborators. Find out more about the Node Network.