In the developing hindbrain, the functional loss of individual Hox genes has revealed some of their roles in specifying rhombomere (r) identity. However, it is unclear how Hox genes act in concert to confer the unique identity to multiple rhombomeres. Moreover, it remains to be elucidated how these genes interact with other transcriptional programs to specify distinct neuronal lineages within each rhombomere. We demonstrate that in r5, the combined mutation of Hoxa3 and Hoxb3 result in a loss of Pax6- and Olig2-expressing progenitors that give rise to somatic motoneurons of the abducens nucleus. In r6, the absence of any combination of the Hox3 paralogous genes results in ectopic expression of the r4-specific determinant Hoxb1. This ectopic expression in turn results in the differentiation of r4-like facial branchiomotoneurons within this rhombomere. These studies reveal that members of the Hox1 and Hox3 paralogous groups participate in a `Hox code' that is necessary for coordinating both suppression and activation mechanisms that ensure distinction between the multiple rhombomeres in the developing hindbrain.
The Company of Biologists Workshops
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Call for papers – Lifelong Development: the Maintenance, Regeneration and Plasticity of Tissues
Development invites you to submit your latest research to our upcoming special issue – Lifelong Development: the Maintenance, Regeneration and Plasticity of Tissues. This issue will be coordinated by Guest Editors Meritxell Huch (Max Planck Institute of Molecular Cell Biology and Genetics, Germany) and Mansi Srivastava (Harvard University and Museum of Comparative Zoology, USA), working alongside our team of academic Editors. Submit your articles by 30 May 2025.
Meet our 2025 Pathway to Independence (PI) fellows
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