The function of Hox genes in the morphogenesis of the vertebrate limb

The potential of the vertebrate limb as a model system to study developmental mechanisms is particularly well illustrated by the analysis of the Hox gene network. These genes are involved in the establishment of patterns and encode positional information. Their functional organisation during both limb and trunk development are very similar and seem to involve the progressive activation in time, along the chromosome, of a battery of genes whose products could differentially instruct those cells where they are expressed. Thus, cells expressing different Hox genes may behave differently and therefore give rise to various related, but different, structures. The asymmetric distribution of the Hox transcript during limb development likely reflects the final limb asymmetry

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The function of Hox genes in the morphogenesis of the vertebrate limb

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Multi-species atlas resolves an axolotl limb development and regeneration paradox

Mesomelic dysplasias associated with the HOXD locus are caused by regulatory reallocations

HOX13-dependent chromatin accessibility underlies the transition towards the digit development program

HOX13-dependent chromatin accessibility underlies the transition towards the digit development program

Multi-species atlas resolves an axolotl limb development and regeneration paradox

Mesomelic dysplasias associated with the HOXD locus are caused by regulatory reallocations