Assessing candidate DLX-regulated genes in the first pharyngeal arch of chick embryos.

Background: Insights into the development and evolution of asymmetrical jaws will require an understanding of the gene regulatory networks that underpin the differential morphogenesis of the maxillary and mandibular domains of the first pharyngeal arch in a variety of gnathostomes. While a robust relationship has been demonstrated between jaw patterning and the Endothelin-Dlx gene axis, much less is known of the next level of genes in the jaw patterning hierarchy.

Results: Several genes, whose expression depends on Dlx5 and/or Dlx6, have been identified in mice.

DLX gene expression in the developing chick pharyngeal arches and relationship to endothelin signaling and avian jaw patterning.

Background: A hinged jaw that articulates with the skull base is a striking feature of the vertebrate head and has been greatly modified between, and within, vertebrate classes. Genes belonging to the DLX homeobox family are conserved mediators of local signaling pathways that distinguish the dorsal and ventral aspects of the first pharyngeal arch. Specifically, a subset of DLX genes are expressed in the cranial neural crest-derived mandibular ectomesenchyme in response to ventral endothelin signaling, an important step that confers the first arch with maxillary and mandibular identities.

The insufficiency of Dlx5 for ventral patterning in post-migratory neural crest cells reveals a loss of plasticity in early jaw-forming tissue.

The articulated jaws of vertebrates arise from the first pharyngeal arch, the most rostral of several transient ventral structures in pharyngeal stage embryos. Migratory cranial neural crest cells from the caudal midbrain and rostral hindbrain populate the first arch as ectomesenchyme and supply the progenitors of skeletal and soft tissues that form the upper (maxillary) and lower (mandibular) jaws. Dlx genes encode key transcriptional regulators that profoundly influence jaw development through their actions in first pharyngeal arch patterning.