Loss of Shh signaling causes dorsoventral displacement of distal skeletal elements. (A) Twelve days after cyclopamine administration, distal elements of the upper beak are malpositioned and misshapen while proximal skeletal elements, including the frontal (fr), prefrontal (pf), and nasal (n) bones and the nasal capsules (na) are relatively unaffected. For example, the dorsal component of the premaxillary bone, the nasal process of the premaxilla (pn), is intact while the body of the premaxillary bone is shifted ventrally (asterisk). Skeletal elements derived from the maxillary primordia, such as the jugal (ju) and maxillary bones, are medially positioned. The mandible is unaltered in cyclopamine-treated embryos compared with HBC controls (D). (B) A ventral view shows that the palatine (pa), maxillary, and prefrontal bones form an atypical articulation in the ventral midline. The nasal process of the premaxilla aberrantly extends onto the ventral surface (asterisk). (C) A dorsal view reveals that the distal upper beak is truncated at the nasal capsule (dotted lines), thus the mandible becomes visible. (D) Normal craniofacial anatomy. (E) In controls, the premaxillary bone articulates with the palatine and maxillary bones. (F) A dorsal view illustrates the level of truncation (dotted line) at the premaxilla caused by cyclopamine. (G) A parasagittal section reveals that in cyclopamine-treated embryos the premaxilla is positioned ventrally and the maxillary and palatine bones are positioned medially (red arrow). (H) Control sagittal section. Scale bars: 100 μm (A–F); 1 mm (G and H). mc, Meckel’s cartilage; par, parasphenoid.