Evolution and development of the vertebrate neck
- Authors
- Ericsson, R., Knight, R., and Johanson, Z.
- ID
- ZDB-PUB-120630-13
- Date
- 2013
- Source
- Journal of anatomy 222(1): 67-78 (Review)
- Registered Authors
- Knight, Robert
- Keywords
- cucullaris, hypobranchial, lateral plate mesoderm. neck musculature, somites, vertebrates
- MeSH Terms
-
- Animals
- Biological Evolution*
- Gene Expression Regulation
- Muscle Development/genetics
- Muscle Development/physiology
- Neck Muscles/anatomy & histology*
- Neck Muscles/embryology
- Vertebrates/anatomy & histology*
- Vertebrates/embryology
- PubMed
- 22697305 Full text @ J. Anat.
Muscles of the vertebrate neck include the cucullaris and hypobranchials. Although a functional neck first evolved in the lobe-finned fishes (Sarcopterygii) with the separation of the pectoral/shoulder girdle from the skull, the neck muscles themselves have a much earlier origin among the vertebrates. For example, lampreys possess hypobranchial muscles, and may also possess the cucullaris. Recent research in chick has established that these two muscles groups have different origins, the hypobranchial muscles having a somitic origin but the cucullaris muscle deriving from anterior lateral plate mesoderm associated with somites 1–3. Additionally, the cucullaris utilizes genetic pathways more similar to the head than the trunk musculature. Although the latter results are from experiments in the chick, cucullaris homologues occur in a variety of more basal vertebrates such as the sharks and zebrafish. Data are urgently needed from these taxa to determine whether the cucullaris in these groups also derives from lateral plate mesoderm or from the anterior somites, and whether the former or the latter represent the basal vertebrate condition. Other lateral plate mesoderm derivatives include the appendicular skeleton (fins, limbs and supporting girdles). If the cucullaris is a definitive lateral plate-derived structure it may have evolved in conjunction with the shoulder/limb skeleton in vertebrates and thereby provided a greater degree of flexibility to the heads of predatory vertebrates.