Brain Res Bull 2002 Feb 01;573-4:257-70. doi: 10.1016/s0361-9230(01)00668-2.

Deuterostome brains: synopsis and commentary.

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The living deuterostomes comprise six monophyletic groups: (1) echinoderms + hemichordates, (2) tunicates, (3) cephalochordates, (4) myxinoids, (5) petromyzontoids, and (6) gnathostomes. The morphotype of the craniote (myxinoids + petromyzontoids + gnathostomes) central nervous system (CNS) comprises a fixed number of histogenetic units, formed by the intersection of transversely oriented neuromeres and longitudinally arranged zones. A well-developed built-in, natural coordinate system adds the third dimension to this morphotype. The classical subdivisions of the craniote CNS: prosencephalon (P), mesencephalon (M), rhombencephalon (R), and spinal cord (S) are each composed of a number of neuromeres. Chordates (larval tunicates + cephalochordates + craniotes) share a highly characteristic axial complex, encompassing a dorsal tubular CNS, a notochord and bilateral series of segmental muscles. In all chordates the CNS can be divided into a rostral (P-like + M-like), an intermediate (R-like) and a caudal (S-like) sector, and sets of homologous developmental genes play a role in this tripartitioning. There are no indications for the presence of olfactory or other telencephalic regions in the brain of non-craniote chordates. Convincing evidence that parts of the chordate CNS are homologous to parts of the larval or adult CNS of non-chordate deuterostomes (echinoderms + hemichordates) is lacking. The dorsal tubular CNS is most probably a chordate autapomorphy.

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