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- B311ed6fe622bf5a6135d34cabacf3671 date_retrieved "2012-09-17" @default.
- B311ed6fe622bf5a6135d34cabacf3671 external_class "VHOG:0000318" @default.
- B311ed6fe622bf5a6135d34cabacf3671 ontology "VHOG" @default.
- B311ed6fe622bf5a6135d34cabacf3671 source "DOI:10.1016/S0959-4388(99)00003-3 Holland LZ and Holland ND, Chordate origins of the vertebrate central nervous system. Current Opinion in Neurobiology (1999)" @default.
- B311ed6fe622bf5a6135d34cabacf3671 source "http://bgee.unil.ch/" @default.
- B311ed6fe622bf5a6135d34cabacf3671 type Axiom @default.
- B311ed6fe622bf5a6135d34cabacf3671 annotatedProperty UBPROP_0000003 @default.
- B311ed6fe622bf5a6135d34cabacf3671 annotatedSource UBERON_0001894 @default.
- B311ed6fe622bf5a6135d34cabacf3671 annotatedTarget "Fine structural, computerized three-dimensional (3D) mapping of cell connectivity in the amphioxus nervous system and comparative molecular genetic studies of amphioxus and tunicates have provided recent insights into the phylogenetic origin of the vertebrate nervous system. The results suggest that several of the genetic mechanisms for establishing and patterning the vertebrate nervous system already operated in the ancestral chordate and that the nerve cord of the proximate invertebrate ancestor of the vertebrates included a diencephalon, midbrain, hindbrain, and spinal cord.[well established][VHOG]" @default.