Matches in Ubergraph for { <https://frink.apps.renci.org/.well-known/genid/B0db70684e01144e32c7f3e4fa158c610> ?p ?o ?g. }
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- B0db70684e01144e32c7f3e4fa158c610 date_retrieved "2012-09-17" @default.
- B0db70684e01144e32c7f3e4fa158c610 external_class "VHOG:0001194" @default.
- B0db70684e01144e32c7f3e4fa158c610 ontology "VHOG" @default.
- B0db70684e01144e32c7f3e4fa158c610 source "ISBN:978-0072528305 Kardong KV, Vertebrates: Comparative Anatomy, Function, Evolution (2006) p.454-455" @default.
- B0db70684e01144e32c7f3e4fa158c610 source "http://bgee.unil.ch/" @default.
- B0db70684e01144e32c7f3e4fa158c610 type Axiom @default.
- B0db70684e01144e32c7f3e4fa158c610 annotatedProperty UBPROP_0000003 @default.
- B0db70684e01144e32c7f3e4fa158c610 annotatedSource UBERON_0001072 @default.
- B0db70684e01144e32c7f3e4fa158c610 annotatedTarget "Phylogenetic modifications within this basic pattern of arteries and veins are largely correlated with functional changes. In the transition from water to land, gills gave way to lungs, accompanied by the establishment of a pulmonary circulation. In some fishes and certainly in tetrapods, the cardinal veins become less involved in blood return. Instead, the composite, prominent postcava (posterior vena cava) arose to drain the posterior part of the body and the precava (anterior vena cava) developed to drain the anterior part of the body.[well established][VHOG]" @default.