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- B172606a780447c04ca711f60e4c716b8 date_retrieved "2012-09-17" @default.
- B172606a780447c04ca711f60e4c716b8 external_class "VHOG:0000691" @default.
- B172606a780447c04ca711f60e4c716b8 ontology "VHOG" @default.
- B172606a780447c04ca711f60e4c716b8 source "DOI:10.1016/S0959-4388(98)80033-0 Manley GA, Koeppl C, Phylogenetic development of the cochlea and its innervation. Current Opinion in Neurobiology (1998)" @default.
- B172606a780447c04ca711f60e4c716b8 source "http://bgee.unil.ch/" @default.
- B172606a780447c04ca711f60e4c716b8 type Axiom @default.
- B172606a780447c04ca711f60e4c716b8 annotatedProperty UBPROP_0000003 @default.
- B172606a780447c04ca711f60e4c716b8 annotatedSource UBERON_0001844 @default.
- B172606a780447c04ca711f60e4c716b8 annotatedTarget "Because achieving high sensitivity is generally advantageous for auditory organs, it is not surprising that evidence for cochlear amplification is also seen in nonmammals. Spontaneous otoacoustic emissions (SOAEs) are narrow-band sound signals emitted from the inner ear, and it is generally assumed that their energy derives from the hair-cell molecular motors underlying cochlear amplification. However, all terrestrial vertebrates studied so far (including amphibians) show very similar SOAEs. The most parsimonious explanation for the universality of this phenomena is that some kind of amplifying mechanism is at least as old as land vertebrates themselves.[well established][VHOG]" @default.