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• W1988635435 abstract "Teeth and skin teeth (denticles), collectively named odontodes, are usually associated with the physical roles of cutting, protection or drag reduction in fishes [1Fraser G.J. Cerny R. Soukup V. Bronner-Fraser M. Streelman J.T. The odontode explosion: The origin of tooth-like structures in vertebrates.BioEssays. 2010; 32: 808-817Crossref PubMed Scopus (76) Google Scholar, 2Donoghue P.C.J. Evolution of development of the vertebrate dermal and oral skeletons: unraveling concepts, regulatory theories, and homologies.Paleobiol. 2002; 28: 474-507Crossref Scopus (62) Google Scholar]. These structures are composed of a soft pulp surrounded by dentine and covered by a mineralized substance such as enamel [3Sire J.-Y. Teeth outside the mouth in teleost fishes: how to benefit from a developmental accident.Evol. Dev. 2001; 3: 104-108Crossref PubMed Google Scholar]. Odontodes arise from neural crest cells and epithelium and are often innervated [1Fraser G.J. Cerny R. Soukup V. Bronner-Fraser M. Streelman J.T. The odontode explosion: The origin of tooth-like structures in vertebrates.BioEssays. 2010; 32: 808-817Crossref PubMed Scopus (76) Google Scholar, 2Donoghue P.C.J. Evolution of development of the vertebrate dermal and oral skeletons: unraveling concepts, regulatory theories, and homologies.Paleobiol. 2002; 28: 474-507Crossref Scopus (62) Google Scholar, 3Sire J.-Y. Teeth outside the mouth in teleost fishes: how to benefit from a developmental accident.Evol. Dev. 2001; 3: 104-108Crossref PubMed Google Scholar]. However, little is known about their possible sensory function. Here, we demonstrate for the first time a mechanosensory role for denticles in a cavefish endemic to a fast water flow cave. All fishes gather hydrodynamic information via specialized sense organs called neuromasts [4Engelmann J. Hanke W. Mogdans J. Bleckmann H. Neurobiology: Hydrodynamic stimuli and the fish lateral line.Nature. 2000; 408: 51-52Crossref PubMed Scopus (168) Google Scholar, 5Montgomery J.C. Baker C.F. Carton A.G. The lateral line can mediate rheotaxis in fish.Nature. 1997; 389: 960-963Crossref Scopus (404) Google Scholar, 6Montgomery J.C. Coombs S. Baker C.F. The mechanosensory lateral line system of the hypogean form of Astyanax fasciatus.Environ. Biol. Fishes. 2001; 62: 87-96Crossref Scopus (132) Google Scholar]. Some fishes are especially attentive to such type of information [5Montgomery J.C. Baker C.F. Carton A.G. The lateral line can mediate rheotaxis in fish.Nature. 1997; 389: 960-963Crossref Scopus (404) Google Scholar] and until now hypertrophy of the neuromast system has been reported as the main constructive sensory adaptation in cavefishes [6Montgomery J.C. Coombs S. Baker C.F. The mechanosensory lateral line system of the hypogean form of Astyanax fasciatus.Environ. Biol. Fishes. 2001; 62: 87-96Crossref Scopus (132) Google Scholar, 7Windsor S.P. Tan D. Montgomery J.C. Swimming kinematics and hydrodynamic imaging in the blind Mexican cave fish (Astyanax fasciatus).J. Exp. Biol. 2008; 211: 2950-2959Crossref PubMed Scopus (77) Google Scholar]. We expect that the mechanosensory nature of denticles highlighted in this cave fish species might reflect a widespread sensory role for these structures in other animals." @default.
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• W1988635435 date "2012-08-01" @default.
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• W1988635435 title "By the teeth of their skin, cavefish find their way" @default.
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• W1988635435 doi "https://doi.org/10.1016/j.cub.2012.06.035" @default.
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