Replacing the first-generation dentition in pufferfish with a unique beak

Replacing the first-generation dentition in pufferfish with a unique beak

Teleost fishes comprise approximately half of all living vertebrates. The extreme range of diversity in teleosts is remarkable, especially, extensive morphological variation in their jaws and dentition. Some of the most unusual dentitions are found among members of the highly derived teleost order T...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 109; no. 21; pp. 8179 - 8184
Main Authors: Fraser, Gareth J, Britz, Ralf, Hall, Andie, Johanson, Zerina, Smith, Moya M
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 22-05-2012
National Acad Sciences
Series:From the Cover
Subjects:
Animal behavior
Animals
Balistidae
Beak
Beak - embryology
Beak - physiology
Biodiversity
Biological Evolution
Biological Sciences
Bone Morphogenetic Protein 4 - genetics
Bones
Dentition
Embryo, Nonmammalian - embryology
Embryo, Nonmammalian - physiology
Embryos
Epithelium
Evolution
Female
Fish
Gene expression
Gene Expression Regulation, Developmental - physiology
Genetic Variation
Hedgehog Proteins - genetics
Homeobox Protein PITX2
Homeodomain Proteins - genetics
Jaw
jaws
Male
Molidae
ontogeny
Ostraciidae
PAX9 Transcription Factor - genetics
Phenotype
Teeth
Tetraodontidae
Tetraodontiformes - embryology
Tetraodontiformes - genetics
Tooth - embryology
Tooth - physiology
Transcription Factors - genetics
Vertebrates
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Summary:Teleost fishes comprise approximately half of all living vertebrates. The extreme range of diversity in teleosts is remarkable, especially, extensive morphological variation in their jaws and dentition. Some of the most unusual dentitions are found among members of the highly derived teleost order Tetraodontiformes, which includes triggerfishes, boxfishes, ocean sunfishes, and pufferfishes. Adult pufferfishes (Tetraodontidae) exhibit a distinctive parrot-like beaked jaw, forming a cutting edge, unlike in any other group of teleosts. Here we show that despite novelty in the structure and development of this "beak," it is initiated by formation of separate first-generation teeth that line the embryonic pufferfish jaw, with timing of development and gene expression patterns conserved from the last common ancestor of osteichthyans. Most of these first-generation larval teeth are lost in development. Continuous tooth replacement proceeds in only four parasymphyseal teeth, as sequentially stacked, multigenerational, jaw-length dentine bands, before development of the functional beak. These data suggest that dental novelties, such as the pufferfish beak, can develop later in ontogeny through modified continuous tooth addition and replacement. We conclude that even highly derived morphological structures like the pufferfish beak form via a conserved developmental bauplan capable of modification during ontogeny by subtle respecification of the developmental module.
Bibliography:http://dx.doi.org/10.1073/pnas.1119635109
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Edited by David B. Wake, University of California, Berkeley, CA, and approved April 9, 2012 (received for review November 29, 2011)
Author contributions: G.J.F., R.B., Z.J., and M.M.S. designed research; G.J.F., R.B., A.H., Z.J., and M.M.S. performed research; G.J.F., R.B., Z.J., and M.M.S. analyzed data; and G.J.F., R.B., Z.J., and M.M.S. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1119635109