Article thumbnail

Evolutionary Trends of the Pharyngeal Dentition in Cypriniformes (Actinopterygii: Ostariophysi)

By Emmanuel Pasco-Viel, Cyril Charles, Pascale Chevret, Marie Semon, Paul Tafforeau, Laurent Viriot and Vincent Laudet
Topics: Research Article
Publisher: Public Library of Science
OAI identifier:
Provided by: PubMed Central

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.

Suggested articles


  1. (1858) Die Su ¨sswasserfische der O ¨sterreichen Monarchie mit Ru ¨cksicht auf der angrenzenden La ¨nder.
  2. (2009). A new Eocene catostomid (Teleostei: Cypriniformes) from northeastern China and early divergence of Catostomidae.
  3. (2009). An ancient gene network is co-opted for teeth on old and new jaws.
  4. (2008). An evolutionary view on tooth development and replacement in wild Atlantic salmon (Salmo salar L.).
  5. (2006). Applications of X-ray synchrotron microtomography for non destructive 3D studies of paleontological specimens.
  6. (1909). Catalogue of the freshwater fishes of Africa in the British Museum (Natural History), Vols I and II. London: British Museum (Natural History).
  7. (1935). Comparative studies on the scales and on the pharyngeals and their teeth in Chinese cyprinids, with particular reference to taxonomy and evolution.
  8. (2006). Comparison of evolutionary rates in the mitochondrial DNA cytochrome b gene and control region and their implications for phylogeny of the Cobitoidea (Teleostei: Cypriniformes).
  9. (1973). Considerations regarding the phylogeny of cypriniform fishes, with special reference to structures associated with feeding. Copeia
  10. (2007). Constrained models of evolution lead to improved prediction of functional linkage from correlated gain and loss of genes.
  11. (2009). Current knowledge of tooth development: patterning and mineralization of the murine dentition.
  12. (1991). Cyprinid Fishes Systematics Biology and Explotation.
  13. (2007). Development of oral and pharyngeal teeth in the medaka (Oryzias latipes): comparison of morphology and expression of eve1 gene.
  14. (1987). Development of pharyngeal dentition in the cobitid fishes, Misgurnus anguillicaudatus and Cobitis biwae, with a consideration of evolution of Cypriniform dentitions. Copeia
  15. (2006). Developmental genetic mechanisms of evolutionary tooth loss in cypriniform fishes.
  16. (2007). Developmental genetics of adaptation in fishes: The case for novelty.
  17. (1991). Diets and feeding behavior. In: Winfield IJ,
  18. Evermann BW (1896) The fishes of North and Middle America, Vol I. Washington: Govt Print Off.
  19. (2007). Evolution of miniaturization and the phylogenetic position of Paedocypris, comprising the world’s smallest vertebrate.
  20. (2009). Evolutionary and developmental origins of the vertebrate dentition.
  21. (2006). Expression of Dlx genes during the development of the zebrafish pharyngeal dentition: evolutionary implications.
  22. (2007). Families of Cobitoidea (Teleostei; Cypriniformes) as revealed from nuclear genetic data and the position of the mysterious genera Barbucca, Psilorhynchus, Serpenticobitis and Vaillantella.M o l
  23. (2006). Fishes of the world, 4 th edition.
  24. (2008). Fossil Cypriniformes from China and its adjacent areas and their palaeobiogeographical implications.
  25. (2005). Four rows of pharyngeal teeth in an aberrant specimen of the small African barb Barbus paludinosus (Cyprinidae): novelty or atavistic alteration?
  26. (2009). Genotypic sex determination enabled adaptive radiations of extinct marine reptiles.
  27. (2001). Huysseune A
  28. (1992). Inland fishes of India and adjacent countries, Vol I. Rotterdam:
  29. (1973). Intraspecific variation in the pharyngeal tooth formulae of some cyprinid fishes. Copeia
  30. (2008). Low divergence in Dlx gene expression between dentitions of the medaka (Oryzias latipes) versus high level of expression shuffling in Osteichtyans.
  31. (1987). Lower vertebrates from the early-middle Eocene Kuldana Formation of Kohat (Pakistan): Holostei and Teleostei.
  32. (2009). mammalian teeth into a single row.
  33. (1993). Miniaturization of body-size: organismal consequences and evolutionary significance.
  34. (2006). Mitogenomic evolution and interrelationships of the Cypriniformes (Actinopterygii: Ostariophysi): the first evidence toward resolution of higher-level relationships of the world’s largest freshawater fish clade based on 59 whole mitogenome sequences.
  35. (2009). Modularity, comparative embryology and evo-devo: developmental dissection of evolving body plans.
  36. (2007). Molecular evidence for the monophyly of East Asian groups of Cyprinidae (Teleostei: Cypriniformes) derived from the nuclear recombination activating gene 2 sequences.
  37. (1999). Molecular evidence on the evolutionary and biogeographical patterns of European Cyprinids.
  38. (2008). Molecular phylogenetics of the family Cyprinidae (Actinopterygii: Cypriniformes) as evidenced by sequence variation in the first intron of S7 ribosomal proteincoding gene: further evidence from a nuclear gene of the systematic chaos in the family.
  39. (2009). Molecular systematics of the Cyprinoidea (Teleostei: Cypriniformes), the world’s largest clade of freshwater fishes: further evidence from six nuclear genes.
  40. (2001). Molecular systematics of Xenocyprinae (teleostei: cyprinidae): taxonomy, biogeography and coevolution of a special group restricted in East Asia.
  41. (2005). Morphological evolution, ecological diversification and climate change in rodents.
  42. (2008). Mosaic convergence of rodent dentitions.
  43. (2003). MRBAYES 3: Bayesian phylogenetic inference under mixed models.
  44. (2007). Origin of avian genome size and structure in non-avian dinosaurs.
  45. (1993). Osteichthyes: Teleostei. In:
  46. (2009). Osteology of Paedocypris, a miniature and highly developmentally truncated fish (Teleostei: Ostariophysi: Cyprinidae).
  47. (2006). Paedocypris, a new genus of South-East Asian cyprinid fish with a remarkable sexual dimorphism, comprises the world’s smallest vertebrate.
  48. (2007). Phylogenetic relationships of Danio within the order Cypriniformes: a framework for comparative and evolutionary studies of a model species.
  49. (2008). Reversing opinions on Dollo’s Law.
  50. (1985). Revised procedures for staining and clearing small fishes and other vertebrates for bone and cartilage study.
  51. (1996). SEAVIEW and PHYLO_WIN: two graphic tools for sequence alignment and molecular phylogeny.
  52. (2008). Small changes, big results: evolution of morphological discontinuity in mammals.
  53. (2009). Spectacular morphological novelty in a miniature cyprinid fish,
  54. (2008). The ‘‘Celestial Pearl Danio’’ is a miniature Danio (s.s) (Ostariophysi: Cyprinidae): evidence from morphology and molecules.
  55. (1998). The Crucible of Creation: The Burgess Shale and the Rise of the Animals.
  56. (2004). The cutting-edge of mammalian development; how the embryo makes teeth.
  57. (2010). The evolutionary origins of ritualized acoustic signals in caterpillars.
  58. (1991). The fossil record of the Cyprinidae. In:
  59. (1981). The freshwater fishes of India,
  60. (1911). The freshwater fishes of the British isles.
  61. (2009). The importance of signal pathway modulation in all aspects of tooth development.
  62. (1999). The maximum likelihood approach to reconstructing ancestral character states of discrete characters on phylogenies.
  63. (2001). The oldest-known cyprinid fish of the Afro-Arabic plate and its paleobiogeographical implications.
  64. (2006). The Regulatory Genome: Gene Regulatory Networks in Development And Evolution.
  65. (2004). Thesleff I
  66. (2006). Transgenic analysis of Dlx regulation in fish tooth development reveals evolutionary retention of enhancer function despite organ loss.
  67. (2007). Zebrafish dentition in comparative context.