Formation of dermal skeletal and dental tissues in fish: a comparative and evolutionary approach
Identifieur interne : 000286 ( France/Analysis ); précédent : 000285; suivant : 000287Formation of dermal skeletal and dental tissues in fish: a comparative and evolutionary approach
Auteurs : Jean-Yves Sire [France] ; Ann Huysseune [Belgique]Source :
- Biological Reviews [ 1464-7931 ] ; 2003-05.
Descripteurs français
- Wicri :
- topic : Société.
English descriptors
- KwdEn :
- Academic press, Acellular, Aeneus, Ameloblast, American journal, Anatomical record, Anlage, Arcuatus, Armoured, Arrows point, Attachment bone, Basal, Basal epithelial cells, Basal region, Basement membrane, Bimaculatus, Bone matrix, Bony plate, Bony plates, Bony tissues, Brils, Callichthyid, Callichthyid corydoras aeneus, Callichthyid corydoras arcuatus, Callichthyidae, Canicula, Chondrichthyans, Cichlid, Cichlid hemichromis bimaculatus, Cladogram, Coelacanth, Collagen, Collagen bundles, Collagenous matrix, Compactum, Corydoras, Cranial, Danio, Danio rerio, Deep surface, Dental organ, Dental papilla, Dental tissues, Dentary, Denticle, Dentine, Dentine layer, Dentition, Dermal, Dermal denticles, Dermal elements, Dermal papilla, Dermal papillae, Dermal plates, Dermal skeleton, Dermis, Different tissues, Early morphogenesis, Early vertebrates, Elasmoblasts, Elasmodine, Elasmoid, Elasmoid scale, Elasmoid scales, Enamel, Enameloid, Enameloid matrix, Epidermis, Epithelial, Epithelial basal layer cells, Epithelial cells, Epithelial surface, Epithelium, Evolutionary, Evolutionary biology, Evolutionary relationships, Evolutionary sequence, External layer, Ganoid, Ganoid scale, Ganoid scales, Ganoine, Geraudie, Hemichromis, Hemichromis bimaculatus, Homology, Homoplasy, Huysseune, Huysseune sire, Jawless, Late morphogenesis, Layer, Lepidotrichium, Lepisosteid scales, Lepisosteids, Lineage, Long axis, Matrix, Mesenchymal, Mesenchymal cells, Mesenchyme, Meunier, Micrographs, Mineralisation, Mineralises, Morphogenesis, Odontoblasts, Odontode, Odontodes, Odontogenic, Odontogenic component, Odontogenic papillae, Organisation, Osteichthyans, Osteoblast, Osteogenic, Other hand, Outer surface, Papilla, Phylogenetic, Phylogeny, Polarised, Polypterid, Polypterid scales, Polypterids, Postcranial, Posterior region, Predentine, Reif, Rerio, Rvig, Scale bars, Scale papillae, Scale surface, Scute, Scyliorhinus, Sire, Sire huysseune, Skeletal elements, Skeleton, Smith hall, Stratum, Stratum compactum, Teleost, Teleostei, Tissue environment, Tissue level, Tissue research, Transmission electron micrographs, Unstructured mesenchyme, Upper part, Upper region, Vascular network, Vertebrate.
- Teeft :
- Academic press, Acellular, Aeneus, Ameloblast, American journal, Anatomical record, Anlage, Arcuatus, Armoured, Arrows point, Attachment bone, Basal, Basal epithelial cells, Basal region, Basement membrane, Bimaculatus, Bone matrix, Bony plate, Bony plates, Bony tissues, Brils, Callichthyid, Callichthyid corydoras aeneus, Callichthyid corydoras arcuatus, Callichthyidae, Canicula, Chondrichthyans, Cichlid, Cichlid hemichromis bimaculatus, Cladogram, Coelacanth, Collagen, Collagen bundles, Collagenous matrix, Compactum, Corydoras, Cranial, Danio, Danio rerio, Deep surface, Dental organ, Dental papilla, Dental tissues, Dentary, Denticle, Dentine, Dentine layer, Dentition, Dermal, Dermal denticles, Dermal elements, Dermal papilla, Dermal papillae, Dermal plates, Dermal skeleton, Dermis, Different tissues, Early morphogenesis, Early vertebrates, Elasmoblasts, Elasmodine, Elasmoid, Elasmoid scale, Elasmoid scales, Enamel, Enameloid, Enameloid matrix, Epidermis, Epithelial, Epithelial basal layer cells, Epithelial cells, Epithelial surface, Epithelium, Evolutionary, Evolutionary biology, Evolutionary relationships, Evolutionary sequence, External layer, Ganoid, Ganoid scale, Ganoid scales, Ganoine, Geraudie, Hemichromis, Hemichromis bimaculatus, Homology, Homoplasy, Huysseune, Huysseune sire, Jawless, Late morphogenesis, Layer, Lepidotrichium, Lepisosteid scales, Lepisosteids, Lineage, Long axis, Matrix, Mesenchymal, Mesenchymal cells, Mesenchyme, Meunier, Micrographs, Mineralisation, Mineralises, Morphogenesis, Odontoblasts, Odontode, Odontodes, Odontogenic, Odontogenic component, Odontogenic papillae, Organisation, Osteichthyans, Osteoblast, Osteogenic, Other hand, Outer surface, Papilla, Phylogenetic, Phylogeny, Polarised, Polypterid, Polypterid scales, Polypterids, Postcranial, Posterior region, Predentine, Reif, Rerio, Rvig, Scale bars, Scale papillae, Scale surface, Scute, Scyliorhinus, Sire, Sire huysseune, Skeletal elements, Skeleton, Smith hall, Stratum, Stratum compactum, Teleost, Teleostei, Tissue environment, Tissue level, Tissue research, Transmission electron micrographs, Unstructured mesenchyme, Upper part, Upper region, Vascular network, Vertebrate.
Abstract
Osteichthyan and chondrichthyan fish present an astonishing diversity of skeletal and dental tissues that are often difficult to classify into the standard textbook categories of bone, cartilage, dentine and enamel. To address the question of how the tissues of the dermal skeleton evolved from the ancestral situation and gave rise to the diversity actually encountered, we review previous data on the development of a number of dermal skeletal elements (odontodes, teeth and dermal denticles, cranial dermal bones, postcranial dermal plates and scutes, elasmoid and ganoid scales, and fin rays). A comparison of developmental stages at the tissue level usually allows us to identify skeletogenic cell populations as either odontogenic or osteogenic on the basis of the place of formation of their dermal papillae and of the way of deposition of their tissues. Our studies support the evolutionary affinities (1) between odontodes, teeth and denticles, (2) between the ganoid scales of polypterids and the elasmoid scales of teleosts, and (3) to a lesser degree between the different bony elements. There is now ample evidence to ascertain that the tissues of the elasmoid scale are derived from dental and not from bony tissues. This review demonstrates the advantage that can be taken from developmental studies, at the tissue level, to infer evolutionary relationships within the dermal skeleton in chondrichthyans and osteichthyans.
Url:
DOI: 10.1017/S1464793102006073
Affiliations:
- Belgique, France
- Province de Flandre-Orientale, Région flamande, Île-de-France
- Gand, Paris
- Université de Gand
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tissues</term><term>Brils</term><term>Callichthyid</term><term>Callichthyid corydoras aeneus</term><term>Callichthyid corydoras arcuatus</term><term>Callichthyidae</term><term>Canicula</term><term>Chondrichthyans</term><term>Cichlid</term><term>Cichlid hemichromis bimaculatus</term><term>Cladogram</term><term>Coelacanth</term><term>Collagen</term><term>Collagen bundles</term><term>Collagenous matrix</term><term>Compactum</term><term>Corydoras</term><term>Cranial</term><term>Danio</term><term>Danio rerio</term><term>Deep surface</term><term>Dental organ</term><term>Dental papilla</term><term>Dental tissues</term><term>Dentary</term><term>Denticle</term><term>Dentine</term><term>Dentine layer</term><term>Dentition</term><term>Dermal</term><term>Dermal denticles</term><term>Dermal elements</term><term>Dermal papilla</term><term>Dermal papillae</term><term>Dermal plates</term><term>Dermal skeleton</term><term>Dermis</term><term>Different tissues</term><term>Early morphogenesis</term><term>Early vertebrates</term><term>Elasmoblasts</term><term>Elasmodine</term><term>Elasmoid</term><term>Elasmoid scale</term><term>Elasmoid scales</term><term>Enamel</term><term>Enameloid</term><term>Enameloid matrix</term><term>Epidermis</term><term>Epithelial</term><term>Epithelial basal layer cells</term><term>Epithelial cells</term><term>Epithelial surface</term><term>Epithelium</term><term>Evolutionary</term><term>Evolutionary biology</term><term>Evolutionary relationships</term><term>Evolutionary sequence</term><term>External layer</term><term>Ganoid</term><term>Ganoid scale</term><term>Ganoid scales</term><term>Ganoine</term><term>Geraudie</term><term>Hemichromis</term><term>Hemichromis bimaculatus</term><term>Homology</term><term>Homoplasy</term><term>Huysseune</term><term>Huysseune sire</term><term>Jawless</term><term>Late morphogenesis</term><term>Layer</term><term>Lepidotrichium</term><term>Lepisosteid scales</term><term>Lepisosteids</term><term>Lineage</term><term>Long axis</term><term>Matrix</term><term>Mesenchymal</term><term>Mesenchymal cells</term><term>Mesenchyme</term><term>Meunier</term><term>Micrographs</term><term>Mineralisation</term><term>Mineralises</term><term>Morphogenesis</term><term>Odontoblasts</term><term>Odontode</term><term>Odontodes</term><term>Odontogenic</term><term>Odontogenic component</term><term>Odontogenic papillae</term><term>Organisation</term><term>Osteichthyans</term><term>Osteoblast</term><term>Osteogenic</term><term>Other hand</term><term>Outer surface</term><term>Papilla</term><term>Phylogenetic</term><term>Phylogeny</term><term>Polarised</term><term>Polypterid</term><term>Polypterid scales</term><term>Polypterids</term><term>Postcranial</term><term>Posterior region</term><term>Predentine</term><term>Reif</term><term>Rerio</term><term>Rvig</term><term>Scale bars</term><term>Scale papillae</term><term>Scale surface</term><term>Scute</term><term>Scyliorhinus</term><term>Sire</term><term>Sire huysseune</term><term>Skeletal elements</term><term>Skeleton</term><term>Smith hall</term><term>Stratum</term><term>Stratum compactum</term><term>Teleost</term><term>Teleostei</term><term>Tissue environment</term><term>Tissue level</term><term>Tissue research</term><term>Transmission electron micrographs</term><term>Unstructured mesenchyme</term><term>Upper part</term><term>Upper region</term><term>Vascular network</term><term>Vertebrate</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Academic press</term><term>Acellular</term><term>Aeneus</term><term>Ameloblast</term><term>American journal</term><term>Anatomical record</term><term>Anlage</term><term>Arcuatus</term><term>Armoured</term><term>Arrows point</term><term>Attachment bone</term><term>Basal</term><term>Basal epithelial cells</term><term>Basal region</term><term>Basement membrane</term><term>Bimaculatus</term><term>Bone matrix</term><term>Bony plate</term><term>Bony plates</term><term>Bony tissues</term><term>Brils</term><term>Callichthyid</term><term>Callichthyid corydoras aeneus</term><term>Callichthyid corydoras arcuatus</term><term>Callichthyidae</term><term>Canicula</term><term>Chondrichthyans</term><term>Cichlid</term><term>Cichlid hemichromis bimaculatus</term><term>Cladogram</term><term>Coelacanth</term><term>Collagen</term><term>Collagen bundles</term><term>Collagenous matrix</term><term>Compactum</term><term>Corydoras</term><term>Cranial</term><term>Danio</term><term>Danio rerio</term><term>Deep surface</term><term>Dental organ</term><term>Dental papilla</term><term>Dental tissues</term><term>Dentary</term><term>Denticle</term><term>Dentine</term><term>Dentine layer</term><term>Dentition</term><term>Dermal</term><term>Dermal denticles</term><term>Dermal elements</term><term>Dermal papilla</term><term>Dermal papillae</term><term>Dermal plates</term><term>Dermal skeleton</term><term>Dermis</term><term>Different tissues</term><term>Early morphogenesis</term><term>Early vertebrates</term><term>Elasmoblasts</term><term>Elasmodine</term><term>Elasmoid</term><term>Elasmoid scale</term><term>Elasmoid scales</term><term>Enamel</term><term>Enameloid</term><term>Enameloid matrix</term><term>Epidermis</term><term>Epithelial</term><term>Epithelial basal layer cells</term><term>Epithelial cells</term><term>Epithelial surface</term><term>Epithelium</term><term>Evolutionary</term><term>Evolutionary biology</term><term>Evolutionary relationships</term><term>Evolutionary sequence</term><term>External layer</term><term>Ganoid</term><term>Ganoid scale</term><term>Ganoid scales</term><term>Ganoine</term><term>Geraudie</term><term>Hemichromis</term><term>Hemichromis bimaculatus</term><term>Homology</term><term>Homoplasy</term><term>Huysseune</term><term>Huysseune sire</term><term>Jawless</term><term>Late morphogenesis</term><term>Layer</term><term>Lepidotrichium</term><term>Lepisosteid scales</term><term>Lepisosteids</term><term>Lineage</term><term>Long axis</term><term>Matrix</term><term>Mesenchymal</term><term>Mesenchymal cells</term><term>Mesenchyme</term><term>Meunier</term><term>Micrographs</term><term>Mineralisation</term><term>Mineralises</term><term>Morphogenesis</term><term>Odontoblasts</term><term>Odontode</term><term>Odontodes</term><term>Odontogenic</term><term>Odontogenic component</term><term>Odontogenic papillae</term><term>Organisation</term><term>Osteichthyans</term><term>Osteoblast</term><term>Osteogenic</term><term>Other hand</term><term>Outer surface</term><term>Papilla</term><term>Phylogenetic</term><term>Phylogeny</term><term>Polarised</term><term>Polypterid</term><term>Polypterid scales</term><term>Polypterids</term><term>Postcranial</term><term>Posterior region</term><term>Predentine</term><term>Reif</term><term>Rerio</term><term>Rvig</term><term>Scale bars</term><term>Scale papillae</term><term>Scale surface</term><term>Scute</term><term>Scyliorhinus</term><term>Sire</term><term>Sire huysseune</term><term>Skeletal elements</term><term>Skeleton</term><term>Smith hall</term><term>Stratum</term><term>Stratum compactum</term><term>Teleost</term><term>Teleostei</term><term>Tissue environment</term><term>Tissue level</term><term>Tissue research</term><term>Transmission electron micrographs</term><term>Unstructured mesenchyme</term><term>Upper part</term><term>Upper region</term><term>Vascular network</term><term>Vertebrate</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Société</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Osteichthyan and chondrichthyan fish present an astonishing diversity of skeletal and dental tissues that are often difficult to classify into the standard textbook categories of bone, cartilage, dentine and enamel. To address the question of how the tissues of the dermal skeleton evolved from the ancestral situation and gave rise to the diversity actually encountered, we review previous data on the development of a number of dermal skeletal elements (odontodes, teeth and dermal denticles, cranial dermal bones, postcranial dermal plates and scutes, elasmoid and ganoid scales, and fin rays). A comparison of developmental stages at the tissue level usually allows us to identify skeletogenic cell populations as either odontogenic or osteogenic on the basis of the place of formation of their dermal papillae and of the way of deposition of their tissues. Our studies support the evolutionary affinities (1) between odontodes, teeth and denticles, (2) between the ganoid scales of polypterids and the elasmoid scales of teleosts, and (3) to a lesser degree between the different bony elements. There is now ample evidence to ascertain that the tissues of the elasmoid scale are derived from dental and not from bony tissues. This review demonstrates the advantage that can be taken from developmental studies, at the tissue level, to infer evolutionary relationships within the dermal skeleton in chondrichthyans and osteichthyans.</div></front></TEI><affiliations><list><country><li>Belgique</li><li>France</li></country><region><li>Province de Flandre-Orientale</li><li>Région flamande</li><li>Île-de-France</li></region><settlement><li>Gand</li><li>Paris</li></settlement><orgName><li>Université de Gand</li></orgName></list><tree><country name="France"><region name="Île-de-France"><name sortKey="Sire, Jean Ves" sort="Sire, Jean Ves" uniqKey="Sire J" first="Jean-Yves" last="Sire">Jean-Yves Sire</name></region></country><country name="Belgique"><region name="Région flamande"><name sortKey="Huysseune, Ann" sort="Huysseune, Ann" uniqKey="Huysseune A" first="Ann" last="Huysseune">Ann Huysseune</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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