Phylogenetic memory of developing mammalian dentition
Identifieur interne : 000218 ( France/Analysis ); précédent : 000217; suivant : 000219Phylogenetic memory of developing mammalian dentition
Auteurs : Renata Peterkova [République tchèque] ; Hervé Lesot [France] ; Miroslav Peterka [République tchèque]Source :
- Journal of Experimental Zoology Part B: Molecular and Developmental Evolution [ 1552-5007 ] ; 2006-05-15.
Descripteurs français
English descriptors
- KwdEn :
- Academic press, Adloff, Anat, Ancestral structures, Anterior, Anterior part, Apoptosis, Atavism, Atavistic, Biol, Biol peterkova, Bolk, Cheek teeth, Craniofac genet, Czech republic, Deciduous, Deciduous dentition, Dental epithelium, Dental lamina, Dentition, Developmental relationship, Diastema, Diastema regions, Diastemal, Earliest teeth, Early development, Embryo, Enamel, Enamel organ, Epithelial, Epithelium, Evol, Evolutionary disappearance, Evolutionary implications, Extra teeth, Frontal sections, Functional dentition, Functional incisor, Functional teeth, Glandular band, Grant number, Grant sponsor, Homology, Hovorakova, Human embryos, Incisor, Lacteal, Lamina, Large diastemal buds, Last premolar, Lesot, Lower vertebrates, Luckett, Mammal, Mandible, Maxilla, Molar, Morphogenesis, Mouse, Mouse embryos, Mouse evolution, Mouse incisor, Mouse mandible, Mouse molars, Mutant, Mutant mice, Odontogenesis, Oral vestibule, Other mammals, Palatal shelves, Permanent dentition, Permanent molar, Peterka, Peterkova, Phylogenetic, Phylogenetic memory, Placodes, Premolar, Premolar theory, Primary dentition, Primordium, Putative, Reptile, Rodent, Ruch, Secondary dentition, Serial homology, Strassburg, Successional teeth, Supernumerary, Supernumerary cheek tooth, Supernumerary incisor, Supernumerary tooth, Tabby, Tooth, Tooth buds, Tooth gland lamina, Tooth glands, Tooth placodes, Tooth primordia, Tooth vestiges, Transiently, Upper diastema, Vertebrate, Vestibular, Vestibular epithelium, Vestibular lamina, Vestige, Vestigial, Vestigial teeth, Vestigial tooth primordia, Viriot, Vole, Vonesch, Vonesch ruch, Witter, Wolsan, Zool.
- Teeft :
- Academic press, Adloff, Anat, Ancestral structures, Anterior, Anterior part, Apoptosis, Atavism, Atavistic, Biol, Biol peterkova, Bolk, Cheek teeth, Craniofac genet, Czech republic, Deciduous, Deciduous dentition, Dental epithelium, Dental lamina, Dentition, Developmental relationship, Diastema, Diastema regions, Diastemal, Earliest teeth, Early development, Embryo, Enamel, Enamel organ, Epithelial, Epithelium, Evol, Evolutionary disappearance, Evolutionary implications, Extra teeth, Frontal sections, Functional dentition, Functional incisor, Functional teeth, Glandular band, Grant number, Grant sponsor, Homology, Hovorakova, Human embryos, Incisor, Lacteal, Lamina, Large diastemal buds, Last premolar, Lesot, Lower vertebrates, Luckett, Mammal, Mandible, Maxilla, Molar, Morphogenesis, Mouse, Mouse embryos, Mouse evolution, Mouse incisor, Mouse mandible, Mouse molars, Mutant, Mutant mice, Odontogenesis, Oral vestibule, Other mammals, Palatal shelves, Permanent dentition, Permanent molar, Peterka, Peterkova, Phylogenetic, Phylogenetic memory, Placodes, Premolar, Premolar theory, Primary dentition, Primordium, Putative, Reptile, Rodent, Ruch, Secondary dentition, Serial homology, Strassburg, Successional teeth, Supernumerary, Supernumerary cheek tooth, Supernumerary incisor, Supernumerary tooth, Tabby, Tooth, Tooth buds, Tooth gland lamina, Tooth glands, Tooth placodes, Tooth primordia, Tooth vestiges, Transiently, Upper diastema, Vertebrate, Vestibular, Vestibular epithelium, Vestibular lamina, Vestige, Vestigial, Vestigial teeth, Vestigial tooth primordia, Viriot, Vole, Vonesch, Vonesch ruch, Witter, Wolsan, Zool.
Abstract
Structures suppressed during evolution can be retraced due to atavisms and vestiges. Atavism is an exceptional emergence of an ancestral form in a living individual. In contrast, ancestral vestige regularly occurs in all members of an actual species. We surveyed data about the vestigial and atavistic teeth in mammals, updated them by recent findings in mouse and human embryos, and discussed their ontogenetic and evolutionary implications. In the mouse incisor and diastema regions, dental placodes are transiently distinct being morphologically similar to the early tooth primordia in reptiles. Two large vestigial buds emerge in front of the prospective first molar and presumably correspond to the premolars eliminated during mouse evolution. The incorporation of the posterior premolar vestige into the lower first molar illustrates the putative mechanism of evolutionary disappearance of the last premolar in the mice. In mutant mice, devious development of the ancestral tooth primordia might lead to their revivification and origin of atavistic supernumerary teeth. Similarity in the developmental schedule between three molars in mice and the respective third and fourth deciduous premolar and the first molar in humans raises a question about putative homology of these teeth. The complex patterning of the vestibular and dental epithelium in human embryos is reminiscent of the pattern of “Zahnreihen” in lower vertebrates. A hypothesis was presented about the developmental relationship between the structures at the external aspect of the dentition in mammals (oral vestibule, pre‐lacteal teeth, paramolar cusps/teeth), the tooth glands in reptiles, and the earliest teeth in lower vertebrates. J. Exp. Zool. (Mol. Dev. Evol.) 306B, 2006. © 2006 Wiley‐Liss, Inc.
Url:
DOI: 10.1002/jez.b.21093
Affiliations:
- France, République tchèque
- Alsace (région administrative), Grand Est
- Strasbourg
- Université Strasbourg 1
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ISTEX:A0F3794BD2BD81B10544169BA99039777AC0D315Le document en format XML
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Prague</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Journal of Experimental Zoology Part B: Molecular and Developmental Evolution</title><title level="j" type="sub">Vertebrate Dentitions: Genes, Development and Evolution</title><title level="j" type="alt">JOURNAL OF EXPERIMENTAL ZOOLOGY PART B: MOLECULAR AND DEVELOPMENTAL EVOLUTION</title><idno type="ISSN">1552-5007</idno><idno type="eISSN">1552-5015</idno><imprint><biblScope unit="vol">306B</biblScope><biblScope unit="issue">3</biblScope><biblScope unit="page" from="234">234</biblScope><biblScope unit="page" to="250">250</biblScope><biblScope unit="page-count">17</biblScope><publisher>Wiley Subscription Services, Inc., A Wiley Company</publisher><pubPlace>Hoboken</pubPlace><date type="published" when="2006-05-15">2006-05-15</date></imprint><idno type="ISSN">1552-5007</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">1552-5007</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Academic press</term><term>Adloff</term><term>Anat</term><term>Ancestral structures</term><term>Anterior</term><term>Anterior part</term><term>Apoptosis</term><term>Atavism</term><term>Atavistic</term><term>Biol</term><term>Biol peterkova</term><term>Bolk</term><term>Cheek teeth</term><term>Craniofac genet</term><term>Czech republic</term><term>Deciduous</term><term>Deciduous dentition</term><term>Dental epithelium</term><term>Dental lamina</term><term>Dentition</term><term>Developmental relationship</term><term>Diastema</term><term>Diastema regions</term><term>Diastemal</term><term>Earliest teeth</term><term>Early development</term><term>Embryo</term><term>Enamel</term><term>Enamel organ</term><term>Epithelial</term><term>Epithelium</term><term>Evol</term><term>Evolutionary disappearance</term><term>Evolutionary implications</term><term>Extra teeth</term><term>Frontal sections</term><term>Functional dentition</term><term>Functional incisor</term><term>Functional teeth</term><term>Glandular band</term><term>Grant number</term><term>Grant sponsor</term><term>Homology</term><term>Hovorakova</term><term>Human embryos</term><term>Incisor</term><term>Lacteal</term><term>Lamina</term><term>Large diastemal buds</term><term>Last premolar</term><term>Lesot</term><term>Lower vertebrates</term><term>Luckett</term><term>Mammal</term><term>Mandible</term><term>Maxilla</term><term>Molar</term><term>Morphogenesis</term><term>Mouse</term><term>Mouse embryos</term><term>Mouse evolution</term><term>Mouse incisor</term><term>Mouse mandible</term><term>Mouse molars</term><term>Mutant</term><term>Mutant mice</term><term>Odontogenesis</term><term>Oral vestibule</term><term>Other mammals</term><term>Palatal shelves</term><term>Permanent dentition</term><term>Permanent molar</term><term>Peterka</term><term>Peterkova</term><term>Phylogenetic</term><term>Phylogenetic memory</term><term>Placodes</term><term>Premolar</term><term>Premolar theory</term><term>Primary dentition</term><term>Primordium</term><term>Putative</term><term>Reptile</term><term>Rodent</term><term>Ruch</term><term>Secondary dentition</term><term>Serial homology</term><term>Strassburg</term><term>Successional teeth</term><term>Supernumerary</term><term>Supernumerary cheek tooth</term><term>Supernumerary incisor</term><term>Supernumerary tooth</term><term>Tabby</term><term>Tooth</term><term>Tooth buds</term><term>Tooth gland lamina</term><term>Tooth glands</term><term>Tooth placodes</term><term>Tooth primordia</term><term>Tooth vestiges</term><term>Transiently</term><term>Upper diastema</term><term>Vertebrate</term><term>Vestibular</term><term>Vestibular epithelium</term><term>Vestibular lamina</term><term>Vestige</term><term>Vestigial</term><term>Vestigial teeth</term><term>Vestigial tooth primordia</term><term>Viriot</term><term>Vole</term><term>Vonesch</term><term>Vonesch ruch</term><term>Witter</term><term>Wolsan</term><term>Zool</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Academic press</term><term>Adloff</term><term>Anat</term><term>Ancestral structures</term><term>Anterior</term><term>Anterior part</term><term>Apoptosis</term><term>Atavism</term><term>Atavistic</term><term>Biol</term><term>Biol peterkova</term><term>Bolk</term><term>Cheek teeth</term><term>Craniofac genet</term><term>Czech republic</term><term>Deciduous</term><term>Deciduous dentition</term><term>Dental epithelium</term><term>Dental lamina</term><term>Dentition</term><term>Developmental relationship</term><term>Diastema</term><term>Diastema regions</term><term>Diastemal</term><term>Earliest teeth</term><term>Early development</term><term>Embryo</term><term>Enamel</term><term>Enamel organ</term><term>Epithelial</term><term>Epithelium</term><term>Evol</term><term>Evolutionary disappearance</term><term>Evolutionary implications</term><term>Extra teeth</term><term>Frontal sections</term><term>Functional dentition</term><term>Functional incisor</term><term>Functional teeth</term><term>Glandular band</term><term>Grant number</term><term>Grant sponsor</term><term>Homology</term><term>Hovorakova</term><term>Human embryos</term><term>Incisor</term><term>Lacteal</term><term>Lamina</term><term>Large diastemal buds</term><term>Last premolar</term><term>Lesot</term><term>Lower vertebrates</term><term>Luckett</term><term>Mammal</term><term>Mandible</term><term>Maxilla</term><term>Molar</term><term>Morphogenesis</term><term>Mouse</term><term>Mouse embryos</term><term>Mouse evolution</term><term>Mouse incisor</term><term>Mouse mandible</term><term>Mouse molars</term><term>Mutant</term><term>Mutant mice</term><term>Odontogenesis</term><term>Oral vestibule</term><term>Other mammals</term><term>Palatal shelves</term><term>Permanent dentition</term><term>Permanent molar</term><term>Peterka</term><term>Peterkova</term><term>Phylogenetic</term><term>Phylogenetic memory</term><term>Placodes</term><term>Premolar</term><term>Premolar theory</term><term>Primary dentition</term><term>Primordium</term><term>Putative</term><term>Reptile</term><term>Rodent</term><term>Ruch</term><term>Secondary dentition</term><term>Serial homology</term><term>Strassburg</term><term>Successional teeth</term><term>Supernumerary</term><term>Supernumerary cheek tooth</term><term>Supernumerary incisor</term><term>Supernumerary tooth</term><term>Tabby</term><term>Tooth</term><term>Tooth buds</term><term>Tooth gland lamina</term><term>Tooth glands</term><term>Tooth placodes</term><term>Tooth primordia</term><term>Tooth vestiges</term><term>Transiently</term><term>Upper diastema</term><term>Vertebrate</term><term>Vestibular</term><term>Vestibular epithelium</term><term>Vestibular lamina</term><term>Vestige</term><term>Vestigial</term><term>Vestigial teeth</term><term>Vestigial tooth primordia</term><term>Viriot</term><term>Vole</term><term>Vonesch</term><term>Vonesch ruch</term><term>Witter</term><term>Wolsan</term><term>Zool</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Reptile</term><term>Rongeur</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Structures suppressed during evolution can be retraced due to atavisms and vestiges. Atavism is an exceptional emergence of an ancestral form in a living individual. In contrast, ancestral vestige regularly occurs in all members of an actual species. We surveyed data about the vestigial and atavistic teeth in mammals, updated them by recent findings in mouse and human embryos, and discussed their ontogenetic and evolutionary implications. In the mouse incisor and diastema regions, dental placodes are transiently distinct being morphologically similar to the early tooth primordia in reptiles. Two large vestigial buds emerge in front of the prospective first molar and presumably correspond to the premolars eliminated during mouse evolution. The incorporation of the posterior premolar vestige into the lower first molar illustrates the putative mechanism of evolutionary disappearance of the last premolar in the mice. In mutant mice, devious development of the ancestral tooth primordia might lead to their revivification and origin of atavistic supernumerary teeth. Similarity in the developmental schedule between three molars in mice and the respective third and fourth deciduous premolar and the first molar in humans raises a question about putative homology of these teeth. The complex patterning of the vestibular and dental epithelium in human embryos is reminiscent of the pattern of “Zahnreihen” in lower vertebrates. A hypothesis was presented about the developmental relationship between the structures at the external aspect of the dentition in mammals (oral vestibule, pre‐lacteal teeth, paramolar cusps/teeth), the tooth glands in reptiles, and the earliest teeth in lower vertebrates. J. Exp. Zool. (Mol. Dev. Evol.) 306B, 2006. © 2006 Wiley‐Liss, Inc.</div></front></TEI><affiliations><list><country><li>France</li><li>République tchèque</li></country><region><li>Alsace (région administrative)</li><li>Grand Est</li></region><settlement><li>Strasbourg</li></settlement><orgName><li>Université Strasbourg 1</li></orgName></list><tree><country name="République tchèque"><noRegion><name sortKey="Peterkova, Renata" sort="Peterkova, Renata" uniqKey="Peterkova R" first="Renata" last="Peterkova">Renata Peterkova</name></noRegion><name sortKey="Peterka, Miroslav" sort="Peterka, Miroslav" uniqKey="Peterka M" first="Miroslav" last="Peterka">Miroslav Peterka</name><name sortKey="Peterkova, Renata" sort="Peterkova, Renata" uniqKey="Peterkova R" first="Renata" last="Peterkova">Renata Peterkova</name><name sortKey="Peterkova, Renata" sort="Peterkova, Renata" uniqKey="Peterkova R" first="Renata" last="Peterkova">Renata Peterkova</name></country><country name="France"><region name="Grand Est"><name sortKey="Lesot, Herve" sort="Lesot, Herve" uniqKey="Lesot H" first="Hervé" last="Lesot">Hervé Lesot</name></region><name sortKey="Lesot, Herve" sort="Lesot, Herve" uniqKey="Lesot H" first="Hervé" last="Lesot">Hervé Lesot</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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