0000000000651576

AUTHOR

Moya Meredith Smith

showing 3 related works from this author

Ontogenetic development of the holocephalan dentition: Morphological transitions of dentine in the absence of teeth.

2021

Among the cartilaginous fishes (Chondrichthyes), the Holocephali are unique in that teeth are absent both in ontogeny and adult regenerative growth. Instead, the holocephalan dentition of ever-growing nonshedding dental plates is composed of dentine, trabecular in arrangement, forming spaces into which a novel hypermineralized dentine (whitlockin) is deposited. These tissue features form a variety of specific morphologies as the defining characters of dental plates in the three families of extant holocephalans. We demonstrate how this morphology changes through ontogenetic development with continuity between morphologies, through successive growth stages of the dentition represented by the …

Cellular activityHistologyMorphology (linguistics)Ontogenystomatognathic systemAnimalsDentitionMolecular BiologyEcology Evolution Behavior and SystematicsbiologyDentitionChemistryFishesCell BiologyAnatomybiology.organism_classificationChondrichthyesHolocephaliOdontogenicstomatognathic diseasesOdontoblastDentinOdontogenesisAnatomyToothDevelopmental BiologyJournal of anatomyREFERENCES
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Holocephalan (Chondrichthyes) dental plates with hypermineralized dentine as a substitute for missing teeth through developmental plasticity.

2020

All extant holocephalans (Chimaeroidei) have lost the ability to make individual teeth, as tooth germs are neither part of the embryonic development of the dental plates, nor of their continuous growth. Instead, a hypermineralized dentine with a unique mineral, whitlockin, is specifically distributed within a dentine framework into structures that give the dental plates their distinctive, species-specific morphology. Control of the regulation of this distribution must be cellular, with a dental epithelium initiating the first outer dentine, and via contact with ectomesenchymal tissue as the only embryonic cell type that can make dentine.\ud Chimaeroids have three pairs of dental plates with…

0106 biological sciencesAquatic Science010603 evolutionary biology01 natural sciencesdentitiondentinestomatognathic systemSpecies SpecificityChimaeraHarriottacpsAnimalsdevelopmentEcology Evolution Behavior and SystematicsbiologyDentitionHydrolaguswhitlockin010604 marine biology & hydrobiologyAnatomyChimaeroideibiology.organism_classificationChondrichthyesHolocephaliHolocephalistomatognathic diseasesOdontoblastDentinSharksDevelopmental plasticityToothJournal of fish biologyREFERENCES
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Evolution of the Dentition in Holocephalans (Chondrichthyes) Through Tissue Disparity

2020

Abstract The Holocephali is a major group of chondrichthyan fishes, the sister taxon to the sharks and rays (Elasmobranchii). However, the dentition of extant holocephalans is very different from that of the elasmobranchs, lacking individual tooth renewal, but comprising dental plates made entirely of self-renewing dentine. This renewal of all tissues occurs at the postero-lingual plate surface, as a function of their statodont condition. The fossil record of the holocephalans illuminates multiple different trends in the dentition, including shark-like teeth through to those with dentitions completely lacking individual teeth. Different taxa illustrate developmental retention of teeth but w…

0106 biological sciences0301 basic medicinePlant Science010603 evolutionary biology01 natural sciences03 medical and health sciencesCalcification Physiologicstomatognathic systemExtant taxonElasmobranchiiAnimalsDentitionFossil RecordbiologyDentitionFishesBiological evolutionAnatomybiology.organism_classificationBiological EvolutionChondrichthyesHolocephalistomatognathic diseases030104 developmental biologyAnimal Science and ZoologyWear resistantToothIntegrative and Comparative Biology
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