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Functional Teeth (functional + tooth)

Distribution by Scientific Domains
Life Sciences80%

Selected Abstracts

The development of several organs and appendages is impaired in mice lacking Sp6

DEVELOPMENTAL DYNAMICS, Issue 4 2008
Valérie Hertveldt
Abstract SP6 belongs to the SP/KLF family of transcription factors, characterized by a DNA-binding domain composed of three zinc fingers of the C2H2 type. The Sp6 gene generates two different transcripts, termed Sp6 and epiprofin, which differ in the first exon and encode the same SP6 protein. These transcripts are mainly expressed in the skin, the teeth, and the limb buds of embryos and also in the adult lungs. To gain insight into the biological function of the SP6 protein, we knocked out the gene by eliminating the full coding region. The resulting Sp6 null mice are nude, lack functional teeth, and present limb and lung malformations. We also showed that the identified abnormalities are associated with apoptotic misregulations. In conclusion, this work indicates that Sp6 plays a critical role in the development of several epithelium-containing organs or appendages, possibly by regulating apoptosis. Developmental Dynamics 237:883,892, 2008. © 2008 Wiley-Liss, Inc. [source]

Mortality rates of community-residing adults with and without dentures

GERIATRICS & GERONTOLOGY INTERNATIONAL, Issue 3 2008
Kakuhiro Fukai
Aim: To prospectively study how dental status with and without dentures could become a predictor of overall mortality risk. Methods: Five thousand six hundred eighty-eight community residents over 40 years old in the Miyako Islands, Okinawa Prefecture, Japan, were followed up for 15 years from 1987,2002. Results: We found that female subjects with less than 10 functional teeth and without dentures showed a significantly higher mortality rate than those with dentures. There was no significant difference of mortality rates in male subjects. There were no significant differences of mortality rates between subjects with 10 or more functional teeth with and without dentures. Conclusion: The present study suggests that dentures are one of the factors associated with mortality rates especially in female subjects with less than 10 functional teeth. [source]

Morphological variations in a tooth family through ontogeny in Pleurodeles waltl (Lissamphibia, Caudata)

JOURNAL OF MORPHOLOGY, Issue 9 2006
Tiphaine Davit-Béal
Abstract Most nonmammalian species replace their teeth continuously (so-called polyphyodonty), which allows morphological and structural modifications to occur during ontogeny. We have chosen Pleurodeles waltl, a salamander easy to rear in the laboratory, as a model species to establish the morphological foundations necessary for future molecular approaches aiming to understand not only molecular processes involved in tooth development and replacement, but also their changes, notably during metamorphosis, that might usefully inform studies of modifications of tooth morphology during evolution. In order to determine when (in which developmental stage) and how (progressively or suddenly) tooth modifications take place during ontogeny, we concentrated our observations on a single tooth family, located at position I, closest to the symphysis on the left lower jaw. We monitored the development and replacement of the six first teeth in a large growth series ranging from 10-day-old embryos (tooth I1) to adult specimens (tooth I6), using light (LM), scanning (SEM), and transmission electron (TEM) microscopy. A timetable of the developmental and functional period is provided for the six teeth, and tooth development is compared in larvae and young adults. In P. waltl the first functional tooth is not replaced when the second generation tooth forms, in contrast to what occurs for the later generation teeth, leading to the presence of two functional teeth in a single position during the first 2 months of life. Larval tooth I1 shows dramatically different features when compared to adult tooth I6: a dividing zone has appeared between the dentin cone and the pedicel; the pulp cavity has enlarged, allowing accommodation of large blood vessels; the odontoblasts are well organized along the dentin surface; tubules have appeared in the dentin; and teeth have become bicuspidate. Most of these modifications take place progressively from one tooth generation to the next, but the change from monocuspid to bicuspid tooth occurs during the tooth I3 to tooth I4 transition at metamorphosis. J. Morphol. © 2006 Wiley-Liss, Inc. [source]

Dentition and tooth replacement pattern in Chalcides (Squamata; Scincidae)

JOURNAL OF MORPHOLOGY, Issue 2 2003
Sidney Delgado
Abstract This study was undertaken as a prerequisite to investigations on tooth differentiation in a squamate, the Canarian scincid Chalcides. Our main goal was to determine whether the pattern of tooth replacement, known to be regular in lizards, could be helpful to predict accurately any stage of tooth development. A growth series of 20 laboratory-reared specimens, aged from 0.5 month after birth to about 6 years, was used. The dentition (functional and replacement teeth) was studied from radiographs of jaw quadrants. The number of tooth positions, the tooth number in relation to age and to seasons, and the size of the replacement teeth were recorded. In Chalcides, a single row of pleurodont functional teeth lies at the labial margin of the dentary, premaxillary, and maxillary. Whatever the age of the specimens, 16 tooth positions were recorded, on average, in each quadrant, suggesting that positions are maintained throughout life. Replacement teeth were numerous whatever the age and season, while the number of functional teeth was subject to variation. Symmetry of tooth development was evaluated by comparing teeth two by two from the opposite side in the four jaw quadrants of several specimens. Although the relative size of some replacement teeth fitted perfectly, the symmetry criterion was not reliable to predict the developmental stage of the opposite tooth, whether the pair of teeth compared was left,right or upper,lower. The best fit was found when comparing the size of successive replacement teeth from the front to the back of the jaw. Every replacement tooth that is 40,80% of its definitive size is followed, in the next position on the arcade, by a tooth that is, on average, 20% less developed. Considering teeth in alternate positions (even and odd series), each replacement tooth was a little more developed than the previous, more anterior, one (0.5,20% when the teeth are from 10,40% of their final size). The latter pattern showed that tooth replacement occurred in alternate positions from back to front, forming more or less regular rows (i.e., "Zahnreihen"). In Chalcides, the developmental stage of a replacement tooth in a position p can be accurately predicted provided the developmental stage of the replacement tooth in position p-1 or, to a lesser degree, in position p-2 is known. This finding will be particularly helpful when starting our structural and ultrastructural studies of tooth differentiation in this lizard. J. Morphol. 256:146,159, 2003. © 2003 Wiley-Liss, Inc. [source]

Morphological variations in a tooth family through ontogeny in Pleurodeles waltl (Lissamphibia, Caudata)

JOURNAL OF MORPHOLOGY, Issue 9 2006
Tiphaine Davit-Béal
Abstract Most nonmammalian species replace their teeth continuously (so-called polyphyodonty), which allows morphological and structural modifications to occur during ontogeny. We have chosen Pleurodeles waltl, a salamander easy to rear in the laboratory, as a model species to establish the morphological foundations necessary for future molecular approaches aiming to understand not only molecular processes involved in tooth development and replacement, but also their changes, notably during metamorphosis, that might usefully inform studies of modifications of tooth morphology during evolution. In order to determine when (in which developmental stage) and how (progressively or suddenly) tooth modifications take place during ontogeny, we concentrated our observations on a single tooth family, located at position I, closest to the symphysis on the left lower jaw. We monitored the development and replacement of the six first teeth in a large growth series ranging from 10-day-old embryos (tooth I1) to adult specimens (tooth I6), using light (LM), scanning (SEM), and transmission electron (TEM) microscopy. A timetable of the developmental and functional period is provided for the six teeth, and tooth development is compared in larvae and young adults. In P. waltl the first functional tooth is not replaced when the second generation tooth forms, in contrast to what occurs for the later generation teeth, leading to the presence of two functional teeth in a single position during the first 2 months of life. Larval tooth I1 shows dramatically different features when compared to adult tooth I6: a dividing zone has appeared between the dentin cone and the pedicel; the pulp cavity has enlarged, allowing accommodation of large blood vessels; the odontoblasts are well organized along the dentin surface; tubules have appeared in the dentin; and teeth have become bicuspidate. Most of these modifications take place progressively from one tooth generation to the next, but the change from monocuspid to bicuspid tooth occurs during the tooth I3 to tooth I4 transition at metamorphosis. J. Morphol. © 2006 Wiley-Liss, Inc. [source]