Add to ORKGTo learn more about the denticle morphology and potential for replacement in the denticles of Squalus suckleyi, the Pacific spiny dogfish, a survey of denticle shapes using scanning electron microscopy (SEM) was conducted. This provides the knowledge of what is expected in denticle shape and serves as a baseline for future comparisons. Denticle shapes were seen to change over the regions of the body as well as over ontogeny. Denticle shapes were also linked to the function at the different regions of the body. Since there is no dental lamina in denticles, denticles were not seen to replace like oral teeth which went against the predicted expectations. The emergence pattern of the denticles in embryos also went against the prediction...
Teleost dentitions, often polyphyodont and lacking occlusion, provide the potential for tooth form t...
Background Organs that develop early in life, and are replaced by a larger version as the animal gro...
Key innovations permit clades to infiltrate ecological niches, modifying evolutionary constraints on...
Dentition is a key vertebrate innovation showing not only great morphological diversity, but also di...
Teeth continue to be in the focus in many paleontological and neontological disciplines, and their m...
The histology of developing toothplates of Neoceratodusforsteri from the time of first appearance of...
While the lungfish dentition is partially understood as far as morphology and light microscopic stru...
Teeth and tooth-like structures, together named odontodes, are repeated organs thought to share a co...
Vertebrate dentitions are extraordinarily diverse in both morphology and regenerative capacity. The ...
AbstractIn many non-mammalian vertebrates, adult dentitions result from cyclical rounds of tooth reg...
Abstract Background Teeth and tooth-like structures, together named odontodes, are repeated organs t...
Shark and ray (elasmobranch) dentitions are well known for their multiple generations of teeth, with...
Mechanisms of tooth replacement distribute incongruently among extant gnathostomes (jawed vertebrate...
The placoid scales, or denticles, of the external epidermis of elasmobranchs are well known as a har...
Shark and ray (elasmobranch) dentitions are well known for their multiple generations of teeth, with...
Teleost dentitions, often polyphyodont and lacking occlusion, provide the potential for tooth form t...
Background Organs that develop early in life, and are replaced by a larger version as the animal gro...
Key innovations permit clades to infiltrate ecological niches, modifying evolutionary constraints on...
Dentition is a key vertebrate innovation showing not only great morphological diversity, but also di...
Teeth continue to be in the focus in many paleontological and neontological disciplines, and their m...
The histology of developing toothplates of Neoceratodusforsteri from the time of first appearance of...
While the lungfish dentition is partially understood as far as morphology and light microscopic stru...
Teeth and tooth-like structures, together named odontodes, are repeated organs thought to share a co...
Vertebrate dentitions are extraordinarily diverse in both morphology and regenerative capacity. The ...
AbstractIn many non-mammalian vertebrates, adult dentitions result from cyclical rounds of tooth reg...
Abstract Background Teeth and tooth-like structures, together named odontodes, are repeated organs t...
Shark and ray (elasmobranch) dentitions are well known for their multiple generations of teeth, with...
Mechanisms of tooth replacement distribute incongruently among extant gnathostomes (jawed vertebrate...
The placoid scales, or denticles, of the external epidermis of elasmobranchs are well known as a har...
Shark and ray (elasmobranch) dentitions are well known for their multiple generations of teeth, with...
Teleost dentitions, often polyphyodont and lacking occlusion, provide the potential for tooth form t...
Background Organs that develop early in life, and are replaced by a larger version as the animal gro...
Key innovations permit clades to infiltrate ecological niches, modifying evolutionary constraints on...