Add to ORKGMost vertebrates are polyphyodont and replace their teeth continuously throughout life, similar to the cycling of hair (Smith and Hall, 1990). For example, in sharks, ~200 teeth can develop successively in one location, and one primary tooth may be replace
Continuous replacement of teeth throughout the lifespan of an individual is possibly basal for most ...
Ray-finned fishes (Actinopterygii) are the dominant vertebrate group today (+30 000 species, predomi...
Dentition is a key vertebrate innovation showing not only great morphological diversity, but also di...
Teeth are found in almost all vertebrates, and they therefore provide a general paradigm for the stu...
Tooth replacement rates of polyphyodont cartilaginous and bony fishes are hard to determine because ...
The dentition of vertebrates evolved from a condition with simple conical teeth, showing continuous ...
AbstractThe evolution of oral teeth is considered a major contributor to the overall success of jawe...
AbstractIn many non-mammalian vertebrates, adult dentitions result from cyclical rounds of tooth reg...
Mechanisms of tooth replacement distribute incongruently among extant gnathostomes (jawed vertebrate...
The mode of tooth development displayed in Chondrichthyans (sharks, rays and holocephalans), one of ...
Teleost dentitions, often polyphyodont and lacking occlusion, provide the potential for tooth form t...
Deep understanding of lifelong tooth replacement is hampered by the lack of polyphyodonty or oral de...
Deep understanding of tooth regeneration is hampered by the lack of lifelong replacing oral dentitio...
Polyphyodonts are organisms who can continuously replace their teeth throughout their lives, yet thi...
Science and medicine have progressed in unfathomable ways over the past century. Paradoxically, as o...
Continuous replacement of teeth throughout the lifespan of an individual is possibly basal for most ...
Ray-finned fishes (Actinopterygii) are the dominant vertebrate group today (+30 000 species, predomi...
Dentition is a key vertebrate innovation showing not only great morphological diversity, but also di...
Teeth are found in almost all vertebrates, and they therefore provide a general paradigm for the stu...
Tooth replacement rates of polyphyodont cartilaginous and bony fishes are hard to determine because ...
The dentition of vertebrates evolved from a condition with simple conical teeth, showing continuous ...
AbstractThe evolution of oral teeth is considered a major contributor to the overall success of jawe...
AbstractIn many non-mammalian vertebrates, adult dentitions result from cyclical rounds of tooth reg...
Mechanisms of tooth replacement distribute incongruently among extant gnathostomes (jawed vertebrate...
The mode of tooth development displayed in Chondrichthyans (sharks, rays and holocephalans), one of ...
Teleost dentitions, often polyphyodont and lacking occlusion, provide the potential for tooth form t...
Deep understanding of lifelong tooth replacement is hampered by the lack of polyphyodonty or oral de...
Deep understanding of tooth regeneration is hampered by the lack of lifelong replacing oral dentitio...
Polyphyodonts are organisms who can continuously replace their teeth throughout their lives, yet thi...
Science and medicine have progressed in unfathomable ways over the past century. Paradoxically, as o...
Continuous replacement of teeth throughout the lifespan of an individual is possibly basal for most ...
Ray-finned fishes (Actinopterygii) are the dominant vertebrate group today (+30 000 species, predomi...
Dentition is a key vertebrate innovation showing not only great morphological diversity, but also di...