Traditional hypotheses posit that teeth evolved from dermal scales, through the expansion of odontogenetically competent ectoderm into the mouth of jawless vertebrates. The discovery of tooth-like scales inside thelodonts, an extinct group of jawless vertebrates, led to the alternative hypothesis that teeth evolved from endodermal derivatives and that there exists a fundamental developmental and phylogenetic distinction between oral/pharyngeal and external odontodes. We set out a test of this latter hypothesis, examining the development of scales of the thelodont Loganellia scotica using synchrotron radiation X-ray tomographic microscopy (SRXTM). We reveal that the internal scales are organized into fused patches and rows, a key distinction from the discrete dermal scales. The pattern of growth of oral scale patches is polarized, but not along a particular vector, whereas pharyngeal scale rows grew along a vector. Our test of the phylogenetic distribution of oral and pharyngeal scales and teeth in vertebrates indicates that odontodes are first expressed in an external position. Internal scales, where present, are always located near to external orifices; the sequential development of pharyngeal scales in Loganellia is peculiar among thelodonts and other stem gnathostomes. It represents a convergence on, rather than the establishment of, the developmental pattern underpinning tooth replacement in jawed vertebrates. The available evidence suggests that internal odontodes evolved through the expansion of odontogenic competence from external to internal epithelia.
© 2011 Wiley Periodicals, Inc.