Abstract
AbstractTail regeneration in the gecko Sphaerodactylus argus shows that the formation of an axial elastic skeleton is functional for the new tail (Acta Zoologica, Stockolm). The present autoradiographic and immunohistochemical study describes tail regeneration and formation of the axial skeleton in early regenerating tails of the Jamaican red‐tailed gecko, Sphaerodactylus argus. Cell proliferation, studied by tritiated thymidine, shows intense labelling mainly in forming scales and differentiating cartilaginous, muscle and ependymal cells of the regenerating spinal cord, while the labelling is more diffuse in the apical blastema and proximal connective tissues. The slow apical proliferation maintains the tail front growing while in more proximal regions, cells initiate differentiation, losing thymidine‐labelling. Cell proliferation is maximal at the beginning of scales, muscles and cartilage formation. Scales are regenerated following migration into the dermis of tritiated thymidine‐labelled keratinocytes to form epithelial pegs that later split and give rise new scales. Differentiation of new corneous layers begins underneath the external corneous epidermis, starting with a shedding layer followed by a beta‐layer that accumulates corneous beta proteins. Intense proliferation of apical myoblasts gives rise to long myotubes and segmented muscles. The vertebral column is substituted with a cartilaginous tube made of turgid chondrocytes accumulating chondroitin sulphate proteoglycan and elastin. Therefore, the regenerated tail remains flexible and capable of curling to maintain efficient the climbing ability in these geckos.
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