Tissue interactions and lens-forming competence in the outer cornea of larvalXenopus laevis

Lumbar ganglia innervating regenerating and normal hindlimbs were removed from larval Xenopus laevis at stage 56-57 (according to Nieuwkoop and Faber, '56) and implanted between the outer and inner corneas of larvae of the same species at stage 50. The control experiments consisted of implanting fra

Outer cornea of lensectomized Xenopus laeuis tadpoles at state 50 (according to Nieuwkoop, P.D. and Faber, J., ('56) Normal Table of Xenopus laeuis, Daudin, North-Holland, Amsterdam, pp. 1-243) was removed 3, 7 and 10 days after lensectomy and implanted between the outer and the inner cornea of larv

## Abstract Three different types of experiments were carried out to investigate the role of the lens in lens‐forming transformations of the outer cornea of __Xenopus laevis__ tadpoles (at stage 51, as defined by Nieuwkoop and Faber, '56): 1) simple lentectomy; 2) incision of outer and inner cornea

## Abstract The present research was carried out using __Xenopus laevis__ tadpoles at stage 50–51 to ascertain whether eye territories other than the outer cornea and the pericorneal epidermis have lens‐forming competence, particularly the iris and/or retina. Five experiments were performed: simple

In larval X. laevis the capacity to regenerate a lens under the influence of inductive factors present in the vitreous chamber is restricted to the outer cornea and pericorneal epidermis (Lentogenic Area, LA). However, in early embryos, the whole ectoderm is capable of responding to inductive factor

## Abstract The lens‐forming capacity of the pericorneal epidermis of __Xenopus laevis__ larvae at stage 51 has been investigated. The results obtained show that, whether or not the lens is present, the pericorneal epidermis can form a lens when it is in direct contact with the vitreous chamber of