Add to ORKGThe growth of normal and surgically produced compound dorsal and ventral retinae in Xenopus laevis has been studied autoradiographically following injections of [3H]thymidine at stages 50 and 58. The animals were sacrificed 3 weeks after metamorphosis. The histo-genetic pattern of the dorsal and ventral retinal halves was different at the three time points investigated, i.e. up to stage 50, between stages 50 and 58 and between stage 58 and 3 weeks after metamorphosis. Asymmetrical dorsal retinal growth occurred up to stage 50. From stage 50 onwards the retinal growth tendency reversed so that more ganglion cells were produced along the ventral than the dorsal ciliary margins. The overall preponderance of ventral retinal growth was 32-4 % in...
Optic fiber regeneration was studied by [3H]proline autoradiography and by mapping electrophysiologi...
The restoration of the retinotectal projections following metamorphic bilateral optic nerve sections...
Evidence for pattern regulation in the developing Xenopus visual system has previously been obtained...
The growth of normal and surgically produced compound dorsal and ventral retinae in Xenopus laevis h...
The growth of the retina has been studied in Xenopus by use of autoradiography with tritiated thymid...
Double-nasal and double-temporal compound eyes were constructed in Xenopus embryos at stages 32 and ...
The retinotectal projections from double-nasal (NN), double-temporal (TT) and double-ventral (VV) co...
The spatial pattern of cell production and retinal growth were studied in Xenopus between stage 60 a...
The contralateral diencephalic projections from compound eyes, made by the early embryonic fusion of...
Right compound eyes were formed in Xenopus embryos at tailbud stages by the fusion of two nasal (NN)...
Retinotectal map formation was studied during regeneration in young adult Xenopus. Right compound do...
Right compound eyes were formed in Xenopus embryos at stages 32-33 by the fusion of two nasal (NN), ...
Xenopus embryos at the 2-cell stage were cut into right and left halves, those at the 4-cell stage i...
The fine structure of the developing retinal cells in Xenopus laevis was studied from stages 26 to 3...
The left eye was removed from Stage 56 Xenopus tadpoles. Two to 9 months after metamorphosis, electr...
Optic fiber regeneration was studied by [3H]proline autoradiography and by mapping electrophysiologi...
The restoration of the retinotectal projections following metamorphic bilateral optic nerve sections...
Evidence for pattern regulation in the developing Xenopus visual system has previously been obtained...
The growth of normal and surgically produced compound dorsal and ventral retinae in Xenopus laevis h...
The growth of the retina has been studied in Xenopus by use of autoradiography with tritiated thymid...
Double-nasal and double-temporal compound eyes were constructed in Xenopus embryos at stages 32 and ...
The retinotectal projections from double-nasal (NN), double-temporal (TT) and double-ventral (VV) co...
The spatial pattern of cell production and retinal growth were studied in Xenopus between stage 60 a...
The contralateral diencephalic projections from compound eyes, made by the early embryonic fusion of...
Right compound eyes were formed in Xenopus embryos at tailbud stages by the fusion of two nasal (NN)...
Retinotectal map formation was studied during regeneration in young adult Xenopus. Right compound do...
Right compound eyes were formed in Xenopus embryos at stages 32-33 by the fusion of two nasal (NN), ...
Xenopus embryos at the 2-cell stage were cut into right and left halves, those at the 4-cell stage i...
The fine structure of the developing retinal cells in Xenopus laevis was studied from stages 26 to 3...
The left eye was removed from Stage 56 Xenopus tadpoles. Two to 9 months after metamorphosis, electr...
Optic fiber regeneration was studied by [3H]proline autoradiography and by mapping electrophysiologi...
The restoration of the retinotectal projections following metamorphic bilateral optic nerve sections...
Evidence for pattern regulation in the developing Xenopus visual system has previously been obtained...