The Journal of experimental zoology . The Journal of Experimental Zoology, vol. ii. 446 Warren Harmon Leivis. Plate II. Fig. 7. Experiment MF2. Lens and part of optic cup removed shortly after the separation of thelens from the skin. Embryo killed 14 days after the operation. Figure from section through righteye region, shows the regular reformed optic cup with small cavity and pupil, and overlying corneawith its endothelium. X 80 diameters. Fig. 8. Experiment MG4. Right optic cup removed shortly after separation of lens from skin,but before corneal formation. Embryo killed 13 days after the o
The Journal of experimental zoology . The Journal of Experimental Zoology, vol. ii. 446 Warren Harmon Leivis. Plate II. Fig. 7. Experiment MF2. Lens and part of optic cup removed shortly after the separation of thelens from the skin. Embryo killed 14 days after the operation. Figure from section through righteye region, shows the regular reformed optic cup with small cavity and pupil, and overlying corneawith its endothelium. X 80 diameters. Fig. 8. Experiment MG4. Right optic cup removed shortly after separation of lens from skin,but before corneal formation. Embryo killed 13 days after the operation. Figure from section throughthe right eye region, shows a lens smaller than normal pressed close against the skin, where there isdistinct corneal clearing, but no endothelial formation. X 80 diameters. Fig. 9. Experiment Mai. Operation as above except that the lens was disturbed. Embryo killed13 days after the operation. Figure shows the small lens separated from the skin by are no corneal changes in this re
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