Another study demonstrated that optic-cup-like structures can be generated ... This time frame parallels that of retinal development in the human embryo and could make certain types of ...

Unlike in the embryo, no lens or cornea formed next to the optic cup. This finding gave a clear answer to the long-standing question of whether or not this protoretina requires external forces ...

The eye is an outgrowth of the brain and forms in the embryo from a sac-like vesicle that quickly transforms into an optic cup with an interior retina surrounded on the outside by pigment epithelium.

The structure, called an optic cup, forms the back of the eye in a growing embryo. But this one was in a dish, and videos accompanying the paper showed the structure slowly sprouting and blossoming.

The structure, called an optic cup, forms the back of the eye in a growing embryo. But this one was in a dish, and videos accompanying the paper showed the structure slowly sprouting and blossoming.

The optic cups arose after about thirty days or more, maturing within fifty days. This time course is thought to be similar to the progress of retinal development in a human embryo. The scientists ...

The mechanistic basis for the formation of the optic cup, with its complex two-walled structure, has been a longstanding question in embryology. The retina, with its origins in the lateral ...

Successfully formed optic cups are typically 200–400 μm in diameter (the optic cup in the E10.5 mouse is ∼ 300 μm). The distal portion of the vesicle invaginates and expresses NR markers ...

Another study demonstrated that optic-cup-like structures can be generated ... This time frame parallels that of retinal development in the human embryo and could make certain types of ...

Another study demonstrated that optic-cup-like structures can be generated ... This timeframe parallels that of retinal development in the human embryo and could make certain types of ...