Eyes are organs of vision that detect light. Different kinds of light-sensitive organs are found in a variety of organisms. The simplest eyes do nothing but detect whether the surroundings are light or dark, while more complex eyes can distinguish shapes and colors. -- Scientists believe they could grow eyeballs from stem cells in the lab, the process would be a boon to individuals with damage to cells within the eye, including retinal disorders. Image Credit: Wikipedia
The Eye(s) Have It! – A Genetic Switch
An enzyme that researchers have isolated leads to replacement therapy procedures for the eye and replacement parts for the eye.
In a new study released through the journal, Nature, a nitrogen-bearing molecule is the key to setting off a series of steps that result in eye formation in frogs.
The researchers think the same mechanism for triggering eye development can apply across a wide range of species, including human beings. It is interesting to note, mutations to the human equivalent of this enzyme lead to severe head and eye defects in humans.
When researchers injected a specific enzyme into frog embryos, the resulting tadpoles showed an extra eye (right image). The left image shows normal tadpole eye development. Image Credit: Masse, K., Bhamra, S., Eason, R., Dale, N. and Jones, E./Nature
This excerpted from LifeScience -
Scientists Envision Growing Human Eyeballs
By Jeanna Bryner, LiveScience Staff Writer -- posted: 24 October 2007
A genetic switch that gives tadpoles three eyes could allow stem-cell scientists to eventually grow human eyeballs or at least create replacement parts needed for repair jobs.
If scientists could grow eyeballs from stem cells in the lab, the process would be a boon to individuals with damage to cells within the eye, including retinal disorders.
"If you knew all the genes, and how to turn them on, that you needed to make an eye, you could start with very early embryonic cells and turn on all the right genes and grow an eye in a dish," said co-leader of the study Nicholas Dale, a neuroscientist at the University of Warwick in England.
"What I think is the more realistic possibility is to make precursor cells for different bits of the eye, which could then be transplanted and differentiate in-situ to replace damage to the retina or the lens or iris," Dale told LiveScience.
Scientists already had established the amphibian genes that initiate and direct eye development, which they refer to as Eye Field Transcription Factors (EFTFs). How these genes get activated in the right location at a certain time during development had been cloaked in mystery.
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Dale and University of Warwick developmental biologist Elizabeth Jones, along with colleagues, discovered the eye-switch while investigating how "ectoenzyme" molecules located on the external surface of cells contributed to the development of locomotion in the African clawed frog (Xenopus laevis). The biologists injected the molecules into frog embryos that comprised just eight cells.
One of the ectoenzymes triggered wonky eye development. When added to cells that would eventually form the head, the resulting tadpole sported three eyes instead of two. An even stranger sight resulted when they injected the ectoenzyme into other developing body cells. The molecule caused an additional "ectopic" eye, leading to tadpoles with a spare peeper growing out of the side, abdomen or even along the tail.
On a molecular level, the scientists say the enzyme converts a burst of the energy-carrying molecule ATP into ADP, which ultimately turns on the embryo's eye-making machinery.
The researchers think the same mechanism for triggering eye development applies across a wide range of species, including us. Mutations to the human equivalent of this enzyme lead to severe head and eye defects in humans.
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The Eye(s) Have It! – A Genetic Switch
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