Add to ORKGThe regenerative capabilities in the South African clawed frog, Xenopus laevis, is astounding. This image shows that frog tadpoles are a well-established model to study eye regeneration through investigating organ transplants. When eye tissue is removed and transplanted into the middle of the body, the eye tissue develops into an eye organ in less than one week. This data establishes a model system where eye tissues can form the correct eye organ outside of any prompting signals in the head and this can be used to study eye regeneration.https://digitalscholarship.unlv.edu/image_of_research/1042/thumbnail.jp
SummaryThe frog Xenopus can normally regenerate its limbs at early developmental stages but loses th...
AbstractIn urodele amphibians like the newt, complete retina and lens regeneration occurs throughout...
poster abstractAxolotls regenerate perfect copies of amputated limbs, whereas Xenopus froglet limbs ...
The image features the head of the tadpole of the African clawed frog, Xenopus laevis, from the Ai-S...
Regeneration is a complex process to replace or restore tissue after damage. However, animals vary i...
A longstanding challenge in regeneration biology is to understand the role of developmental mechanis...
Vertebrate eye development is complex and requires early interactions between neuroectoderm and surf...
Eye development in vertebrates of complex steps that include specific interactions of the neuroectod...
A key challenge in designing tissue repair strategies is knowing whether and how developmental mecha...
A longstanding challenge in regeneration biology is to understand the role of developmental mechanis...
A longstanding challenge in regeneration biology is to understand the role of developmental mechanis...
International audienceThe ability to regenerate damaged cells in the retina varies tremendously amon...
Eye tissues such as the lens and the retina possess remarkable regenerative abilities. In amphibians...
The role of the lens, inner cornea and eye cup in the control of of in vivo lens regeneration from t...
In Xenopus laevis, the capacity to regenerate a new lens from the outer cornea gradually decreases b...
SummaryThe frog Xenopus can normally regenerate its limbs at early developmental stages but loses th...
AbstractIn urodele amphibians like the newt, complete retina and lens regeneration occurs throughout...
poster abstractAxolotls regenerate perfect copies of amputated limbs, whereas Xenopus froglet limbs ...
The image features the head of the tadpole of the African clawed frog, Xenopus laevis, from the Ai-S...
Regeneration is a complex process to replace or restore tissue after damage. However, animals vary i...
A longstanding challenge in regeneration biology is to understand the role of developmental mechanis...
Vertebrate eye development is complex and requires early interactions between neuroectoderm and surf...
Eye development in vertebrates of complex steps that include specific interactions of the neuroectod...
A key challenge in designing tissue repair strategies is knowing whether and how developmental mecha...
A longstanding challenge in regeneration biology is to understand the role of developmental mechanis...
A longstanding challenge in regeneration biology is to understand the role of developmental mechanis...
International audienceThe ability to regenerate damaged cells in the retina varies tremendously amon...
Eye tissues such as the lens and the retina possess remarkable regenerative abilities. In amphibians...
The role of the lens, inner cornea and eye cup in the control of of in vivo lens regeneration from t...
In Xenopus laevis, the capacity to regenerate a new lens from the outer cornea gradually decreases b...
SummaryThe frog Xenopus can normally regenerate its limbs at early developmental stages but loses th...
AbstractIn urodele amphibians like the newt, complete retina and lens regeneration occurs throughout...
poster abstractAxolotls regenerate perfect copies of amputated limbs, whereas Xenopus froglet limbs ...