Add to ORKGThis study investigated how age effects the regeneration process by viewing the spinal cord in sections of regenerated tails from axolotls of various ages and comparing them to sections of the original tail
The timing of morphogenetic events in the regenerating forelimb of the axolotl was investigated by r...
The axolotl, Ambystoma mexicanum, is a paedomorphic amphibian that possesses the unique ability to r...
Axolotls are unique in their ability to regenerate the spinal cord. However, the mechanisms that und...
The healing process in humans and other mammals results in the formation of scar tissue as well as f...
Unlike mammals, there are some animals that are capable of regenerating their spinal cord and still ...
Humans and other mammals cannot regrow lost limbs or damaged tissues the way some animals can. Speci...
Axolotls, as amphibians, have the ability to regenerate lost tissue. With this knowledge, we are go...
This study investigates how age affects the microglial cell response in axolotl salamander tails by ...
A FUTURE project on the species, Ambystoma mexicanum (Axolotls). These organisms are a model for reg...
The study of regeneration has inspired centuries of scientific research. Among the many model organi...
This Thesis examines the molecular changes that occur in the spinal cord of the South American oposs...
Axolotls are uniquely able to completely regenerate the spinal cord after amputation. The underlying...
Injury to the mammalian Central Nervous System (CNS), which consists of the brain and spinal cord, i...
Regenerative medicine offers hope for patients with diseases of the central and peripheral nervous s...
Setting the precedent for regenerative biology, the axolotl (Ambystoma mexicanum) faithfully reconst...
The timing of morphogenetic events in the regenerating forelimb of the axolotl was investigated by r...
The axolotl, Ambystoma mexicanum, is a paedomorphic amphibian that possesses the unique ability to r...
Axolotls are unique in their ability to regenerate the spinal cord. However, the mechanisms that und...
The healing process in humans and other mammals results in the formation of scar tissue as well as f...
Unlike mammals, there are some animals that are capable of regenerating their spinal cord and still ...
Humans and other mammals cannot regrow lost limbs or damaged tissues the way some animals can. Speci...
Axolotls, as amphibians, have the ability to regenerate lost tissue. With this knowledge, we are go...
This study investigates how age affects the microglial cell response in axolotl salamander tails by ...
A FUTURE project on the species, Ambystoma mexicanum (Axolotls). These organisms are a model for reg...
The study of regeneration has inspired centuries of scientific research. Among the many model organi...
This Thesis examines the molecular changes that occur in the spinal cord of the South American oposs...
Axolotls are uniquely able to completely regenerate the spinal cord after amputation. The underlying...
Injury to the mammalian Central Nervous System (CNS), which consists of the brain and spinal cord, i...
Regenerative medicine offers hope for patients with diseases of the central and peripheral nervous s...
Setting the precedent for regenerative biology, the axolotl (Ambystoma mexicanum) faithfully reconst...
The timing of morphogenetic events in the regenerating forelimb of the axolotl was investigated by r...
The axolotl, Ambystoma mexicanum, is a paedomorphic amphibian that possesses the unique ability to r...
Axolotls are unique in their ability to regenerate the spinal cord. However, the mechanisms that und...