The presence of nerves is an important factor in successful organ regeneration in
amphibians. The Mexican salamander, Ambystoma mexicanum, is able to regenerate limbs …

Urodele amphibians have a remarkable organ regeneration ability that is regulated by
neural inputs. The identification of these neural inputs has been a challenge. Recently …

Urodele amphibians have remarkable organ regeneration ability. They can regenerate not
only limbs but also a tail throughout their life. It has been demonstrated that the regeneration …

Amphibians have a very high capacity for regeneration among tetrapods. This superior
regeneration capability in amphibians can be observed in limbs, the tail, teeth, external gills …

Gill regeneration has not been well studied compared to regeneration of other appendages,
such as limb and tail regeneration. Here, we focused on axolotl gill regeneration and found …

Urodele amphibians have remarkable organ regeneration capability, and their limb
regeneration capability has been investigated as a representative phenomenon. In the early …

The ability of animals to repair tissue damage is widespread and impressive. Among tissues,
the repair and remodeling of bone occurs during growth and in response to injury; however …

Salamanders have a remarkable ability to regenerate complex body parts including the limb,
tail, and central nervous system. Although salamander regeneration has been studied for …

Background Microarray analysis and 454 cDNA sequencing were used to investigate a
centuries-old problem in regenerative biology: the basis of nerve-dependent limb …

Urodele amphibians can regenerate their limbs. During limb regeneration, dermal
fibroblasts are transformed into undifferentiated cells called blastema cells. These dermis …