Add to ORKGElectrical stimulation of advanced tadpoles of Rana breviceps for 24 hr with 3 microA current after hindlimb amputation through shank and ankle slightly increased the number of perfect regenerates as compared to controls. When amputation was made through thigh in tadpoles of the same stage regeneration failed in all cases of the controls but 24 hr stimulation of these tadpoles after similar operation with 3 and 10 microA currents induced fair degree of regeneration in 9 and 40% cases, respectively
Xenopus laevis provides a valuable model to examine cellular and molecular mechanisms involved in th...
We tested the hypothesis that repeated muscle contractions induced by high voltage pulsed current (H...
AbstractNewts have the remarkable ability to regenerate lost appendages including their forelimbs, h...
Xenopus laevis tadpoles can regenerate tail, including spinal cord, after partial amputation, but lo...
AbstractXenopus laevis tadpoles can regenerate tail, including spinal cord, after partial amputation...
AbstractImmediately following amputation of the limb in salamanders, a strong, steady, and polarized...
Earlier studies showed that in young toad tadples immersed in 15 I.U. /ml vitamin A palmitate soluti...
289 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.Many experiments have previou...
The ability to regenerate is a fundamental property of living matter. In higher vertebrates, however...
We have employed transgenic methods combined with embryonic grafting to analyse the mechanisms of re...
It has been suggested that increasing levels of thyroid hormone with the onset and progress of metam...
The tadpoles of the frog Xenopus laevis show significant regeneration capacity and are useful models...
Self-repair characterizes all protoplasm.Every species of animal is capable, at least to some degree...
Limb loss is a devastating disability and while current treatments provide aesthetic and functional ...
The ability to regenerate lost tissue and organs varies among animal species, tissue and life cycle ...
Xenopus laevis provides a valuable model to examine cellular and molecular mechanisms involved in th...
We tested the hypothesis that repeated muscle contractions induced by high voltage pulsed current (H...
AbstractNewts have the remarkable ability to regenerate lost appendages including their forelimbs, h...
Xenopus laevis tadpoles can regenerate tail, including spinal cord, after partial amputation, but lo...
AbstractXenopus laevis tadpoles can regenerate tail, including spinal cord, after partial amputation...
AbstractImmediately following amputation of the limb in salamanders, a strong, steady, and polarized...
Earlier studies showed that in young toad tadples immersed in 15 I.U. /ml vitamin A palmitate soluti...
289 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.Many experiments have previou...
The ability to regenerate is a fundamental property of living matter. In higher vertebrates, however...
We have employed transgenic methods combined with embryonic grafting to analyse the mechanisms of re...
It has been suggested that increasing levels of thyroid hormone with the onset and progress of metam...
The tadpoles of the frog Xenopus laevis show significant regeneration capacity and are useful models...
Self-repair characterizes all protoplasm.Every species of animal is capable, at least to some degree...
Limb loss is a devastating disability and while current treatments provide aesthetic and functional ...
The ability to regenerate lost tissue and organs varies among animal species, tissue and life cycle ...
Xenopus laevis provides a valuable model to examine cellular and molecular mechanisms involved in th...
We tested the hypothesis that repeated muscle contractions induced by high voltage pulsed current (H...
AbstractNewts have the remarkable ability to regenerate lost appendages including their forelimbs, h...