Young froglets of Rana breviceps do not possess the power to regenerate forelimbs after amputation through metacarpals. However, 5 min immersion of limb stumps in an oily solution of 150,000 IU vitamin A palmitate immediately after amputation, and once on each of the 3 subsequent days, induced definite though hypomorphic regeneration in 100% cases
The effects of two vitamin A analogues, retinol palmitate and retinoic acid, on pattern formation du...
The ability to regenerate is a fundamental property of living matter. In higher vertebrates, however...
Excess of vitamin A and its derivatives (retinoids) produces severe teratogenic effects on limb deve...
Young froglets of Rana breviceps do not possess the power to regenerate forelimbs after amputation t...
Young tadpoles of the toad,Bufo melanostictus (Schneider), were immersed in 15 IU/ml vitamin-A palmi...
Young tadpoles of the toad, Bufo andersoni, at a very early stage of hind limb development underwent...
Niazi and Saxena first observed that vitamin A has an inhibitory and modifying influence on tail reg...
Earlier studies showed that in young toad tadples immersed in 15 I.U. /ml vitamin A palmitate soluti...
In young Bufo melanosticus tadpoles at the spatula stage of limb development, the left hindlimb was ...
During our investigations on the effects of viamin A excess on limb regeneration in anuran tadpoles ...
Effects of variable treatments with vitamin A excess on ontogenesis and regeneration of hind limbs i...
In this study the effects of vitamin A on tadpoles of Polypedates maculatus with an amputated tail w...
Studies on the effects of exogenous vitamin A palminate on limb development and regeneration in anur...
The newt, Notophthalmus viridescens, and the Mexican axolotl, Amblystoma mexicanum, are examples of ...
Several types of limb deformities were induced by vitamin A in B. melanostictus. These ranged from t...
The effects of two vitamin A analogues, retinol palmitate and retinoic acid, on pattern formation du...
The ability to regenerate is a fundamental property of living matter. In higher vertebrates, however...
Excess of vitamin A and its derivatives (retinoids) produces severe teratogenic effects on limb deve...
Young froglets of Rana breviceps do not possess the power to regenerate forelimbs after amputation t...
Young tadpoles of the toad,Bufo melanostictus (Schneider), were immersed in 15 IU/ml vitamin-A palmi...
Young tadpoles of the toad, Bufo andersoni, at a very early stage of hind limb development underwent...
Niazi and Saxena first observed that vitamin A has an inhibitory and modifying influence on tail reg...
Earlier studies showed that in young toad tadples immersed in 15 I.U. /ml vitamin A palmitate soluti...
In young Bufo melanosticus tadpoles at the spatula stage of limb development, the left hindlimb was ...
During our investigations on the effects of viamin A excess on limb regeneration in anuran tadpoles ...
Effects of variable treatments with vitamin A excess on ontogenesis and regeneration of hind limbs i...
In this study the effects of vitamin A on tadpoles of Polypedates maculatus with an amputated tail w...
Studies on the effects of exogenous vitamin A palminate on limb development and regeneration in anur...
The newt, Notophthalmus viridescens, and the Mexican axolotl, Amblystoma mexicanum, are examples of ...
Several types of limb deformities were induced by vitamin A in B. melanostictus. These ranged from t...
The effects of two vitamin A analogues, retinol palmitate and retinoic acid, on pattern formation du...
The ability to regenerate is a fundamental property of living matter. In higher vertebrates, however...
Excess of vitamin A and its derivatives (retinoids) produces severe teratogenic effects on limb deve...
DOI
Add to ORKG