Changes in oxidative stress parameters and acid phosphatase activity in the pre-regressing and regressing tail of Indian jumping frog Polypedates maculatus (Anura, Rhacophoridae).

Activities of acid phosphatase (normal and Co2+-sensitive), superoxide dismutase and catalase and levels of lipid peroxidation, hydrogen peroxide were compared in the tails of tadpoles of stage III, XVIII, XXI and XXIII, respectively, of the Indian Jumping frog Polypedates maculatus. It is noticed that acid phosphatase activity (normal and Co2+-sensitive), and levels of lipid peroxidation and hydrogen peroxide increased during tail regression. There is also an increase in the level of superoxide dismutase and catalase in the regressing tail. A positive correlation between activity of acid phosphatase and lipid peroxidation, hydrogen peroxide and lipid peroxidation, acid phosphatase and hydrogen peroxide was noticed in the tail of tadpoles during different developmental stages, suggesting a critical interaction between reactive oxygen species and lysosomal activity during metamorphosis.

Specific limb abnormalities induced by hydrogen peroxide in tadpoles of Indian jumping frog, Polypedates maculatus.

Hydrogen peroxide (H2O2), one of the reactive oxygen intermediates (ROI) and a potential inducer of nuclear transcription factors induces consistent type of abnormal limb development (truncated with bent skeletal elements) in the tadpoles of Indian jumping frog, Polypedates maculatus.

Vitamin A mediated limb deformities in the common Indian toad, Bufo melanostictus (Schneider).

Several types of limb deformities were induced by vitamin A in B. melanostictus. These ranged from total suppression of all the limbs (ectromelia) to partial development of either the forelimb or the hindlimb or both (mesomelia) to reduction or absence of digits in either the forelimbs or hindlimbs or both and absence of long bones in either the forelimbs or hindlimbs or both (phocomelia) or duplication of the hindlimbs (polymelia). All the limb abnormalities were induced in the developing limbs of the tail amputated tadpoles of B. melanostictus following vitamin A treatment, which is all the more interesting. The results suggest that vitamin A induces the above mentioned abnormalities by either switching on or over-expressing or disrupting the limb-specific hox genes by yet unknown mechanisms.

Histological effects of vitamin A on the tail-amputated tadpoles of Polypedates maculatus with special reference to homeotic transformation.

Vitamin A is a very common teratogen causing severe embryonic malformations and changes in pattern formation in amphibians. The effects of vitamin A include the induction of duplication of skeletal structures in the anteroposterior, proximodistal and dorsoventral axes. The purpose of this investigation was to study the histological changes in the regenerating tail of the tadpoles of Polypedates maculatus by treatment with vitamin A. The histological changes brought about by vitamin A included the development of multilayered epidermis and thickened basement membrane, enlargement of the notochord and the nerve cord and the clumping of muscles. In addition, single, paired and supernumerary homeotic limbs were visible from day 20 onwards at ectopic sites. Initially, the limb consisted of only procartilage cells. Muscles and digits appeared from day 48 onwards. In contrast, such observations were not found in the control tails. The significance of such changes is discussed.

Calcium metabolism in olive ridley turtle eggs during embryonic development.

Analyses of calcium, magnesium, sulphur, potassium and phosphorus content of the eggshell, yolk-albumen and embryos of olive ridley turtle, Lepidochelys olivacea, have been carried out at various stages of embryonic development. Calcium is the major inorganic constituent in the egg (shell and yolk-albumen) and embryos. Other elements are present either in trace or in minute trace amounts. The egg contents (yolk and albumen) provide only 40% of the embryonic calcium requirement of the hatchling. The remaining 60% is provided by the eggshell. The eggshell also undergoes a similar reduction in its calcium content from laying to hatching. Elements other than calcium present in the yolk-albumen are sufficient for normal embryonic development. The movement of calcium from the eggshell to the embryo starts at about the 40th day of development at 29.5 degrees C. Birds, turtles and crocodiles use their eggshell as the secondary source of embryonic calcium requirement. This dependence on the eggshell varies in different groups which is highest in birds and lowest in crocodiles.

Ultrastructure and characteristics of eggshells of the olive ridley turtle (Lepidochelys olivacea) from Gahirmatha, India.

The structure of a chelonian eggshell is of prime importance for the developing embryo. It acts as a protective covering as well as mediator in the exchange of heat and water. The fresh eggshell of the olive ridley (Lepidochelys olivacea) turtle displays a variety of structural forms in their aragonite framework. Its netted substrate, loose texture and poorly organised crystallites favour the easy exchange of air and water during its development. The shell consists mostly of calcium in carbonate form and K, Mg, Fe, Ni, Pb, Zn, Co, Cr, Cu, Mn and Cd in traces. Ba and Sr in traces are also a feature of the thermal analysis graph. Phosphorous was not detected in the shell and its absence eliminates an earlier suggestion of it being a key factor in the development of aragonite crystals in the inorganic structure of marine turtle eggshells. Its combustion characteristics, which have not been previously reported, are recorded.

Limbs generated at site of tail amputation in marbled balloon frog after vitamin A treatment.

Niazi and Saxena first observed that vitamin A has an inhibitory and modifying influence on tail regeneration in Bufo andersonii tadpoles. A positive relationship was later found between the inhibiting influence of vitamin A and the developmental stage of the regenerating tail in the same species. There have been several subsequent reports on the effects of vitamin A and its derivatives on limb development and regeneration. Thus in regenerating amphibian limbs, application of retinoids produces pattern duplication in the proximodistal and anteroposterior axes of the limb, and local application of retinoic acid to the anterior side of developing chick limbs causes duplications in the anteroposterior axis of limb. Here we show that vitamin A can cause limb development when applied to amputated tail stumps of the tadpoles of the marbled balloon frog Uperodon systoma (Anura Microhylidae). This is the first report of homeotic transformation mediated through vitamin A in vertebrates.