Add to ORKGThe Asian snake Rhabdophis tigrinus possesses specialized defensive glands on its neck that contain steroidal toxins known as bufadienolides. We hypothesized that R. tigrinus does not synthesize these defensive steroids but instead sequesters the toxins from toads it consumes as prey. To test this hypothesis, we conducted chemical analyses on the glandular fluid from snakes collected in toad-free and toad-present localities. We also performed feeding experiments in which hatchling R. tigrinus were reared on controlled diets that either included or lacked toads. We demonstrate that the cardiotonic steroids in the nuchal glands of R. tigrinus are obtained from dietary toads. We further show that mothers containing high levels of bufadienolide...
Abstract Chemical defenses are widespread among ani-mals, and the compounds involved may be either s...
Many organisms synthesize secondary metabolites against natural enemies. However, to which environme...
Toads of the genus Atelopus are chemically defended by a unique combination of endogenously synthesi...
The Asian snake Rhabdophis tigrinus possesses specialized defensive glands on its neck that contain ...
Species that sequester toxins from prey for their own defense against predators may exhibit populati...
Rhabdophis tigrinus (Colubridae: Natricinae) is an oviparous, bufophagous (toad-eating) snake from e...
Rhabdophis tigrinus is an Asian natricine snake that possesses unusual defensive glands on the dorsa...
Of the various chemical defensive adaptations of vertebrates, nuchal glands are among the most unusu...
Rhabdophis tigrinus obtains defensive steroids (bufadienolides) from its diet and sequesters those c...
Several Asian natricine snakes possess special organs called nuchal glands. Previous studies showed ...
Rhabdophis tigrinus, an Asian natricine snake, possesses a series of integumentary glands located in...
Many animals sequester dietary defensive compounds and incorporate them into the offspring, which pr...
Many organisms use chemical defenses to reduce predation risk. Aposematic dendrobatid frogs sequeste...
Many plants and animals are defended by toxic compounds, and circumvention of those defenses often h...
Amphibians have cutaneous glands on their skin which produce a number of toxic compounds that serve ...
Abstract Chemical defenses are widespread among ani-mals, and the compounds involved may be either s...
Many organisms synthesize secondary metabolites against natural enemies. However, to which environme...
Toads of the genus Atelopus are chemically defended by a unique combination of endogenously synthesi...
The Asian snake Rhabdophis tigrinus possesses specialized defensive glands on its neck that contain ...
Species that sequester toxins from prey for their own defense against predators may exhibit populati...
Rhabdophis tigrinus (Colubridae: Natricinae) is an oviparous, bufophagous (toad-eating) snake from e...
Rhabdophis tigrinus is an Asian natricine snake that possesses unusual defensive glands on the dorsa...
Of the various chemical defensive adaptations of vertebrates, nuchal glands are among the most unusu...
Rhabdophis tigrinus obtains defensive steroids (bufadienolides) from its diet and sequesters those c...
Several Asian natricine snakes possess special organs called nuchal glands. Previous studies showed ...
Rhabdophis tigrinus, an Asian natricine snake, possesses a series of integumentary glands located in...
Many animals sequester dietary defensive compounds and incorporate them into the offspring, which pr...
Many organisms use chemical defenses to reduce predation risk. Aposematic dendrobatid frogs sequeste...
Many plants and animals are defended by toxic compounds, and circumvention of those defenses often h...
Amphibians have cutaneous glands on their skin which produce a number of toxic compounds that serve ...
Abstract Chemical defenses are widespread among ani-mals, and the compounds involved may be either s...
Many organisms synthesize secondary metabolites against natural enemies. However, to which environme...
Toads of the genus Atelopus are chemically defended by a unique combination of endogenously synthesi...