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Full-Text Articles in Life Sciences
Dramatic Dietary Shift Maintains Sequestered Toxins In Chemically Defended Snakes, Tatsuya Yoshida, Rinako Ujiie, Alan H. Savitzky, Teppei Jono, Takato Inoue, Naoko Yoshinaga, Shunsuke Aburaya, Wataru Aoki, Hirohiko Takeuchi, Li Ding, Qin Chen, Chengquan Cao, Tein-Shun Tsai, Anslem De Silva, Dharshani Mahaulpatha, Et Al.
Dramatic Dietary Shift Maintains Sequestered Toxins In Chemically Defended Snakes, Tatsuya Yoshida, Rinako Ujiie, Alan H. Savitzky, Teppei Jono, Takato Inoue, Naoko Yoshinaga, Shunsuke Aburaya, Wataru Aoki, Hirohiko Takeuchi, Li Ding, Qin Chen, Chengquan Cao, Tein-Shun Tsai, Anslem De Silva, Dharshani Mahaulpatha, Et Al.
Biology Faculty Publications
Unlike other snakes, most species of Rhabdophis possess glands in their dorsal skin, sometimes limited to the neck, known as nucho-dorsal and nuchal glands, respectively. Those glands contain powerful cardiotonic steroids known as bufadienolides, which can be deployed as a defense against predators. Bufadienolides otherwise occur only in toads (Bufonidae) and some fireflies (Lampyrinae), which are known or believed to synthesize the toxins. The ancestral diet of Rhabdophis consists of anuran amphibians, and we have shown previously that the bufadienolide toxins of frog-eating species are sequestered from toads consumed as prey. However, one derived clade, the Rhabdophis nuchalis Group, has …