Artículos de revistas
The Occurrence Of Aristolochic Acids In Neotropical Troidine Swallowtails (lepidoptera: Papilionidae)
Registro en:
Chemoecology. , v. 10, n. 2, p. 99 - 102, 2000.
9377409
2-s2.0-0002437959
Autor
Klitzke C.F.
Brown Jr. K.S.
Institución
Resumen
Analysis of individuals of 17 troidine species demonstrated the presence of aristolochic acids in these butterflies in varying concentrations. Although aristolochic acids do not occur in Aristolochia galeala leaves, they were present in Battus polydamas larvae reared on these leaves, and thus may be synthesized by the larvae from chemical precursors in the plant. 10 2 99 102 Brower, L.P., Chemical defense in butterflies (1984) The Biology of Butterflies, pp. 109-134. , Vane-Wright RI, Ackery PR (eds) London: Academic Press Brower, L.P., Brower, J.V.Z., Birds, butterflies, and plant poisons: A study in ecological chemistry (1964) Zoologica, 49, pp. 137-159 Brown Jr., K.S., Trigo, J.R., Francini, R.B., Morais, A.B.B., Motta, P.C., Aposematic insects on toxic host plants: Coevolutionary patterns at a chemically unstable interface (1991) Plant-Animal Interactions: Evolutionary Ecology in Tropical and Temperate Regions, pp. 375-402. , Price PW, Lewinsohn TM, Fernandes GW, Benson WW (eds) New York: John Wiley & Sons Brown Jr., K.S., Klitzke, C.F., Berlingeri, C., Santos, P.E.R., Neotropical swallowtails: Chemistry of food plant relationships, population ecology and biosystematics (1995) Swallowtail Butterflies: Their Ecology and Evolutionary Biology, pp. 405-445. , Scriber JM, Tsubaki Y, Lederhouse RC (eds) Gainesville: Scientific Publishers Chai, P., Field observations and feeding experiments on the responses of rufous-tailed jacamars (Galbula ruficauda) to freeflying butterflies in a tropical rain forest (1986) Biol J Linn Soc, 29, pp. 161-189 Chen, Z.L., Zhu, D.Y., Aristolochia alkaloids (1987) The Alkaloids: Chemistry and Pharmacology, 31, pp. 29-65. , Brossi A (ed) New York: Academic Press Cimino, G., Ghiselin, M.T., Chemical defense and evolutionary trends in biosynthetic capacity among dorid nudibranchs (Mollusca: Gastropoda: Opisthobranchia) (1999) Chemoecology, 9, pp. 187-207 Mix, D.B., Guinaudeau, H., Shamma, M., The aristolochic acids and aristolactams (1982) J Nat Prod, 45, pp. 657-666 Nishida, R., Sequestration of plant secondary compounds by butterflies and moths (1994) Chemoecology, 5-6, pp. 127-138 Nishida, R., Fukami, H., Ecological adaptation of an Aristolochiaceae-feeding swallowtail butterfly, Atrophaneura alcinous, to aristolochic acids (1989) J Chem Ecol, 15, pp. 2549-2563 Nishida, R., Fukami, H., Oviposition stimulants of an Aristolochiaceae-feeding swallowtail butterfly, Atrophaneura alcinous (1989) J Chem Ecol, 15, pp. 2565-2575 Nishida, R., Wintraub, J.D., Feeny, P., Fukami, H., Aristolochic acids from Thottea spp. (Aristolochiaceae) and the osmeterial secretions of Thottea-feeding troidine swallowtail larvae (Papilionidae) (1993) J Chem Ecol, 19, pp. 1587-1594 Nishida, R., Rothschild, M., Mummery, R., A cyanoglucoside, sarmentosin, from the magpie moth, Abraxas grossulariata, Geometridae: Lepidoptera (1994) Phytochemistry, 36, pp. 37-38 Priestap, H.A., Minor aristolochic acids from Aristolochia argentina and mass spectral analysis of aristolochic acids (1987) Phytochemistry, 26, pp. 519-529 Rothschild, M., Reichstein, T., Von Euw, J., Aplin, R., Harman, R.R.M., Toxic Lepidoptera (1970) Toxicon, 8, pp. 93-299 Rothschild, M., Von Euw, J., Reichstein, T., Aristolochic acids stored by Zerynthia polyxena (Lepidoptera) (1972) Insect Biochem, 2, pp. 334-343 Spencer, I.D., Tiwari, H.P., Biosynthesis of aristolochic acid (1966) J C S Chem Commun, pp. 55-56 Sharma, V., Jain, S., Bhakuni, D.S., Kapil, R.S., Biosynthesis of aristolochic acid (1982) J C S Perkin Trans, 1, pp. 1153-1155 Tyler, H.A., Brown Jr., K.S., Wilson, K.H., (1994) Swallowtail Butterflies of the Americas: a Study in Biological Dynamics, Ecological Diversity, Biosystematics and Conservation, , Gainesville: Scientific Publishers Urzúa, A., Priestap, H., Aristolochic acids from Battus polydamas (1985) Biochem Syst Ecol, 13, pp. 169-170 Urzúa, A., Rodriguez, R., Cassels, B.K., Fate of ingested aristolochic acids in Battus archidamas (1987) Biochem Syst Ecol, 15, pp. 687-689 Urzúa, A., Salgado, G., Cassels, B.K., Eckhardt, G., Aristolochic acids in Aristolochia chilensis and the Aristolochia-feeder Battus archidamas (1983) Coll Czech Chem Commun, 48, pp. 1513-1519 Von Euw, J., Reichstein, T., Rothschild, M., Aristolochic acid-I in the swallowtail butterfly Pachlioptera aristolochiae (Fabr.) (Papilionidae) (1968) Israel J Chem, 6, pp. 659-670 Wray, V., David, R.H., Nahrstedt, A., Biosynthesis of cyanogenic glycosides in butterflies and moths: Incorporation of valine and isoleucine into linamarin and lotaustralin by Zygaena and Heliconius species (Lepidoptera) (1983) Z Naturforsch, 38, pp. 583-588