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J Chem Ecol


Title:Chemistry of the Androconial Secretion of the Ithomiine Butterfly Oleria onega
Author(s):Stamm P; Mann F; McClure M; Elias M; Schulz S;
Address:"Institute of Organic Chemistry, Technische Universitat Braunschweig, Hagenring 30, 38106, Braunschweig, Germany. Institut de Systematique Evolution Biodiversite, Centre National de la Recherche Scientifique, MNHN, Sorbonne Universite, EPHE, Universite des Antilles, 45 rue Buffon, CP 50, 75005, Paris, France. Institute of Organic Chemistry, Technische Universitat Braunschweig, Hagenring 30, 38106, Braunschweig, Germany. stefan.schulz@tu-bs.de"
Journal Title:J Chem Ecol
Year:2019
Volume:20190907
Issue:9
Page Number:768 - 778
DOI: 10.1007/s10886-019-01100-5
ISSN/ISBN:1573-1561 (Electronic) 0098-0331 (Linking)
Abstract:"Ithomiine butterflies use pyrrolizidine alkaloids (PAs) as precursors for male pheromones, such as dihydropyrrolizines or lactones. In contrast to most other ithomiine genera, none of these compounds have ever been detected in Oleria species. The absence of these compounds is thought to be the result of limited access to PA-containing plants. Here we investigate the contents of the androconia of Oleria onega caught in the wild when PA containing plants were abundant. Although the PA lycopsamine was detected in the hairpencils, none of the other known PA-derived compounds were present. Instead, the unsubstituted core of the PA necine base, 1-methylene-1H-pyrrolizine (13), a very unstable compound, was found. The identity of this compound was proven by synthesis. Although its formation in nature appears very likely, 13 is also formed during GC analysis of PAs, making its natural occurrence uncertain. Nevertheless, its reactivity makes it a good candidate for a signaling compound, because its rapid degradation can be used to convey spatial and temporal information. In addition, several other compounds, likely used in intraspecific communication, were identified. All of these compounds are reported for the first time as natural products or from insects. These include 9-hydroxynonanoic acid (21) and (Z)-9-hydroxy-6-enoic acid (18), as well as their condensation products with 11-hexadecenoic- and octadecenoic acids. Furthermore, self-condensation products, such as (Z)-9-[(9-hydroxynon-6-enoyl)oxy]- and 9-[(9-hydroxynonanoyl)oxy]nonanoic acid and non-6-enoic acids (35, 36, 38, 40) were identified, together with the known compounds 2-heptadecanol (39) and 6,10,14-trimethylpentadecan-2-ol (37). In summary, O. onega appears to lack enzymes to produce dihydropyrrolizines. In stark contrast to other ithomiine genera, a unique blend of oxidized fatty acids seems to be used instead"
Keywords:"Animals Biological Products/chemistry Butterflies/chemistry/*metabolism Chromatography, Gas Fatty Acids/chemistry Lactones/chemistry Male Pheromones/*chemistry Pyrrolizidine Alkaloids/*chemistry Alkaloids Ester acids Hyposcada Male butterflies Oxidized fa;"
Notes:"MedlineStamm, Patrick Mann, Florian McClure, Melanie Elias, Marianne Schulz, Stefan eng Schu 984/12-1/Deutsche Forschungsgemeinschaft/ ANR-14-CE02-0011/Agence Nationale de la Recherche/ 2019/09/08 J Chem Ecol. 2019 Sep; 45(9):768-778. doi: 10.1007/s10886-019-01100-5. Epub 2019 Sep 7"

 
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
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