Piperidine alkaloids from fire ants are not sequestered by the green and black poison frog (Dendrobates auratus)

IF 1.6 3区环境科学与生态学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Chemoecology Pub Date : 2021-07-03 DOI:10.1007/s00049-021-00357-1

Ian Davison, Ralph A. Saporito, Lisa M. Schulte, Kyle Summers

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引用次数: 5

Abstract

Neotropical poison frogs possess alkaloid-based antipredator defenses which they sequester from a diet of arthropods such as oribatid mites and myrmicine ants. Alkaloid sequestration is still poorly understood and although several studies have examined its uptake, most experiments directly feed alkaloids to the frogs. Here, we examined the alkaloid uptake system in the poison frog species Dendrobates auratus by feeding it an alkaloid-containing prey item, the red imported fire ant Solenopsis invicta (Formicidae, Myrmicinae). Captive bred frogs were either fed live ants or fruit flies dusted with powdered ants for 4 months. Using GC–MS, we confirm that S. invicta contain previously described piperidine alkaloids known as solenopsins; however, none of these piperidine alkaloids was detected in the skin of D. auratus, suggesting the frogs are incapable of sequestering solenopsins from S. invicta. It is possible that D. auratus are unable to sequester fire ant piperidines due to their long hydrocarbon side chains, a feature that makes them structurally different than most known alkaloids in poison frogs.

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来自火蚁的胡椒碱生物碱不会被绿黑毒蛙(树蛙)所吸收。

新热带毒蛙拥有以生物碱为基础的抗捕食者防御能力，这些防御能力是它们从食虫螨和金蚁等节肢动物中隔离出来的。生物碱的吸收仍然知之甚少，尽管有几项研究检查了它的吸收，但大多数实验直接给青蛙喂食生物碱。在这里，我们通过喂食含有生物碱的红色进口火蚁Solenopsis invicta(蚁科，金蚁科)，研究了毒蛙dendroates auratus的生物碱摄取系统。在4个月的时间里，分别给圈养的青蛙喂食活蚂蚁或撒上蚂蚁粉的果蝇。使用GC-MS，我们证实了紫苏含有先前描述的胡椒碱生物碱，称为螺线菌素;然而，这些胡椒碱类生物碱在金蛙的皮肤中均未检测到，表明金蛙没有能力从金蛙中分离出螺线菌素。这可能是d.s auratus无法隔离火蚁的哌啶，因为它们的长碳氢化合物侧链，这一特征使它们在结构上不同于大多数已知的毒蛙生物碱。

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来源期刊

Chemoecology 环境科学-生化与分子生物学

CiteScore

4.20

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： It is the aim of Chemoecology to promote and stimulate basic science in the field of chemical ecology by publishing research papers that integrate evolution and/or ecology and chemistry in an attempt to increase our understanding of the biological significance of natural products. Its scopes cover the evolutionary biology, mechanisms and chemistry of biotic interactions and the evolution and synthesis of the underlying natural products. Manuscripts on the evolution and ecology of trophic relationships, intra- and interspecific communication, competition, and other kinds of chemical communication in all types of organismic interactions will be considered suitable for publication. Ecological studies of trophic interactions will be considered also if they are based on the information of the transmission of natural products (e.g. fatty acids) through the food-chain. Chemoecology further publishes papers that relate to the evolution and ecology of interactions mediated by non-volatile compounds (e.g. adhesive secretions). Mechanistic approaches may include the identification, biosynthesis and metabolism of substances that carry information and the elucidation of receptor- and transduction systems using physiological, biochemical and molecular techniques. Papers describing the structure and functional morphology of organs involved in chemical communication will also be considered.