Extensive Local Geographic Variation in Locoweed Toxin Produced by a Fungal Endophyte.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-01 Epub Date: 2024-09-05 DOI:10.1007/s10886-024-01529-3
Jeremy Davis, Matthew Scott, Daniel Cook, Dale Gardner, Geoffrey Morse, Michael Grillo
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Abstract

Legumes are notorious for coevolutionary arms races where chemical defenses are employed to ward off herbivores-particularly insect seed predators. Locoweeds are legumes containing the toxic alkaloid swainsonine which can poison livestock, but its role as a deterrent for insects is unknown. Swainsonine is produced by the fungal endophyte Alternaria section Undifilum, and the chemical composition of the toxin has been well characterized. Despite this knowledge, the ecological roles and evolutionary drivers of swainsonine toxins in locoweeds remain uncertain. Here, we quantify swainsonine concentrations and herbivory levels in the hyper-diverse locoweed Astragalus lentiginosus to evaluate its role as an evolved chemical defense. We found that A. lentiginosus shows considerable variation in swainsonine concentrations according to variety, in particular showing presence/absence variation at both population and local geographic scales. Surprisingly, herbivory levels from presumed generalist insects emerging from fruits showed no correlation with swainsonine concentrations. Conversely, seed and fruit herbivory levels linked to specialist Acanthoscelides seed beetles increased with concentrations of swainsonine-suggesting a possible coevolutionary arms race. Our results highlight that variation in endophyte-produced toxin systems may not follow classical expectations for geographic variation and ecological roles of plant chemicals. We discuss the implications of these results on plant-endophytic toxin systems and coevolutionary dynamics more broadly, highlighting a considerable need for more research in these systems.

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真菌内生菌产生的骆驼蓬毒素存在广泛的地方性差异
豆科植物在共同进化的军备竞赛中臭名昭著,它们利用化学防御来抵御食草动物,特别是昆虫的种子捕食者。骆驼蓬是一种豆科植物,含有有毒生物碱 Swainsonine,可以毒死牲畜,但它作为昆虫威慑物的作用尚不清楚。Swainsonine由真菌内生菌Alternaria section Undifilum产生,毒素的化学成分已被充分描述。尽管掌握了这些知识,但仍不能确定褐飞虱毒素在蝗虫中的生态作用和进化驱动力。在这里,我们量化了獐牙菜毒素的浓度和超多样化黄芪(Astragalus lentiginosus)的食草水平,以评估其作为一种进化的化学防御的作用。我们发现,獐牙菜的獐牙菜碱浓度因品种不同而有很大差异,特别是在种群和局部地理尺度上表现出存在/不存在的差异。令人惊讶的是,果实中出现的假定通性昆虫的食草量与獐牙菜碱浓度没有相关性。相反,与专科甲壳虫(Acanthoscelides seed beetles)有关的种子和果实食草量却随着獐牙菜碱浓度的增加而增加,这表明可能存在共同进化的军备竞赛。我们的研究结果突出表明,内生菌产生的毒素系统的变异可能并不符合对植物化学物质的地理变异和生态作用的传统预期。我们讨论了这些结果对植物内生毒素系统和更广泛的共同进化动态的影响,强调了对这些系统进行更多研究的巨大需求。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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