环境介导的垂直传播促进了长角甲虫及其共生体之间的非耦合系统发育关系。

IF 0.9 4区 生物学 Q3 ZOOLOGY Zoological Science Pub Date : 2024-08-01 DOI:10.2108/zs230034
Yasunori Sasakura, Nobuhisa Yuzawa, Junsuke Yamasako, Kazuki Mori, Takeo Horie, Masaru Nonaka
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引用次数: 0

摘要

鞘翅目长角甲虫(Cerambycidae)以物种特有的方式利用不同状态的木材(健康、新近折断、完全腐烂等)作为其幼虫的食物。一些长角蠹科的幼虫具有霉菌体,这是一种与中肠相关的附属器官,内藏真菌共生细胞。共生体被认为可以改善营养条件,但这一点尚未得到实验证明。为了推断这种共生关系的进化历史,我们研究了在日本采集的长角甲虫幼虫体内真菌胞器的特征。Lepturinae、Necydalinae和Spondylidinae是唯一拥有菌丝体的类群,这三个类群的菌丝体和相应的真菌细胞在类群之间表现出不同的特征。然而,共生酵母菌的系统发育关系与相应长角甲虫物种的系统发育关系并不一致,这表明它们并没有共同的物种。共生酵母菌从雌虫向后代的不完全垂直传播是一种可以适应宿主-共生体系统发育不一致的机制。Lepturinae中的一些物种第二阶段失去了菌丝体。这种损失与它们的食性选择有关,表明不同的取食习惯可能使物种丢弃这一器官。我们发现,如果给予足够的营养,包裹在菌丝体中的共生真菌对幼虫的生长来说是可有可无的,这表明共生真菌的作用可以通过幼虫摄取的食物来补偿。Aegosoma sinicum 是一种长角甲虫,被归入朊病毒亚科,不具有菌丝体。然而,该物种的幼虫肠道中含有有限的酵母菌种类,这表明长角甲虫与酵母菌之间的共生关系是在获得菌丝体之前出现的。
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Environment-Mediated Vertical Transmission Fostered Uncoupled Phylogenetic Relationships between Longicorn Beetles and Their Symbionts.

The Coleoptera Cerambycidae (longicorn beetles) use wood under different states (living healthy, freshly snapped, completely rot, etc.) in a species-specific manner for their larval diet. Larvae of some Cerambycidae groups have mycetomes, accessory organs associated with the midgut that harbor fungal symbiont cells. The symbionts are thought to improve nutrient conditions; however, this has yet to be shown experimentally. To deduce the evolutionary history of this symbiosis, we investigated the characteristics of the mycetomes in the larvae of longicorn beetles collected in Japan. Lepturinae, Necydalinae, and Spondylidinae are the only groups that possess mycetomes, and these three groups' mycetomes and corresponding fungal cells exhibit different characteristics between the groups. However, the phylogenetic relationship of symbiont yeasts does not coincide with that of the corresponding longicorn beetle species, suggesting they have not co-speciated. The imperfect vertical transmission of symbiont yeasts from female to offspring is a mechanism that could accommodate the host-symbiont phylogenetic incongruence. Some Lepturinae species secondarily lost mycetomes. The loss is associated with their diet choice, suggesting that different conditions between feeding habits could have allowed species to discard this organ. We found that symbiont fungi encapsulated in the mycetomes are dispensable for larval growth if sufficient nutrients are given, suggesting that the role of symbiotic fungi could be compensated by the food larvae take. Aegosoma sinicum is a longicorn beetle classified to the subfamily Prioninae, which does not possess mycetomes. However, this species contains a restricted selection of yeast species in the larval gut, suggesting that the symbiosis between longicorn beetles and yeasts emerged before acquiring the mycetomes.

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来源期刊
Zoological Science
Zoological Science 生物-动物学
CiteScore
1.70
自引率
11.10%
发文量
59
审稿时长
1 months
期刊介绍: Zoological Science is published by the Zoological Society of Japan and devoted to publication of original articles, reviews and editorials that cover the broad field of zoology. The journal was founded in 1984 as a result of the consolidation of Zoological Magazine (1888–1983) and Annotationes Zoologicae Japonenses (1897–1983), the former official journals of the Zoological Society of Japan. Each annual volume consists of six regular issues, one every two months.
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