海洋海绵 Crambe crambe 在整个生长过程中微生物组的变化。

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY
Marta Turon, Madeline Ford, Manuel Maldonado, Cèlia Sitjà, Ana Riesgo, Cristina Díez-Vives
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引用次数: 0

摘要

背景:多孔动物(海绵)是一种适应性很强的生物,能够在多种海洋和淡水环境中茁壮成长,部分原因在于它们与内部微生物群落的密切联系。这种海绵微生物群可以从周围环境中获得(横向获得),也可以在繁殖过程中通过各种机制从亲本中获得(纵向转移),通常会在海绵发育的各个阶段都存在共生微生物。微生物组的不同成分是如何以及在多大程度上转移到各发育阶段的,目前仍鲜为人知。在这里,我们研究了一种常见的、微生物丰度低的大西洋-地中海海绵(Crambe crambe)在其整个发育过程中的微生物组组成,包括成体、育雏幼体、卵磷脂营养型自由游动幼体、新定居的仍缺乏漏斗的幼体以及具有滤食功能漏斗的幼体:通过 16S rRNA 基因分析,我们在每个发育阶段都发现了不同的微生物组组成,微生物物种的组成、相对丰度和多样性也各不相同。然而,一种特殊的优势共生菌--蓝氏拟杆菌(Candidatus Beroebacter blanensis)--之前曾被描述为板蓝根的主要共生菌,却始终出现在所有阶段,这种无所不在的现象表明,亲代对子代的传播是垂直的。这种共生菌在各发育阶段的相对丰度有所波动,在卵磷脂营养阶段明显盛行。当新的定居者完成卵巢形成并获得滤食能力时,微生物组成发生了重大变化。此时,蓝氏拟杆菌显著减少。微生物多样性在滤食阶段达到顶峰,与卵磷脂营养阶段较低的多样性形成鲜明对比。此外,还发现了个体特定的传播模式,与非亲代同种幼虫相比,幼虫与各自亲代之间的微生物相似性更高:这些研究结果表明,优势共生体可能存在纵向传播,这可能会为板蓝根的非过滤发育阶段提供一些代谢优势。随着滤食阶段的开始,微生物组多样性增加,这可能反映出与环境微生物的相互作用增强,从而促进了横向传播。相反,在滤食之前的卵磷脂营养阶段,微生物组多样性较低,这表明共生体转移不完全或共生体可能被消化。这项研究提供了有关海绵本体发育过程中微生物组动态、各本体发育阶段获得共生体的策略以及幼虫发育过程中共生体潜在重要性的新信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microbiome changes through the ontogeny of the marine sponge Crambe crambe.

Background: Poriferans (sponges) are highly adaptable organisms that can thrive in diverse marine and freshwater environments due, in part, to their close associations with internal microbial communities. This sponge microbiome can be acquired from the surrounding environment (horizontal acquisition) or obtained from the parents during the reproductive process through a variety of mechanisms (vertical transfer), typically resulting in the presence of symbiotic microbes throughout all stages of sponge development. How and to what extent the different components of the microbiome are transferred to the developmental stages remain poorly understood. Here, we investigated the microbiome composition of a common, low-microbial-abundance, Atlantic-Mediterranean sponge, Crambe crambe, throughout its ontogeny, including adult individuals, brooded larvae, lecithotrophic free-swimming larvae, newly settled juveniles still lacking osculum, and juveniles with a functional osculum for filter feeding.

Results: Using 16S rRNA gene analysis, we detected distinct microbiome compositions in each ontogenetic stage, with variations in composition, relative abundance, and diversity of microbial species. However, a particular dominant symbiont, Candidatus Beroebacter blanensis, previously described as the main symbiont of C. crambe, consistently occurred throughout all stages, an omnipresence that suggests vertical transmission from parents to offspring. This symbiont fluctuated in relative abundance across developmental stages, with pronounced prevalence in lecithotrophic stages. A major shift in microbial composition occurred as new settlers completed osculum formation and acquired filter-feeding capacity. Candidatus Beroebacter blanensis decreased significatively at this point. Microbial diversity peaked in filter-feeding stages, contrasting with the lower diversity of lecithotrophic stages. Furthermore, individual specific transmission patterns were detected, with greater microbial similarity between larvae and their respective parents compared to non-parental conspecifics.

Conclusions: These findings suggest a putative vertical transmission of the dominant symbiont, which could provide some metabolic advantage to non-filtering developmental stages of C. crambe. The increase in microbiome diversity with the onset of filter-feeding stages likely reflects enhanced interaction with environmental microbes, facilitating horizontal transmission. Conversely, lower microbiome diversity in lecithotrophic stages, prior to filter feeding, suggests incomplete symbiont transfer or potential symbiont digestion. This research provides novel information on the dynamics of the microbiome through sponge ontogeny, on the strategies for symbiont acquisition at each ontogenetic stage, and on the potential importance of symbionts during larval development.

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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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