Stable States of a Microbial Community Are Formed by Dynamic Metabolic Networks with Members Functioning to Achieve Both Robustness and Plasticity.

IF 2.1 4区环境科学与生态学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Microbes and Environments Pub Date : 2024-01-01 DOI:10.1264/jsme2.ME23091

Masahiro Honjo, Kenshi Suzuki, Junya Katai, Yosuke Tashiro, Tomo Aoyagi, Tomoyuki Hori, Takashi Okada, Yasuhisa Saito, Hiroyuki Futamata

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引用次数: 0

Abstract

A more detailed understanding of the mechanisms underlying the formation of microbial communities is essential for the efficient management of microbial ecosystems. The stable states of microbial communities are commonly perceived as static and, thus, have not been extensively examined. The present study investigated stabilizing mechanisms, minority functions, and the reliability of quantitative ana-lyses, emphasizing a metabolic network perspective. A bacterial community, formed by batch transferred cultures supplied with phenol as the sole carbon and energy source and paddy soil as the inoculum, was analyzed using a principal coordinate ana-lysis (PCoA), mathematical models, and quantitative parameters defined as growth activity, community-changing activity, community-forming activity, vulnerable force, and resilience force depending on changes in the abundance of operational taxonomic units (OTUs) using 16S rRNA gene amplicon sequences. PCoA showed succession states until the 3^rd transferred cultures and stable states from the 5^th to 10^th transferred cultures. Quantitative parameters indicated that the bacterial community was dynamic irrespective of the succession and stable states. Three activities fluctuated under stable states. Vulnerable and resilience forces were detected under the succession and stable states, respectively. Mathematical models indicated the construction of metabolic networks, suggesting the stabilizing mechanism of the community structure. Thirteen OTUs coexisted during stable states, and were recognized as core OTUs consisting of majorities, middle-class, and minorities. The abundance of the middle-class changed, whereas that of the others did not, which indicated that core OTUs maintained metabolic networks. Some extremely low abundance OTUs were consistently exchanged, suggesting a role for scavengers. These results indicate that stable states were formed by dynamic metabolic networks with members functioning to achieve robustness and plasticity.

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微生物群落的稳定状态是由动态代谢网络形成的，其成员的功能是实现稳健性和可塑性。

更详细地了解微生物群落的形成机制对于有效管理微生物生态系统至关重要。微生物群落的稳定状态通常被认为是静态的，因此尚未得到广泛研究。本研究从代谢网络的角度出发，对稳定机制、少数功能和定量分析的可靠性进行了研究。研究采用主坐标分析法（PCoA）、数学模型和定量参数进行分析，定量参数定义为生长活性、群落变化活性、群落形成活性、脆弱力和恢复力，这些参数取决于使用 16S rRNA 基因扩增序列的操作分类单元（OTU）丰度的变化。PCoA 在第 3 次转移培养物之前表现出演替状态，而在第 5 至第 10 次转移培养物期间则表现出稳定状态。定量参数表明，不论是演替还是稳定状态，细菌群落都是动态的。在稳定状态下，有三种活动在波动。在演替和稳定状态下，分别检测到了脆弱力和恢复力。数学模型显示了代谢网络的构建，表明了群落结构的稳定机制。13个OTU在稳定状态下共存，被认为是由多数、中产和少数组成的核心OTU。中间类群的丰度发生了变化，而其他类群的丰度没有变化，这表明核心 OTU 保持着代谢网络。一些丰度极低的 OTU 不断被交换，这表明清道夫在其中发挥了作用。这些结果表明，稳定状态是由动态代谢网络形成的，其成员的功能是实现稳健性和可塑性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Microbes and Environments 生物-生物工程与应用微生物

CiteScore

4.10

自引率

13.60%

发文量

审稿时长

3 months

期刊介绍： Microbial ecology in natural and engineered environments; Microbial degradation of xenobiotic compounds; Microbial processes in biogeochemical cycles; Microbial interactions and signaling with animals and plants; Interactions among microorganisms; Microorganisms related to public health; Phylogenetic and functional diversity of microbial communities; Genomics, metagenomics, and bioinformatics for microbiology; Application of microorganisms to agriculture, fishery, and industry; Molecular biology and biochemistry related to environmental microbiology; Methodology in general and environmental microbiology; Interdisciplinary research areas for microbial ecology (e.g., Astrobiology, and Origins of Life); Taxonomic description of novel microorganisms with ecological perspective; Physiology and metabolisms of microorganisms; Evolution of genes and microorganisms; Genome report of microorganisms with ecological perspective.