Methanogenic partner influences cell aggregation and signalling of Syntrophobacterium fumaroxidans.

IF 3.9 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Applied Microbiology and Biotechnology Pub Date : 2024-12-01 Epub Date: 2024-01-13 DOI:10.1007/s00253-023-12955-w
Anna Doloman, Maaike S Besteman, Mark G Sanders, Diana Z Sousa
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引用次数: 0

Abstract

For several decades, the formation of microbial self-aggregates, known as granules, has been extensively documented in the context of anaerobic digestion. However, current understanding of the underlying microbial-associated mechanisms responsible for this phenomenon remains limited. This study examined morphological and biochemical changes associated with cell aggregation in model co-cultures of the syntrophic propionate oxidizing bacterium Syntrophobacterium fumaroxidans and hydrogenotrophic methanogens, Methanospirillum hungatei or Methanobacterium formicicum. Formerly, we observed that when syntrophs grow for long periods with methanogens, cultures tend to form aggregates visible to the eye. In this study, we maintained syntrophic co-cultures of S. fumaroxidans with either M. hungatei or M. formicicum for a year in a fed-batch growth mode to stimulate aggregation. Millimeter-scale aggregates were observed in both co-cultures within the first 5 months of cultivation. In addition, we detected quorum sensing molecules, specifically N-acyl homoserine lactones, in co-culture supernatants preceding the formation of macro-aggregates (with diameter of more than 20 μm). Comparative transcriptomics revealed higher expression of genes related to signal transduction, polysaccharide secretion and metal transporters in the late-aggregation state co-cultures, compared to the initial ones. This is the first study to report in detail both biochemical and physiological changes associated with the aggregate formation in syntrophic methanogenic co-cultures. KEYPOINTS: • Syntrophic co-cultures formed mm-scale aggregates within 5 months of fed-batch cultivation. • N-acyl homoserine lactones were detected during the formation of aggregates. • Aggregated co-cultures exhibited upregulated expression of adhesins- and polysaccharide-associated genes.

甲烷生成伙伴影响富马氧合成细菌的细胞聚集和信号传导。
几十年来,厌氧消化中微生物自聚集体(即颗粒)的形成已被广泛记录。然而,目前对造成这种现象的潜在微生物相关机制的了解仍然有限。本研究考察了在富马氧合成营养丙酸氧化菌和嗜氢甲烷菌(Methanospirillum hungatei 或 Methanobacterium formicicum)模型共培养物中与细胞聚集相关的形态和生化变化。以前,我们曾观察到,当合成营养菌与甲烷菌一起长期生长时,培养物往往会形成肉眼可见的聚集体。在这项研究中,我们将富马氧单胞菌与饥饿甲烷杆菌或甲烷杆菌以分批喂养的方式共同培养一年,以刺激聚集。在培养的头 5 个月中,两种共培养物中都观察到了毫米级的聚集体。此外,我们还在大聚集体(直径超过 20 μm)形成之前的共培养上清液中检测到了法定量感应分子,特别是 N-酰基高丝氨酸内酯。比较转录组学发现,与初期共培养物相比,晚期聚集状态共培养物中与信号转导、多糖分泌和金属转运有关的基因表达量更高。这是首次详细报道与合成甲烷菌共培养物中聚集体形成相关的生化和生理变化的研究。关键要点- 在分批进行喂养培养的 5 个月内,合成共培养物形成了毫米级的聚集体。- 在聚集体形成过程中检测到了 N-酰基高丝氨酸内酯。- 聚集的共培养物表现出粘合剂和多糖相关基因的表达上调。
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来源期刊
Applied Microbiology and Biotechnology
Applied Microbiology and Biotechnology 工程技术-生物工程与应用微生物
CiteScore
10.00
自引率
4.00%
发文量
535
审稿时长
2 months
期刊介绍: Applied Microbiology and Biotechnology focusses on prokaryotic or eukaryotic cells, relevant enzymes and proteins; applied genetics and molecular biotechnology; genomics and proteomics; applied microbial and cell physiology; environmental biotechnology; process and products and more. The journal welcomes full-length papers and mini-reviews of new and emerging products, processes and technologies.
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