Institute of Biological, Environmental and Rural Sciences (IBERS), Aberystwyth University, Penglais Campus, Aberystwyth, SY23 3DA, UK.
School of Biological Sciences, Institute for Global Food Security, Queen's University of Belfast, 19 Chlorine Gardens, Belfast BT9 5DL, Northern Ireland, UK.
Microbiome. 2020 Feb 21;8(1):23. doi: 10.1186/s40168-020-00796-y.
The rumen contains a myriad of microbes whose primary role is to degrade and ferment dietary nutrients, which then provide the host with energy and nutrients. Rumen microbes commonly attach to ingested plant materials and form biofilms for effective plant degradation. Quorum sensing (QS) is a well-recognised form of bacterial communication in most biofilm communities, with homoserine lactone (AHL)-based QS commonly being used by Gram-negative bacteria alone and AI-2 Lux-based QS communication being used to communicate across Gram-negative and Gram-positive bacteria. However, bacterial cell to cell communication in the rumen is poorly understood. In this study, rumen bacterial genomes from the Hungate collection and Genbank were prospected for QS-related genes. To check that the discovered QS genes are actually expressed in the rumen, we investigated expression levels in rumen metatranscriptome datasets.
A total of 448 rumen bacterial genomes from the Hungate collection and Genbank, comprised of 311 Gram-positive, 136 Gram-negative and 1 Gram stain variable bacterium, were analysed. Abundance and distribution of AHL and AI-2 signalling genes showed that only one species (Citrobacter sp. NLAE-zl-C269) of a Gram-negative bacteria appeared to possess an AHL synthase gene, while the Lux-based genes (AI-2 QS) were identified in both Gram-positive and Gram-positive bacteria (191 genomes representing 38.2% of total genomes). Of these 192 genomes, 139 are from Gram-positive bactreetteria and 53 from Gram-negative bacteria. We also found that the genera Butyrivibrio, Prevotella, Ruminococcus and Pseudobutyrivibrio, which are well known as the most abundant bacterial genera in the rumen, possessed the most lux-based AI-2 QS genes. Gene expression levels within the metatranscriptome dataset showed that Prevotella, in particular, expressed high levels of LuxS synthase suggesting that this genus plays an important role in QS within the rumen.
This is the most comprehensive study of QS in the rumen microbiome to date. This study shows that AI-2-based QS is rife in the rumen. These results allow a greater understanding on plant-microbe interactions in the rumen.
瘤胃中含有大量微生物,其主要作用是降解和发酵膳食营养物质,然后为宿主提供能量和营养物质。瘤胃微生物通常附着在摄入的植物材料上,并形成生物膜,以有效降解植物。群体感应(QS)是大多数生物膜群落中细菌间通讯的一种公认形式,仅革兰氏阴性菌常用同型高丝氨酸内酯(AHL)- 基于 QS,而 AI-2 Lux 基 QS 通讯则用于革兰氏阴性菌和革兰氏阳性菌之间的通讯。然而,瘤胃中细菌间的细胞通讯知之甚少。在这项研究中,从亨盖特收集和 Genbank 中对瘤胃细菌基因组进行了 QS 相关基因的预测。为了检查发现的 QS 基因实际上是否在瘤胃中表达,我们调查了瘤胃宏转录组数据集的表达水平。
分析了来自亨盖特收集和 Genbank 的 448 个瘤胃细菌基因组,其中包括 311 个革兰氏阳性菌、136 个革兰氏阴性菌和 1 个革兰氏染色可变菌。AHL 和 AI-2 信号基因的丰度和分布表明,只有一种革兰氏阴性菌(柠檬酸杆菌 NLAE-zl-C269)似乎具有 AHL 合酶基因,而 Lux 基基因(AI-2 QS)则在革兰氏阳性菌和革兰氏阳性菌中被鉴定出来(代表总基因组的 38.2%的 191 个基因组)。在这 192 个基因组中,139 个来自革兰氏阳性细菌,53 个来自革兰氏阴性细菌。我们还发现,在瘤胃中已知最丰富的细菌属中,如丁酸弧菌、普雷沃氏菌、瘤胃球菌和假丁酸弧菌,拥有最多的基于 Lux 的 AI-2 QS 基因。宏转录组数据集内的基因表达水平表明,特别是普雷沃氏菌,表达高水平的 LuxS 合酶,这表明该属在瘤胃中 QS 中发挥重要作用。
这是迄今为止对瘤胃微生物组中 QS 最全面的研究。本研究表明,AI-2 基 QS 在瘤胃中广泛存在。这些结果使我们对瘤胃中植物 - 微生物相互作用有了更深入的了解。
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