在电信号中断的情况下,c-di-GMP 和 AHL 信号触发的化学通讯可恢复硫化琥珀芽孢杆菌生物膜的形成。

IF 5.1 Q1 ECOLOGY ISME communications Pub Date : 2024-07-20 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae096
Qian Zhu, Yanyan Zheng, Xingwang Zhou, Dunjia Wang, Mengjiao Yuan, Dingkang Qian, Sha Liang, Wenbo Yu, Jiakuan Yang, Huijie Hou, Jingping Hu
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引用次数: 0

摘要

在生物电化学系统中同时进行废水处理和能量回收的电生生物膜备受关注,它受化学通讯和钾通道介导的电信号调节。然而,这两种通讯途径如何相互影响尚未得到深入研究。本研究首先通过转录组学和代谢组学的综合分析,探讨了化学通讯(包括细胞内双(3'-5')环二聚体单磷酸鸟苷(c-di-GMP)和细胞外 N-酰基高丝氨酸内酯(AHL)介导的法定量感应)在电生生物膜形成中的作用。电信号中断抑制了硫发生地芽孢杆菌生物膜的形成和电活性,这主要归因于生物膜活力和胞外蛋白/多糖比率的降低。通过转录组分析,编码 c-di-GMP 和 AHL 合成的基因表达水平上调;通过代谢组分析,N-丁酰基-L-高丝氨酸内酯的分泌量增加,证实了在电信号中断的情况下化学通讯的增强,从而表明了不同信号通路之间的补偿机制。此外,蛋白质-蛋白质相互作用网络显示了不同信号通路的融合,其中 c-di-GMP 相关基因是核心桥梁。这项研究强调了不同信号通路之间的相互作用,特别是 c-di-GMP 信号通路对不利外部压力的恢复能力,从而为在实际应用中促进不利条件下电生生物膜的形成奠定了基础。
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c-di-GMP and AHL signals-triggered chemical communication under electrical signaling disruption restores Geobacter sulfurreducens biofilm formation.

Electrogenic biofilms, which have attracted considerable attention in simultaneous wastewater treatment and energy recovery in bioelectrochemical systems, are regulated by chemical communication and potassium channel-mediated electrical signaling. However, how these two communication pathways interact with each other has not been thoroughly investigated. This study first explored the roles of chemical communication, including intracellular bis-(3'-5')-cyclic dimeric guanosine monophosphate (c-di-GMP) and extracellular N-acyl-homoserine lactone (AHL)-mediated quorum sensing, in electrogenic biofilm formation through an integrated analysis of transcriptomics and metabolomics. Electrical signaling disruption inhibited the formation and electroactivity of Geobacter sulfurreducens biofilm, which was mainly ascribed to the reduction in biofilm viability and extracellular protein/polysaccharide ratio. The upregulation of expression levels of genes encoding c-di-GMP and AHL synthesis by transcriptomic analysis, and the increased secretion of N-butanoyl-L-homoserine lactone by metabolomic analysis confirmed the enhancement of chemical communication under electrical signaling disruption, thus indicating a compensatory mechanism among different signaling pathways. Furthermore, protein-protein interaction network showed the convergence of different signaling pathways, with c-di-GMP-related genes acting as central bridges. This study highlights the interaction of different signaling pathways, especially the resilience of c-di-GMP signaling to adverse external stresses, thereby laying the foundation for facilitating electrogenic biofilm formation under adverse conditions in practical applications.

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