在含有氢氧化铁或富马酸盐的培养基中生长的硫还原地理杆菌生物膜的生化特性和汞甲基化能力

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2023-07-29 DOI:10.1016/j.bioflm.2023.100144
Elena Yunda, Quynh Nhu Phan Le, Erik Björn, Madeleine Ramstedt
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引用次数: 0

摘要

地杆菌在富含铁的环境中很常见,可促进甲基汞(MeHg)的形成,甲基汞是一种具有高生物累积潜力的神经毒性化合物,由细菌和古菌的生理活性形成。硫还原地理杆菌可以利用各种电子受体进行生长,包括氢氧化铁或富马酸盐。然而,人们对这些化合物的生长如何影响生物膜中细菌细胞的生理特性,包括产生甲基汞的能力仍知之甚少。本研究的目的是确定在含有氢氧化铁或富马酸盐的培养基中生物膜培养过程中硫还原G.的生物化学组成的变化,并量化所形成的生物膜的汞(Hg)甲基化能力。利用衰减全反射模式下的傅立叶变换红外光谱(ATR-FTIR)、共振拉曼光谱和共聚焦激光扫描显微镜对生物膜进行了表征。在用100nM Hg孵育生物膜之后,通过质谱法定量MeHg的形成。ATR-FTIR实验结果表明,在富马酸盐存在的情况下,G.sulfureducens生物膜的形成伴随着能量储备聚合物糖原含量随时间的变化,这可以通过添加补充营养素(酵母提取物)来消除。相反,在氢氧化铁(III)上培养的生物膜没有积累糖原。ATR-FTIR结果进一步表明,氢氧化铁表面通过细菌的磷酸盐和羧酸盐基团与细胞结合,这些基团与铁形成复合物。此外,与富马酸盐条件相比,在氢氧化铁(III)上生长的生物膜具有更高比例的氧化细胞色素,产生的生物量减少了两到三倍。标准化为生物膜体积,在氢氧化铁和富马酸盐(有酵母提取物和没有酵母提取物)上生长的生物膜的测定中,甲基汞含量相似。这些结果表明,G.sulfureducens生物膜产生甲基汞与细胞中糖原含量和细胞色素氧化还原状态无关,值得进一步研究控制这一过程的机制。
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Biochemical characterization and mercury methylation capacity of Geobacter sulfurreducens biofilms grown in media containing iron hydroxide or fumarate

Geobacter species are common in iron-rich environments and can contribute to formation of methylmercury (MeHg), a neurotoxic compound with high bioaccumulation potential formed as a result of bacterial and archaeal physiological activity. Geobacter sulfurreducens can utilize various electron acceptors for growth including iron hydroxides or fumarate. However, it remains poorly understood how the growth on these compounds affects physiological properties of bacterial cells in biofilms, including the capacity to produce MeHg. The purpose of this study was to determine changes in the biochemical composition of G. sulfurreducens during biofilm cultivation in media containing iron hydroxide or fumarate, and to quantify mercury (Hg) methylation capacity of the formed biofilms. Biofilms were characterized by Fourier-transform infrared spectroscopy in the attenuated total reflection mode (ATR-FTIR), Resonance Raman spectroscopy and confocal laser scanning microscopy. MeHg formation was quantified by mass spectrometry after incubation of biofilms with 100 nM Hg. The results of ATR-FTIR experiments showed that in presence of fumarate, G. sulfurreducens biofilm formation was accompanied by variation in content of the energy-reserve polymer glycogen over time, which could be cancelled by the addition of supplementary nutrients (yeast extract). In contrast, biofilms cultivated on Fe(III) hydroxide did not accumulate glycogen. The ATR-FTIR results further suggested that Fe(III) hydroxide surfaces bind cells via phosphate and carboxylate groups of bacteria that form complexes with iron. Furthermore, biofilms grown on Fe(III) hydroxide had higher fraction of oxidized cytochromes and produced two to three times less biomass compared to conditions with fumarate. Normalized to biofilm volume, the content of MeHg was similar in assays with biofilms grown on Fe(III) hydroxide and on fumarate (with yeast extract and without). These results suggest that G. sulfurreducens biofilms produce MeHg irrespectively from glycogen content and cytochrome redox state in the cells, and warrant further investigation of the mechanisms controlling this process.

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来源期刊
Biofilm
Biofilm MICROBIOLOGY-
CiteScore
7.50
自引率
1.50%
发文量
30
审稿时长
57 days
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