三氧化二铁对厌氧产甲烷反应器中可溶性微生物产物和胞外聚合物的产生有显著影响。

Ferroferric Oxide Significantly Affected Production of Soluble Microbial Products and Extracellular Polymeric Substances in Anaerobic Methanogenesis Reactors.

作者信息

Yin Qidong, He Kai, Echigo Shinya, Wu Guangxue, Zhan Xinmin, Hu Hongying

机构信息

Shenzhen Environmental Science and New Energy Technology Engineering Laboratory, Tsinghua-Berkeley Shenzhen Institute, Shenzhen, China.

Key Laboratory of Microorganism Application and Risk Control of Shenzhen, Graduate School at Shenzhen, Tsinghua University, Shenzhen, China.

出版信息

Front Microbiol. 2018 Oct 9;9:2376. doi: 10.3389/fmicb.2018.02376. eCollection 2018.

DOI:10.3389/fmicb.2018.02376

PMID:30356728

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6189335/

Abstract

Conductive materials facilitate direct interspecies electron transfer between acidogens and methanogens during methane (CH) production. Soluble microbial products (SMP) and extracellular polymeric substances (EPS) produced by microorganisms might act as the electron shuttle between microorganisms and conductive materials. In this study, effects of conductive ferroferric oxide (FeO) on anaerobic treatment process and the production of SMP and EPS were investigated. The maximum CH production rate was enhanced by 23.3% with the dosage of FeO. The concentrations of proteins, polysaccharides, and humic substances in tightly bound EPS (T-EPS) were promoted, suggesting that extracellular metabolisms were induced by conductive materials. Distribution of potential electron shuttles such as quinone-like substances, flavins, aromatic amino acids, and dipeptides in SMP and EPS phases were comprehensively investigated and these electron shuttles were significantly affected by FeO. Dipeptides consisting of phenylalanine were widely detected in T-EPS of the FeO reactor, indicating a potential different extracellular electron exchange pattern with the addition of conductive materials.

摘要

导电材料在甲烷（CH）产生过程中促进了产酸菌和产甲烷菌之间的直接种间电子转移。微生物产生的可溶性微生物产物（SMP）和细胞外聚合物（EPS）可能充当微生物与导电材料之间的电子穿梭体。在本研究中，研究了导电四氧化三铁（Fe₃O₄）对厌氧处理过程以及SMP和EPS产生的影响。添加Fe₃O₄后，最大CH产生速率提高了23.3%。紧密结合EPS（T-EPS）中蛋白质、多糖和腐殖质的浓度增加，表明导电材料诱导了细胞外代谢。全面研究了SMP和EPS相中潜在电子穿梭体如醌类物质、黄素、芳香族氨基酸和二肽的分布，这些电子穿梭体受到Fe₃O₄的显著影响。在Fe₃O₄反应器的T-EPS中广泛检测到由苯丙氨酸组成的二肽，表明添加导电材料后可能存在不同的细胞外电子交换模式。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ccf0/6189335/8cb0531a3b02/fmicb-09-02376-g001.jpg

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三氧化二铁对厌氧产甲烷反应器中可溶性微生物产物和胞外聚合物的产生有显著影响。

Ferroferric Oxide Significantly Affected Production of Soluble Microbial Products and Extracellular Polymeric Substances in Anaerobic Methanogenesis Reactors.

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