一种产甲烷菌和一种放线菌在产甲烷电生物阴极嗜热菌群中的优势分析。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2021-03-01 eCollection Date: 2021-01-01 DOI:10.1155/2021/8865133
Hajime Kobayashi, Ryohei Toyoda, Hiroyuki Miyamoto, Yasuhito Nakasugi, Yuki Momoi, Kohei Nakamura, Qian Fu, Haruo Maeda, Takashi Goda, Kozo Sato
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引用次数: 4

摘要

甲烷电生成是指利用生物阴极将二氧化碳转化为甲烷的生物电化学合成。在嗜热微生物的电产甲烷系统中,宏基因组分析、定量实时聚合酶链反应和荧光原位杂交显示,生物阴极微生物群以产甲烷菌Methanothermobacter sp.菌株EMTCatA1和放线菌Coriobacteriaceae sp.菌株EMTCatB1为主。RNA测序用于比较每个菌株在产甲烷生物阴极上的转录组谱与开路和产甲烷抑制剂2-溴乙烷磺酸盐(BrES)上的转录组谱。对于产甲烷菌,氢营养化产甲烷相关基因的高表达方式与在h2限制条件下观察到的相似。对于放线菌,编码多血红素c型细胞色素和膜结合氧化还原酶的基因表达谱表明放线菌直接从电极上吸收电子。在这两个菌株中,各种应激相关基因在开路生物阴极和带BrES的生物阴极中普遍被诱导。这项研究提供了一种具有功能见解的产甲烷电生物阴极的优势物种的分子清单,因此代表了产甲烷电生物阴极的第一个多组学表征。
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Analysis of a Methanogen and an Actinobacterium Dominating the Thermophilic Microbial Community of an Electromethanogenic Biocathode.

Electromethanogenesis refers to the bioelectrochemical synthesis of methane from CO2 by biocathodes. In an electromethanogenic system using thermophilic microorganisms, metagenomic analysis along with quantitative real-time polymerase chain reaction and fluorescence in situ hybridization revealed that the biocathode microbiota was dominated by the methanogen Methanothermobacter sp. strain EMTCatA1 and the actinobacterium Coriobacteriaceae sp. strain EMTCatB1. RNA sequencing was used to compare the transcriptome profiles of each strain at the methane-producing biocathodes with those in an open circuit and with the methanogenesis inhibitor 2-bromoethanesulfonate (BrES). For the methanogen, genes related to hydrogenotrophic methanogenesis were highly expressed in a manner similar to those observed under H2-limited conditions. For the actinobacterium, the expression profiles of genes encoding multiheme c-type cytochromes and membrane-bound oxidoreductases suggested that the actinobacterium directly takes up electrons from the electrode. In both strains, various stress-related genes were commonly induced in the open-circuit biocathodes and biocathodes with BrES. This study provides a molecular inventory of the dominant species of an electromethanogenic biocathode with functional insights and therefore represents the first multiomics characterization of an electromethanogenic biocathode.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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