Microbial characterization of anode-respiring bacteria within biofilms developed from cultures previously enriched in dissimilatory metal-reducing bacteria

Pierra Melanie; Carmona-Martinez Alessandro A.; Trably Eric; Godon Jean-Jacques; Bernet Nicolas

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Microbial characterization of anode-respiring bacteria within biofilms developed from cultures previously enriched in dissimilatory metal-reducing bacteria

机译：从以前富含异化金属还原细菌的培养物中获得的生物膜中的阳极呼吸细菌的微生物特征

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This work evaluated the use of a culture enriched in DMRB as a strategy to enrich ARB on anodes. DMRB were enriched with Fe(III) as final electron acceptor and then transferred to a potentiostatically-controlled system with an anode as sole final electron acceptor. Three successive iron-enrichment cultures were carried out. The first step of enrichment revealed a successful selection of the high current-producing ARB Geoalkalibacter subterraneus. After few successive enrichment steps, the microbial community analysis in electroactive biofilms showed a significant divergence with an impact on the biofilm electroactivity. Enrichment of ARB in electroactive biofilms through the pre-selection of DMRB should therefore be carefully considered. (C) 2015 Elsevier Ltd. All rights reserved.

机译：这项工作评估了使用富含DMRB的培养物作为富集阳极上ARB的策略的用途。 DMRB富含Fe（III）作为最终电子受体，然后转移到以阳极作为唯一最终电子受体的恒电位控制系统中。进行了三个连续的富铁培养。富集的第一步表明成功选择了高电流产生的ARB Geoalkalibacter subterraneus。经过几次连续的富集步骤后，电活性生物膜中的微生物群落分析显示出明显的差异，对生物膜电活性产生了影响。因此，应仔细考虑通过预选DMRB来富集电活性生物膜中的ARB。（C）2015 Elsevier Ltd.保留所有权利。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2015年第null期|共5页
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Pierra Melanie; Carmona-Martinez Alessandro A.; Trably Eric; Godon Jean-Jacques; Bernet Nicolas;
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Microbial bioelectrochemical systems; Dissimilatory metal-reducing bacteria; Anode respiring bacteria; Geoalkalibacter subterraneus;

机译：微生物生物电化学系统;异化还原金属细菌;阳极呼吸细菌;地下嗜盐杆菌;
入库时间 2022-08-19 11:49:00

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1. Microbial characterization of anode-respiring bacteria within biofilms developed from cultures previously enriched in dissimilatory metal-reducing bacteria [J] . Pierra Melanie, Carmona-Martinez Alessandro A., Trably Eric, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2015,第Null期

机译：从以前富含异化金属还原细菌的培养物中获得的生物膜中的阳极呼吸细菌的微生物特征
2. Quantitative Analysis of Three Hydrogenotrophic Microbial Groups, Methanogenic Archaea, Sulfate-Reducing Bacteria, and Acetogenic Bacteria, within Plaque Biofilms Associated with Human Periodontal Disease [J] . M. E. Vianna, S. Holtgraewe, I. Seyfarth, Journal of bacteriology . 2008,第10期

机译：定量分析与人类牙周病相关的斑块生物膜中的三个氢营养型微生物群，产甲烷的古细菌，硫酸盐还原细菌和产乙酸细菌
3. Iron Cycle Tuned by Outer-Membrane Cytochromes of Dissimilatory Metal-Reducing Bacteria: Interfacial Dynamics and Mechanisms In Vitro [J] . Sheng-Song Yu, Jie-Jie Chen, Rui-Fen Cheng, Environmental Science & Technology . 2021,第16期

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4. Microbial Synthesis of Noble Metal Nanoparticles using Metal-reducing Bacteria [C] . Yasuhiro Konishi, Kaori Ohno, Norizoh Saitoh, Symposium on Colloidal Materials . 2006

机译：金属还原细菌的贵金属纳米粒子的微生物合成
5. Microbial Electrochemical Cells for Selective Enrichment and Characterization of Photosynthetic and Haloalkaliphilic Anode-Respiring Bacteria. [D] . Badalamenti, Jonathan P. 2013

机译：选择性富集和表征光合和嗜盐阳极呼吸细菌的微生物电化学细胞。
6. Quantitative Analysis of Three Hydrogenotrophic Microbial Groups Methanogenic Archaea Sulfate-Reducing Bacteria and Acetogenic Bacteria within Plaque Biofilms Associated with Human Periodontal Disease [O] . M. E. Vianna, S. Holtgraewe, I. Seyfarth, 2008

机译：定量分析与人类牙周病相关的斑块生物膜中的三个氢营养型微生物群产甲烷菌硫酸盐还原菌和产乙酸菌
7. Syntrophic interactions between anode-respiring bacteria and non-anode-respiring bacteria in microbial electrochemical cells [O] . Gao Yaohuan 2016

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8. Method for Localizing and Differentiating Bacteria within Biofilms Grown on Indium Tin Oxide: Spatial Distribution of Exoelectrogenic Bacteria within Intact ITO Biofilms via FISH. [R] . Arnett, C. M., Lange, J. D. 2017

机译：在氧化铟锡生长的生物膜内定位和区分细菌的方法：通过FIsH在完整的ITO生物膜中的外电生物细菌的空间分布。

Microbial characterization of anode-respiring bacteria within biofilms developed from cultures previously enriched in dissimilatory metal-reducing bacteria

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