Interspecies electron transfer as one of key drivers of methanogenic consortia succession within quorum sensing regulation. [PDF]
ISME CommunZhao S +7 more
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The Role of Biofilm-Derived Compounds in Microbial and Protozoan Interactions. [PDF]
MicroorganismsMahapatra S, Ankri S.
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Designing synthetic microbial communities for enhanced anaerobic waste treatment. [PDF]
Appl Environ MicrobiolJourdain L, Gu W.
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Fe(III)-dependent Nrf activity determines nitrate reduction partitioning in nitrate-reducing communities. [PDF]
mBioZhan J +8 more
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Microbial electrosynthesis meets synthetic biology: Bioproduction from waste feedstocks. [PDF]
Biotechnol NotesZhang D, Foo JL, Chang MW.
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Methanobacterium Capable of Direct Interspecies Electron Transfer. [PDF]
Environmental Science & Technology, 2020 Direct interspecies electron transfer (DIET) from bacteria to methanogens is a revolutionary concept for syntrophic metabolism in methanogenic soils/sediments and anaerobic digestion. Previous studies have indicated that the potential for DIET is limited
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Quorum Sensing Enhances Direct Interspecies Electron Transfer in Anaerobic Methane Production.
Environmental Science & TechnologyDirect interspecies electron transfer (DIET) provides an innovative way to achieve efficient methanogenesis, and this study proposes a new approach to upregulate the DIET pathway by enhancing quorum sensing (QS).
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Unnatural Direct Interspecies Electron Transfer Enabled by Living Cell-Cell Click Chemistry.
Angewandte Chemie International EditionDirect interspecies electron transfer (DIET) is essential for maintaining the function and stability of anaerobic microbial consortia. However, only limited natural DIET modes have been identified and DIET engineering remains highly challenging. Here, an
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Potential for direct interspecies electron transfer in the rumen
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