Putative Extracellular Electron Transfer in Methanogenic Archaea.
Kailin Gao,Yahai Lu +1 more
TLDR
A review of the current state of knowledge for the putative extracellular electron transfers in methanogens and highlight the opportunities and challenges for future research can be found in this article, where the membrane-bound multiheme c-type cytochromes (MHC) and electrically-conductive cellular appendages have been assumed to mediate electron transfer in bacteria like Geobacter and Shewanella species.Abstract:
It has been suggested that a few methanogens are capable of extracellular electron transfers. For instance, Methanosarcina barkeri can directly capture electrons from the coexisting microbial cells of other species. Methanothrix harundinacea and Methanosarcina horonobensis retrieve electrons from Geobacter metallireducens via direct interspecies electron transfer (DIET). Recently, Methanobacterium, designated strain YSL, has been found to grow via DIET in the co-culture with Geobacter metallireducens. Methanosarcina acetivorans can perform anaerobic methane oxidation and respiratory growth relying on Fe(III) reduction through the extracellular electron transfer. Methanosarcina mazei is capable of electromethanogenesis under the conditions where electron-transfer mediators like H2 or formate are limited. The membrane-bound multiheme c-type cytochromes (MHC) and electrically-conductive cellular appendages have been assumed to mediate the extracellular electron transfer in bacteria like Geobacter and Shewanella species. These molecules or structures are rare but have been recently identified in a few methanogens. Here, we review the current state of knowledge for the putative extracellular electron transfers in methanogens and highlight the opportunities and challenges for future research.read more
Citations
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Electrotrophy: Other microbial species, iron, and electrodes as electron donors for microbial respirations
TL;DR: In this paper , the growth of anaerobes on extracellular electron donors, such as Fe(II)-based electrotrophy, has been rigorously investigated.
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Additional electric field alleviates acidity suppression in anaerobic digestion of kitchen wastes via enriching electro-active methanogens in cathodic biofilms.
Zhi Hao Jiang,Qi Yu,Cheng Lin Sun,Zhenxin Wang,Zhen-Yu Jin,Yahui Zhu,Zhiqiang Zhao,Yaobin Zhang +7 more
TL;DR: In this paper , the authors investigated the feasibility that the suppression of acidity in anaerobic digestion of kitchen wastes could be alleviated with additional electric field and showed that with applied voltages of 0.6-1.2 V, the suppressed acidity was alleviated, and methane production rates reached 558-669 L/kg-volatile suspended solid that were higher than that previously reported with carbon-based conductive materials such as granular active carbon and biochar.
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Advantage of conductive materials on interspecies electron transfer-independent acetoclastic methanogenesis: A critical review
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Anaerobic oxidation of methane mediated by microbial extracellular respiration.
TL;DR: In this paper, a review compiles recent progress in the research of electromicrobiology of anaerobic oxidation of methane (AOM) based on the catalogue of different electron acceptors.
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Community Structure and Microbial Associations in Sediment-Free Methanotrophic Enrichment Cultures from a Marine Methane Seep
Hang Yu,Daan R. Speth,Stephanie A. Connon,Danielle Goudeau,Rex R. Malmstrom,Tanja Woyke,Victoria J. Orphan +6 more
TL;DR: Sediment-free enrichment of ANME-SRB consortia from deep-sea methane seep sediments in the Santa Monica Basin, California represents a successful case of selective cultivation of anaerobic slow-growing microorganisms from sediments based on their physical characteristics, introducing new opportunities for detailed genomic, physiological, biochemical, and ecological analyses.
References
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