Syntrophy Goes Electric: Direct Interspecies Electron Transfer
University of Massachusetts Amherst
Indexed incrossrefpubmed
Abstract
Direct interspecies electron transfer (DIET) has biogeochemical significance, and practical applications that rely on DIET or DIET-based aspects of microbial physiology are growing. Mechanisms for DIET have primarily been studied in defined cocultures in which Geobacter species are one of the DIET partners. Electrically conductive pili (e-pili) can be an important electrical conduit for DIET. However, there may be instances in which electrical contacts are made between electron transport proteins associated with the outer membranes of the partners. Alternatively, DIET partners can plug into conductive carbon materials, such as granular activated carbon, carbon cloth, and biochar, for long-range electron…
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1Topics & keywords
Topics
Keywords
- Geobacter
- Electron transfer
- Anaerobic digestion
- Methane
- Electron transport chain
- Biochar
- Environmental chemistry
- Atmospheric methane
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