In Situ Enhanced Yields of Microbial Nanowires: The Key Role of Environmental Stress

The conductive microbial nanowires of Geobacter sulfurreducens serve as a model for long-range extracellular electron transfer (EET), which is considered a revolutionary “green” nanomaterial in the fields of bioelectronics, renewable energy, and bioremediation. However, there is no efficient pathway...

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Veröffentlicht in:ACS biomaterials science & engineering 2023-06, Vol.9 (6), p.3253-3261
Hauptverfasser: Song, Bo, Wang, Zhibin, Wang, Lei, Wang, Qi, Li, Jiaxin, Song, Manjiao, Ali, Jafar, Wang, Yaxin, Glebov, Evgeni M., Zhuang, Xuliang
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Sprache:eng
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Zusammenfassung:The conductive microbial nanowires of Geobacter sulfurreducens serve as a model for long-range extracellular electron transfer (EET), which is considered a revolutionary “green” nanomaterial in the fields of bioelectronics, renewable energy, and bioremediation. However, there is no efficient pathway to induce microorganisms to express a large amount of microbial nanowires. Here, several strategies have been used to successfully induce the expression of microbial nanowires. Microbial nanowire expression was closely related to the concentration of electron acceptors. The microbial nanowire was around 17.02 μm in length, more than 3 times compared to its own length. The graphite electrode was used as an alternative electron acceptor by G. sulfurreducens, which obtained a fast start-up time of 44 h in microbial fuel cells (MFCs). Meanwhile, Fe­(III) citrate-coated sugarcane carbon and biochar were prepared to test the applicability of these strategies in the actual microbial community. The unsatisfied EET efficiency between c-type cytochrome and extracellular insoluble electron receptors promoted the expression of microbial nanowires. Hence, microbial nanowires were proposed to be an effective survival strategy for G. sulfurreducens to cope with various environmental stresses. Based on this top-down strategy of artificially constructed microbial environmental stress, this study is of great significance for exploring more efficient methods to induce microbial nanowires expression.
ISSN:2373-9878
2373-9878
DOI:10.1021/acsbiomaterials.3c00313