A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria
Cable bacteria’ form long multicellular filaments that can transfer electrical currents over centimetre-long distances. Here, Meysman et al. show that the electrical currents run along highly conductive fibres embedded in the cell envelope, and charge transfer is electronic rather than ionic.
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Nature Portfolio
2019
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oai:doaj.org-article:e24dd843adbc4456b9f350361d8bc2732021-12-02T16:58:19ZA highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria10.1038/s41467-019-12115-72041-1723https://doaj.org/article/e24dd843adbc4456b9f350361d8bc2732019-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-12115-7https://doaj.org/toc/2041-1723Cable bacteria’ form long multicellular filaments that can transfer electrical currents over centimetre-long distances. Here, Meysman et al. show that the electrical currents run along highly conductive fibres embedded in the cell envelope, and charge transfer is electronic rather than ionic.Filip J. R. MeysmanRob CornelissenStanislav TrashinRobin BonnéSilvia Hidalgo MartinezJasper van der VeenCarsten J. BlomCheryl KarmanJi-Ling HouRaghavendran Thiruvallur EachambadiJeanine S. GeelhoedKarolien De WaelHubertus J. E. BeaumontBart CleurenRoland ValckeHerre S. J. van der ZantHenricus T. S. BoschkerJean V. MancaNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-8 (2019) |
| institution |
DOAJ |
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DOAJ |
| language |
EN |
| topic |
Science Q |
| spellingShingle |
Science Q Filip J. R. Meysman Rob Cornelissen Stanislav Trashin Robin Bonné Silvia Hidalgo Martinez Jasper van der Veen Carsten J. Blom Cheryl Karman Ji-Ling Hou Raghavendran Thiruvallur Eachambadi Jeanine S. Geelhoed Karolien De Wael Hubertus J. E. Beaumont Bart Cleuren Roland Valcke Herre S. J. van der Zant Henricus T. S. Boschker Jean V. Manca A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| description |
Cable bacteria’ form long multicellular filaments that can transfer electrical currents over centimetre-long distances. Here, Meysman et al. show that the electrical currents run along highly conductive fibres embedded in the cell envelope, and charge transfer is electronic rather than ionic. |
| format |
article |
| author |
Filip J. R. Meysman Rob Cornelissen Stanislav Trashin Robin Bonné Silvia Hidalgo Martinez Jasper van der Veen Carsten J. Blom Cheryl Karman Ji-Ling Hou Raghavendran Thiruvallur Eachambadi Jeanine S. Geelhoed Karolien De Wael Hubertus J. E. Beaumont Bart Cleuren Roland Valcke Herre S. J. van der Zant Henricus T. S. Boschker Jean V. Manca |
| author_facet |
Filip J. R. Meysman Rob Cornelissen Stanislav Trashin Robin Bonné Silvia Hidalgo Martinez Jasper van der Veen Carsten J. Blom Cheryl Karman Ji-Ling Hou Raghavendran Thiruvallur Eachambadi Jeanine S. Geelhoed Karolien De Wael Hubertus J. E. Beaumont Bart Cleuren Roland Valcke Herre S. J. van der Zant Henricus T. S. Boschker Jean V. Manca |
| author_sort |
Filip J. R. Meysman |
| title |
A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| title_short |
A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| title_full |
A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| title_fullStr |
A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| title_full_unstemmed |
A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| title_sort |
highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria |
| publisher |
Nature Portfolio |
| publishDate |
2019 |
| url |
https://doaj.org/article/e24dd843adbc4456b9f350361d8bc273 |
| work_keys_str_mv |
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1718382360096931840 |