Comparative electric and ultrastructural studies of cable bacteria reveal new components of conduction machinery

Digel, Leonid; Justesen, Mads L.; Bonné, Robin; Fransaert, Nico; Wouters, Koen; Jensen, Pia B.; Plum-Jensen, Lea E.; Marshall, Ian P. G.; Nicolas-Asselineau, Louison; Drace, Taner; Bøggild, Andreas; Hansen, John L.; Schramm, Andreas; Bøjesen, Espen D.; Nielsen, Lars P.; Manca, Jean V.; Boesen, Thomas

doi:10.1101/2023.05.24.541955

Cited by 5 publications

(1 citation statement)

References 58 publications

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“…Electronema species capable of surviving in a saline environment, hence challenging the currently accepted taxonomic framework of cable bacteria 168,169 . Moreover, the novel cable bacteria genomes, which were made public with the publication of Paper 2, have already been utilized in several cable bacteria research projects [171][172][173] .…”

Section: Closing the Genomes Of Cable Bacteriamentioning

confidence: 99%

Recovery of novel microbial genomes

Sereika

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Section: Closing the Genomes Of Cable Bacteriamentioning

confidence: 99%

Recovery of novel microbial genomes

Sereika

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First single-strain enrichments of Electrothrix cable bacteria, description of E. aestuarii sp. nov. and E. rattekaaiensis sp. nov., and proposal of a cable bacteria taxonomy following the rules of the SeqCode

Plum-Jensen,

Schramm,

Marshall

2024

Systematic and Applied Microbiology

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Long-Distance Electron Transport in Multicellular Freshwater Cable Bacteria

Yang

Chavez

Niman

et al. 2023

Preprint

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Filamentous multicellular cable bacteria perform centimeter-scale electron transport in a process that couples oxidation of an electron donor (sulfide) in deeper sediment to the reduction of an electron acceptor (oxygen or nitrate) near the surface. While this electric metabolism is prevalent in both marine and freshwater sediments, detailed electronic measurements of the conductivity previously focused on the marine cable bacteria (CandidatusElectrothrix), rather than freshwater cable bacteria, which form a separate genus (CandidatusElectronema) and contribute essential geochemical roles in freshwater sediments. Here, we characterize the electron transport characteristics ofCa.Electronema cable bacteria from Southern California freshwater sediments. Current-voltage measurements of intact cable filaments bridging interdigitated electrodes confirmed their persistent conductivity under a controlled atmosphere and the variable sensitivity of this conduction to air exposure. Electrostatic and conductive atomic force microscopies mapped out the characteristics of the cell envelope's nanofiber network, implicating it as the conductive pathway in a manner consistent with previous findings in marine cable bacteria. Four-probe measurements of microelectrodes addressing intact cables demonstrated nanoampere currents up to 200 micrometer lengths at modest driving voltages, allowing us to quantify the nanofiber conductivity at 0.1 S/cm for freshwater cable bacteria filaments under our measurement conditions. Such a high conductivity can support the remarkable sulfide-to-oxygen electrical currents mediated by cable bacteria in sediments. These measurements expand the knowledgebase of long-distance electron transport to the freshwater niche while shedding light on underlying conductive network of cable bacteria.

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Comparative electric and ultrastructural studies of cable bacteria reveal new components of conduction machinery

Cited by 5 publications

References 58 publications

Recovery of novel microbial genomes

Recovery of novel microbial genomes

First single-strain enrichments of Electrothrix cable bacteria, description of E. aestuarii sp. nov. and E. rattekaaiensis sp. nov., and proposal of a cable bacteria taxonomy following the rules of the SeqCode

Long-Distance Electron Transport in Multicellular Freshwater Cable Bacteria

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