Add to ORKGRecently, a novel electrogenic type of sulphur oxidation was documented in marine sediments, whereby filamentous cable bacteria (Desulfobulbaceae) are mediating electron transport over cm-scale distances. These cable bacteria are capable of developing an extensive network within days, implying a highly efficient carbon acquisition strategy. Presently, the carbon metabolism of cable bacteria is unknown, and hence we adopted a multidisciplinary approach to study the carbon substrate utilization of both cable bacteria and associated microbial community in sediment incubations. Fluorescence in situ hybridization showed rapid downward growth of cable bacteria, concomitant with high rates of electrogenic sulphur oxidation, as quantified by microe...
Recently, long filamentous bacteria have been reported conducting electrons over centimetre distance...
Cable bacteria are long, filamentoussulphur-oxidizing bacteria that induce long-distanceelectron tra...
Recently, long filamentous bacteria, belonging to the family Desulfobulbaceae, were shown to induce ...
Recently, a novel electrogenic type of sulphur oxidation was documented in marine sediments, whereby...
Recently, a novel mode of sulphur oxidation was described in marine sediments, in which sulphide oxi...
In 2010, a completely novel type of microbial metabolism was discovered in marine sediments, which i...
Cable bacteria (Deltaproteobacteria, Desulfobulbaceae) are long filamentous sulfur-oxidizing bacteri...
Cable bacteria (CB) perform electrogenic sulphur oxidation (e-SOX) by spatially separating redox-hal...
Cable bacteria can strongly alter sediment biogeochemistry. Here, we used laboratory incubations to ...
Cable bacteria are long, multicellular, filamentous bacteria that can conduct electrons over centime...
In marine sediments cathodic oxygen reduction at the sediment surface can be coupled to anodic sulfi...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Microorganisms spend their lives searching for chemical reactants that yield metabolically usable en...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Multicellular, filamentous, sulfur-oxidizing bacteria, known as cable bacteria, were discovered atta...
Recently, long filamentous bacteria have been reported conducting electrons over centimetre distance...
Cable bacteria are long, filamentoussulphur-oxidizing bacteria that induce long-distanceelectron tra...
Recently, long filamentous bacteria, belonging to the family Desulfobulbaceae, were shown to induce ...
Recently, a novel electrogenic type of sulphur oxidation was documented in marine sediments, whereby...
Recently, a novel mode of sulphur oxidation was described in marine sediments, in which sulphide oxi...
In 2010, a completely novel type of microbial metabolism was discovered in marine sediments, which i...
Cable bacteria (Deltaproteobacteria, Desulfobulbaceae) are long filamentous sulfur-oxidizing bacteri...
Cable bacteria (CB) perform electrogenic sulphur oxidation (e-SOX) by spatially separating redox-hal...
Cable bacteria can strongly alter sediment biogeochemistry. Here, we used laboratory incubations to ...
Cable bacteria are long, multicellular, filamentous bacteria that can conduct electrons over centime...
In marine sediments cathodic oxygen reduction at the sediment surface can be coupled to anodic sulfi...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Microorganisms spend their lives searching for chemical reactants that yield metabolically usable en...
The oxidation of hydrogen sulfide is essential to sulfur cycling in marine habitats. However, the ro...
Multicellular, filamentous, sulfur-oxidizing bacteria, known as cable bacteria, were discovered atta...
Recently, long filamentous bacteria have been reported conducting electrons over centimetre distance...
Cable bacteria are long, filamentoussulphur-oxidizing bacteria that induce long-distanceelectron tra...
Recently, long filamentous bacteria, belonging to the family Desulfobulbaceae, were shown to induce ...