The bacteria of the family Desulfobulbaceae are like living electric cables—they can conduct electrons over centimeter-scale distances along their filamentous structures. These electric currents can ...

This picture illustrates an example of gut microbiota composition dictating how resident lung alveolar macrophages (AM) respond to viral infection. The presence of segmented filamentous bacteria, a ...

This picture illustrates an example of gut microbiota composition dictating how resident lung alveolar macrophages (AM) respond to viral infection. The presence of segmented filamentous bacteria, a ...

Bacteria are single-celled organisms, and while we know they can move around with filaments, the exact mechanisms behind how they do so has been unclear for many years. Researchers have now used ...

A new animal study has demonstrated one way sugar can contribute to metabolic diseases such as diabetes is by causing disruptions to the gut microbiome. The novel findings home in on exactly how ...

(a) Optical photograph of a soft-bodied macrofossil (specimen No. cy266) of unknown affinity, with abundant filamentous microfossils of Q. cambria (b–g) present on the surface. (b) SEM image of ...

Cable bacteria are filamentous microorganisms that perform electrogenic sulphur oxidation (e-SOx), a process whereby electrons generated from the oxidation of sulfide in anoxic sediment layers are ...