Project description:This project focust on proteogenomic characterization of a robust low complexity biocathode community which was enriched from, and cultivated on, the cathode of a microbial solar cell (MSC). This consortium forms a multi-cell layer thick biofilm on the poised electrode surface (+310 mV SHE) and can directly use electrical current as an electron donor to fix CO2 and reduce O2.

Project description:EMG produced TPA metagenomics assembly of PRJNA244670 data set (Microbial consortium enriched at the cathode of a solar microbial fuel cell).

Project description:Metagenome Study on Cathode Biofilm of Microbial Fuel Cell

Project description:Cathodic biofouling in parallel-connected air-cathode microbial fuel cells

Project description:Metaproteomic analysis of an enriched anaerobic rumen consortium (ERAC) using sugarcane bagasse and rumen as unique carbon and microbial sources

Project description:Microbial fuel cell

Project description:Microbial fuel cell Metagenome

Project description:Microbial fuel cell Metagenome

Project description:Bio-cathode in microbial electrolysis cell

Project description:Lysinibacillus varians GY32 is a filamentous bacteria that can generate electricity in microbial fuel cells. To find potential genes participating in the electron transfer to electrode of Lysinibacillus varians GY32, we compared the gene expression profiles of this bacteria with yeast extract as electron donor and two electron acceptors, i.e. oxygen and electrode in microbial fuel cells. The results showed that several cytochrome c genes might play specific roles in the extracellular electron transfer to electrode in this strain.