Mon Oo Yee

TL;DR: A comparison of functional gene categories between the two Methanosarcina showed differences regarding energy metabolism, which could explain Dissimilarities concerning electromethanogenesis at fixed potentials and it is suggested that these dissimilarities are minimized in the presence of an electrogenic DIET partner (e.g. Geobacter), which can modulate its surface redox potentials by adjusting the expression of electroactive surface proteins.

TL;DR: Eleven new co-culture combinations between methanogens and electrogens are tested, and it is shown that five additional Methanosarcinales paired with G. metallireducens, while a strict hydrogenotroph could not, suggesting an MHC-independent strategy for extracellular electron uptake.

TL;DR: This article provides an overview of the studies that isolated or enriched electroactive microorganisms from the environment using an anode as the sole electron acceptor or a cathode asThe sole electron donor (electricity - consuming /electrotrophs), and recommends a selective strategy for the isolation of electroactivemicroorganisms.

TL;DR: In this paper, the authors highlight recent discoveries and knowledge gaps regarding DIET and CIET interspecies associations in artificial co-cultures and consortia from natural and man-made environments.

TL;DR: 15 new artificial co-culture combinations with methanogens and electrogenic bacteria, including an electrogen outside of the Geobacter clade – Rhodoferax ferrireducens are tested, finding no change in the ability of these bacteria to retrieve extracellular electrons from G. metallireducens or a poised cathode.