Add to ORKGMicrobial nanowires are fascinating biological structures that allow bacteria to transport electrons over micrometers for reduction of extracellular substrates. It was recently established that the nanowires of both Shewanella and Geobacter are made of multi-heme proteins; but, while Shewanella employs the 20-heme protein complex MtrCAB, Geobacter uses a redox polymer made of the hexa-heme protein OmcS, begging the question as to which protein architecture is more efficient in terms of long-range electron transfer. Using a multiscale computational approach we find that OmcS supports electron flows about an order of magnitude higher than MtrCAB due to larger heme–heme electronic couplings and better insulation of hemes from the solvent. We s...
Electron transfer is central to cellular life, from photosynthesis to respiration. In the case of an...
Shewanella oneidensis exchanges electrons between cellular metabolism and external redox partners in...
A number of species of Gram-negative bacteria can use insoluble minerals of Fe(III) and Mn(IV) as ex...
Microbial nanowires are fascinating biological structures that allow bacteria to transport electrons...
Microbial nanowires are fascinating biological structures that allow bacteria to transport electrons...
Long-range (>10 μm) transport of electrons along networks of Geobacter sulfurreducens protei...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
A growing number of bacteria are recognized to conduct electrons across their cell envelope, and yet...
A growing number of bacteria are recognized to conduct electrons across their cell envelope, and yet...
The bacterium Shewanella oneidensis has evolved a sophisticated electron transfer (ET) machinery to ...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
Dissimilatory metal-reducing bacteria can extract free energy from their environment by performing e...
The electrogenic bacterium Geobacter synthesizes conductive extracellular nanowires to facilitate el...
Electron transfer is central to cellular life, from photosynthesis to respiration. In the case of an...
Shewanella oneidensis exchanges electrons between cellular metabolism and external redox partners in...
A number of species of Gram-negative bacteria can use insoluble minerals of Fe(III) and Mn(IV) as ex...
Microbial nanowires are fascinating biological structures that allow bacteria to transport electrons...
Microbial nanowires are fascinating biological structures that allow bacteria to transport electrons...
Long-range (>10 μm) transport of electrons along networks of Geobacter sulfurreducens protei...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
A growing number of bacteria are recognized to conduct electrons across their cell envelope, and yet...
A growing number of bacteria are recognized to conduct electrons across their cell envelope, and yet...
The bacterium Shewanella oneidensis has evolved a sophisticated electron transfer (ET) machinery to ...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
Proteins achieve efficient energy storage and conversion through electron transfer along a series of...
Dissimilatory metal-reducing bacteria can extract free energy from their environment by performing e...
The electrogenic bacterium Geobacter synthesizes conductive extracellular nanowires to facilitate el...
Electron transfer is central to cellular life, from photosynthesis to respiration. In the case of an...
Shewanella oneidensis exchanges electrons between cellular metabolism and external redox partners in...
A number of species of Gram-negative bacteria can use insoluble minerals of Fe(III) and Mn(IV) as ex...