AbstractCrystal structures of bacterial reaction center second-site revertants (Xu et al., 2004) show that proton transfer energetics and connectivity are both important when this membrane protein reforms a proton transfer pathway broken by site-directed mutation
AbstractMembrane proteins use the energy of light or high energy substrates to build a transmembrane...
AbstractIn the photosynthetic reaction center (RC) from Rhodobacter sphaeroides, the reduction of a ...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
AbstractCrystal structures of bacterial reaction center second-site revertants (Xu et al., 2004) sho...
AbstractWe address the molecular mechanism by which the haem-copper oxidases translocate protons. Re...
Biological membranes are barriers to polar molecules, so membrane embedded proteins control the tran...
AbstractCopper-dependent enzymes are essential for many cellular processes, yet paradoxically, coppe...
Describing dynamics of proton transfers in proteins is challenging, but crucial for understanding pr...
AbstractThe bacterial reaction center couples light-induced electron transfer to proton pumping acro...
CueO has a branched hydrogen bond network leading from the exterior of the protein molecule to the t...
AbstractElectron transfers in photosynthesis and respiration commonly occur between metal-containing...
AbstractIn Rhodobacter sphaeroides, transfer of the first electron in quinol oxidation by the bc1 co...
AbstractDescribing dynamics of proton transfers in proteins is challenging, but crucial for understa...
Cytochrome c oxidase plays a central role in energy transduction in most aerobic organisms. It catal...
AbstractProtein-assisted transport of protons across the bioenergetic membrane is mediated by hydrog...
AbstractMembrane proteins use the energy of light or high energy substrates to build a transmembrane...
AbstractIn the photosynthetic reaction center (RC) from Rhodobacter sphaeroides, the reduction of a ...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
AbstractCrystal structures of bacterial reaction center second-site revertants (Xu et al., 2004) sho...
AbstractWe address the molecular mechanism by which the haem-copper oxidases translocate protons. Re...
Biological membranes are barriers to polar molecules, so membrane embedded proteins control the tran...
AbstractCopper-dependent enzymes are essential for many cellular processes, yet paradoxically, coppe...
Describing dynamics of proton transfers in proteins is challenging, but crucial for understanding pr...
AbstractThe bacterial reaction center couples light-induced electron transfer to proton pumping acro...
CueO has a branched hydrogen bond network leading from the exterior of the protein molecule to the t...
AbstractElectron transfers in photosynthesis and respiration commonly occur between metal-containing...
AbstractIn Rhodobacter sphaeroides, transfer of the first electron in quinol oxidation by the bc1 co...
AbstractDescribing dynamics of proton transfers in proteins is challenging, but crucial for understa...
Cytochrome c oxidase plays a central role in energy transduction in most aerobic organisms. It catal...
AbstractProtein-assisted transport of protons across the bioenergetic membrane is mediated by hydrog...
AbstractMembrane proteins use the energy of light or high energy substrates to build a transmembrane...
AbstractIn the photosynthetic reaction center (RC) from Rhodobacter sphaeroides, the reduction of a ...
Many reduced cupredoxins undergo a pH-dependent structural rearrangement, triggered by protonation o...
DOI