The Protein Matrix of Plastocyanin Supports Long-Distance Charge Transport with Photosystem I and the Copper Ion Regulates Its Spatial Span and Conductance

Abstract: Charge exchange is the fundamental process that sustains cellular respiration and photosynthesis by shuttling electrons in a cascade of electron transfer (ET) steps between redox cofactors. While intraprotein charge exchange is well characterized in protein complexes bearing multiple redox sites, interprotein processes are less understood due to the lack of suitable experimental approaches and the dynamic nature of the interactions. Proteins constrained between electrodes are known to support electron transpor… Show more

“…To justify the involvement of metal ions as cofactors in electronic transport [39], we have computed electronic energy states for isolated retinal, heme containing Fe in the case of myoglobin-based molecular junctions. Figure 9 depicts the density of states (DOS) and projected density of states (PDOS) for the isolated cofactors of dLbR and myoglobin proteins.…”

Investigation of numerical transport models in protein-based molecular junctions with cofactors of diverse chemical natures

“…To justify the involvement of metal ions as cofactors in electronic transport [39], we have computed electronic energy states for isolated retinal, heme containing Fe in the case of myoglobin-based molecular junctions. Figure 9 depicts the density of states (DOS) and projected density of states (PDOS) for the isolated cofactors of dLbR and myoglobin proteins.…”

Investigation of numerical transport models in protein-based molecular junctions with cofactors of diverse chemical natures