Molecular Organization of Cytochrome c₂ near the Binding Domain of Cytochrome bc₁ Studied by Electron Spin–Lattice Relaxation Enhancement

Abstract: Measurements of specific interactions between proteins are challenging. In redox systems, interactions involve surfaces near the attachment sites of cofactors engaged in interprotein electron transfer (ET). Here we analyzed binding of cytochrome c2 to cytochrome bc1 by measuring paramagnetic relaxation enhancement (PRE) of spin label (SL) attached to cytochrome c2. PRE was exclusively induced by the iron atom of heme c1 of cytochrome bc1, which guaranteed that only the configurations with SL to heme c1 distanc… Show more

“…Our results indeed coincide with the fact that electron transfer can be readily initiated from the b-heme without the need for close contact with an external electron acceptor such as quinones or molecular oxygen. (6) It was also reported that the axial histidylimidazole ligands of the b L heme have a distinct ionic character, 40 which would favour electron transfer processes. This electronegative character of at least one of the two His ligands was explained by the presence of nearby arginine residues.…”

“…1 The cyt bc 1 complex is a dimer whose monomer comprises four key elements that are directly involved in the electronic pathway (Fig. 1): (1) the heme c 1 is located near the intermembrane-space side of the membrane; it is situated near the cyt c docking interface and serves as an electron donor for the reduction of cyt c; 2,[5][6][7] (2) the Rieske iron-sulfur cluster mediates electron transfer between the quinol at the Q o site and the heme c 1 via a series of conformational changes; 1 (3) and (4) the hemes b L and b H that mediate electron transfer between the two quinone binding sites, Q o and Q i sites. 2 Depending on the reaction stage, the three iron centers of the hemes are found in either their ferric (Fe(III)) or ferrous forms (Fe(II)) and are all characterized by a 6-coordinated (6-c) lowspin state, therefore minimizing the reorganization energy required to undergo the electron transfer.…”

Photo-induced dynamics of the heme centers in cytochrome bc₁

“…Our results indeed coincide with the fact that electron transfer can be readily initiated from the b-heme without the need for close contact with an external electron acceptor such as quinones or molecular oxygen. (6) It was also reported that the axial histidylimidazole ligands of the b L heme have a distinct ionic character, 40 which would favour electron transfer processes. This electronegative character of at least one of the two His ligands was explained by the presence of nearby arginine residues.…”

“…1 The cyt bc 1 complex is a dimer whose monomer comprises four key elements that are directly involved in the electronic pathway (Fig. 1): (1) the heme c 1 is located near the intermembrane-space side of the membrane; it is situated near the cyt c docking interface and serves as an electron donor for the reduction of cyt c; 2,[5][6][7] (2) the Rieske iron-sulfur cluster mediates electron transfer between the quinol at the Q o site and the heme c 1 via a series of conformational changes; 1 (3) and (4) the hemes b L and b H that mediate electron transfer between the two quinone binding sites, Q o and Q i sites. 2 Depending on the reaction stage, the three iron centers of the hemes are found in either their ferric (Fe(III)) or ferrous forms (Fe(II)) and are all characterized by a 6-coordinated (6-c) lowspin state, therefore minimizing the reorganization energy required to undergo the electron transfer.…”

Photo-induced dynamics of the heme centers in cytochrome bc₁

“…At ionic strength typical of physiological conditions, the complexes are very short-lived and the stationary concentration of bound cytochrome c is low. This implicates a mechanism in which under physiological conditions cytochrome c does not form stable, longlived complexes but rather constantly collides with the surface of cytochrome bc 1 and electron transfer takes place coincidentally with one of such collision (117,206,221).…”

“…The transient binding of cytochrome c to cytochrome bc 1 in solution was inferred from the analysis of electron transfer between these proteins (175) and from the measurements based on the techniques that were independent of electron transfer, such as plasmon wave-guide resonance spectroscopy (75) or EPR (206,221,224).…”

Electronic Connection Between the Quinone and CytochromecRedox Pools and Its Role in Regulation of Mitochondrial Electron Transport and Redox Signaling

“…EPR spectroscopy was performed on a Bruker Elexsys E580 spectrometer operating at X- and Q-bands using similar equipment and settings as described previously in ref. 26 and 35. CW spectra were recorded at the X-band over the temperature range 20–120 K using a non-saturating microwave power.…”

Effect of H bond removal and changes in the position of the iron–sulphur head domain on the spin–lattice relaxation properties of the [2Fe–2S]²⁺Rieske cluster in cytochrome bc₁