Femtosecond dynamics of transition processes in reaction centers of Rhodobacter sphaeroides

Abstract: The reaction center (RC) of purple bacteria is formed by three protein subunits (L, M, and H) bound with four bacteriochlorophyll (Bchl) molecules, two bacteriopheophytin (Bph) molecules, two quinone ( Q A and Q B ) molecules, and one atom of nonheme iron. Two of the four Bchl molecules for a special pair P (Bchl dimer), which is a primary electron donor.After excitation of the P electron, it is transferred along the active A-chain, leading to consecutive formation of the anion radicals Bchl -, Bph -, and duri… Show more

“…This marked kinetic isotope effect indicates that the red-shift is caused by protein relaxations which comprise rearrangements of hydrogen bonds. The red-shift is followed by a reversal back to the original position with lifetimes of 3.5 and 8.5 ps in the presence of H 2 O and D 2 O respectively [32]. These kinetics, which are ascribed to the primary charge separation step from 1 P * RC;relaxed to the acceptor BChl A (see equation (21.3)), reflect a striking kinetic isotope effect on the primary charge separation step.…”

“…Excitation of the Q X transition with 70 fs (FWHM) laser pulses at 600 nm revealed that the bleaching maximum of 1 P * RC is shifted to the red by about 4 and 5 nm with time constants of about 250 and 375 fs when the same sample material is suspended in buffer solutions containing H 2 O and D 2 O respectively [32]. This marked kinetic isotope effect indicates that the red-shift is caused by protein relaxations which comprise rearrangements of hydrogen bonds.…”

“…On the other hand, replacement of exchangeable protons by deuterons gives rise to a kinetic isotope effect of 1.5-2 [32,47].…”

Role of Hydrogen Bonds in Photosynthetic Water Splitting

“…This marked kinetic isotope effect indicates that the red-shift is caused by protein relaxations which comprise rearrangements of hydrogen bonds. The red-shift is followed by a reversal back to the original position with lifetimes of 3.5 and 8.5 ps in the presence of H 2 O and D 2 O respectively [32]. These kinetics, which are ascribed to the primary charge separation step from 1 P * RC;relaxed to the acceptor BChl A (see equation (21.3)), reflect a striking kinetic isotope effect on the primary charge separation step.…”

“…Excitation of the Q X transition with 70 fs (FWHM) laser pulses at 600 nm revealed that the bleaching maximum of 1 P * RC is shifted to the red by about 4 and 5 nm with time constants of about 250 and 375 fs when the same sample material is suspended in buffer solutions containing H 2 O and D 2 O respectively [32]. This marked kinetic isotope effect indicates that the red-shift is caused by protein relaxations which comprise rearrangements of hydrogen bonds.…”

“…On the other hand, replacement of exchangeable protons by deuterons gives rise to a kinetic isotope effect of 1.5-2 [32,47].…”

Role of Hydrogen Bonds in Photosynthetic Water Splitting