Calculated vibrational properties of pigments in protein binding sites 2: Semiquinones in photosynthetic proteins

Abstract

[QA– – QA] Fourier transform infrared difference spectra have previously been obtained using purple bacterial reaction centers from Rhodobacter sphaeroides with unlabeled, 18O and 13C isotope labeled phylloquinone (PhQ, also known as vitamin K1) incorporated into the QA protein binding site (Breton, (1997), Proc. Natl. Acad. Sci. USA94 11318–11323). The nature of the bands in these spectra and the isotope induced band shifts are poorly understood, especially for the phyllosemiquinone anion (PhQ–) state. To aid in the interpretation of the bands in these experimental spectra, ONIOM type QM/MM vibrational frequency calculations were undertaken. Calculations were also undertaken for PhQ– in solution. Surprisingly, both sets of calculated spectra are similar and agree well with the experimental spectra. This similarity suggests pigment-protein interactions do not perturb the electronic structure of the semiquinone in the QA binding site. This is not found to be the case for the neutral PhQ species in the same protein binding site. PhQ also occupies the A1 protein binding site in photosystem I, and the vibrational properties of PhQ– in the QA and A1 binding sites are compared and shown to exhibit considerable differences. These differences probably arise because of changes in the degree of asymmetry of hydrogen bonding of PhQ– in the A1 and QA binding sites.