Abstract
The core light-harvesting LH1 protein from Rhodospirillum rubrum can dissociate reversibly in the presence of n-octyl-beta-D-glucopyranoside into smaller subunit forms, exhibiting a dramatic blue-shift in absorption. During this process, two main species are observed: a dimer that absorbs at 820 nm (B820) and a monomer absorbing at 777 nm (B777). In the presence of n-octyl-beta-D-glucopyranoside, we have previously shown that the B820 form is not only constituted by the alphabeta heterodimer alone, but that it exists in an equilibrium between the alphabeta heterodimer and beta(2) homodimer states. We investigated the dissociation equilibrium for both oligomeric B820 forms. Using a theoretical model for alphabeta and beta(2), we conclude that the B820 homodimer is stabilized by both hydrophobic effects (entropy) and non-covalent bonds (enthalpy). We discuss a possible interpretation of the energy changes.
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