Journal
BIOPHYSICAL JOURNAL
Volume 95, Issue 6, Pages 2859-2866Publisher
CELL PRESS
DOI: 10.1529/biophysj.108.128868
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The photoreceptor rhodopsin is a G-protein coupled receptor that has recently been proposed to exist as a dimer or higher order oligomer, in contrast to the previously described monomer, in retinal rod outer segment disk membranes. Rhodopsin exhibits considerably greater thermal stability than opsin (the bleached form of the receptor), which is reflected in an similar to 15 degrees C difference in the thermal denaturation temperatures (T-m) of rhodopsin and opsin as measured by differential scanning calorimetry. Here we use differential scanning calorimetry to investigate the effect of partial bleaching of disk membranes on the T-m of rhodopsin and of opsin in native disk membranes, as well as in cross-linked disk membranes in which rhodopsin dimers are known to be present. The T(m)s of rhodopsin and opsin are expected to be perturbed if mixed oligomers are present. The T-m remained constant for rhodopsin and opsin in native disks regardless of the level of bleaching. In contrast, the T-m of cross-linked rhodopsin in disk membranes was dependent on the extent of bleaching. The energy of activation for denaturation of rhodopsin and cross-linked rhodopsin was calculated. Cross-linking rhodopsin significantly decreased the energy of activation. We conclude that in native disk membranes, rhodopsin behaves predominantly as a monomer.
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