Phosphorylation-Induced Conformational Changes of Photoactivated Rhodopsin Probed by Fluorescent Labeling at Cys140 and Cys316.

Phosphorylation-Induced Conformational Changes of Photoactivated Rhodopsin Probed by Fluorescent Labeling at Cys140 and Cys316. Biochimie. 2018 May 03;: Authors: Rodríguez S, Silva ML, Benaím G, Bubis J Abstract In order to monitor conformational changes following photoactivation and phosphorylation of bovine rhodopsin, the two reactive sulfhydryl groups at Cys140 and Cys316 were specifically labeled with the monobromobimane (mBBr) fluorophore. Although alterations in conformation after light exposure of rhodopsin were not detected by fluorescence excitation scans (300-450 nm) of the mBBr-labeled protein, the fluorescence signal was reduced ∼ 90% in samples containing photoactivated phosphorhodopsin. Predominant labeling at either Cys140 or Cys316 in light-activated and phosphorylated rhodopsin merely generated a decrease of ∼ 38% and 28%, respectively, in the fluorescence excitation intensity. Thus, neither mBBr-modified Cys140 nor mBBr-modified Cys316 were involved single-handedly in the remarkable fall seen on the signal following phosphorylation of the protein; rather, the incorporation of phosphate groups on the mBBr-labeled light-activated rhodopsin appeared to affect its fluorescence signal in a cooperative or synergistic manner. These findings demonstrated that the phosphorylation of specific hydroxyl groups at the carboxyl terminal tail of rhodopsin causes definite conformational changes in the three-dimensional fold...
Source: Biochimie - Category: Biochemistry Authors: Tags: Biochimie Source Type: research
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