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  • Title: Photolysis accompanying peptide absorption in proteins. Electrophoresis and optical rotary dispersion studies.
    Author: Wilson WD, Foster JF.
    Journal: Biophys J; 1972 Jun; 12(6):609-24. PubMed ID: 5063838.
    Abstract:
    Exposure of proteins and polypeptides to ultraviolet radiation below 240 nm produces peptide cleavage which may or may not be accompanied by observable changes in conformation and optical rotary dispersion (ORD) properties, depending on the stability of the secondary and tertiary structure of the macromolecule under the experimental conditions. Helical and coiled forms of poly-L-glutamic acid undergo degradation at similar rates but only the helical form shows a significant change in rotatory properties. The helical form of poly-L-lysine, but neither the coiled nor beta forms, shows a change in [alpha](233) on irradiation at 233 nm. beta-Lactoglobulin shows essentially no change in [alpha](233) on irradiation in either dilute salt solution or 4 M urea at room temperature; however, in 4 M urea at 56 degrees C a large change occurs. A model is developed which shows that studies of the effect of radiation on ORD properties may be useful in providing information on possible intermediate steps in protein denaturation. The method is illustrated with results on bovine plasma albumin. A quantum yield, 4.3 x 10(-3) moles/einstein, was obtained for peptide cleavage in this protein at 225 nm. These studies, based on gel electrophoresis, also showed that the fragments produced are essentially random, suggesting that transfer of energy from aromatic residues is not an important contributor to the peptide photolysis. Possible errors which could arise in ORD and other studies involving intense ultraviolet radiation are considered.
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