Radiation effects on erythrocyte membrane structure studied by the intrinsic fluorescence.
The changes in the intrinsic fluorescence, primarily from tryptophan residues, of sheep erythrocyte membranes following X-irradiation (0--4000 R) were investigated. The experiments showed that there was (1) a decrease in the intensity of fluorescence with increasing dose of X-rays, (2) a small shift of fluorescence emission to longer wavelengths, (3) a decrease in the fluorescence polarization, and that (4) treatment of membranes with a perturbing solvent, 2-chloroethanol, can eliminate the effects of X-rays. The amount of tryptophan in the membranes was not altered after X-irradiation. It was also shown that sulphydryl reagents, N-ethylmaleimide and 2,2'-dithiodipyridine, induced similar fluorescence changes. From these results it was concluded that the fluorescence changes could result from a change in the environment surrounding tryptophan residues, from being relatively non-polar to being more polar, implying that conformational changes of membrane proteins are brought about by low doses of X-rays.[1]References
- Radiation effects on erythrocyte membrane structure studied by the intrinsic fluorescence. Yonei, S., Todo, T., Kato, M. Int. J. Radiat. Biol. Relat. Stud. Phys. Chem. Med. (1979) [Pubmed]
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