Predicted secondary structure and membrane topology of the scrapie prion protein |
| |
Authors: | Bazan, J.Fernando Fletterick, Robert J. McKinley, P. Prusiner, Stanley B. |
| |
Affiliation: | 1Department of Biophysics, University of California Berkeley, CA 94720 2Departments of Biochemistry and Biophysics San Francisco, CA 94143, USA 3Departments of Neurology, University of California San Francisco, CA 94143, USA |
| |
Abstract: | The integral membrane sialoglycoprotein PrPSc is the only identifiablecomponent of the scrapie prion. Scrapie in animals and Creutzfeldt-Jakobdisease in humans are transmissible, degenerative neurologicaldiseases caused by prions. Standard predictive strategies havebeen used to analyze the secondary structure of the prion proteinin conjunction with Fourier analysis of the primary sequencehydrophobicities to detect potential amphipathic regions. Severalhydrophobic segments, a proline- and glycine-rich repeat regionand putative glycosylation sites are incorporated into a modelfor the integral membrane topology of PrP. The complete aminoacid sequences of the hamster, human and mouse prion proteinsare compared and the effects of residue substitutions upon thepredicted conformation of the polypeptide chain are discussed.While PrP has a unique primary structure, its predicted secondarystructure shares some interesting features with the serum amyloidA proteins. These proteins undergo a post-translational modificationto yield amyloid A, molecules that share with PrP the abilityto polymerize into birefringent filaments. Our analyses mayexplain some experimental observations on PrP, and suggest furtherstudies on the properties of the scrapie and cellular PrP isoforms. |
| |
Keywords: | scrapie/ prion/ structure prediction/ amphipathic helices/ amyloid |
本文献已被 Oxford 等数据库收录! |
|