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Journal home Current issue Advance Online Publication Web Focuses Archive Browse by subject Free online sample issue Aims and scope Press releases ToC by email Authors & Referees Guide for authors Submit an Article Guide for referees Editorial Team, Senior Advisors and Advisory Editorial Board Contact Editorial office Customer services Subscribe Order sample copy Purchase articles Reprints and permissions Contact NPG Advertising www.embo.org			The EMBO Journal (2000) 19, 5324–5331, doi:10.1093/emboj/19.20.5324 Post-translational hydroxylation at the N-terminus of the prion protein reveals presence of PPII structure in vivo Andrew C. Gill, Mark A. Ritchie, Lawrence G. Hunt, Sarah E. Steane, Kenneth G. Davies, Sharon P. Bocking, Alexandre G. O. Rhie, Alan D. Bennett and James Hope Institute for Animal Health, Compton, Newbury, Berkshire, RG20 7NN, UK To whom correspondence should be addressed James Hope, james.hope@bbsrc.ac.uk Received 11 July 2000; Revised 21 August 2000; Accepted 21 August 2000. Abstract The transmissible spongiform encephalopathies are characterized by conversion of a host protein, PrPC (cellular prion protein), to a protease-resistant isoform, PrPSc (prion protein scrapie isoform). The importance of the highly flexible, N-terminal region of PrP has recently become more widely appreciated, particularly the biological activities associated with its metal ion-binding domain and its potential to form a poly(L-proline) II (PPII) helix. Circular dichroism spectroscopy of an N-terminal peptide, PrP37–53, showed that the PPII helix is formed in aqueous buffer; as it also contains an Xaa–Pro–Gly consensus sequence, it may act as a substrate for the collagen-modifying enzyme prolyl 4-hydroxylase. Direct evidence for this modification was obtained by mass spectrometry and Edman sequencing in recombinant mouse PrP secreted from stably transfected Chinese hamster ovary cells. Almost complete conversion of proline to 4-hydroxyproline occurs specifically at residue Pro44 of this murine protein; the same hydroxylated residue was detected, at lower levels, in PrPSc from the brains of scrapie-infected mice. Cation binding and/or post-translational hydroxylation of this region of PrP may regulate its role in the physiology and pathobiology of the cell. Keywords: 4-hydroxyproline, polyproline II helix, post-translational modifications, prion protein, prolyl 4-hydroxylase		Email link to a friend Download PDF Full text Next article Previous article Table of contents Rights and permissions Reprints Register for table of contents by email

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