The prion protein is a copper binding glycoprotein that in mammals can misfold into a pathogenic isoform leading to prion diseases, as opposed, surprisingly, to avians. The avian prion N-terminal tandem repeat is richer in prolines than the mammal one, and understanding their effect on conformation is of great biological importance. Here we succeeded in investigating the conformations of a single avian hexarepeat by means of NMR and Molecular Dynamics techniques. We found a high flexibility and a strong conformational dependence on pH: local turns are present at acidic and neutral pH, while unordered regions dominate at basic conditions.
An NMR and Molecular Dynamics investigation of the Avian Prion Hexarepeat conformational features in solution / A. Pietropaolo; L. Raiola; L. Muccioli; G. Tiberio; C. Zannoni; R. Fattorusso; C. Isernia; D. La Mendola; G. Pappalardo; E. Rizzarelli. - In: CHEMICAL PHYSICS LETTERS. - ISSN 0009-2614. - STAMPA. - 442:(2007), pp. 110-118. [10.1016/j.cplett.2007.05.046]
An NMR and Molecular Dynamics investigation of the Avian Prion Hexarepeat conformational features in solution
PIETROPAOLO, ADRIANA;MUCCIOLI, LUCA;ZANNONI, CLAUDIO;
2007
Abstract
The prion protein is a copper binding glycoprotein that in mammals can misfold into a pathogenic isoform leading to prion diseases, as opposed, surprisingly, to avians. The avian prion N-terminal tandem repeat is richer in prolines than the mammal one, and understanding their effect on conformation is of great biological importance. Here we succeeded in investigating the conformations of a single avian hexarepeat by means of NMR and Molecular Dynamics techniques. We found a high flexibility and a strong conformational dependence on pH: local turns are present at acidic and neutral pH, while unordered regions dominate at basic conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
