6533b81ffe1ef96bd1277b9d

RESEARCH PRODUCT

Interaction of a Recombinant Prion Protein with Organo-Mineral Complexes as Assessed by FT-IR and CPMAS 13C NMR Analysis

Pellegrino ConteLiliana GianfredaMaria A. RaoFabio Russo

subject

chemistry.chemical_classificationCatecholBirnessiteStereochemistryanimal diseasesSoil Organo-Mineral ComplexeSettore AGR/13 - Chimica Agrariachemistry.chemical_elementNuclear magnetic resonance spectroscopyManganeseCarbon-13 NMRnervous system diseaseslaw.inventionFT-IRTSE diseasechemistry.chemical_compoundPrion proteinchemistryBiochemistryPolymerizationlawCPMAS 13C NMRRecombinant DNAPrion protein TSE diseases Soil Organo-Mineral Complexes FT-IR CPMAS 13C NMRAlkyl

description

Prion proteins are considered as the main agents for the Transmissible Spongiform Encephalopathies (TSE). The misfolded form, PrP Sc , which is also indicated as the etiological agent for TSE, exhibits high resistance to degradation in environmental processes. Soil contamination by prion proteins is a real environmental issue since contaminated soils can become potential reservoir and diffuser for TSE infectivity. In this work, the interaction of prion protein with organo- mineral complexes was studied by using a recombinant non pathogenic prion protein and a model soil system. This latter was represented by a soil manganese mineral coated with polymerized catechol. FT-IR spectra showed amide I and II sig- nals which revealed protein involvement in catechol polymers coating manganese oxide surface. CPMAS 13 C-NMR was applied to follow the complexation of the protein to the soil-like system. All the signals were attributed to C-N in peptidic bonds, alkyl chains and methyl groups. The NMR spectrum of the prion protein interacting directly with birnessite re- vealed disappearance of signals due to the paramagnetic nature of manganese oxide or protein abiotic degradation, while the presence of organic matter strongly reduced the disappearance of prion protein signals.

yearjournalcountryeditionlanguage
2010-06-18The Open Magnetic Resonance Journal
https://doi.org/10.2174/1874769801003010084