Dietary vitamin D deficiency in rats from middle to old age leads to elevated tyrosine nitration and proteomics changes in levels of key proteins in brain: Implications for low vitamin D-dependent age-related cognitive decline

Article ID	Journal	Published Year	Pages	File Type
8271478	Free Radical Biology and Medicine	2013	11 Pages	PDF

Abstract

The figure depicts a potential mechanism for the protein nitration regulatory effects of VitD in brain and the consequences of VitD deficiency. Results obtained in this study supporting this mechanism are marked with wide green arrows, up arrows designating a found increase and down arrows designating a found decrease.193

Keywords

NF-κB nuclear factor κ-light-chain enhancer of activated B cells PPIA 3-NT 5-bromo-4-chloro-3-indolyl-phosphate BCIP IPI IPL MnSOD PEP IEF iNOS NBT TPI deionized GPX Aβ TCA Cholecalciferol DTT 3-nitrotyrosine 6-Phosphofructokinase BSA ROS nitroblue tetrazolium TGs bovine serum albumin ALP tricarboxylic acid Fourier transform isoelectric focusing dithiothreitol inducible nitric oxide synthase Triose phosphate isomerase manganese superoxide dismutase International Protein Index Mass spectrometry phosphoenolpyruvate inferior parietal lobule peroxiredoxin 3 amyloid-β peptide pyruvate kinase glutathione peroxidase Reactive oxygen species iodoacetamide