A structural and functional study delineates how the interaction between NF-κB subunit RelA and co-activator CBP/p300 helps drive transcription of NF-κB target genes.
The displacement of Ca(2+) by trivalent lanthanide ions (Tm(3+)) in a protozoan (Entamoeba histolytica) Ca(2+) binding protein has been studied by NMR and isothermal calorimetry (ITC). The study provides a basis for understanding the behavior of lanthanides when used as a substitute for Ca(2+), the pattern of sequential binding, the structural changes involved, the range and magnitude of paramagnetic interaction, and the associated energetics and mechanism. The progressive Ca(2+) displacement from site III first, followed by displacement from site II, I, and IV, as observed during the NMR titration experiments, is interpreted in the light of ITC data to provide a deeper insight into the intradomain and, for the first time, interdomain cooperativity and information about the statistical phenomenon involved in it. A theoretical model governing Ca(2+) displacement is provided. The small structural changes involved in Ca(2+) displacement by a diamagnetic lanthanide (La(3+)) has also been monitored.
One of the calcium binding proteins from Entamoeba histolytica (EhCaBP) is a 134 amino acid residue long (M(r) approximately 14.9 kDa) double domain EF-hand protein containing four Ca(2+) binding sites. CD and NMR studies reveal that the Ca(2+)-free form (apo-EhCaBP) exists in a partially collapsed form compared to the Ca(2+)-bound (holo) form, which has an ordered structure (PDB ID ). Deuterium exchange studies on the partially structured apo-EhCaBP reveal that the C-terminal domain is better structured than the N-terminal domain. The protein can be reversibly folded and unfolded upon addition of Ca(2+) and EGTA, respectively. Titration shows a slow initial folding of the apo form with increasing Ca(2+) concentration, followed by a highly cooperative folding to its final state at a certain threshold of Ca(2+). Ca(2+) and the EGTA titration taken together show that site II in the N-terminal domain has the highest affinity for Ca(2+) contrary to earlier studies. Further, this study has thrown light on the relative Ca(2+) binding affinity and specificity of each site in the intact protein. A structural model for the partially collapsed form of apo-EhCaBP and its equilibrium folding to its completely folded holo state has been suggested. Large conformational changes seen in transforming from the apo to holo form of EhCaBP suggest that this protein should be functioning as a sensor protein and might have a significant role in host-parasite recognition.
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