A molecule with an anisotropic magnetic susceptibility is spontaneously aligned in a static magnetic field. Alignment of such a molecule yields residual dipolar couplings and pseudocontact shifts. Lanthanide ions have recently been successfully used to provide an anisotropic magnetic susceptibility in target molecules either by replacing a calcium ion with a lanthanide ion in calcium-binding proteins or by attaching an EDTA derivative to a cysteine residue via a disulfide bond. Here we describe a novel enantiomerically pure EDTA derived tag that aligns stronger due to its shorter linker and does not suffer from stereochemical diversity upon lanthanide complexation. We observed residual (15)N,(1)H-dipolar couplings of up to 8 Hz at 800 MHz induced by a single alignment tensor from this tag.
In its apo state kinase p38 effects slow motions that can be detected in the NMR spectrum. One of the affected parts is the pharmacologically interesting DFG motif. Diarylurea inhibitors that bind to the DFG‐out conformation lock this motif in a defined state, whereas DFG‐in inhibitors that bind to the adjacent hinge region leave the flexibility of the DFG motif unaffected (see crystal structure of the complex of p38 with the inhibitor SB203580).
Using NMR spectroscopy we show that the cellular prion protein constitutes a target for binding of various acridine and phenothiazine derivatives. We unambiguously map the quinacrine binding site of recombinant human prion protein to residues Tyr225, Tyr226, and Gln227 of helix alpha3, which is located near the "protein X" epitope. The millimolar dissociation constant of the complex suggests that in vivo inhibition of prion propagation occurs after 10000-fold concentration of quinacrine within endolysosomes.
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