First observation of metal ion-induced structural fluctuations of α-helical peptides by using diffracted X-ray tracking.

In order to analyze protein structural dynamics, we designed simple model peptides whose structures changed from random-coil to helix-bundle structures by forming stable hydrophobic core in the presence of metal ions. The strategy involved destabilizing a de novo designed three helix-bundle protein by substituting the residues present in its hydrophobic core with histidine and small amino acids. The conformational changes of peptides induced upon binding of Zn to histidine were analyzed using circular dichroism spectroscopy, which revealed peptides, HA and HG, to be good candidates for further analyses. The diffracted X-ray tracking experiments showed that the structural fluctuations of both HA and HG were suppressed upon binding of Zn. We succeeded in observing the differences in fluctuations of HA and HG in solution between random-coil like and helix-bundle structures. The metal-binding energies determined using the angular diffusion coefficients were in good agreement with those determined using isothermal titration calorimetry.