Effects of Hofmeister Ions on the α-Helical Structure of Proteins

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Effects of Hofmeister Ions on the α-Helical Structure of Proteins Alvaro H. Crevenna, Nikolaus Naredi-Rainer, Don C. Lamb, Roland Wedlich-Söldner, Joachim Dzubiella  Biophysical Journal  Volume 102, Issue 4, Pages 907-915 (February 2012) DOI: 10.1016/j.bpj.2012.01.035 Copyright © 2012 Biophysical Society Terms and Conditions

Figure 1 Salt-specific effects on α-helical secondary structure measured by CD. The thermal melting curves and effect of salt concentration at 273 K on the α-helicity of (A and B) EK, (C and D) (AK)6, and (E and F) (AE)6 peptides in 3.9 M concentration are plotted for various salts. Helicity was calculated from the CD signal at 222 nm (see Methods in the Supporting Material). Biophysical Journal 2012 102, 907-915DOI: (10.1016/j.bpj.2012.01.035) Copyright © 2012 Biophysical Society Terms and Conditions

Figure 2 Salt-specific structures studied by MD simulations for T = 300 K. (A) Normalized density distribution g(r) of water (O) and cations (all from chloride salts) around the amide oxygen of the EK-peptide. Inset: g(r) for water and cations around the ALA methyl group. (B) Normalized density distribution g(r) of water (O) and anions around the amide nitrogen of the EK-peptide. Inset left: g(r) for water and anions around the ALA methyl group. (C) Ion coordination in a 0.5 nm shell around the backbone plotted versus average helicity h. Coordination increases upon unfolding due to direct binding to the backbone. (D) Nonpolar and polar ASA of the EK and (AK)6 peptides plotted versus helicity h. Both nonpolar and polar ASA linearly increase upon unfolding. Biophysical Journal 2012 102, 907-915DOI: (10.1016/j.bpj.2012.01.035) Copyright © 2012 Biophysical Society Terms and Conditions

Figure 3 Representative MD simulations snapshots of Gdm+ and ClO4− binding to the EK and (AK)6 peptides. (A) A Gdm+-ion (spheres) hydrogen bonded to the backbone (stick structure) amide and embedded by a nonpolar lysine and alanine methyl groups of the EK peptide. (B) Gdm+ binding to (AK)6 in the coil state. (C) A ClO4− -ion hydrogen bonded to the backbone amide and embedded by lysine side chains in the (AK)6 peptide. (D) ClO4− and Na+ displaying concerted binding to the backbone in a compact state of the EK-peptide. Snapshots in A and B were chosen using the kinetic criterion such that ion binding was longer than 0.1 ns. In D the ionic complex was bound for >1 ns. Biophysical Journal 2012 102, 907-915DOI: (10.1016/j.bpj.2012.01.035) Copyright © 2012 Biophysical Society Terms and Conditions

Figure 4 Ion-specific effect on the CD spectra and donor-acceptor fluorophore separation RDA of (AK)14. (A) Measured RDA (symbols) in the absence of salt at pH 7 (black), with KCl (yellow upper triangles), GdmCl (red squares), NaClO4 (green circles), and no salt pH 11 (light blue line). Standard deviations from several measurements are smaller than the size of the symbol (0.05 nm). Estimated range of RDA from MD-derived structures at 3.5M salt is represented as shaded areas depicting the upper and lower limits. (B) The salt-dependent helicity (derived from the signal at 222 nm) of (AK)14 in the absence of salt at pH 7 (black), with KCl (yellow), GdmCl (red), NaClO4 (green), and no salt pH 11 (light blue). The average value is a dotted line while the thickness of the shaded area represents the upper and lower boundaries. (C) CD spectra of (AK)14 in the absence of salt at pH 7 (black), with KCl (yellow), GdmCl (red), NaClO4 (green), and no salt pH 11 (light blue). Biophysical Journal 2012 102, 907-915DOI: (10.1016/j.bpj.2012.01.035) Copyright © 2012 Biophysical Society Terms and Conditions