Helix Formation in Unsolvated Alanine-Based Peptides: Helical Monomers and Helical Dimers
Citations Over TimeTop 10% of 1999 papers
Abstract
High-resolution ion mobility measurements and molecular dynamics simulations have been used to examine helix formation in protonated alanine-based peptides in a solvent-free environment. Protonated polyalanines, AlanH+, with up to 20 residues do not form extended helices in a vacuum. However, experiment and theory indicate that the addition of a lysine to the C terminus (Ac-Alan-LysH+) results in the formation of a stable monomeric helix for n ≥ 7. This helix is stabilized by the protonated lysine side chain capping the C terminus and by the interaction of the charge with the helix dipole. If the lysine is moved to the N terminus (Ac-LysH+-Alan) the helix-stabilizing factors are absent, and for n 13 only dimers are observed. The dimers appear to be helical, with the lysine from one peptide interacting with the C terminus of the other in a head-to-toe, “coiled-coil”-like arrangement of antiparallel helices. The transition from helical dimers to monomeric globules that occurs at n = 13 is partly driven by the entropy cost of dimerization. Dimers are also observed for the Ac-Alan-LysH+ peptides. These dimers also appear to be helical and linked by the lysine of one peptide interacting with the C terminus of the other. However, here the helices adopt a nearly collinear (or vee-shaped) arrangement that minimizes unfavorable electrostatic interactions.
Related Papers
- → A Set of Computationally Designed Orthogonal Antiparallel Homodimers that Expands the Synthetic Coiled-Coil Toolkit(2014)64 cited
- → Antiparallel Four-Stranded Coiled Coil Specified by a 3-3-1 Hydrophobic Heptad Repeat(2006)60 cited
- → Competition between Coiled-Coil Structures and the Impact on Myosin-10 Bundle Selection(2016)20 cited
- → Structure of a truncated form of leucine zipper II of JIP3 reveals an unexpected antiparallel coiled-coil arrangement(2016)8 cited
- → Design and stability of a novel coiled-coil peptide(2006)1 cited