Huntington
The specific aims are: 1. To investigate the structural role of the N17 headpiece in huntingtin aggregation. ! Previous MD simulations of the isolated N17 headpiece suggest that it is highly helical, and adopts two highly populated conformations consisting of one and two amphipathic helices. We will: a. Perform molecular dynamics simulations of N17-polyQ aggregation on Folding@home using Markov state models. We will investigate our hypothesis that burial of multiple N17 hydrophobic surfaces initiates aggregation of the polyQ tracts by positioning them correctly relative to each other. Based on the simulations, mutations in N17 will be proposed that would be expected to inhibit Htt aggregation. b. N17 mutations computationally predicted to disrupt aggregation will be experimentally verified, via a collaboration with Judith Frydman
Public Health Relevance
Lay description:! ! Huntington
