Weak and Transient Protein Interactions Determined by Solid-State NMR
journal contribution
posted on 2024-11-16, 03:19authored byHugh R W Dannatt, Michelle Felletti, S Jehle, Yao Wang, Lyndon Emsley, Nicholas DixonNicholas Dixon, A Lesage, Guido Pintacuda
Despite their roles in controlling many cellular processes, weak and transient interactions between large structured macromolecules and disordered protein segments cannot currently be characterized at atomic resolution by Xray crystallography or solution NMR. Solid-state NMR does not suffer from the molecular size limitations affecting solution NMR, and it can be applied to molecules in different aggregation states, including non-crystalline precipitates and sediments. A solid-state NMR approach based on high magnetic fields, fast magic-angle sample spinning, and deuteration provides chemical-shift and relaxation mapping that enabled the characterization of the structure and dynamics of the transient association between two regions in an 80 kDa protein assembly. This led to direct verification ofamechanism of regulation of E. coli DNA metabolism.
Funding
Mapping Protein Contacts and Conformational Changes in Macromolecular Assemblies
Dannatt, H. R W., Felletti, M., Jehle, S., Wang, Y., Emsley, L., Dixon, N. E., Lesage, A. & Pintacuda, G. (2016). Weak and Transient Protein Interactions Determined by Solid-State NMR. Angewandte Chemie International Edition, 55 6638-6641.