Authors
Szöllősi D, Pratihar S, Mukhopadhyay D, Rout AK, Reddy GJ, Ebersberger N, Becker S, Nagy G, Rauscher S, Lee D, Klement R, Griesinger C, Grubmüller H
Journal
BioRxiv
Citation
bioRxiv 2025.08.01.668138
Abstract
Intrinsically disordered proteins (IDPs) exhibit pronounced structural dynamics, which is crucial for their functional versatility. Yet their dynamics slower than nanoseconds remain largely elusive. We combined high-power relaxation dispersion nuclear magnetic resonance spectroscopy with molecular dynamics simulations to characterize these kinetics and the underlying structural interconversions of a prototypical IDP, the N-terminal transactivation domain of the tumor suppressor p53 (p53-TAD). We find a complex hierarchy of structural dynamics on timescales covering over seven orders of magnitude, ranging from fast nanoseconds backbone re-orientations, via sub-microsecond helix-formation dynamics involving many structural sub-states and transition times, to transient tertiary structure formation slower than 25 microseconds. These rich structural dynamics of p53-TAD, and likely those of other IDPs, parallel the timescale hierarchy of the conformational dynamics of folded proteins.
DOI
