Abstract
The recent discovery of metamorphic proteins, which can switch between multiple conformations under native conditions, has challenged the well-established one sequence-one structure paradigm of protein folding. This is exemplified in the C-terminal domain of the multidomain transcription factor RfaH, which converts from an α-helical coiled-coil conformation in its autoinhibited state to a β-barrel conformation upon activation. Here, we use multisite line shape analysis of 19F NMR-monitored equilibrium chemical denaturation measurements of two 19F-labeled variants of full-length RfaH, to show that it folds/unfolds slowly on the NMR time scale, in an apparent all-or-none fashion at physiological pH and room temperature in the 3.3-4.8 M urea concentration range. The significant thermodynamic stability and slow unfolding rate (kinetic stability) are likely responsible for maintaining the closed autoinhibited state of RfaH, preventing spurious interactions with RNA polymerase (RNAP) when not functional. Our results provide a quantitative understanding of the folding-function relationship in the model fold-switching protein RfaH.
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