Quantification of Compactness and Local Order in the Ensemble of the Intrinsically Disordered Protein FCP1.

Intrinsically disordered protein regions (IDRs) partially or completely lack a cooperatively folded structure under native conditions, preventing their equilibrium state from being adequately described by a single structural model. As a direct consequence of their disorder, remarkably few experimental studies have quantified the ensembles IDRs adopt in solution. Here, we conduct unbiased computer simulations of the RAP74 interaction motif from the human phosphatase FCP1 in the unbound state, which provides an ensemble in quantitative agreement with both experimental NMR chemical shift information and small-angle X-ray scattering data. The partially α-helical short linear motif found in the C-terminus of FCP1 has been the subject of extensive biophysical characterization aimed at developing a molecular description for the mechanism of coupled folding and binding and establishing the functional relevance of partial order in the unbound state. The analysis presented here yields a remarkably consistent molecu...