The topomer-sampling model of protein folding

Abstract

Clearly, a protein cannot sample all of its conformations (e.g., ≈3¹⁰⁰ ≈ 10⁴⁸ for a 100 residue protein) on an in vivo folding timescale (7 distinct topomers. Based on the distance calculated between different topomers, we estimate that a 100-residue polypeptide diffusively samples one topomer every ≈3 ns. Hence, a 100-residue protein can find its native topomer by random sampling in just ≈100 ms. These results suggest that subsecond folding of modest-sized, single-domain proteins can be accomplished by a two-stage process of (i) topomer diffusion: random, diffusive sampling of the 3 × 10⁷ distinct topomers to find the native topomer (≈0.1 s), followed by (ii) intratopomer ordering: nonrandom, local conformational rearrangements within the native topomer to settle into the precise native state.