Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2009-03-02
Proc Natl Acad Sci (USA) 106, 5517 (2009)
Physics
Condensed Matter
Soft Condensed Matter
Scientific paper
In the cell, protein complexes form relying on specific interactions between their monomers. Excluded volume effects due to molecular crowding would lead to correlations between molecules even without specific interactions. What is the interplay of these effects in the crowded cellular environment? We study dimerization of a model homodimer both when the mondimers are free or tethered to each other. We consider a structured environment: Two monomers first diffuse into a cavity of size $L$ and then fold and bind within the cavity. The folding and binding are simulated using molecular dynamics based on a simplified topology based model. The {\it confinement} in the cell is described by an effective molecular concentration $C \sim L^{-3}$. A two-state coupled folding and binding behavior is found. We show the maximal rate of dimerization occurred at an effective molecular concentration $C^{op}\simeq 1m$M which is a relevant cellular concentration. In contrast, for tethered chains the rate keeps at a plateau when $C
Levy Yves
Trizac Emmanuel
Wang Wei
Wolynes Peter G.
Xu Wei-Xin
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