Ramzi Alsallaq scite author profile

The association of two proteins is bounded by the rate at which they, via diffusion, find each other while in appropriate relative orientations. Orientational constraints restrict this rate to ~10 5 -10 6 M −1 s −1 . Proteins with higher association rates generally have complementary electrostatic surfaces; proteins with lower association rates generally are slowed down by conformational changes upon complex formation. Previous studies (Zhou, Biophys. J. 1997;73:2441-2445 have shown that electrostatic enhancement of the diffusion-limited association rate can be accurately modeled by k D = k D0 exp(−*/ k B T), where k D and k D0 are the rates in the presence and absence of electrostatic interactions, respectively, * is the average electrostatic interaction energy in a "transient-complex" ensemble, and k B T is thermal energy. The transient-complex ensemble separates the bound state from the unbound state. Predictions of the transient-complex theory on four protein complexes were found to agree well with experiment when the electrostatic interaction energy was calculated with the linearized Poisson-Boltzmann (PB) equation (Alsallaq and Zhou, Structure 2007, 15:215-224). Here we show that the agreement is further improved when the nonlinear PB equation is used. These predictions are obtained with the dielectric boundary defined as the protein van der Waals surface. When the dielectric boundary is instead specified as the molecular surface, electrostatic interactions in the transient complex become repulsive and are thus predicted to retard association. Together these results demonstrate that the transient-complex theory is predictive of electrostatic rate enhancement and can help parameterize PB calculations.

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The new role of antiretrovirals in combination HIV prevention

Cremin

et al. 2013

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Ramzi Alsallaq

Towards an improved investment approach for an effective response to HIV/AIDS

Electrostatic rate enhancement and transient complex of protein–protein association

The new role of antiretrovirals in combination HIV prevention

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