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HIV-1 capsid (CA) proteins self-assemble into a fullerene-shaped CA, enabling cellular transport and nuclear entry of the viral genome. A structural switch comprising the Thr-Val-Gly- Gly (TVGG) motif either assumes a disordered coil or a 3 10 helix conformation to regulate hexamer or pentamer assembly, respectively. The cellular polyanion inositol hexakisphosphate (IP 6 ) binds to a positively charged pore of CA capsomers rich in arginine and lysine residues mediated by electrostatic interactions. Both IP 6 binding and TVGG coil-to-helix transition are essential for pentamer formation. However, the connection between IP 6 binding and TVGG conformational switch remains unclear. Using extensive atomistic simulations, we show that IP 6 imparts structural order at the central ring, which results in multiple kinetically controlled events leading to the coil-to-helix conformational change of the TVGG motif. IP 6 facilitates the helix-to-coil transition by allowing the formation of intermediate conformations. Our results suggest a key kinetic role of IP 6 in HIV-1 pentamer formation.
Gupta et al. (Wed,) studied this question.