The viral protease domain (NS3pro) of dengue virus is essential for virus replication, and its cofactor NS2B is indispensable for the proteolytic function. Although several NS3pro-NS2B complex structures have been obtained, the dynamic property of the complex remains poorly understood. Using NMR relaxation techniques, here we found that NS3pro-NS2B exists in both closed and open conformations that are in dynamic equilibrium on a submillisecond timescale in aqueous solution. Our structural information indicates that the C-terminal region of NS2B is disordered in the minor open conformation but folded in the major closed conformation. Using mutagenesis, we showed that the closed-open conformational equilibrium can be shifted by changing NS2B stability. Moreover, we revealed that the proteolytic activity of NS3pro-NS2B correlates well with the population of the closed conformation. Our results suggest that the closed-open conformational equilibrium can be used by both nature and humanity to control the replication of dengue virus.
Copyright © 2021 Biophysical Society. Published by Elsevier Inc. All rights reserved.