Disulfide Isomerization in nDsbD-DsbC Complex - Exploring an Internal Nucleophile Mediated Reaction Pathway.

Abstract

The disulfide bond redox chemistry of proteins is believed to be mostly governed by the proton motive force. The nucleophilic and α-elimination mechanisms are also found to supplement the formation and scission of the S-S bonds. On these grounds, the possibility for an internal nucleophile assisted disulfide bond formation in the nDsbD-DsbC complex was proposed way back. Using QM/MM MD metadynamics simulations, we explore the feasibility of the proposed mechanism. Our simulations highlight the formation of the internal nucleophile Tyr42 O- and Tyr40 O- which further generates Cys103 S- necessary for the disulfide bond formation in nDsbD. Our results illustrate how the isomerase DsbC is functionally activated by nDsbD in gram-negative bacteria. Also, we foresee that the results will be important for modelling anti-bacterial compounds based on nDsbD.