Abstract

In the Suf Fe-S cluster assembly pathway, the activity of the cysteine desulfurase, SufS, is regulated by interactions with the accessory sulfotransferase protein, SufE. SufE has been shown to stimulate SufS activity, likely by inducing conformational changes in the SufS active site that promote the desulfurase step and by acting as an efficient persulfide acceptor in the transpersulfuration step. Previous results point toward an additional level of regulation through a "half-sites" mechanism that affects the stoichiometry and affinity for SufE as the dimeric SufS shifts between desulfurase and transpersulfuration activities. Investigation of the covalent persulfide intermediate of SufS by backbone amide hydrogen-deuterium exchange mass spectrometry identified two active site peptides (residues 225-236 and 356-366) and two peptides at the dimer interface of SufS (residues 88-100 and 243-255) that exhibit changes in deuterium uptake upon formation of the intermediate. Residues in these peptides are organized to form a conduit between the two active sites upon persulfide formation and include key cross-monomer interactions, suggesting they may play a role in the half-sites regulation. Three evolutionarily conserved residues at the dimer interface (R92, E96, and E250) were investigated by alanine scanning mutagenesis. Two of the substituted enzymes (E96A and E250A SufS) resulted in 6-fold increases in the value of KSufE, confirming a functional role. Re-examination of the dimer interface in reported crystal structures of SufS and the SufS homologue CsdA identified previously unnoticed residue mobility at the dimer interface. The identification of conformational changes at the dimer interface by hydrogen-deuterium exchange confirmed by mutagenesis and structural reports provides a physical mechanism for active site communication in the half-sites regulation of SufS activity. Given the conservation of the interface interactions, this mechanism may be broadly applicable to type II cysteine desulfurase systems.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call