Central role and structure of the membrane pseudokinase YukC in the antibacterial Bacillus subtilis Type VIIb Secretion System

Abstract

AbstractType VIIb Secretion System (T7SSb) has been recently identified in Firmicutes resembling the mycobacterial T7SSa. Despite limited sequence homology, T7SSa and T7SSb have substrates with striking structural similarities, the WXG100 proteins. Recent advances in Staphylococcus spp. proposed that T7SSb is involved in intra-species competition. However, the architecture and mechanism of action of this secretion complex remain largely obscure. Here, we investigate the T7SSb of Bacillus subtilis as a model system. We report the first evidence of B. subtilis ability to mediate intra- and inter-species antibacterial activity in a T7SSb-dependent manner. Then, we present the first systematic investigation of the T7SSb protein-protein network, revealing novel interactions and highlighting the central role of the pseudokinase subunit YukC in the assembly of the system. Its direct interaction with a T7SSb-secreted toxin supports its role in recruiting substrates to the secretion machinery. Finally, we solved the crystal structure of full-length transmembrane YukC defining novel structural motifs and suggesting that intrinsic flexibility modulates the orientation of the pseudokinase domains and YukC function. Overall, our results provide a better understanding on the role and molecular organisation of the T7SSb, opening new perspectives for the comprehension of this poorly characterized molecular machine.