Mutational Studies of the Mersacidin Leader Reveal the Function of Its Unique Two-Step Leader Processing Mechanism
Jakob H. Viel, Oscar P. Kuipers
Abstract
protease AprE was shown to release active mersacidin in a second leader-processing step after transport. The conserved LanT cleavage site in the mersacidin leader is present in many other class II lanthipeptides. In contrast to mersacidin, the leader of these peptides is fully processed in one step. This difference with mersacidin leader-processing raises fundamentally interesting questions about the specifics of mersacidin modification and processing, which is also crucial for its application in RiPP engineering. Here, mutational studies of the mersacidin leader-core interface were performed to answer these questions. Results showed the GDMEAA sequence is crucial for both mersacidin modification and leader processing, revealing a unique leader layout in which a LanM recognition site is positioned downstream of the conserved leader-protease LanT cleavage site. Moreover, by identifying residues and regions that are crucial for mersacidin-type modifications, the wider application of mersacidin modifications in RiPP engineering has been enabled.