Schizokinen siderophores in the methylotrophy model organism Methylorubrum extorquens AM1

The facultative methylotroph model organism Methylorubrum extorquens AM1 is a known lanthanide user, which has shed light on the role of rare-earth metals in biochemistry. The characterization of a methanol dehydrogenase (MDH) protein which requires lanthanides as an enzymatic cofactor outlined the question of how these metals are acquired from the environment. It has been proposed that mesophilic organisms as M. extorquens AM1 can produce siderophore-like molecules, which chelate, transport and traffic rare-earth elements into the microbial cell. Therefore, we performed the bioinformatic and chemical investigation of M. extorquens AM1 by using genome mining, the CAS and arsenazo assay, molecular networking and chemical analytical techniques. Our results showed that indeed Methylorubrum extorquens AM1 harbored a gene cluster to produce metal chelators. The chemical analysis confirmed the production of the known hybrid hydroxamate-citrate siderophores schizokinen A and N-deoxyschizokinen A, which are very likely the side products of the transformation of schizokinen and N-deoxyschizokinen. The determination of the lanthanide chelation activity of the schizokinen siderophores series against three different lanthanides (La, Eu and Lu) showed no coordination activity, thus ruling out the involvement of schizokinen siderophores in rare-earth metal transport.