Role of molybdate and other transition metals in the accumulation of protochelin by Azotobacter vinelandii

Bath molybdate and iron are metals that are required by the obligately aerobic organism;Azotobacter vinelandii to survive in the nutrient-limited conditions of its natural. soil environment. Previous studies have shown that a high concentration of molybdate (1 mM) affects the formation of A. vinelandii siderophores such that the tricatecholate protochelin is formed to the exclusion of the other catecholate siderophores, azotochelin and aminochelin, It has been shown previously that molybdate combines readily with catecholates and interferes with siderophore function. In this study, He found that the manner in which each catecholate siderophore interacted with molybdate was consistent with the structure and binding potential of the siderophore, The affinity that each siderophore had for molybdate was high enough that stable molybdosiderophore complexes were formed but low enough that the complexes were readily destabilized by Fe3+ Thus, competition between Fe3+ and molybdate did not appear to be the primary cause of protochelin accumulation; in addition, we determined that protochelin accumulated in the presence of vanadate, tungstate, Zn2+, and Mn2+. We found that all five of these metal ions partially inhibited uptake of Fe-55-protochelin and Fe-55-azotochelin complexes. Also, each of these metal ions partially inhibited the activity of ferric reductase, an enzyme important in the deferration of ferric siderophores, Our results suggest that protochelin accumulates in the presence of molybdate because protochelin uptake and conversion into its component parts, azotochelin and aminochelin, are inhibited by interference with ferric reductase.