Evidence for nifU and nifS participation in the biosynthesis of the iron-molybdenum cofactor of nitrogenase.

The nifU and nifS genes encode the components of a cellular machinery dedicated to the assembly of [2Fe-2S] and [4Fe-4S] clusters required for growth under nitrogen-fixing conditions. The NifU and NifS proteins are involved in the production of active forms of the nitrogenase component proteins, NifH and NifDK. Although NifH contains a [4Fe-4S] cluster, the NifDK component carries two complex metalloclusters, the iron-molybdenum cofactor (FeMo-co) and the [8Fe-7S] P-cluster. FeMo-co, located at the active site of NifDK, is composed of 7 iron, 9 sulfur, 1 molybdenum, 1 homocitrate, and 1 unidentified light atom. To investigate whether NifUS are required for FeMo-co biosynthesis and to understand at what level(s) they might participate in this process, we analyzed the effect of nifU and nifS mutations on the formation of active NifB protein and on the accumulation of NifB-co, an isolatable intermediate of the FeMo-co biosynthetic pathway synthesized by the product of the nifB gene. The nifU and nifS genes were required to accumulate NifB-co in a nifN mutant background. This result clearly demonstrates the participation of NifUS in NifB-co synthesis and suggests a specific role of NifUS as the major provider of [Fe-S] clusters that serve as metabolic substrates for the biosynthesis of FeMo-co. Surprisingly, although nifB expression was attenuated in nifUS mutants, the assembly of the [Fe-S] clusters of NifB was compensated by other non-nif machinery for the assembly of [Fe-S] clusters, indicating that NifUS are not essential to synthesize active NifB.