FeMo cofactor (FeMoco) biosynthesis is one of the most complicated processes in metalloprotein biochemistry. Here we show that Mo and homocitrate are incorporated into the Fe͞S core of the FeMoco precursor while it is bound to NifEN and that the resulting fully complemented, FeMoco-like cluster is transformed into a mature FeMoco upon transfer from NifEN to MoFe protein through direct protein-protein interaction. Our findings not only clarify the process of FeMoco maturation, but also provide useful insights into the other facets of nitrogenase chemistry. (9), which is located at the ␣-interface and ligated to six protein residues; and the [Mo-7Fe-9S-X-homocitrate] (the identity of X is unknown but is considered to be C, O, or N; ref. 10) FeMo cofactor (FeMoco), which is situated within the ␣-subunit and bound to only two protein residues and an exogenous homocitrate ligand. Both P-cluster and FeMoco are composed of smaller substructures: the P-cluster comprises two subclusters that share a 6 -sulfide (9) and FeMoco consists of [Mo-3Fe-3S] and [4Fe-3S] subcubanes that are bridged by three 2 -sulfides and share a central 6 -light atom (10). These metal clusters are essential for nitrogenase reaction, a process that involves ATP-dependent electron transfer from the [4Fe-
The iron-molybdenum cofactor (FeMoco) of the nitrogenase MoFe protein is a highly complex metallocluster that provides the catalytically essential site for biological nitrogen fixation. FeMoco is assembled outside the MoFe protein in a stepwise process requiring several components, including NifB-co, an iron-and sulfurcontaining FeMoco precursor, and NifEN, an intermediary assembly protein on which NifB-co is presumably converted to FeMoco. Through the comparison of Azotobacter vinelandii strains expressing the NifEN protein in the presence or absence of the nifB gene, the structure of a NifEN-bound FeMoco precursor has been analyzed by x-ray absorption spectroscopy. The results provide physical evidence to support a mechanism for FeMoco biosynthesis. The NifEN-bound precursor is found to be a molybdenum-free analog of FeMoco and not one of the more commonly suggested cluster types based on a standard [4Fe-4S] architecture. A facile scheme by which FeMoco and alternative, non-molybdenum-containing nitrogenase cofactors are constructed from this common precursor is presented that has important implications for the biosynthesis and biomimetic chemical synthesis of FeMoco.biosynthesis ͉ extended x-ray absorption fine structure ͉ nitrogenase ͉ x-ray absorption spectroscopy
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