EXAFS studies on the PN and POX states of the P-clusters in nitrogenase

The MoFe protein of nitrogenase is an α₂β₂ tetramer that contains two each of two different types of metal centers, the FeMo-cofactor and the P-clusters. The function of the P-clusters is believed to be to accept electrons from the Fe protein of nitrogenase and to donate them to the FeMo-cofactor. We have studied the P-clusters of Azotobacter vinelandii nitrogenase in both the P^N and P^OX states utilizing Fe K-edge X-ray absorption spectroscopy. Since the MoFe holoprotein contains the seven iron FeMo-cofactor centers in addition to P-clusters, we have utilized a FeMo-cofactor-deficient MoFe protein synthesized by the Δnif H strain DJ54. That MoFe protein is an α₂β₂ tetramer that contains P-clusters by the criteria of metal analysis, CD spectroscopy, cluster extrusion, and electrochemical reduction of the P^OX state. Several important results have emerged from our XAS studies. The first shell Fe-S coordination shows the same average Fe-S distance (2.26?Å) in both states. The second coordination shells could only be well fit using two different Fe-Fe contributions. In both states, short Fe-Fe components with distances of 2.57?Å and 2.42?Å for the P^N and P^OX states, respectively, were required to complement longer 2.75?Å and 2.70?Å distances. Understanding of the P-cluster structure is essential if we are to make advances in understanding the role of the P-clusters and their participation in electron transfer through the nitrogenase system.