Purification and characterization of a fix ABCX-linked 2[4Fe-4S] ferredoxin from Azotobacter vinelandii

Abstract

 Ferredoxins that contain 2[4Fe-4S]^2+/+ clusters can be divided into two classes. The "clostridial-type" ferredoxins have two CysXXCysXXCysXXXCysPro motifs. The "photosynthetic bacterial and nif-related" ferredoxins have one motif of that type and one more unusual CysXXCysX_7–9CysXXXCysPro motif. In Azotobacter vinelandii three gene sequences have been reported that contain the latter motif, but until now none of the gene products has been purified. Here we report the purification of a small anionic [Fe-S] protein with yields of ∼3 mg per 500 g cell paste. NH₂-terminal sequence analysis shows that this protein is the product of a previously sequenced A. vinelandii gene that is found upstream of fixA and is cotranscribed with fixABCX. That gene was originally named fixP, but since that gene designation is now commonly used for a very different cb-type cytochrome oxidase we have renamed the gene fixFd and its product Fix Fd. Its sequence places Fix Fd in the class of "photosynthetic bacterial and nif-related" 2[4Fe-4S]^2+/1+ ferredoxins that includes Chromatium vinosum ferredoxin. Studies of the purified protein by Fe analysis, absorption, CD and EPR spectroscopies and electrochemistry confirm this characterization; the reduction potentials of the two clusters are –440 mV vs SHE. The fact that A. vinelandii synthesizes three different proteins with the same sequence motif, each of which is likely to have a different function, shows that although sequence motifs may be used reliably to classify ferredoxins by cluster type they cannot yet be used reliably for classifying ferredoxins by function.