Journal
MBIO
Volume -, Issue -, Pages -Publisher
AMER SOC MICROBIOLOGY
DOI: 10.1128/mbio.02572-23
Keywords
nitrogenase; Fe protein; NifH; heterologous expression; assembly
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This study successfully synthesized a fully active Azotobacter vinelandii(AvNifH) protein in Escherichia coli. The heterologously expressed AvNifH protein showed a high [Fe4S4] cluster content and full functionality in nitrogenase catalysis and assembly. Additionally, the study found that AvNifM may serve as a chaperone to assist the maturation of the cluster-replete AvNifH protein.
The functional versatility of the Fe protein, the reductase component of nitrogenase, makes it an appealing target for heterologous expression, which could facilitate future biotechnological adaptations of nitrogenase-based production of valuable chemical commodities. Yet, the heterologous synthesis of a fully active Fe protein of Azotobacter vinelandii (AvNifH) in Escherichia coli has proven to be a challenging task. Here, we report the successful synthesis of a fully active AvNifH protein upon co-expression of this protein with AvIscS/U and AvNifM in E. coli. Our metal, activity, electron paramagnetic resonance, and X-ray absorption spectroscopy/extended X-ray absorption fine structure (EXAFS) data demonstrate that the heterologously expressed AvNifH protein has a high [Fe4S4] cluster content and is fully functional in nitrogenase catalysis and assembly. Moreover, our phylogenetic analyses and structural predictions suggest that AvNifM could serve as a chaperone and assist the maturation of a cluster-replete AvNifH protein. Given the crucial importance of the Fe protein for the functionality of nitrogenase, this work establishes an effective framework for developing a heterologous expression system of the complete, two-component nitrogenase system; additionally, it provides a useful tool for further exploring the intricate biosynthetic mechanism of this structurally unique and functionally important metalloenzyme.
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