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    Fe protein docking transduces conformational changes to MoFe nitrogenase active site in a nucleotide-dependent manner
    (Springer Science and Business Media LLC, 2023-11) Tokmina-Lukaszewska, Monika; Huang, Qi; Berry, Luke; Kallas, Hayden; Peters, John W.; Seefeldt, Lance C.; Raugei, Simone; Bothner, Brian
    The reduction of dinitrogen to ammonia catalyzed by nitrogenase involves a complex series of events, including ATP hydrolysis, electron transfer, and activation of metal clusters for N2 reduction. Early evidence shows that an essential part of the mechanism involves transducing information between the nitrogenase component proteins through conformational dynamics. Here, millisecond time-resolved hydrogen-deuterium exchange mass spectrometry was used to unravel peptide-level protein motion on the time scale of catalysis of Mo-dependent nitrogenase from Azotobacter vinelandii. Normal mode analysis calculations complemented this data, providing insights into the specific signal transduction pathways that relay information across protein interfaces at distances spanning 100 Å. Together, these results show that conformational changes induced by protein docking are rapidly transduced to the active site, suggesting a specific mechanism for activating the metal cofactor in the enzyme active site.
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