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Nitrogenase FeMoco investigated by spatially resolved anomalous dispersion refinement.


ABSTRACT: The [Mo:7Fe:9S:C] iron-molybdenum cofactor (FeMoco) of nitrogenase is the largest known metal cluster and catalyses the 6-electron reduction of dinitrogen to ammonium in biological nitrogen fixation. Only recently its atomic structure was clarified, while its reactivity and electronic structure remain under debate. Here we show that for its resting S=3/2 state the common iron oxidation state assignments must be reconsidered. By a spatially resolved refinement of the anomalous scattering contributions of the 7 Fe atoms of FeMoco, we conclude that three irons (Fe1/3/7) are more reduced than the other four (Fe2/4/5/6). Our data are in agreement with the recently revised oxidation state assignment for the molybdenum ion, providing the first spatially resolved picture of the resting-state electron distribution within FeMoco. This might provide the long-sought experimental basis for a generally accepted theoretical description of the cluster that is in line with available spectroscopic and functional data.

SUBMITTER: Spatzal T 

PROVIDER: S-EPMC4793075 | biostudies-literature | 2016 Mar

REPOSITORIES: biostudies-literature

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Nitrogenase FeMoco investigated by spatially resolved anomalous dispersion refinement.

Spatzal Thomas T   Schlesier Julia J   Burger Eva-Maria EM   Sippel Daniel D   Zhang Limei L   Andrade Susana L A SL   Rees Douglas C DC   Einsle Oliver O  

Nature communications 20160314


The [Mo:7Fe:9S:C] iron-molybdenum cofactor (FeMoco) of nitrogenase is the largest known metal cluster and catalyses the 6-electron reduction of dinitrogen to ammonium in biological nitrogen fixation. Only recently its atomic structure was clarified, while its reactivity and electronic structure remain under debate. Here we show that for its resting S=3/2 state the common iron oxidation state assignments must be reconsidered. By a spatially resolved refinement of the anomalous scattering contribu  ...[more]

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