Azotobacter vinelandii scaffold protein NifU transfers iron to NifQ as part of the iron-molybdenum cofactor biosynthesis pathway for nitrogenase.

IF 4 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Biological Chemistry Pub Date : 2024-10-22 DOI:10.1016/j.jbc.2024.107900

Emma Barahona, Juan Andrés Collantes-García, Elena Rosa-Núñez, Jin Xiong, Xi Jiang, Emilio Jiménez-Vicente, Carlos Echávarri-Erasun, Yisong Guo, Luis M Rubio, Manuel González-Guerrero

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Abstract

The Azotobacter vinelandii molybdenum nitrogenase obtains molybdenum from NifQ, a monomeric iron-sulfur molybdoprotein. This protein requires an existing [Fe-S] cluster to form a [Mo-Fe₃-S₄] group, which acts as a specific molybdenum donor during nitrogenase FeMo-co biosynthesis. Here, we show biochemical evidence supporting the role of NifU as the [Fe-S] cluster donor. Protein-protein interaction studies involving apo-NifQ and as-isolated NifU demonstrated their interaction, which was only effective when NifQ lacked its [Fe-S] cluster. Incubation of apo-NifQ with [Fe₄-S₄]-loaded NifU increased the iron content of the former, contingent on both proteins being able to interact with one another. As a result of this interaction, a [Fe₄-S₄] cluster was transferred from NifU to NifQ. In A. vinelandii, NifQ was preferentially metalated by NifU rather than by the [Fe-S] cluster scaffold protein IscU. These results indicate the necessity of co-expressing NifU and NifQ to efficiently provide molybdenum for FeMo-co biosynthesis when engineering nitrogenase in plants.

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作为氮酶铁钼辅助因子生物合成途径的一部分，Azotobacter vinelandii 支架蛋白 NifU 将铁转移到 NifQ 上。

醋蓝绿藻钼氮酶从单体铁硫钼蛋白 NifQ 中获取钼。该蛋白需要一个现有的[Fe-S]簇来形成一个[Mo-Fe3-S4]基团，该基团在氮酶铁钼共生物合成过程中充当特定的钼供体。在这里，我们展示了支持 NifU 作为[Fe-S]簇供体的生化证据。蛋白-蛋白相互作用研究表明，apo-NifQ 和分离的 NifU 之间存在相互作用，只有当 NifQ 缺乏[Fe-S]簇时，这种相互作用才有效。将apo-NifQ与[Fe4-S4]负载的NifU进行孵育，可增加前者的铁含量，这表明这两种蛋白质能够相互作用。由于这种相互作用，一个[Fe4-S4]簇从 NifU 转移到了 NifQ。在A. vinelandii中，NifQ优先被NifU金属化，而不是被[Fe-S]簇支架蛋白IscU金属化。这些结果表明，在植物氮酶工程中，必须同时表达 NifU 和 NifQ，才能有效地为铁钼共生物合成提供钼。

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Journal of Biological Chemistry Biochemistry, Genetics and Molecular Biology-Biochemistry

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4.20%

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1233

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