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Literature DB >> 32031732

Characterization of [2Fe-2S]-Cluster-Bridged Protein Complexes and Reaction Intermediates by use of Native Mass Spectrometric Methods.

Mengxuan Jia^1,2, Sambuddha Sen¹, Christine Wachnowsky¹, Insiya Fidai¹, James A Cowan¹, Vicki H Wysocki^1,2.

Abstract

Many iron-sulfur proteins involved in cluster trafficking form [2Fe-2S]-cluster-bridged complexes that are often challenging to characterize because of the inherent instability of the cluster at the interface. Herein, we illustrate the use of fast, online buffer exchange coupled to a native mass spectrometry (OBE nMS) method to characterize [2Fe-2S]-cluster-bridged proteins and their transient cluster-transfer intermediates. The use of this mechanistic and protein-characterization tool is demonstrated with holo glutaredoxin 5 (GLRX5) homodimer and holo GLRX5:BolA-like protein 3 (BOLA3) heterodimer. Using the OBE nMS method, cluster-transfer reactions between the holo-dimers and apo-ferredoxin (FDX2) are monitored, and intermediate [2Fe-2S] species, such as (FDX2:GLRX5:[2Fe-2S]:GSH) and (FDX2:BOLA3:GLRX5:[2Fe-2S]:GSH) are detected. The OBE nMS method is a robust technique for characterizing iron-sulfur-cluster-bridged protein complexes and transient iron-sulfur-cluster transfer intermediates.

Entities: Chemical Disease Gene Species

Keywords: cofactors; iron-sulfur clusters; native mass spectrometry; protein complexes; structural biology

Mesh：

Substances：

Year: 2020 PMID： 32031732 PMCID： PMC7170024 DOI： 10.1002/anie.201915615

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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