利用天然质谱方法对[2Fe-2S]-簇桥连蛋白复合物和反应中间体进行表征。
Characterization of [2Fe-2S]-Cluster-Bridged Protein Complexes and Reaction Intermediates by use of Native Mass Spectrometric Methods.
机构信息
Department of Chemistry and Biochemistry, The Ohio State University, Columbus, OH, 43210, USA.
Resource for Native Mass Spectrometry Guided Structural Biology, The Ohio State University, Columbus, OH, 43210, USA.
出版信息
Angew Chem Int Ed Engl. 2020 Apr 20;59(17):6724-6728. doi: 10.1002/anie.201915615. Epub 2020 Mar 3.
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.
摘要
许多参与簇运输的铁硫蛋白形成 [2Fe-2S]-簇桥联复合物,由于界面处簇的固有不稳定性,这些复合物通常难以表征。本文展示了使用快速、在线缓冲交换与天然质谱(OBE nMS)方法来表征 [2Fe-2S]-簇桥联蛋白及其瞬态簇转移中间体。该机制和蛋白质表征工具的使用通过全同型谷胱甘肽还原酶 5 (GLRX5) 同二聚体和全同型 GLRX5:BolA 样蛋白 3 (BOLA3) 异二聚体进行了演示。使用 OBE nMS 方法,监测全同二聚体与脱辅基铁氧还蛋白 (FDX2) 之间的簇转移反应,并检测到中间 [2Fe-2S] 物种,如 (FDX2:GLRX5:[2Fe-2S]:GSH) 和 (FDX2:BOLA3:GLRX5:[2Fe-2S]:GSH)。OBE nMS 方法是一种用于表征铁硫簇桥联蛋白复合物和瞬态铁硫簇转移中间体的强大技术。
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