Department of Biochemistry and Biophysics, Stockholm University, 106 91 Stockholm, Sweden.
Acta Crystallogr D Struct Biol. 2019 Aug 1;75(Pt 8):764-771. doi: 10.1107/S2059798319009926. Epub 2019 Jul 31.
Here, a method is described which exploits X-ray anomalous dispersion (XAD) to quantify mixtures of metal ions in the binding sites of proteins and can be applied to metalloprotein crystals of average quality. This method has successfully been used to study site-specific metal binding in a protein from the R2-like ligand-binding oxidase family which assembles a heterodinuclear Mn/Fe cofactor. While previously only the relative contents of Fe and Mn in each metal-binding site have been assessed, here it is shown that the method can be extended to quantify the relative occupancies of at least three different transition metals, enabling complex competition experiments. The number of different metal ions that can be quantified is only limited by the number of high-quality anomalous data sets that can be obtained from one crystal, as one data set has to be collected for each transition-metal ion that is present (or is suspected to be present) in the protein, ideally at the absorption edge of each metal. A detailed description of the method, Q-XAD, is provided.
这里描述了一种方法,该方法利用 X 射线反常散射(XAD)来定量蛋白质结合部位中金属离子的混合物,并且可应用于平均质量的金属蛋白晶体。该方法已成功用于研究 R2 样配体结合氧化酶家族中一种蛋白质的特定部位金属结合,该蛋白组装了一个异双核 Mn/Fe 辅因子。虽然之前仅评估了每个金属结合部位中 Fe 和 Mn 的相对含量,但这里表明该方法可以扩展到定量至少三种不同过渡金属的相对占有率,从而实现复杂的竞争实验。可以定量的不同金属离子的数量仅受从一个晶体获得的高质量反常数据集的数量限制,因为对于存在于蛋白质中的(或据推测存在于蛋白质中的)每个过渡金属离子,都必须收集一个数据集,理想情况下是在每个金属的吸收边缘。提供了该方法 Q-XAD 的详细描述。
