X-ray Photoelectron Spectroscopy as an Effective Biomolecular Binding Site Probe

C. C. Chusuei
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Abstract

X-ray photoelectron spectroscopy (XPS) is a versatile surface characterization tool capable of probing adsorbate structure at the topmost 100 Å layers of solid surfaces [1], and can serve as a useful biomolecular binding site probe. Although analysis is performed under conditions where equilibrium is interrupted at the solid-aqueous solution interface, insight into the biomolecular interactions at the interface can still be obtained. In particular, the technique is effective for quantifying the degree of Pb(II) binding to protein structures and antioxidants, important for understanding the metal ion’s interactions with protein structures [2], and developing therapeutic agents for lead poisoning [3], respectively. Also, XPS can effectively be used to measure the relative number of surface binding sites on metal oxide nanoparticulates to which extracellular material can attach, important for evaluating the cytotoxicity of various, 4th period transition metal oxide nanoparticles [4].
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x射线光电子能谱作为一种有效的生物分子结合位点探针
x射线光电子能谱(XPS)是一种多功能的表面表征工具,能够探测固体表面[1]最顶层100 Å层的吸附质结构,可以作为一种有用的生物分子结合位点探针。虽然分析是在固水界面平衡被打断的条件下进行的,但对界面上生物分子相互作用的了解仍然可以得到。特别是,该技术可以有效地量化Pb(II)与蛋白质结构和抗氧化剂的结合程度,对了解金属离子与蛋白质结构[2]的相互作用以及开发铅中毒[3]的治疗剂具有重要意义。此外,XPS可以有效地测量细胞外物质可以附着的金属氧化物纳米颗粒表面结合位点的相对数量,这对于评估各种第四周期过渡金属氧化物纳米颗粒[4]的细胞毒性非常重要。
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