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利用质子和同步辐射X射线显微光谱法对细胞中的生物金属进行成像和形态分析。

Bio-metals imaging and speciation in cells using proton and synchrotron radiation X-ray microspectroscopy.

作者信息

Ortega Richard, Devès Guillaume, Carmona Asunción

机构信息

Cellular Chemical Imaging and Speciation Group, CNAB, CNRS UMR 5084, University of Bordeaux, 33175 Gradignan, France.

出版信息

J R Soc Interface. 2009 Oct 6;6 Suppl 5(Suppl 5):S649-58. doi: 10.1098/rsif.2009.0166.focus. Epub 2009 Jul 15.

Abstract

The direct detection of biologically relevant metals in single cells and of their speciation is a challenging task that requires sophisticated analytical developments. The aim of this article is to present the recent achievements in the field of cellular chemical element imaging, and direct speciation analysis, using proton and synchrotron radiation X-ray micro- and nano-analysis. The recent improvements in focusing optics for MeV-accelerated particles and keV X-rays allow application to chemical element analysis in subcellular compartments. The imaging and quantification of trace elements in single cells can be obtained using particle-induced X-ray emission (PIXE). The combination of PIXE with backscattering spectrometry and scanning transmission ion microscopy provides a high accuracy in elemental quantification of cellular organelles. On the other hand, synchrotron radiation X-ray fluorescence provides chemical element imaging with less than 100 nm spatial resolution. Moreover, synchrotron radiation offers the unique capability of spatially resolved chemical speciation using micro-X-ray absorption spectroscopy. The potential of these methods in biomedical investigations will be illustrated with examples of application in the fields of cellular toxicology, and pharmacology, bio-metals and metal-based nano-particles.

摘要

在单细胞中直接检测具有生物学相关性的金属及其形态是一项具有挑战性的任务,需要先进的分析技术发展。本文的目的是介绍利用质子和同步辐射X射线微纳分析在细胞化学元素成像和直接形态分析领域的最新成果。用于兆电子伏特加速粒子和千电子伏特X射线的聚焦光学器件的最新改进使得其能够应用于亚细胞区室的化学元素分析。单细胞中微量元素的成像和定量可通过粒子诱导X射线发射(PIXE)获得。PIXE与背散射光谱法和扫描透射离子显微镜相结合,可在细胞器元素定量分析中提供高精度。另一方面,同步辐射X射线荧光提供空间分辨率小于100纳米的化学元素成像。此外,同步辐射还具有利用微X射线吸收光谱进行空间分辨化学形态分析的独特能力。这些方法在生物医学研究中的潜力将通过细胞毒理学、药理学、生物金属和金属基纳米颗粒等领域的应用实例加以说明。

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