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生物膜的高空间分辨率二次离子质谱成像

Secondary ion mass spectrometry imaging of biological membranes at high spatial resolution.

作者信息

Klitzing Haley A, Weber Peter K, Kraft Mary L

机构信息

Department of Chemistry, University of Illinois, Urbana, IL, USA.

出版信息

Methods Mol Biol. 2013;950:483-501. doi: 10.1007/978-1-62703-137-0_26.

Abstract

Characterization of the distributions of specific proteins and lipids within cellular membranes is currently a major challenge. Advances in secondary ion mass spectrometry (SIMS) now enable the distributions of isotopically labeled lipids within cellular or model membranes to be imaged with chemical specificity and high (≥50 nm) lateral resolution. Here, methods to image the distributions of sphingolipids within the membranes of intact cells with a Cameca NanoSIMS are described. For NanoSIMS detection, the incorporation of distinct stable isotopes into the lipid species of interest is essential. Metabolic labeling, cell preservation, imaging conditions, and data analysis are critical factors. The methods and principles described here can be extended to studying other membrane lipids or cholesterol.

摘要

目前,表征细胞膜内特定蛋白质和脂质的分布是一项重大挑战。二次离子质谱(SIMS)技术的进步使得能够以化学特异性和高(≥50 nm)横向分辨率对细胞或模型膜内同位素标记脂质的分布进行成像。本文描述了使用Cameca NanoSIMS对完整细胞膜内鞘脂分布进行成像的方法。对于NanoSIMS检测,将不同的稳定同位素掺入感兴趣的脂质种类中至关重要。代谢标记、细胞保存、成像条件和数据分析是关键因素。本文所述的方法和原理可扩展到研究其他膜脂或胆固醇。

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