Kurczy M E, Piehowski P D, Parry S A, Jiang M, Chen G, Ewing A G, Winograd Nicholas
Department of Chemistry, Penn State University, 104 Chemistry Building, University Park, PA 16802, United States.
Appl Surf Sci. 2008 Dec 15;255(4):1298-1304. doi: 10.1016/j.apsusc.2008.05.139.
Sample preparation is central to acquiring meaningful molecule-specific images with SIMS, especially when submicron lateral resolution is involved. The issue is to maintain the distribution of target molecules while attempting to introduce biological cells or tissue into the high vacuum environment of the mass spectrometer. Here we compare freeze-drying, freeze-etching, freeze-fracture and trehalose vitrification as possible strategies for these experiments. The results show that the prospects for successful imaging experiments are greatly improved with all of these methods when using cluster ion bombardment, particularly C(60) (+) ions, not only due to increased sensitivity of this projectiles, but also since it removes contamination overlayers without insult to the underlying chemistry. The emergence of 3-dimensional imaging capabilities also suggests that sample preparation should not perturb the 3-dimensional morphology of the cell, a situation not generally possible during freeze-drying. Hence, sample preparation and projectile type are strongly coupled parameters for bioimaging with mass spectrometry.
样品制备对于利用二次离子质谱(SIMS)获取有意义的分子特异性图像至关重要,尤其是在涉及亚微米横向分辨率时。问题在于,在试图将生物细胞或组织引入质谱仪的高真空环境时,要保持目标分子的分布。在此,我们比较了冷冻干燥、冷冻蚀刻、冷冻断裂和海藻糖玻璃化作为这些实验的可能策略。结果表明,当使用簇离子轰击,特别是C(60) (+)离子时,所有这些方法都能大大提高成功成像实验的前景,这不仅是因为这种射弹的灵敏度提高,还因为它能去除污染覆盖层而不损害底层化学性质。三维成像能力的出现还表明,样品制备不应干扰细胞的三维形态,而这在冷冻干燥过程中通常是不可能的。因此,对于质谱生物成像而言,样品制备和射弹类型是紧密相关的参数。