激光喷雾进样技术对鼠脑组织切片中神经节苷脂的定位和成像。
Localization and imaging of gangliosides in mouse brain tissue sections by laserspray ionization inlet.
机构信息
Department of Chemistry, Wayne State University, Detroit, MI 48202, USA.
出版信息
J Lipid Res. 2012 Jul;53(7):1390-8. doi: 10.1194/jlr.D019711. Epub 2012 Jan 18.
Abstract
A new ionization method for the analysis of fragile gangliosides without undesired fragmentation or salt adduction is presented. In laserspray ionization inlet (LSII), the matrix/analyte sample is ablated at atmospheric pressure, and ionization takes place in the ion transfer capillary of the mass spectrometer inlet by a process that is independent of a laser wavelength or voltage. The softness of LSII allows the identification of gangliosides up to GQ1 with negligible sialic acid loss. This is of importance to the field of MS imaging, as undesired fragmentation has made it difficult to accurately map the spatial distribution of fragile ganglioside lipids in tissue. Proof-of-principle structural characterization of endogenous gangliosides using MS(n) fragmentation of multiply charged negative ions on a LTQ Velos and subsequent imaging of the GD1 ganglioside is demonstrated. This is the first report of multiply charged negative ions using inlet ionization. We find that GD1 is detected at higher levels in the mouse cortex and hippocampus compared with the thalamus. In LSII with the laser aligned in transmission geometry relative to the inlet, images were obtained in approximately 60 min using an inexpensive nitrogen laser.
摘要
介绍了一种新的电离方法,用于分析脆弱神经节苷脂,避免了不希望的片段化或盐加合。在激光喷雾电离入口(LSII)中,基质/分析物样品在大气压下被烧蚀,并且在质谱仪入口的离子转移毛细管中通过与激光波长或电压无关的过程发生电离。LSII 的柔软性允许鉴定高达 GQ1 的神经节苷脂,而几乎没有唾液酸损失。这对于 MS 成像领域非常重要,因为不希望的片段化使得难以准确地在组织中映射脆弱神经节苷脂脂质的空间分布。使用 LTQ Velos 上的多重电荷负离子的 MS(n) 碎裂对内源性神经节苷脂进行原理验证结构表征,并随后对 GD1 神经节苷脂进行成像。这是首次报告使用入口电离的多重电荷负离子。我们发现与丘脑相比,GD1 在小鼠皮层和海马中的检测水平更高。在相对于入口以透射几何形状排列激光的 LSII 中,使用廉价的氮气激光可以在大约 60 分钟内获得图像。
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