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CE-MS 采用电动喷雾增强技术及其在神经递质测定中的应用。

CE-MS with electrokinetic supercharging and application to determination of neurotransmitters.

机构信息

Department of Chemistry, University of Michigan, Ann Arbor, MI, USA.

出版信息

Electrophoresis. 2019 Nov;40(22):2946-2953. doi: 10.1002/elps.201900203. Epub 2019 Oct 1.

DOI:10.1002/elps.201900203
PMID:31502303
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6947659/
Abstract

Electrokinetic supercharging (EKS) is known as one of the most effective online electrophoretic preconcentration techniques, though pairing with it with mass spectrometry has presented challenges. Here, EKS is successfully paired with ESI-MS/MS to provide a sensitive and robust method for analysis of biogenic amines in biological samples. Injection parameters including electric field strength and the buffer compositions used for the separation and focusing were investigated to achieve suitable resolution, high sensitivity, and compatibility with ESI-MS. Using EKS, the sensitivity of the method was improved 5000-fold compared to a conventional hydrodynamic injection with CZE. The separation allowed for baseline resolution of several neurotransmitters within 16 min with LODs down to 10 pM. This method was applied to targeted analysis of seven biogenic amines from rat brain stem and whole Drosophila tissue. This is the first method to use EKS with CE-ESI-MS/MS to analyze biological samples.

摘要

电动超压(EKS)是一种最有效的在线电泳浓缩技术,尽管与质谱联用存在一些挑战。在此,EKS 成功地与 ESI-MS/MS 联用,为生物样品中生物胺的分析提供了一种灵敏、稳健的方法。考察了进样参数,包括电场强度和分离及聚焦所用的缓冲液组成,以获得合适的分辨率、高灵敏度和与 ESI-MS 的兼容性。与常规的 CZE 相比,使用 EKS 使方法的灵敏度提高了 5000 倍。该分离方法在 16 分钟内实现了几种神经递质的基线分离,LOD 低至 10 pM。该方法用于从大鼠脑干和整个果蝇组织中靶向分析七种生物胺。这是首次使用 EKS 与 CE-ESI-MS/MS 分析生物样品的方法。

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