基于光栅模式的连续流动液体微萃取-质谱成像技术在薄组织切片中蛋白质分析的应用

Raster-Mode Continuous-Flow Liquid Microjunction Mass Spectrometry Imaging of Proteins in Thin Tissue Sections.

机构信息

School of Biosciences, University of Birmingham , Edgbaston, Birmingham B15 2TT, U.K.

PSIBS Doctoral Training Centre, University of Birmingham , Edgbaston, Birmingham B15 2TT, U.K.

出版信息

Anal Chem. 2017 Jun 6;89(11):5683-5687. doi: 10.1021/acs.analchem.7b00977. Epub 2017 May 16.

DOI:10.1021/acs.analchem.7b00977

PMID:28492310

Abstract

Mass spectrometry imaging by use of continuous-flow liquid microjunction sampling at discrete locations (array mode) has previously been demonstrated. In this Letter, we demonstrate continuous-flow liquid microjunction mass spectrometry imaging of proteins from thin tissue sections in raster mode and discuss advantages (a 10-fold reduction in analysis time) and challenges (suitable solvent systems, data interpretation) of the approach. Visualization of data is nontrivial, requiring correlation of solvent-flow, mass spectral data acquisition rate, data quality, and liquid microjunction sampling area. The latter is particularly important for determining optimum pixel size. The minimum achievable pixel size is related to the scan time of the instrument used. Here we show a minimum achievable pixel size of 50 μm (x-dimension) when using an Orbitrap Elite; however a pixel size of 600 μm is recommended in order to minimize the effects of oversampling on image accuracy.

摘要

连续流动液相微萃取在离散位置（阵列模式）的质谱成像已经得到了证实。在本研究中，我们展示了基于连续流动液相微萃取的组织切片中蛋白质的质谱成像分析（光栅模式），并讨论了该方法的优点（分析时间缩短了 10 倍）和挑战（合适的溶剂体系、数据解释）。数据的可视化并非易事，需要对溶剂流、质谱数据采集速率、数据质量和液相微萃取采样区域进行相关处理。后者对于确定最佳像素尺寸尤为重要。最小可达到的像素尺寸与所使用的仪器的扫描时间有关。这里我们展示了当使用 Orbitrap Elite 时最小可达像素尺寸为 50μm（x 维度），但为了最小化过采样对图像精度的影响，推荐使用 600μm 的像素尺寸。

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基于光栅模式的连续流动液体微萃取-质谱成像技术在薄组织切片中蛋白质分析的应用

Raster-Mode Continuous-Flow Liquid Microjunction Mass Spectrometry Imaging of Proteins in Thin Tissue Sections.

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