Citation: ZHU Chao, LIANG Qiong-Lin, WANG Yi-Ming, LUO Guo-An, Rob J. Vreeken, Thomas Hankmeimer. Advance in Analysis and Detection Technologies for Phospholipidomics[J]. Chinese Journal of Analytical Chemistry, ;2016, 44(6): 984-993. doi: 10.11895/j.issn.0253-3820.150971
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Phospholipids, the principal constituents of cell membranes, have very important physiological functions and is closely related to human health and diseases. Therefore, comprehensive analysis of phospholipids is essential to enhance our understanding of function of phospholipids in disease process. Phospholipidomics is a phospholipids-targeted metabolomic approach which focuses on comprehensive qualitation and quantitation of phospholipids in biological system. Phospholipidomics study is carried out by the analysis and detection technologies involved in sample preparation, separation, qualitation and quantitation and data mining. In this paper, analysis and detection technologies for phospholipidomics are reviewed, providing a valuable reference for developing fast, stable, reliable, high sensitivity, high resolution, and high throughput platform technologies for phospholipidomics. The integrated investigation of phospholipidomics and other omics are proposed to promote the further development of analytical bioscience.
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[7]
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[8]
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[9]
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[10]
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[11]
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[12]
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[13]
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[14]
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[15]
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[16]
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[17]
-
[18]
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[19]
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[20]
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[21]
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[22]
-
[23]
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[24]
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[25]
-
[26]
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[27]
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[28]
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[29]
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[30]
-
[31]
-
[32]
-
[33]
-
[34]
-
[35]
-
[36]
-
[37]
-
[38]
-
[39]
-
[40]
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[41]
-
[42]
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[43]
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[44]
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[45]
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[46]
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[47]
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[48]
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[49]
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[50]
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[51]
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[52]
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[53]
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[54]
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[55]
-
[56]
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[57]
-
[58]
-
[59]
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[60]
-
[61]
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[62]
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[63]
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[64]
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[65]
-
[66]
-
[67]
-
[68]
-
[69]
-
[70]
-
[71]
-
[72]
-
[73]
-
[74]
-
[75]
-
[76]
-
[77]
-
[78]
-
[79]
-
[80]
-
[81]
-
[82]
-
[83]
-
[84]
-
[85]
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[86]
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[87]
-
[88]
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[89]
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[90]
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[91]
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[92]
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[93]
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[94]
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