机构地区:[1]Pharmacy College, Dalian Medical University, Dalian 116044, P. R. China [2]The Second Hospital of Dalian City, Dalian 116011, R R. China [3]Key Lab of Separation Science for Analytical Chemistry, Dalian Institute of Chemical Physics Chinese Academy of Sciences, Dalian 116023, P R. China
出 处:《Chemical Research in Chinese Universities》2015年第1期44-52,共9页高等学校化学研究(英文版)
基 金:Supported by the National Natural Science Foundation of China(Nos.21105100, 21105007, 21475129), the Dalian Science and Technology Project, China(No.2012E15SF145) and the Natural Science Foundation of Liaoning Province, China (No.201202054).
摘 要:Detection and determination of multi-phosphopeptides from protein digestion products are difficult due to the low abundance and ion-suppression effect arised from the existence of their high-abundance counterparts. Click OEG-CD[olio(ethylene glycol)(OEG) linked β-cyclodextrin(CD)] matrix has shown excellent performance in phosphopeptide enrichment. However, few multi-phosphopeptides were detected previously. In this investigation, an improved method aiming at enhancing the enrichment selectivity and mass spectrometry(MS) detection of multi-phosphopeptide was developed via optimizing the sample loading amount on per mg of matrix. Mass spectra were obtained on a Nano liquid chromatography-electrospray ionization-quadrupole time of flight-mass spectrometry (LC-ESI-qTOF-MS). The enrichment selectivity of double-phosphopeptide could be enhanced with the increase of loading amount on per mg of matrix when taking the mixture of mono-, double-, and non-phosphopeptides as probe. Furthermore, the multi-phosphopeptide enrichment selectivity was enhanced under the condition of optimized loading amount when taking the product of typtic digestion a-casein as test sample. When the loading amount was 573 pmol/mg matrix, up to 20 a-casein phosphopeptide signals(including 15 multi-phosphopeptides) were detected. The result is much better than that of our previous report. The reduction of ion-suppression effect arised from the existence of high-abundance non- or mono-phosphopeptides and the stronger interactions between multiphosphopepides and the matrix were contributed to the result. The study could be helpful to the better utilization of Click OEG-CD matrix in the enrichment of multi-phosphopeptide from complex biosamples in the subsequent investigation.Detection and determination of multi-phosphopeptides from protein digestion products are difficult due to the low abundance and ion-suppression effect arised from the existence of their high-abundance counterparts. Click OEG-CD[olio(ethylene glycol)(OEG) linked β-cyclodextrin(CD)] matrix has shown excellent performance in phosphopeptide enrichment. However, few multi-phosphopeptides were detected previously. In this investigation, an improved method aiming at enhancing the enrichment selectivity and mass spectrometry(MS) detection of multi-phosphopeptide was developed via optimizing the sample loading amount on per mg of matrix. Mass spectra were obtained on a Nano liquid chromatography-electrospray ionization-quadrupole time of flight-mass spectrometry (LC-ESI-qTOF-MS). The enrichment selectivity of double-phosphopeptide could be enhanced with the increase of loading amount on per mg of matrix when taking the mixture of mono-, double-, and non-phosphopeptides as probe. Furthermore, the multi-phosphopeptide enrichment selectivity was enhanced under the condition of optimized loading amount when taking the product of typtic digestion a-casein as test sample. When the loading amount was 573 pmol/mg matrix, up to 20 a-casein phosphopeptide signals(including 15 multi-phosphopeptides) were detected. The result is much better than that of our previous report. The reduction of ion-suppression effect arised from the existence of high-abundance non- or mono-phosphopeptides and the stronger interactions between multiphosphopepides and the matrix were contributed to the result. The study could be helpful to the better utilization of Click OEG-CD matrix in the enrichment of multi-phosphopeptide from complex biosamples in the subsequent investigation.
关 键 词:Click OEG-CD[olio(ethylene glycol)(OEG) linked β-cyclodextrin(CD)] matrix Multi-phosphopeptide enrichment MS detection
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