An alternative and fast method for the analysis of a mixture of nine triazines herbicides in soil is presented. The method is based on MAE (microwave-assisted extraction) of herbicides using ethyl acetate as extract...An alternative and fast method for the analysis of a mixture of nine triazines herbicides in soil is presented. The method is based on MAE (microwave-assisted extraction) of herbicides using ethyl acetate as extractant. The economy in the use of solvents coupled with the decrease in extraction time and lower power consumption make MAE a technique that meets the principles of green chemistry. MAE operational parameters, extraction time, mass of the sample and extraction temperature, were optimized by RSM (response surface methodology). Determination of analytes was completed using gas chromatograph coupled to mass spectrometry detection. The selected triazines could be efficiently extracted by the solvent at 80 ℃ for 10 min, with 80% output of maximum power. When the optimized method was applied to analysis samples, the recoveries of analytes ranged from 81.8 to 106.0% and relative standard deviations were lower than 8.41%. The method is stable and reasonable, which can be used for the determination of ninetriazine herbicides residues in soil.展开更多
A multiplexed targeted proteomic assay using a mTRAQ-MRM/MS-based approach was developed and assessed to systematically quantify the relative expressions of five candidate plasma apolipoproteins that have been previou...A multiplexed targeted proteomic assay using a mTRAQ-MRM/MS-based approach was developed and assessed to systematically quantify the relative expressions of five candidate plasma apolipoproteins that have been previously shown to be dysregulated in neuropsychiatric disorders and cognitive dysfunction:apolipoprotein H(APOH),apolipoprotein J(APOJ),apolipoprotein A4(APOA4),apolipoprotein E(APOE),and apolipoprotein D(APOD).The peptides and transitions of each APO were carefully selected according to the tandem MS signals acquired on a TripleTOFTM 5600,followed by optimization of the declustering potential and collision energy voltages for transitions on a QTRAP 5500.Our results showed that the collision energies of mTRAQ-labeled peptides were approximately 15%–20%higher than corresponding non-labeled peptides.Through optimized transitions and parameters,we analyzed the relative abundances of the five APOs in human plasma with and without depletion of high abundant proteins.The results indicated that the MRM signals of four target APOs were significantly increased after depletion,while the MRM signal of one APO,APOD,was decreased.Furthermore,the relative abundances of the five target APOs in healthy human plasma were stable,and the ranking of these proteins according to their MS responses changed slightly.Therefore,we deduced that the rank order of the MS signals for these target proteins can be developed as a diagnostic signature for diseased plasma.展开更多
文摘An alternative and fast method for the analysis of a mixture of nine triazines herbicides in soil is presented. The method is based on MAE (microwave-assisted extraction) of herbicides using ethyl acetate as extractant. The economy in the use of solvents coupled with the decrease in extraction time and lower power consumption make MAE a technique that meets the principles of green chemistry. MAE operational parameters, extraction time, mass of the sample and extraction temperature, were optimized by RSM (response surface methodology). Determination of analytes was completed using gas chromatograph coupled to mass spectrometry detection. The selected triazines could be efficiently extracted by the solvent at 80 ℃ for 10 min, with 80% output of maximum power. When the optimized method was applied to analysis samples, the recoveries of analytes ranged from 81.8 to 106.0% and relative standard deviations were lower than 8.41%. The method is stable and reasonable, which can be used for the determination of ninetriazine herbicides residues in soil.
基金supported by the National Basic Research Program of China(2009CB918300)the National Natural Science Foundation of China(31271189 and 81101009)
文摘A multiplexed targeted proteomic assay using a mTRAQ-MRM/MS-based approach was developed and assessed to systematically quantify the relative expressions of five candidate plasma apolipoproteins that have been previously shown to be dysregulated in neuropsychiatric disorders and cognitive dysfunction:apolipoprotein H(APOH),apolipoprotein J(APOJ),apolipoprotein A4(APOA4),apolipoprotein E(APOE),and apolipoprotein D(APOD).The peptides and transitions of each APO were carefully selected according to the tandem MS signals acquired on a TripleTOFTM 5600,followed by optimization of the declustering potential and collision energy voltages for transitions on a QTRAP 5500.Our results showed that the collision energies of mTRAQ-labeled peptides were approximately 15%–20%higher than corresponding non-labeled peptides.Through optimized transitions and parameters,we analyzed the relative abundances of the five APOs in human plasma with and without depletion of high abundant proteins.The results indicated that the MRM signals of four target APOs were significantly increased after depletion,while the MRM signal of one APO,APOD,was decreased.Furthermore,the relative abundances of the five target APOs in healthy human plasma were stable,and the ranking of these proteins according to their MS responses changed slightly.Therefore,we deduced that the rank order of the MS signals for these target proteins can be developed as a diagnostic signature for diseased plasma.
