Selective determination of pyridine alkaloids in tobacco by PFTBA ions/analyte molecule reaction ionization ion trap mass spectrometry

Zhang, Jianxun; Houwei, JI; Sun, Shasha; Mao, Duobin; Liu, Huwei; Guo, Yinlong

doi:10.1016/j.jasms.2007.07.017

Cited by 15 publications

(11 citation statements)

References 31 publications

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“…Ion-molecule reactions can be fast, efficient, and highly specific, properties which often are paramount to molecular characterization experiments. Ion-molecule reactions have been used for isomer differentiation [11][12][13][14], functional group identification [15][16][17][18][19][20], and detailed structural elucidation [21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Comparison of Functional Group Selective Ion–Molecule Reactions of Trimethyl Borate in Different Ion Trap Mass Spectrometers

Habicht

Vinueza

Amundson

et al. 2011

J. Am. Soc. Mass Spectrom.

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We report here a comparison of the use of diagnostic ion-molecule reactions for the identification of oxygen-containing functional groups in Fourier-transform ion cyclotron resonance (FTICR) and linear quadrupole ion trap (LQIT) mass spectrometers. The ultimate goal of this research is to be able to identify functionalities in previously unknown analytes by using many different types of mass spectrometers. Previous work has focused on the reactions of various boron reagents with protonated oxygen-containing analytes in FTICR mass spectrometers. By using a LQIT modified to allow the introduction of neutral reagents into the helium buffer gas, this methodology has been successfully implemented to this type of an ion trap instrument. The products obtained from the reactions of trimethyl borate (TMB) with various protonated analytes are compared for the two instruments. Finally, the ability to integrate these reactions into LC-MS experiments on the LQIT is demonstrated.

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Section: Introductionmentioning

confidence: 99%

Comparison of Functional Group Selective Ion–Molecule Reactions of Trimethyl Borate in Different Ion Trap Mass Spectrometers

Habicht

Vinueza

Amundson

et al. 2011

J. Am. Soc. Mass Spectrom.

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“…The demand for fast, highly selective and sensitive ionmolecule reactions in analytical applications stimulated researchers' interest in searching for new alternative reagents used for such purposes [20,21]. Many unusual reagents, such as 1, 2-dibromoethane [22,23], methyl iodide [24], furan [25,26], tetrahydrofuran [27], dimethyl carbonate [28], ethers [29][30][31], HOO - [32], and PFTBA [33,34], have been developed and successfully utilized for the qualification and quantitation of compounds in complex matrices.…”

Section: Introductionmentioning

confidence: 99%

“…The analytical strategy coupling ion-molecule reactions with GC-MS is an alternative means for qualitative and quantitative analysis of organic compounds especially in complex matrices, enhancing the sensitivity and specificity of determination [35][36][37][38][39]. Recently, selective determination of pyridine alkaloids in tobacco was achieved by using PFTBA ions/analyte molecule reaction/ionization with ion trap mass spectrometry (ITMS) [33]. As a continuous effort in exploring the new type fast and structurally diagnostic ion-molecule reactions for qualitative analysis of small volatile compounds, we are searching for the fast and suitable electron-deficient reaction reagent ion towards these volatile compounds eluted from gas chromatography.…”

Section: Introductionmentioning

confidence: 99%

Gas Chromatographic-Ion Trap Mass Spectrometric Analysis of Volatile Organic Compounds by Ion–Molecule Reactions Using the Electron-Deficient Reagent Ion CCl₃⁺

Wang

et al. 2011

J. Am. Soc. Mass Spectrom.

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When using tetrachloromethane as the reagent gas in gas chromatography-ion trap mass spectrometry equipped with hybrid ionization source, the cation CCl(3)(+) was generated in high abundance and further gas-phase experiments showed that such an electron-deficient reagent ion CCl(3)(+) could undergo interesting ion-molecule reactions with various volatile organic compounds, which not only present some informative gas-phase reactions, but also facilitate qualitative analysis of diverse volatile compounds by providing unique mass spectral data that are characteristic of particular chemical structures. The ion-molecule reactions of the reagent ion CCl(3)(+) with different types of compounds were studied, and results showed that such reactions could give rise to structurally diagnostic ions, such as [M+CCl(3) - HCl](+) for aromatic hydrocarbons, [M - OH](+) for saturated cyclic ether, ketone, and alcoholic compounds, [M - H](+) ion for monoterpenes, M(·+) for sesquiterpenes, [M - CH(3)CO](+) for esters, as well as the further fragment ions. The mechanisms of ion-molecule reactions of aromatic hydrocarbons, aliphatic ketones and alcoholic compounds with the reagent ion CCl(3)(+) were investigated and proposed according to the information provided by MS/MS experiments and theoretical calculations. Then, this method was applied to study volatile organic compounds in Dendranthema indicum var. aromaticum and 20 compounds, including monoterpenes and their oxygen-containing derivatives, aromatic hydrocarbon and sesquiterpenes were identified using such ion-molecule reactions. This study offers a perspective and an alternative tool for the analysis and identification of various volatile compounds.

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“…We have studied the gas‐phase reactions of pyridine with fluorine‐containing cations generated from EI of perfluorotributylamine (PFTBA) by Fourier transform ion cyclotron resonance mass spectrometry (FTICRMS) . We have also used the reaction between these PFTBA ions and analytes to selectively determine the pyridine alkaloids in tobacco by ion trap mass spectrometry (ITMS) . Recently, we investigated the analysis of VOCs via gas‐phase reactions of analytes with the electron‐deficient reagent ion CCl 3 + by ITMS …”

mentioning

confidence: 99%

“…[7] We have also used the reaction between these PFTBA ions and analytes to selectively determine the pyridine alkaloids in tobacco by ion trap mass spectrometry (ITMS). [8] Recently, we investigated the analysis of VOCs via gas-phase reactions of analytes with the electron-deficient reagent ion CCl 3 + by ITMS. [9] Various mass spectrometric methods based on gas-phase reactions have been developed including proton transfer reactions (PTR), charge transfer (CT), photon ionization (PI), and gas-phase condensation or transformation reactions between the reacting ion and the analyte.…”

mentioning

confidence: 99%

Determination of hazardous volatile organic compounds in the Hoffmann list by ion‐molecule reaction mass spectrometry

Wang

Xie

Chen

et al. 2012

Rapid Comm Mass Spectrometry

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The IMR-MS technique can potentially result in reduced molecular fragmentation during analysis of VOCs. However, significant fragmentation still occurs during IMR-MS when the ionization energy (IE) of the ion reagent is much higher than the IE of the VOC, given that excess energy is stored in the newly formed ion during CT ionization. Given that IMR-MS cannot distinguish between isobaric compounds or isomers, we summarize the possible overlapping mass peaks from these isobaric species that may be present in analyses of VOCs. Selection of the ion reagent for IMR-MS should be based on the need to ensure CT ionization of the analytes, as well as avoiding their severe fragmentation.

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Selective determination of pyridine alkaloids in tobacco by PFTBA ions/analyte molecule reaction ionization ion trap mass spectrometry

Cited by 15 publications

References 31 publications

Comparison of Functional Group Selective Ion–Molecule Reactions of Trimethyl Borate in Different Ion Trap Mass Spectrometers

Comparison of Functional Group Selective Ion–Molecule Reactions of Trimethyl Borate in Different Ion Trap Mass Spectrometers

Gas Chromatographic-Ion Trap Mass Spectrometric Analysis of Volatile Organic Compounds by Ion–Molecule Reactions Using the Electron-Deficient Reagent Ion CCl₃⁺

Determination of hazardous volatile organic compounds in the Hoffmann list by ion‐molecule reaction mass spectrometry

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Selective determination of pyridine alkaloids in tobacco by PFTBA ions/analyte molecule reaction ionization ion trap mass spectrometry

Cited by 15 publications

References 31 publications

Comparison of Functional Group Selective Ion–Molecule Reactions of Trimethyl Borate in Different Ion Trap Mass Spectrometers

Comparison of Functional Group Selective Ion–Molecule Reactions of Trimethyl Borate in Different Ion Trap Mass Spectrometers

Gas Chromatographic-Ion Trap Mass Spectrometric Analysis of Volatile Organic Compounds by Ion–Molecule Reactions Using the Electron-Deficient Reagent Ion CCl3+

Determination of hazardous volatile organic compounds in the Hoffmann list by ion‐molecule reaction mass spectrometry

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Gas Chromatographic-Ion Trap Mass Spectrometric Analysis of Volatile Organic Compounds by Ion–Molecule Reactions Using the Electron-Deficient Reagent Ion CCl₃⁺