Jarvis Michael J Y, Koyanagi Gregory K, Zhao Xiang, Covey Thomas R, Bohme Diethard K
Department of Chemistry, Centre for Research in Mass Spectrometry, York University, Toronto, ON, Canada.
Anal Chem. 2007 Jun 1;79(11):4006-12. doi: 10.1021/ac062369y. Epub 2007 May 8.
The kinetics and product distributions of the reactions of dimethyl disulfide (DMDS) have been investigated with a group of chemical background ions commonly observed in atmospheric pressure ionization (API) mass spectrometry (MS) in order to assess the value of this molecule in filtering (or "scrubbing") these ions by changing their mass/charge (m/z) ratio. The measurements were taken with a novel electrospray ionization/selected ion flow tube/QqQ tandem mass spectrometer. The background ions studied include those with m/z 42 (protonated acetonitrile, ACN), 83 (protonated ACN dimer), 99 (protonated phosphoric acid), 117 (water cluster of m/z 99), 131 (methanol cluster of m/z 99), 149 (protonated phthalic anhydride, formed from the phthalates), and 327 (protonated triphenyl phosphate). In addition, reactions of DMDS have been studied with two model analytes--protonated caffeine and doubly protonated bradykinin--in order to assess the selectivity of DMDS reactivity. All the measurements were taken at 295 +/- 2 K in helium buffer gas at a pressure of 0.35 +/- 0.01 Torr. DMDS was observed to react efficiently with m/z 42 (ACNH+), 149 (from phthalates), and 99 (protonated phosphoric acid), with k/kc=0.91, 0.47, and 0.38, respectively. Only proton transfer was observed with ACNH+, followed by the secondary reaction of [DMDSH]+ with DMDS to yield [CH3S-S(CH3)-SCH3]+. Ligation of DMDS was the dominant primary channel observed for the reaction of the m/z 149 background ion; however, some proton transfer also was observed. Both of these primary product ions react further with DMDS to yield [CH3S-S(CH3)-SCH3]+, the structure of which we have determined computationally using DFT calculations. Only the sequential ligation with two DMDS molecules was observed for the reaction of the m/z 99 ion. Reactions of DMDS with m/z 117 [H3PO4 + H + H2O]+ and m/z 131 [H3PO4 + H + MeOH]+ were observed to proceed with k/kc=0.71 and 0.058, respectively. Ligand substitution of DMDS for H2O predominated ( approximately 94%) over DMDS ligation ( approximately 6%) in the reaction with m/z 117, while only DMDS ligation was observed for the reaction of m/z 131 with DMDS. In contrast, the reactions of DMDS with ions of m/z 83 (protonated dimer of ACN) and 327 (protonated triphenyl phosphate) were extremely inefficient, with k/kc=0.0042 and 0.0079, respectively. The higher reactivity of DMDS toward ACNH+ (m/z 42) compared to (ACN)2H+ (m/z 83) is attributed to the lower proton affinity of the unsolvated ACN. The reactivity of DMDS toward the two model analyte ions studied-protonated caffeine and doubly protonated bradykinin-was negligible, with k/kc=0.0073 and 0.010, for the respective reactions. These results suggest that, under appropriate reagent pressure conditions, DMDS can be an appropriate reagent for chemically filtering out many common API-MS background ions, without significantly affecting the observed intensity of analyte peaks.
为了评估二甲基二硫醚(DMDS)通过改变其质荷比(m/z)来过滤(或“洗涤”)这些离子的价值,研究了DMDS与大气压电离(API)质谱(MS)中常见的一组化学背景离子的反应动力学和产物分布。使用新型电喷雾电离/选择离子流管/QqQ串联质谱仪进行测量。所研究的背景离子包括质荷比为42(质子化乙腈,ACN)、83(质子化ACN二聚体)、99(质子化磷酸)、117(质荷比为99的水簇)、131(质荷比为99的甲醇簇)、149(质子化邻苯二甲酸酐,由邻苯二甲酸盐形成)和327(质子化磷酸三苯酯)的离子。此外,还研究了DMDS与两种模型分析物——质子化咖啡因和双质子化缓激肽——的反应,以评估DMDS反应的选择性。所有测量均在295±2K的氦缓冲气体中进行,压力为0.35±0.01托。观察到DMDS与质荷比为42(ACNH⁺)、149(来自邻苯二甲酸盐)和99(质子化磷酸)有效反应,k/kc分别为0.91、0.47和0.38。与ACNH⁺反应时仅观察到质子转移,随后[DMDSH]⁺与DMDS发生二级反应生成[CH₃S - S(CH₃)-SCH₃]⁺。对于质荷比为149的背景离子反应,观察到DMDS的连接是主要的初级通道;然而,也观察到了一些质子转移。这两种初级产物离子都与DMDS进一步反应生成[CH₃S - S(CH₃)-SCH₃]⁺,我们已使用密度泛函理论(DFT)计算通过计算确定了其结构。对于质荷比为99的离子反应,仅观察到与两个DMDS分子的顺序连接。观察到DMDS与质荷比为117的[H₃PO₄ + H + H₂O]⁺和质荷比为131的[H₃PO₄ + H + MeOH]⁺反应的k/kc分别为0.71和0.058。在与质荷比为117的反应中,DMDS取代H₂O的配体取代占主导(约94%),而DMDS连接占比约为6%,而对于质荷比为131与DMDS的反应,仅观察到DMDS连接。相比之下,DMDS与质荷比为83(ACN质子化二聚体)和327(质子化磷酸三苯酯)的离子反应效率极低,k/kc分别为0.0042和0.0079。与(ACN)₂H⁺(质荷比为83)相比,DMDS对ACNH⁺(质荷比为42)的反应性更高,这归因于未溶剂化的ACN较低的质子亲和力。DMDS与所研究的两种模型分析物离子——质子化咖啡因和双质子化缓激肽——的反应性可忽略不计,相应反应的k/kc分别为0.0073和0.010。这些结果表明,在适当的试剂压力条件下,并对ACNH⁺(质荷比为42)进行化学过滤,DMDS可以是一种合适的试剂,用于化学过滤掉许多常见的API - MS背景离子,而不会显著影响分析物峰的观察强度。
