电感耦合等离子体质谱技术最新进展

对1998年以来电感耦合等离子体质谱技术（ICP－MS）的最新进展作一简要回顾。内容包括同位素比值分析、双聚焦扇形磁场高分辨ICP－MS、多接收器磁扇形等离子体质谱仪（MC－ICP－MS）、飞行时间等离子体质谱仪（ICP－TOF－MS）、“冷”等离子体及屏蔽炬技术以及动态碰撞／反应池技术等进展。     

聚甘油脂肪酸酯的结构鉴定

该文采用傅里叶变换离子回旋共振质谱（FT－ICR－MS）、核磁共振氢谱（1H NMR）以及气相色谱－质谱（GC－MS）技术,对聚甘油脂肪酸酯的结构进行鉴定。样品溶解后进行FT－ICR－MS测定,根据精确分子离子数据,推测出聚甘油脂肪酸酯的基本结构以及甘油的聚合度,并采用1H NMR进行了验证。将聚甘油脂肪酸酯水解后,对脂肪酸部分进行甲酯化,经正庚烷萃取,由GC－MS测定,分析脂肪酸的组成。综合以上结果最终确定了聚甘油脂肪酸酯的结构。该研究为聚合物的结构鉴定提供了一种新的思路和方法。     

蛋白质非共价化合物的电喷雾质谱研究

介绍了近几年来利用电喷雾离子化质谱技术研究蛋白质的基本构象及蛋白质非共价化合物的基本化学信息的进展。许多研究表明,电喷雾质谱在研究蛋白质的复杂结构和功能方面有十分广阔的前景。文中列举了若干实例说明了电喷雾离子化质谱技术在分析蛋白质非共价化合物的应用和一般方法。     

复杂样品质谱分析技术的原理与应用

原位、实时、在线、非破坏、高通量、低耗损的质谱学方法是质谱分析技术发展的重要趋势.在无需样品预处理的条件下对复杂基体样品中痕量待测物直接离子化技术的出现,极大地提高了质谱分析的效率,使实际样品的快速质谱分析成为可能.本文着重综述了能够在无需样品预处理情况下对复杂基体样品离子化的新兴质谱技术及其应用研究,系统阐述了直接离子化技术的基本原理和方法,介绍了几种典型的常压直接离子化技术和装置,对直接离子化质谱分析技术在食品、药品、环境、活体分析、代谢组学、蛋白质组学以及生物组织质谱成像等领域的典型应用进行了述评,讨论了提高复杂样品快速质谱分析选择性的可能方法,并展望了常压直接离子化技术未来发展的可能趋势.     

碳纤维离子化质谱技术的研究与应用

碳纤维离子化技术是一种新型敞开式质谱技术,可在开放式大气压环境下对各种形态的样品或样品表面物质进行检测,其分析成本低、通量高、简便、实时、快速,简化了工作流程,降低了样品的基质效应。该文从碳纤维离子化质谱技术的原理出发,介绍了影响其电离效率的主要因素,如碳纤维形态、碳纤维温度、碳纤维上所加电压、碳纤维与离子进样口的距离以及样品添加的方式,并对该技术近几年的改进和发展,及其在食品药品、法医毒物及生物样品、品种鉴别和环境分析等领域的应用进行了综述,详细介绍了其特点和优势。最后讨论了碳纤维离子化质谱技术存在的不足,以及未来可能的研究方向。     

敞开式离子化质谱技术及其在微生物分析中的应用

敞开式离子化质谱(Ambient ionization mass spectrometry,AI-MS)是近年来兴起的质谱分析技术,可在敞开的大气环境下实现离子化,无需或只需少许样品前处理步骤,具有实时、简便、快速、高通量等诸多优点。近年来AI-MS技术的发展与应用已成为质谱领域备受关注的热点之一。该文综述了AI-MS的技术分类与原理特点,总结了AI-MS在微生物领域的应用。重点介绍了AI-MS在微生物种属鉴定与分型、微生物代谢物分析与生物膜分析、质谱成像等领域的应用。目前,环境电离与便携式质谱仪相结合已得到越来越广泛的应用,即将成为质谱领域的新热点。     

实时直接分析质谱新技术及其应用

由于不需要复杂的样品前处理过程,并具有实时、原位分析等特点,常压敞开式离子化技术成为近年来质谱研究的热点之一.实时直接分析(direct analysis in real time,DART)是近年来出现的一种常压敞开式离子化新技术,在食品安全、环境监测、爆炸物检测以及生物医药等诸多研究领域均有广泛的应用.本文简单介绍了常压敞开式离子化方法的发展,DART的基本原理和研究现状.进而介绍了我国质谱研究人员在基于DART的质谱仪器改进、联用技术以及生物药物等检测分析方面取得的新进展和新成果.     

间歇电喷雾的初步研究

设计了一种高灵敏的质谱离子化方法-间歇电喷雾，并介绍了间歇电喷雾的基本原理、稳定性和应用在蛋白质分析上的优势。这种质谱离子化方法能够显著地改善信噪比，降低对样品溶解度的要求，提高样品的离子化效率，减少样品的消耗和仪器的污染，可以预言间歇电喷雾的方法在蛋白质的分析上将会有广泛的应用前景。     

螺旋霉素生物合成中间代谢物的LC-ESI-MS定性分析

利用液相色谱－电喷雾离子化质谱 技术定性分析了螺旋霉素生物合成的中间代谢物，在螺旋霉素发酵液中共检出7个中间代谢物，分别是：forocidinⅠ、forocidinⅡ、neospiramycinⅠ、neospiramycinⅡ、spiramycinⅠ、spiramycinⅡ、spiramycinⅢ。     

用高分辨质谱研究二茂铁类化合物

研究了八种N－二茂铁甲基苯胺衍生物的电子电离质谱（EI－MS），并与快原子轰击质谱（FAB－MS）作了比较，讨论了这些化合物的质谱特征。通过精确质量测量，确认了M^ -2 OH离子，并采用碰撞诱导裂解（CID）探讨了化合物质谱中主要离子间的关系。     

乳清酸分析方法的研究进展

综述了近年来乳清酸分析方法的研究进展,内容包括紫外-可见分光光度法、荧光分析法、电化学分析法、色谱分析法、色谱-质谱联用法和量热法等几个方面,展望了乳清酸分析方法的发展方向.     

Proteomic LC-MS systems using nanoscale liquid chromatography with tandem mass spectrometry

Current nano-scale liquid chromatography-tandem mass spectrometry (nanoLC-MS/MS) approaches in proteome research are reviewed from an analytical perspective. For comprehensive analysis of cellular proteins, analytical methods with higher resolution, sensitivity, and wider dynamic range are required. Miniaturized LC coupled with tandem mass spectrometry is currently one of the most versatile techniques. In this review, the current status of nanoLC-MS/MS systems as well as data management systems is addressed. In addition, the future prospects for complete proteomics are discussed.     

Recently developed GC/MS and LC/MS methods for determining NSAIDs in water samples

Pharmaceuticals have become major targets in environmental chemistry due to their presence in aquatic environments (following incomplete removal in wastewater treatment or point-source contaminations), threat to drinking water sources and concern about their possible effects to wildlife and humans. Recently several methods have been developed for the determination of drugs and their metabolites in the lower nanogram per litre range, most of them using solid-phase extraction (SPE) or solid-phase microextraction (SPME), derivatisation and finally gas chromatography mass spectrometry (GC-MS), gas chromatography tandem mass spectrometry (GC-MS/MS) and liquid chromatography electrospray tandem mass spectrometry (LC-ES/MS/MS). Due to the elevated polarity of non-steroidal anti-inflamatory drugs (NSAIDs), analytical techniques based on either liquid chromatography coupled to mass spectrometry (LC-MS) and gas chromatography coupled to mass spectrometry (GC-MS) after a previous derivatisation step are essential. The most advanced aspects of current GC-MS, GC-MS/MS and LC-MS/MS methodologies for NSAID analysis are presented.     

Rapid identification of saponins in plant extracts by electrospray ionization multi-stage tandem mass spectrometry and liquid chromatography/tandem mass spectrometry

Electrospray ionization multi-stage tandem mass spectrometry (ESI-MS(n)) and liquid chromatography coupled with on-line mass spectrometry (LC/MS/MS) were applied to characterize saponins in crude extracts from Panax ginseng. The MS(n) data of the [M - H](-) ions of saponins can provide structural information on the sugar sequences of the saccharide chains and on the sapogins of saponins. By ESI-MS(n), non-isomeric saponins and isomeric saponins with different aglycones can be determined rapidly in plant extracts. LC/MS/MS is a good complementary analytical tool for determination of isomeric saponins. These approaches constitute powerful analytical tools for rapid screening and structural assignment of saponins in plant extracts.     

Temperature-programmed Desorption Mass Spectrometry

Temperature-programmed desorption mass spectrometry (TPD MS) is discussed with reference to studies of modified pyrogenic oxides. Simple theoretical models are presented in order to allow an approximate analytical treatment of TPD MS data. The formulae for rate constant are presented for first-, second- and third-order reactions. Products of thermal decomposition of carbonized surface layer are observed and identified. The different pathways of uni- and bimolecular desorption were investigated by temperature-programmed desorption mass spectrometry. The rate constants of reactions were derived from TPD MS measurements. Applications of TPD MS to investigation of endocrine disruptors fate and formations on the solid aerosol surface are discussed. This revised version was published online in August 2006 with corrections to the Cover Date.     

Trends in analytical atomic and molecular mass spectrometry in biology and the life sciences

Trends in analytical atomic and molecular mass spectrometry (MS) are reviewed here with an emphasis on problems related to biology and the life sciences. The move towards novel desorption/ionization techniques including matrix-free laser desorption-ionization MS and recent technological developments in MS imaging of elements, small molecules, and proteins are discussed. Recent developments in the interfacing of microfluidics with MS are also reviewed. Metabolic profiling, evaluation of biomarkers, pharmaceutical metabolite identification, and many related topics are addressed.     

Imaging with mass spectrometry: Which ionization technique is best?

The use of mass spectrometry (MS) to acquire molecular images of biological tissues and other substrates has developed into an indispensable analytical tool over the past 25 years. Imaging mass spectrometry technologies are widely used today to study the in situ spatial distributions for a variety of analytes. Early MS images were acquired using secondary ion mass spectrometry and matrix-assisted laser desorption/ionization. Researchers have also designed and developed other ionization techniques in recent years to probe surfaces and generate MS images, including desorption electrospray ionization (DESI), nanoDESI, laser ablation electrospray ionization, and infrared matrix-assisted laser desorption electrospray ionization. Investigators now have a plethora of ionization techniques to select from when performing imaging mass spectrometry experiments. This brief perspective will highlight the utility and relative figures of merit of these techniques within the context of their use in imaging mass spectrometry.     

石油组分高分辨质谱分析进展与展望

石油是一种复杂体系,研究石油分子组成是分析化学领域的经典难题.近年来,傅里叶变换离子回旋共振质谱技术(Fourier transform ion cyclotron resonance mass spectrometry,FT-ICR MS)的发展,为从分子水平认识石油组成提供了机会,引起了石油化学界的高度关注,并被期待能在石油、石化领域的相关研究中实现重大突破.本文从质谱分辨率和电离技术方面介绍了石油样品的分析需求,总结了近几年基于FT-ICR MS技术对石油分子组成的研究进展,分析了其在应用中存在的关键技术问题及下一步研究方向,并对FT-ICR MS的发展前景给予展望.     

Doping und Dopinganalytik

Doping is banned by national and international sports federations and by the IOC. Doping is the use of a substance belonging to one of the banned groups and te use of a doping method. The groups of doping substances, namely stimulants, narcotics, anabolic agents, diuretics and peptide hormones, are introduced. The main analytical methods are based on gas chromatography and mass spectrometry (MS) and are summarized for stimulants and anabolic steroid hormones. The use of mass spectrometry is unambigously necessary for identification of banned substance. In addition to GC/low resolution MS methods for anabolic agents, more sophisticated methods such as high resolution MS (to increase sensitivity) and carbon isotope raio MS (to distinguish between endogenous production and exogenous application of anabolic hormones) are used in doping control.     

Analytical pitfalls in hair testing

This review focuses on possible pitfalls in hair testing procedures. Knowledge of such pitfalls is useful when developing and validating methods, since it can be used to avoid wrong results as well as wrong interpretations of correct results. In recent years, remarkable advances in sensitive and specific analytical techniques have enabled the analysis of drugs in alternative biological specimens such as hair. Modern analytical procedures for the determination of drugs in hair specimens—mainly by gas chromatography–mass spectrometry (GC–MS) and liquid chromatography–mass spectrometry (LC–MS)—are reviewed and critically discussed. Many tables containing information related to this topic are provided.