天然产物的质谱研究 Ⅴ.负离子快原子轰击及其碰撞活化质谱法在寡糖苷结构分析中的应用

本文研究了八种含1—3个糖基的糖苷的负离子快原子轰击(NFAB)质谱.NFAB质谱与相应的正离子谱(PFAB)比较,在高质量区示出较明显的准分子离子[M-H]~-峰而无加合离子峰,从而能较明确指示糖苷的分子量.在所试验的三种底物甘油、硫代甘油和聚乙二醇-200(PEG-200)中,以PEG-200给出的结果最佳.[M-H]~-离子的碰撞活化谱(NFAB-CA谱)产生的特征离子比[M+H]~+离子PFAB-CA谱中相应离子的丰度大,能更为明确地给出糖基连接顺序信息.     

若干糖苷类化合物的负离子化学电离质谱研究

本文报道苦玄参苷类(picfeltarraenins)(1～5)、膜荚黄芪苷类(astramembrannins)(6～8)、雪胆素苷类(hemsamabilinins)(9,10)及其O-乙酰衍生物(11,12)和洋地黄毒苷(digitoxin)(13)的负离子化学电离质谱.用甲烷和二氯甲烷作为混合反应气,获得了满意的结果.谱中有特征的M~(?)或[M-1]~-,[M+Cl]~-和一系列脱糖基的碎片离子[M+Cl-nR]~-(R为不同类型的糖基)及糖基碎片离子[R+Cl]~-.乙酰化的糖苷还给出[M+Cl-nCH_2CO]~-或[M+Cl-nCH_3COOH]~-等碎片离子.     

电喷雾萃取电离质谱法检测1-羟基芘

采用电喷雾萃取电离质谱(EESI-MS)分析致癌性环境有机污染物多环芳烃(PAHs)生物标志物1-羟基芘(1-OHP),探究1-OHP在EESI源中电离的可行性,考察ESI溶剂和样品溶液组成对方法灵敏度的影响,初步建立I-OHP的EESI MS半定量分析方法.结果表明,溶液中1-OHP能够在EES1源中有效电离,生成准分子离子[M-H]- (m/z 217),并得到其二级质谱特征碎片离子[M- H- CO]- (m/z 189);水、甲醇、乙醇、正丙醇和正丁醇5种ESI溶剂中,使用甲醇时,离子峰m/z 217信噪比最大.样品溶液中甲醇含量越高,离子峰m/z 217强度越强.离子峰m/z 217强度与1-OHP浓度在10～200 μg/L内的线性相关性相对最好;相关系数(R)0.982;相对标准偏差(RSD)为3.4％～14.0％(n=5);定量下限约为10 μg/L(S/N=10);单次检测时间小于0.5 min.     

糖苷混合物FAB质谱分析技术的研究

我们曾阐明了糖苷单-化合物分子量的简明, 快速确定方法, 根据糖苷化合物中引入碱金属离子的FAB正离子的加合离子峰而难于找到碎片的加合离子峰, 现在我们在糖苷混合物中, 同时引入两种碱金属离子Na^+和Li(两元素原子量之差为16), 由此得到的糖苷混合物的FAB正离子谱中, 就出现两个一组的多组强峰, 且每组的两峰之质量差为16, 每组中低质量峰为[M+Li]^+峰, 高质量为[M+Li]^+峰, 根据两峰已标出的质量数便可轻易地定出各成分的分子量来。谱图中出现的强峰组数就是糖苷混合物的成分数。     

二茂钛含氟有机酸衍生物的质谱研究

本文研究了二茂钛含氟长链有机酸衍生物(1～3)和具有环状结构的新型二茂钛全氟有机酸(4～7)的电子轰击质谱(EIMS)和负离子化学电离质谱(NICIMS)。在EI谱中出现弱的或不出现M~+,1～7均以CpTiF_2离子为基峰。高质量区的主要特征碎片离子有[M-·cp]~+、[M-R]~+(1～3)和氟重排离子。在低质量区出现一系列二茂钛及茂钛氟重排离子。 1、4～7的NICI(CH_4)质谱中,4、5出现强的M~-离子峰,1出现[M-1]-离子峰,有两个钛的环状结构化合物6和7出现双电荷M~=离子峰,而不出现M~-。     

苯乙酮碳苷化合物快原子轰击质谱的特征及碎裂机理的研究

采用正离子快原子轰击质谱(PFABMS)和联动扫描谱[1](B/E和B2/E)相结合,研究了六个苯乙酮-β-D-吡喃糖碳苷的裂解规律.不仅得到了各化合物的质子化分子离子峰[M+H+],而且通过联动扫描谱证实了此类化合物糖基序列特征离子的归宿,为研究此类碳苷化合物的结构提供了依据.     

含稀土离子液体[Cnmim][Ln（NO3）4]的合成、表征及荧光性能研究

以N-甲基咪唑,溴代烷烃和硝酸钠为原料,合成了5种离子液体[Cnmim]NO3(n=2,4,6,8,10;mim=N-甲基咪唑),并对离子液体进行了表征.用[Cnmim]NO3与硝酸铕、硝酸铽反应,得到了含稀土离子液体[Cnmim][Ln(NO3)4](Ln=Eu,Tb).利用电喷雾质谱对[Cnmim][Ln(NO3)4]的结构进行了表征,结果表明稀土离子与来自4个硝酸根的8个氧原子配位,形成[Ln(NO3)4]阴离子,阳离子为1-烷基-3-甲基咪唑.荧光研究表明,[Cnmim][Ln(NO3)4](Ln=Eu,Tb)的溶液存在较强荧光;温度和浓度影响荧光强度.     

电喷雾飞行时间质谱与大气压化学电离质谱法分析烟叶中茄尼醇的比较

采用反相高效液相色谱(RP-HPLC-UV)和电喷雾飞行时间质谱(ESI-TOF/MS)、大气压化学电离质谱(APCI-MS),分析烟叶中的茄尼醇.使用反相G4色谱柱,以V(甲醇):V(水)=9:1为流动相,茄尼醇和烟草中的其它成分分离良好;茄尼醇在ESI正离子全范围扫描中主要形成[M-H2O H] 和[M NH4] 离子,只有微弱的[M H] 离子,同时会产生一些碎片离子;而在APCI正离子全范围扫描中主要形成[M-H2O H] 离子,检测不到[M H] 离子,碎片离子也很少;通过对茄尼醇的ESI-TOF/MS和APCI-MS的质谱分析特征比较可以发现,茄尼醇在ESI源分析中的信号强度远远小于在APCI源分析中的信号强度,说明APCI源更适于茄尼醇的定量分析.     

多溴联苯醚代谢物的色谱保留和质谱特征

研究了多溴联苯醚(PBDEs)代谢物中常见的18种羟基PBDEs(HO-BDEs)、15种甲氧基PBDEs(MeO-BDEs)的气相色谱、反相液相色谱分离和质谱碎片特征。MeO-BDEs在反相液相色谱(RPLC)的保留行为受疏水作用支配,而HO-BDEs则还受到除疏水作用以外的特殊作用影响。LC/MS中大气压化学电离(APCI)源适用于HO-BDEs检测,而APCI源以及电喷雾离子源(ESI)对MeO-BDEs都没有响应。质谱碎片具有显著取代位效应:在LC/APCI-MS中,邻位取代HO-BDEs的碎片离子基峰均为脱一个溴的结构[M-H]--HBr,而对位取代的基峰则为准分子离子[M-H]-;在电子电离(EI)源质谱仪下,邻位取代MeO-BDEs有脱溴甲烷碎片离子(M. -BrCH3),对位取代有特征的脱甲基自由基结构(M. -.CH3),间位取代则无上述两种碎片离子。     

二烷氧基膦酰乙酸酯的电子轰击正离子和化学电离负离子质谱研究

本文报道一系列二烷氧基膦酰乙酸酯的电子轰击(EI)正离子和甲烷化学电离负离子(NCI)质谱.在EI谱上出现特征的[M+H]^+离子,进一步发生氢重排,然后失去烯烃,再失水和脱CH2CO.而在NCI谱中则生成[M-H]^-离子(基峰),易失去烷基,再失烷氧基和CH2CO,或氢重排后脱烯烃.正、负离子的断裂机理不同,但数据可以互相补充,以利于类似未知物的结构分析.     

Studies on the mass spectrometry of natural products: V. Negative ion fast atom bombardment and collisional activation mass spectrometry in the structural analysis of oligoglycosides

The negative ion fast atom bombardment (NFAB) mass spectrometry of eight glycosides containing one to three sugar units have been studied. The mass spectra of NFAB exhibit more predominant quasi-molecular ions without adduct ions in the high mass region, which indicate more unambiguously the molecular weights of the glycosides, than the positive ion FAB (PFAB) spectra do. Among the three matrix substances tested, glycerol, thioglycerol and PEG-200, the last one was found to give the best results. The characteristic ions of NFAB collisional activation (NFAB-CA) spectra of [M-H]^? ions were more abundant and gave more definite information about sequences of the sugar units than the corresponding PFAB-CA spectra of [M + H]+ ions.     

Formation and fragmentation of the [M + Na]+ ion of glycosides in fast atom bombardment mass spectrometry

Positive-ion fast atom bombardment (FAB) mass spectra of flavonol and steroid glycosides with sodium chloride added showed well known characteristic features; of the appearance of [M + Na]⁺ peaks, disappearance of [M + H]⁺ peaks and a significant decrease in the peak heights of fragment ions. Compared with the features in the FAB mass spectra of crown ethers with addition of salt, and above features suggest a complexation between Na⁺ and the glycosides in matrix solution. The B/E-constant linked scanning technique was used to obtain structural information of the [M + Na]⁺ ion of the glycosides. The B/E spectra gave the daughter-ion peaks, suggesting that coordination of Na⁺ with the biosides and triosides occurs at the sugar moiety, whereas the coordination with the monoglycosides occurs at the aglycone moiety, except for monoglycosides in which the aglycone moiety does not contain significant oxygen functional groups such as OH and CO.     

Use of fast atom bombardment mass spectrometry for the characterization of nitroaromatic isomers

Positive and negative ion fast atom bombardment (FAB) mass spectra of some monosubstituted nitroaromatic isomers are reported. Generally ions carresponding to [M + H]⁺ and M⁺ are observed in the positive ion FAB spectra; ions such as [M ? H] ^? and M^?˙ are observed in the negative ion FAB spectra. The use of FAB mass spectra to distinguish the isomers is discussed. Comparisons of FAB, chemical ionization and electron impact mass spectra of the same isomers (wherever possible) are reported. The structural information obtained in the negative ion FAB spectra complement those obtained in the positive ion FAB spectra.     

Fragmentation study of iridoid glucosides through positive and negative electrospray ionization, collision-induced dissociation and tandem mass spectrometry

Mass spectrometric methodology based on the combined use of positive and negative electrospray ionization, collision-induced dissociation (CID) and tandem mass spectrometry (MS/MS) has been applied to the mass spectral study of a series of six naturally occurring iridoids through in-source fragmentation of the protonated [M+H]+, deprotonated [M--H]- and sodiated [M+Na]+ ions. This led to the unambiguous determination of the molecular masses of the studied compounds and allowed CID spectra of the molecular ions to be obtained. Valuable structural information regarding the nature of both the glycoside and the aglycone moiety was thus obtained. Glycosidic cleavage and ring cleavages of both aglycone and sugar moieties were the major fragmentation pathways observed during CID, where the losses of small molecules, the cinnamoyl and the cinnamate parts were also observed. The formation of the ionized aglycones, sugars and their product ions was thus obtained giving information on their basic skeleton. The protonated, i.e. [M+H]+ and deprotonated [M--H]-, ions were found to fragment mainly by glycosidic cleavages. MS/MS spectra of the [M+Na]+ ions gave complementary information for the structural characterization of the studied compounds. Unlike the dissociation of protonated molecular ions, that of sodiated molecules also provided sodiated sugar fragments where the C0+ fragment corresponding to the glucose ion was obtained as base peak for all the studied compounds.     

Ion-molecule reactions observed for nitroaromatic compounds in negative ion fast atom bombardment mass spectrometry

Analyses of a series of nitroaromatic compounds using fast atom bombardment (FAB) mass spectrometry are discussed. An interesting ion-molecule reaction leading to [M + O ? H]^? ions is observed in the negative ion FAB spectra. Evidence from linked-scan and collision-induced dissociation spectra proved that [M + O ? H]^? ions are produced by the following reaction: M + NO₂^? → [M + NO₂]^? → [M + O ? H]^?. These experiments also showed that M^?˙ ions are produced in part by the exchange of an electron between M and NO₂^? species. All samples showed M^?˙, [M ? H]^? or both ions in their negative ion FAB spectra. Not all analytes studied showed either [M + H]⁺ and/or M⁺˙ in the positive ion FAB spectra. No M⁺˙ ions were observed for ions having ionization energies above ～9 eV.     

Fast atom bombardment (FAB) mass spectrometry of piperidine N-oxide derivatives and free radical quenching under FAB conditions

Mechanisms are proposed for the formation of M⁺, [M + 2H]⁺ and [M + 3H]⁺ ions in the fast atom bombardment (FAB) mass spectra of 4-(2,2,6,6-tetramethyl-1-oxyl)-piperidol and its carboxylates. Free radical quenching induced by the fast atom beam has been observed. The effects of temperature on the radical quenching and of acid on the FAB mass spectra are discussed. The experiment showed that the volatile liquid samples with vapour pressures higher than that for glycerol produced M⁺ even-electron molecular ions, and the FAB mass spectra were similar to the corresponding electron ionization mass spectra. For the solid samples, it was found that the free radicals were quenched during the FAB process so that the mononitroxide and dinitroxide compounds produced [M + 2H]⁺ and [M + 3H]⁺ ions, respectively. Further experiments showed that the intensities and stabilities of [M + 2H]⁺ and [M + 3H]⁺ ions could be improved by addition of acids.     

Comparative study of organic dyes with time-of-flight static secondary ion mass spectrometry and related techniques

A series of cationic, zwitterionic and anionic fluorinated carbocyanine dyes, spin-coated on Si substrates, were measured with time-of-flight static secondary ion mass spectrometry (TOF-S-SIMS) under Ga(+) primary ion bombardment. Detailed fragmentation patterns were developed for all dyes measured. In the positive mode, the resulting spectra showed very intense signals for the precursor ions of the cationic dyes, whereas the protonated signals of the anionic dyes were hardly detected. Differences of three orders of magnitude were repeatedly observed for the secondary ion signal intensities of cationic and anionic dyes, respectively. All measured dyes yielded mass spectra containing several characteristic fragment ions. Although the secondary ion yields were still higher for the cationic than the anionic dye fragments, the difference was reduced to a factor of < or =10. This result and the fact that M(+), [M + H](+) or [M + 2H](+) are even-electron species make it very likely that the recorded fragments were not formed directly out of the (protonated) parent ions M(+), [M + H](+) or [M + 2H](+). In the negative mode, none of the recorded spectra contained molecular information. Only signals originating from some characteristic elements of the molecules (F, Cl), the anionic counter ion signal and some low-mass organic ions were detected. A comparative study was made between TOF-S-SIMS, using Ga(+) primary ions, and other mass spectrometric techniques, namely fast atom bombardment (FAB), electrospray ionization (ESI) and matrix-assisted laser desorption/ionization (MALDI). The measurements showed that MALDI, ESI and FAB all give rise to spectra containing molecular ion signals. ESI and FAB produced M(+) and [M + H](+) signals, originating from the cationic and zwitterionic dyes, in the positive mode and M(-) and [M - H](-) signals of the anionic and zwitterionic dyes in the negative mode. With MALDI, molecular ion signals were measured in both modes for all the dyes. Structural fragment ions were detected for FAB, ESI and MALDI in both the positive and negative modes. Compared with the other techniques, TOF-S-SIMS induced a higher degree of fragmentation.     

天然有机化合物X. 糖苷快原子轰击质谱中的碱金属加合离子应 用技术的研究

在对糖苷的FAB分析技术的研究中发现,如果在样品中同时加入适量的NaCl和LiCl水溶液进样时,其FAB谱中会出现[M+Na]^+和[M+Li]^+两个强峰,两峰之质量差为16(Na和Li原子量之差值),并且发现其谱图中找不到明显的碎片离子和Na^+及Li^+的加合离子,而只有糖苷分子和Na^+及Li^+的加合离子。所以很容易在FAB谱中识别它们。因而不需联谱解析而仅凭FAB谱就可准确、快速地定出糖苷的分子量。此技术国内外尚未见报道。     

Structural characterization of glycoporphyrins by electrospray tandem mass spectrometry

Porphyrin derivatives having a galactose or a bis(isopropylidene)galactose structural unit, linked by ester or ether bonds, were characterized by electrospray tandem mass spectrometry (ES-MS/MS). The electrospray mass spectra of these glycoporphyrins show the corresponding [M + H](+) ions. For the glycoporphyrins with pyridyl substituents and those having a tetrafluorophenyl spacer, the doubly charged ions [M + 2H](2+) were also observed in ES-MS with high relative abundance. The fragmentation of both [M + H](+) and [M + 2H](2+) ions exhibited common fragmentation pathways for porphyrins with the same sugar residue, independently of the porphyrin structural unit and type of linkage. ES-MS/MS of the [M + H](+) ions of the galactose-substituted porphyrins gave the fragment ions [M + H - C(2)H(4)O(2)](+), [M + H - C(3)H(6)O(3)](+), [M + H - C(4)H(8)O(4)](+) and [M + H - galactose residue](+). The fragmentation of the [M + 2H](2+) ions of the porphyrins with galactose shows the common doubly charged fragment ions [porphyrin + H](2+), [M + 2H - C(2)H(4)O(2)](2+), [M + 2H - C(4)H(8)O(4)](2+), [M + 2H - galactose residue](2+) and the singly charged fragment ions [M + H - C(3)H(6)O(3)](+) and [M + H - galactose residue](+). The fragmentation of the [M + H](+) ions of glycoporphyrins with a protected galactosyl residue leads mainly to the ions [M + H - CO(CH(3))(2)](+), [M + H - 2CO(CH(3))(2)](+), [M + H - 2CO(CH(3))(2) - CO](+), [M + H - C(10)H(16)O(4)](+) and [M + H - protected galactose](+). The doubly charged ions [M + 2H](2+) fragment to give the doubly charged ions [porphyrin + H](2+) and the singly charged ions [M + H - protected galactose residue](+) and [M + H - CO(CH(3))(2)](+). For the porphyrins where the sugar structural unit is linked by an ester bond, [M + 2H](2+), ES-MS/MS showed a major and typical fragmentation corresponding to combined loss of a sugar structural unit and further loss of water, leading to the ion [M + 2H - sugar residue - H(2)O](2+), independently of the structure of the sugar structural unit. These results show that ES-MS/MS can be a powerful tool for the characterization of the sugar structural unit of glycoporphyrins, without the need for chemical hydrolysis.     

Structural characterization of flavonol 3,7-di-O-glycosides and determination of the glycosylation position by using negative ion electrospray ionization tandem mass spectrometry

Flavonol 3,7-di-O-glycosides were investigated by negative ion electrospray ionization tandem mass spectrometry using a quadrupole linear ion trap (LIT) mass spectrometer. The results indicate that the fragmentation behavior of flavonol 3,7-di-O-glycosides is substantially different from that of their isomeric mono-O-diglycosides. In order to characterize a flavonoid as a flavonol 3,7-di-O-glycoside, both [Y3(0) - H]-* and [Y(0) - 2H]- ions should be present in [M - H]- product ion spectrum. The MS(3) product ion spectra of Y3(0)-, [Y3(0) - H]-* and Y7(0)- ions generated from the [M - H]- ion provide sufficient structural information for the determination of glycosylation position. Furthermore, the glycosylation positions are determined by comparing the relative abundances of Y3(0)- and Y7(0)- ions and their specific fragmentation patterns with those of flavonol mono-O-glycosides. In addition, a [Y3(0) - H]-* ion formed by the homolytic cleavage of 3-O glycosidic bond with high abundance points to 3-O glycosylation, while a [Y(0) - 2H]- ion formed by the elimination of the two sugar residues is consistent with glycosylation at both the 3-O and 7-O positions. Investigation of negative ion ESI-MS(2) and MS(3) spectra of flavonol O-glycosides allows their rapid characterization as flavonol 3,7-di-O-glycoside and their differentiation from isomeric mono-O-diglycosides, and also enables their direct analysis in crude plant extracts.