紫草素及去氧紫草素的ESI离子阱质谱裂解分析

应用电喷雾离子阱多级质谱技术对紫草素及其活性衍生物去氧紫草素的结构和质谱裂解规律进行比较研究,并在负离子模式下解析了紫草素的主要特征碎片离子及其裂解规律。紫草素负离子模式下的主要碎片为m/z 287,269,259,218,190及173;其中,碎片m/z 218是其特征峰,碎片m/z 269和m/z 259均可进一步裂解为m/z 241,碎片m/z 190为m/z 259和m/z 218的共同产物离子;此外,碎片m/z 190和m/z 173均可进一步裂解为m/z 162。去氧紫草素负离子模式下主要裂解为碎片m/z 271、253、228和203;其中,碎片m/z253是其特征峰。紫草素和去氧紫草素均能发生过渡态氢重排β-裂解和连续的CO中性丢失。     

固载聚乙二醇催化合成异黄樟油素

以聚乙二醇和固载聚乙二醇作为相转移催化剂, 在无溶剂条件下, 黄樟油素经催化异构合成异黄樟油素. 通过正交实验, 得到固载PEG-X (polyethylene glycol-X)催化最优工艺条件为: m(88.5%黄樟油)∶m(KOH)∶m(PEG-X)＝1∶0.2∶0.25, 反应温度90 ℃, 反应时间 5 h, 在此工艺条件下, 异黄樟油素得率为99.9%. 固载PEG-X催化剂循环使用10次后其催化活性未见下降. 结果显示, 固载聚乙二醇催化工艺具有操作简便、反应温度低、时间短、产率高以及对环境友好等优点. 用¹H NMR, GC-MS对异构黄樟油素结构进行了表征, 研究了固载聚乙二醇作为相转移催化剂合成异黄樟油素的反应机理.     

三维荧光光谱结合二阶校正算法测定人体血浆和厚朴药材中的厚朴酚及和厚朴酚

利用三维荧光光谱与化学计量学二阶校正算法相结合, 直接测定人体血浆中和厚朴药材中的厚朴酚及和厚朴酚. 采用平行因子分析(PARAFAC)算法解析所得两种物质的回收率分别为(99.5±2.6)%和(90.2±1.8)%. 采用交替三线性分解(ATLD)算法解析, 当组分数N取3时, 回收率分别为(104.2±3.2)%和(98.7±4.0)%; 当N取4时, 回收率分别为(102.7±2.9)%和(99.0±4.6)%. 同时用该方法对厚朴药材中的厚朴酚及和厚朴酚进行快速定量测定, 结果令人满意. 实验结果表明, 此法可用于复杂试样中未知干扰共存下厚朴酚及和厚朴酚的同时测定.     

2，9，16，23-四羧基酞菁钴(Ⅱ)与硫醇、硫酚配位反应的热力学研究

我们研究了2,9,16,23-四羧基酞菁钴(Ⅱ)与硫醇(2-巯基乙醇)、硫酚(苯硫酚)轴向配位反应的热力学性质,发现了配位过程中中心离子钴由二价变为一价的现象。用紫外-可见分光光度法和Miller-Dorough数据处理方法,确定了体系的配位数和平衡常数;利用温度系数法求得了体系的Δ_rH^?_m, Δ_rS^?_m。探讨了温度对反     

益肾排石方的指纹图谱及功效关联物质的作用机制北大核心CSCD

应用液质联用技术分析了益肾排石方中的化学成分,建立高效液相色谱法(HPLC)指纹图谱,结合生物信息学技术对关键成分、关键靶点和通路进行了预测分析。应用超高效液相串联质谱技术(UHPLC-MS/MS)对益肾排石方中的化学成分进行了鉴定。10批益肾排石方样品,应用HPLC建立指纹图谱,标记共有峰,进行共有峰归属,并进行相似度评价。应用生物信息学技术,基于指认出的成分,建立了“中药-成分-靶点”网络图,通过GEO数据库获得了肾结石相关的差异基因。对方中功效关联物质的作用机制进行了进一步的分析,并进行了分子对接验证。通过数据库匹配、元素组成和碎片结构分析,共从益肾排石方中鉴定出32种成分;在对10批益肾排石方的指纹图谱的建立过程中,通过对照品指认确定了王不留行黄酮苷、松脂醇二葡萄糖苷、虎杖苷、黄芩苷、黄芩素、汉黄芩苷、芦丁、木蝴蝶苷A、大黄酸、异橙黄酮、芦荟大黄素、白杨素、大黄酚、厚朴酚、大黄素甲醚、汉黄芩素和大黄素17个共有峰,10批益肾排石方相似度结果均在合理范围内,且17个共有峰均能归属到虎杖、黄芩、牛膝、柴胡、金钱草、枳实、大黄、厚朴、杜仲和王不留行10味中药。结合生物信息学筛选了ESR1和PTGS1为关键基因,与17种药效成分进行分子对接验证,预测大黄酸和王不留行黄酮苷为关键成分。     

用DCC/DMAP合成N-苄氧羰基氨基酸薄荷酯

以乙腈为溶剂, 用DCC/DMAP偶合法合成了5个N-苄氧羰基氨基酸薄荷酯, 产率90%～94%. 起始原料氨基酸包括: 甘氨酸, DL-蛋氨酸, β-丙氨酸, L-缬氨酸和L-脯氨酸. 给出了目标产物的氢谱、碳谱、红外光谱、质谱、高分辨质谱和元素分析数据.     

IIB族金属二硫代氨基甲酸配合物的合成、表征及热稳定性研究

在甲醇溶液中合成了一系列IIB过渡金属Zn(II), Cd(II)的二羟乙基二硫代氨基甲酸[(EtOH)₂dtc]的配合物, 并对配合物M[(EtOH)₂dtc]₂L [M＝Zn (1), Cd (2), L＝2,2'-联吡啶; M＝Zn (3), Cd (4), L＝邻菲啰啉]进行了红外光谱、元素分析、热重分析表征工作. 热重分析表明配合物1～4中DTC配体比中性配体更易失去, 热分解最终产物为相应的氧化物. 对化合物1, 2做了X-ray单晶衍射分析, 1为单斜晶系, P2₁/c空间群, 晶胞参数a＝0.72146(5) nm, b＝2.61720(18) nm, c＝1.59438(11) nm,b＝97.899(2)°, V＝2.9820(4) nm³, Z＝4, m＝1.133 mm^－1, D_c＝1.297 Mg•m^－3; 2为三斜晶系, P-1空间群, 晶胞参数a＝1.0075(2) nm, b＝1.1580(2) nm, c＝1.1777(2) nm, a＝70.92(3)°, b＝85.71(3)°, γ＝81.02(3)°, V＝1.2822(4) nm³, Z＝2, m＝2.118 mm^－1, D_c＝1.630 Mg•m^－3.     

酚氧桥联多核铜(Ⅱ)配合物的合成、结构和磁性

利用柔性酚胺类配体N,N'-二甲基-N,N'-(2-羟基-4,5-二甲基苄基)乙二胺(H₂L)与Cu(Ⅱ)反应,合成了2个新的酚氧桥联多核Cu(Ⅱ)配合物[Cu₃^II(L)₂(CH₃OH)₂](ClO₄)₂(1),[Cu₃^II(L)₂(Cu^ICl₂)₂](2)。配合物1~2中,3个Cu²⁺之间通过2个酚氧桥连接,形成线性三核结构。两边的铜离子分别被配体L^2-上的N₂O₂螯合配位,轴向与甲醇分子的氧(配合物1)或[CuCl₂]^-的氯(配合物2)配位,形成四方锥配位构型。中间铜离子与两侧L^2-上的4个酚氧原子以平面四边形配位。Cu^II-O-Cu^II键角为100.14°~101.79°。对配合物1~2进行变温磁化率测量表明,铜离子之间通过酚氧桥存在强的反铁磁耦合,磁耦合常数J分别为-277(9)cm^-1(配合物1)和-299(3)cm^-1(配合物2)(基于自旋哈密顿算符Ĥ=-2J(Ŝ₁·Ŝ₂+Ŝ₂·Ŝ₃)。J值与酚氧桥桥联键角有一定相关性,即Cu-O-Cu桥联键角越大,反铁磁耦合越强。     

Keggin类杂多化合物催化环氧化环戊烯的谱学研究

报道了一系列Keggin 类杂多化合物与H₂O₂ (30%)催化氧化环戊烯. 其中两缺位的 [γ-SiW₁₀(H₂O)₂O₃₄](Bu₄N)₄ 的催化活性最好, 环戊烯转化率为90%, 环戊烯环氧化物的选择性为98%. 反应前后的UV-vis, FT-IR分析表明, 反应后催化剂的结构保持, 没有发生降解. 在以磷为中心原子的磷系Keggin 杂多酸复合溴代十六烷基吡啶中, 钼钨混合型的催化活性优于钨磷酸(H₃PW₁₂O₄₀•mH₂O)和钼磷酸(H₃PMo₁₂O₄₀•mH₂O)的. 而在十一种钼钨混合型的含磷杂多化合物H₃PMo_12－nW_nO₄₀•mH₂O中, 当n＝6时的H₃PMo₆W₆O₄₀•mH₂O显示出了最好的活性. 我们采用UV-vis, FT-IR and ³¹P NMR 等谱学方法表征了新鲜的催化剂和处于反应状态下的催化剂. 发现在反应条件H₂O₂ (30%)的量是催化剂的50倍时, H₃PMo₆W₆O₄₀•mH₂O全部降解成数种含磷的物种, 这些含磷物种可能包含反应中最具催化活性的物种. 而在此条件时, 发现H₃PW₁₂O₄₀•mH₂O降解得很少, 只有一种磷钨氧物种生成, 但不是Venturello-Ishii催化体系中的活性物种{PO₄[WO(O₂)₂]₄}^3－.     

水峰调制下的3,4-Seco-olean-11,13-dien-4,15α,22β,24-tetraol-3-oic Acid的NMR结构解析

对海南半红树植物黄槿(Hibiscus tiliaceus)内生菌中提取的一个新化合物进行核磁共振结构解析的研究. 在核磁共振测试时发现水峰信号与部分样品信号发生了重叠, 直接影响了该化合物谱图数据的分析. 本工作通过实验确证了在氘代二甲亚砜(DMSO-d₆)溶剂中水峰化学位移与含水量之间的变化规律. 依据该规律, 利用定量加入纯水的方法对实际样品中的水峰信号进行了调制, 解决了水峰信号与样品信号的重叠问题, 得到了较理想的¹H NMR, ¹³C NMR一维谱和COSY, HMQC, HMBC等二维谱. 利用核磁共振提供的信息完成了对新化合物结构的解析, 确定该化合物为齐墩果烷三萜类化合物3,4-seco-olean-11,13-dien-4,15α,22β,24-tetraol-3-oic acid.     

Liquid chromatographic determination of honokiol and magnolol in hou po (Magnolia officinalis) as the raw herb and dried aqueous extract

A validated analytical method is described for the determination of honokiol and magnolol in Hou Po (Magnolia officinalis) as the dried raw herb and the commercially prepared dried aqueous extract. The samples were extracted with methanol by the Soxhlet method, and the extract was analyzed by liquid chromatography with photodiode array (LC/PDA) detection with confirmation of analyte identity by negative-ion electrospray ionization tandem mass spectrometry (ESI-MS/MS). A C18 column was used with a menthanol--0.1% aqueous acetic acid gradient mobile phase. Honokiol and magnolol were quantified at 288 nm. With the MS detector, the honokiol precursor ion at m/z 265 was shown to produce ions at m/z 222 and 224. For magnolol, the precursor ion at m/z 265 produced the ions at m/z 247 and 245. Comparable results were obtained for the LC/PDA and LC/ESI-MS/MS methods of quantitation. Six commercially prepared dried aqueous extracts were analyzed. The levels of honokiol and magnolol found in the raw herb were 17.0 and 21.3 mg/g, respectively. The limits of detection for honokiol and magnolol in the raw herb were 0.45 and 0.58 mg/g, respectively, and in the dried aqueous extract, 0.04 and 0.30 mg/g, respectively.     

水蒸汽蒸馏条件下鱼腥草中癸酰乙醛的高效提取及质谱定性

根据质谱学规律,剖析了在电子轰击下中药材鱼腥草中最关键的抗菌成分鱼腥草素(癸酰乙醛)的离子形成机理:癸酰乙醛的分子中存在两个-C=O,处于端位上的-C=O活性远大于-CH3,易失去H2O(M+-18)、CO(M+-28)等基团,产生较强的m/z180、170等离子碎片,此外,还易失去H2O+H2O(M+-36)、H2O+CO(M+-46)、CO+CO(M+-56)等基团,产生m/z162、152、142等离子碎片,这同实验中得到的癸酰乙醛质谱图完全吻合,纠正了文献中对癸酰乙醛的错误定性。在此基础上采用常规、Ar气保护和减压三种水蒸汽蒸馏方式提取鱼腥草挥发油,发现在惰性气氛或较低温度下有利于癸酰乙醛的提取,与常规水蒸汽蒸馏条件相比,Ar气保护下癸酰乙醛的含量从0.03%提高至0.53%,而减压条件下癸酰乙醛的溶出效率进一步提高至3.37%。研究表明常规水蒸汽蒸馏条件下癸酰乙醛易氧化分解是得到较少癸酰乙醛的根本原因。     

Simultaneous determination of honokiol and magnolol in Magnolia officinalis by liquid chromatography with tandem mass spectrometric detection

An optimized high-performance liquid chromatographic method coupled with tandem mass spectrometric detection (LC-MS/MS) was developed for the simultaneous determination of honokiol and magnolol in Magnolia officinalis. Honokiol and magnolol were separated from the extracts using a reversed-phase C(18) column with a mobile phase consisted of acetonitrile and water (75:25, v/v) at a flow-rate of 0.8 mL/min. Selected reaction monitoring (SRM) mode was used for all sample quantification by the precursor-ion/product ion pair m/z 265 --> m/z 224 for honokiol and m/z 265 --> m/z 247 for magnolol. Validation data showed that this method has good linearity (r(2) > 0.995) over the concentration range of 0.0025-0.5 microg/mL for honokiol and magnolol, and both intra- and inter-day variability were acceptable within 15% at the lowest concentrations for this method. This proposed method provides excellent specificity, higher sensitivity and shorter run time than conventional methods and was applied successfully to determine the contents of honokiol and magnolol in M. officinalis.     

Synthesis and Characterization of a Novel Podophyllotoxin Derivative Containing a Cyclohexadienone Group

4β-Azido-4-demethyl-4'-O-demethyl-epipodophyllotoxin reacted with phenyliodonium diacetate in MeOH at room temperature to synthesize a novel podophyllotoxin derivative containing a cyclohexadienone group with the original configurations of C2 and C4,which are required for the antitumor activities.The component and structure of the pro-duct were confirmed using elemental analysis,high-resolution mass spectrum,1H and 13C NMR spectra,and infrared spectrum.Furthermore,the fragmentation routes of the product were fully assigned with electron-impact time-of-flight mass spectrometry(EI-TOF MS),which can also be used for the structural elucidation based on the molecular ion at m/z 455(16%)and three novel characteristic fragment ions at m/z 183(37%),425(7%),and 199(5%).The cyclohexadienone product is sensitive to acidic media.When it is treated with a trace of acid,another novel derivative containing an orthoquinone moiety is formed,which links with the metabolism of the cancer inhibitors.     

Characterization of a phosphorylated peptide and peptoid and peptoid-peptide hybrids by mass spectrometry

Nano-electrospray tandem mass spectrometry (nano-ES-MS/MS) was used to record collision-induced dissociation (CID) spectra of a set of peptoid-peptide hybrids and the complete peptoid derived from the phosphopeptide Ac-pTyr-Glu-Thr-Leu-NH(2) (1). The presence of B and Y'-type fragment ions in the tandem mass spectra of the protonated molecular ions [M + H](+) allowed confirmation of sequence similar to mass spectrometric sequence analysis in peptides. In the isomeric peptoid compounds studied, one or several amino acid residues were replaced by peptoid residues (N-substituted glycine residues), which resulted in characteristic tandem mass spectra with differently increased relative abundances of Y'-and B-type fragment ions. The increment of a particular Y'-ion was directly correlated to the position of a peptoid residue present. In addition to these increased peak intensities, other characteristic peaks were also observed compared with the spectrum of reference peptide 1. When a peptoid phosphotyrosine was incorporated, the presence of this residue was apparent from the occurrence of a relatively intense peak at m/z 187 representing the positively charged side-chain of phosphotyrosine, which was almost absent in the spectrum of the reference peptide 1. Since the threonine side-chain had to be translated into the homo peptoid analog this substitution was apparent from the presence of [M + H](+) and fragment ions 14 mass units higher than observed in the spectrum of the reference phosphopeptide 1. The presence of an NLeu peptoid residue could be confirmed by the specific fragmentation of the immonium ion showing an intense peak in its tandem mass spectrum at m/z 57, which results from the loss of an neutral imine molecule leading to a positively charged [C(4)H(9)](+) ion. By means of these mass spectrometric characteristics, all isomeric peptoid compounds could be distinguished from each other and characterized. The methods used appear to be very useful in future studies of peptoids and peptoid-peptide hybrids.     

Determination of Magnolol and Honokiol by Non-aqueous Capillary Electrophoresis

Introduction Capillaryelectrophoresis(CE),ahighefficiency separationtechnique,hasrapidlydevelopedsince1981[1].Notonlyhavedifferentmodesbeenrepor ted[1—3],butalsosomenon aqueouselectrophoresis media[4]havebeenapplied.Theimportantproperties ofnonaqueousmed…     

Identification of the chemical constituents of Chinese medicine Yi‐Xin‐Shu capsule by molecular feature orientated precursor ion selection and tandem mass spectrometry structure elucidation

The incomplete identification of the chemical components of traditional Chinese medicinal formula has been one of the bottlenecks in the modernization of traditional Chinese medicine. Tandem mass spectrometry has been widely used for the identification of chemical substances. Current automatic tandem mass spectrometry acquisition, where precursor ions were selected according to their signal intensity, encounters a drawback in chemical substances identification when samples contain many overlapping signals. Compounds in minor or trace amounts could not be identified because most tandem mass spectrometry information was lost. Herein, a molecular feature orientated precursor ion selection and tandem mass spectrometry structure elucidation method for complex Chinese medicine chemical constituent analysis was developed. The precursor ions were selected according to their two‐dimensional characteristics of retention times and mass‐to‐charge ratio ranges from herbal compounds, so that all precursor ions from herbal compounds were included and more minor chemical constituents in Chinese medicine were identified. Compared to the conventional automatic tandem mass spectrometry setups, the approach is novel and can overcome the drawback for chemical substances identification. As an example, 276 compounds from the Chinese Medicine of Yi‐Xin‐Shu capsule were identified.     

Isolation and purification of honokiol and magnolol from cortex Magnoliae officinalis by high-speed counter-current chromatography

High-speed counter-current chromatography was used to isolate and purify honokiol and magnolol from cortex Magnoliae Officinalis (Magnolia officinalis Rehd. et Wils.), a plant used in the traditional Chinese medicine. A crude sample, 150 mg, was successfully separated with a two-phase solvent system composed of n-hexane-ethyl acetate-methanol-water (1:0.4:1:0.4, v/v), and the fractions were analyzed by high-performance liquid chromatography. The separation produced 80 and 45 mg of honokiol and magnolol with purities of 99.2 and 98.2%, respectively, in 2.5 h.     

Analysis of tomato glycoalkaloids by liquid chromatography coupled with electrospray ionization tandem mass spectrometry

Steroidal glycoalkaloids (SGAs) extracted from tomato leaves and berries (Lycopersicon esculentum Mill.) were separated and identified using optimized reversed-phase liquid chromatography with electrospray ionization (ESI) and ion trap mass spectrometry (ITMS). The ESI source polarity and chromatographic conditions were evaluated. The ESI spectra contain valuable information, which includes the mass of SGAs, the mass of the aglycones, and several characteristic fragment ions. Cleavage at the interglycosidic bonds proximal to the aglycones is the most prominent process in the ESI process. A protonated molecule, [M+H]+, accompanied by a mixed adduct ion, [M+H+Na]2+, was observed for alpha-tomatine (i.e., m/z 1034.7 and 528.9) and dehydrotomatine (i.e., m/z 1032.6 and 527.9) in positive ion mode spectra. The structures of these tomato glycoalkaloids were confirmed using tandem mass spectrometry. The identification of a new alpha-tomatine isomer glycoalkaloid, named filotomatine (MW 1033), which shares a common tetrasaccharide structure (i.e., lycotretraose) with alpha-tomatine and dehydrotomatine, and soladulcidine as an aglycone, is described for the first time. It occurs in significant amounts in the extracts of wild tomato foliage. Multistage mass spectrometry both of the protonated molecules and of the doubly charged ions was used for detailed structural elucidation of SGAs. Key fragmentations and regularities in fragmentation pathways are described and the fragmentation mechanisms involved are proposed.     

13-乙酰基-9-甲基-11-羰基-8-氧代-10,12-二氮杂三环[7.3.1.02,7]十三碳-2,4,6-三烯的一锅煮合成和结构表征

An efficient and environmentally friendly procedure for the one-pot synthesis of 13-acetyl-9-methyl-11-oxo-8-oxa-10,12-diazatricyclo7.3.1.02,7trideca-2,4,6-triene from salicylaldehyde, acetylacetone and urea via Biginelli condensation and intramolecular Michael-addition by using magnesium bromide as an inexpensive and easily available catalyst in a solvent-free condition is described. The structural elucidation of the product is reported by 1H- and 13C-NMR spectra. The product can also be identified by its EI TOF mass spectrometry based on the molecular ion at m/s 246(10%) and on the fragment ions in which two nitrogen atoms are remained. Three kinds of characteristic fragmentation pathways from the molecular ion were observed. One is the loss of the OH radical to form the dihydropyrimidinone cation at m/z 229(48%), followed by elimination of a molecular methane forming the pyrimidinone cation at m/z 213(27%). The second is the cleavage of the C6H4OH radical, and the formation of the dihydropyrimidinone cation at m/z 153(24%). The third one is the loss of MeC=O radical to afford the oxygen-bridged fragment ion at m/z 203(33%).