反向流动注射化学发光法测定氟哌啶醇

氟哌啶醇(haloperidol),学名为1-(4-氟苯基)-4-[(4-氯苯基)-4-羟基-1-哌啶基]-1-丁酮,临床应用最广泛的精神抑制药物之一[1]。主要用于精神分裂症,特别适用于急性青春性、伴敌对情绪和攻击行为的偏执型精神分裂症。长期或过量服用会导致严重的后果,所以对其用药量控制必须非常严格,故对药剂中氟哌啶醇的含量分析显的尤为重要。目前文献报道氟哌啶醇的测定方法有:滴定法[1],色谱法[2-4]和毛细管电泳法[5]。色谱法操作复杂费时,电位滴定法的检出限高,难以满足生化样品分析的需要。试验发现氟哌啶醇对KIO4-鲁米诺化学发光体系有强烈的增敏作…     

邻硝基酚醚上的异常取代反应

以2-(2-硝基苯氧基)-1-溴乙烷或3-(2-硝基苯氧基)-1-溴丙烷为原料分别在氢化钠作用下与N-Boc-4-羟基哌啶反应,得到了与预期结构不同的产物.该产物的结构经1H NMR,13C NMR,LC-MS分析表明,其并非为原料2-(2-硝基苯氧基)-1-溴乙烷与N-Boc-4-羟基哌啶发生Williamson反应生成预期的混合醚,而是芳环上的烷氧基被取代的异常产物.根据这个实验结果,推测上述反应的可能机理是发生了芳环上的亲核取代反应.     

1,2,2,6,6-五甲基哌啶醇与紫外吸收剂和猝灭剂在对聚丙烯膜光稳定作用中并用效应的研究

<正> 最近的研究发现,五甲基哌啶醇与四甲基哌啶醇的光稳定机理有一定的不同。我们还观察到2,2,6,6-四甲基哌啶醇与2-羟基-4-辛氧基二苯甲酮(UV-531)同时添加到聚丙烯膜中具有明显的协同效应。本实验探讨了1,2,2,6,6-五甲基哌啶醇(PMP)与几种紫外吸收剂及猝灭剂的并用效应,并比较四甲基哌啶醇及五甲基哌啶醇与紫外吸收剂并用效应的差别。     

干姜中的二芳基庚烷类化合物及其在四逆汤煎煮过程中的立体选择性反应

采用高效液相色谱多级质谱联用鉴定了干姜水煎剂的18个二芳基庚烷类化合物。发现此类化合物的电喷雾质谱碰撞诱导裂解反应的特征主要表现在吡喃环的次级逆Diels Alder反应裂解或C1和C5OH发生次级麦氏重排裂解,这两种裂解反应对归属芳环的取代非常重要。比较了复方四逆汤配伍对二芳基庚烷类化合物的影响,从色谱保留行为、质谱数据等推测化合物2-(3,4-二羟基-5-甲氧基苯基)-6-(3,4-二羟基苯乙基)-2氢-吡喃-4-醇(Ⅲ-1)的一组差向异构体,2-(3,4-二羟基-5-甲氧基苯基)-6-(4-羟基苯乙基)-2氢-吡喃-4-醇(Ⅲ-2)的一组差向异构体以及2-(3,4-二羟基-5-甲氧基苯基)-6-(4-二羟基-3-甲氧基苯乙基)-2氢-吡喃-4-醇(Ⅲ-3)的2组差向异构体在复方煎煮过程中发生显著的立体选择性反应,由外消旋体变成单一旋光异构体。吡喃环4-位的乙酰化可能是减少这种反应的关键因素。     

芬太尼类化合物与阿片受体相互作用的构象分析

本文用X光衍射结晶学, 计算机辅助构象分析和分子图形学方法, 对芬太尼类μ型阿片受体激动剂中七个典型代表物进行了研究。结果表明, 芬太尼类化合物哌啶环4位丙酰苯胺基位置与生物活性有关。4-取代和顺式3-甲基芬太尼类化合物的晶体结构是一个能量较为合理的体系, 在该体系下的构象有可能是生物活性构象, 即哌啶环1-位苯乙基为伸展构象, 哌啶环4-位扭角τ_4(C_(11)—C_(12)—N_(15)—C_(16))为100°左右时有利于与受体相互作用。并在构象分析和分子图形拟合的基础上, 提出了芬太尼类化合物与阿片受体之间相互作用的结构要求。     

3-羟基哌啶氮α-碳负离子的形成及α-羟烷化反应

合成了（S）-3-羟基哌啶苯硫醚化合物6作为3-羟基哌啶氮α-碳负离子手性合成子（B）的合成等效体.化合物6经羟基去质子现场保护、萘锂（LN）还原锂化形成手性哌啶醇双负离子中间体B.双负离子B可被质子淬灭得到还原产物2a 而与羰基化合物反应则得到α-羟烷化产物12～17和少量还原产物2a.该反应具有很高的环上2,3-位非对映立体选择性 与非对称的羰基化合物反应产生新手性中心的立体选择性从50：50到77：23.     

温和条件下Fe（NO3）3／4-OH-TEMPO催化需氧氧化醇制备羰基化合物

以Fe(NO3)3·9H2O为助剂与廉价的有机小分子催化剂 4-羟基-2,2,6,6-四甲基哌啶-N-氧自由基(4-OH-TEMPO)组成催化体系.考察了该催化剂体系上分子氧驱动的氧化含有C=C, N, O和S杂原子的较宽底物范围的伯醇和仲醇氧化生成相应的醛或酮. 结果表明,该反应可在室温条件下在空气中进行,对目的产物的选择性高. 探讨了Fe(NO3)3/4-OH-TEMPO催化氧化醇的反应机理.     

天然产物Arborisidine四环骨架的不对称合成

报道了吲哚生物碱arborisidine四环骨架的不对称合成研究.以本课题组前期报道的光学纯化合物10,9-二叔丁基-5-乙基(4S,8R)-7,8-二羟基-9H-8a,4b-(氨基乙醇氨基)-咔唑-5,9,10-三羧酸酯(11)为起始原料,经Krapcho反应脱羧转化为酮后,通过还原开环策略实现酮中间体四氢吡咯环的开环;随后经两次Saegusa氧化反应和Michael加成反应,实现了A/B/D三环中间C(15)-C(16)双键的构建和C(16)位甲基取代的引入.最后经分子内氮杂Michael加成反应一步实现arborisidine中哌啶C环和C(16)季碳中心的建立,高效完成目标分子A/B/C/D四环骨架的不对称合成.     

氟哌啶醇的示差脉冲吸附伏安法测定

氟哌啶醇,化学名4-[4-基-4-(4-氯苯)-4-羟基派啶]-4’-氟丁酰苯,是一种重要的抗精神病药。该药物的测定主要采用紫外光度法,其他尚有气相和薄层色谱法,荧光法等。但灵敏度都不够高,难以用于微量和痕量分析,特别是病人体液中含量的监测。 Bishop等发现,氟哌啶醇在金和铂电极上既不还原也不氧化,认为这种药物在上述电极上不具有电活性。本文发现氟哌啶醇能吸附于玻碳电极,并发生氧化反应。据此拟定了吸附伏安法测定该药物的方案,并研究了药物在玻碳表面的吸附行为。     

西柏三烯-4,6-二醇衍生物的合成及抗肿瘤活性

以烟草中含量丰富的大环二萜类化合物2,7,11-西柏三烯-4,6-二醇(CBT)为母体, 其C6位羟基经酯化/醚化, 合成了28个西柏三烯-4-醇-6-羧酸酯及西柏三烯-4-醇-6-烷氧类化合物. 采用核磁共振波谱(NMR)和高分辨质谱(HRMS)对目标化合物进行了结构表征, 并初步评价了其生物活性. 细胞毒活性测试结果表明, 部分化合物对肿瘤细胞的抑制作用与阳性对照顺铂相当, 其中α-2,7,11-西柏三烯-4-醇-6-O-苯乙酸酯(1i)对乳腺癌细胞株MCF-7的IC₅₀值为15.45 μmol/L, α-2,7,11-西柏三烯-4-醇-6-O-(2-氟)苯乙酸酯(1t)对肺癌细胞株SMMC-7721的IC₅₀值为11.44 μmol/L.     

Stereochemistry of the Heterocyclic Alcohols Containing Piperidine Unit

The stereochemistry of the heterocyclic alcohols (R₁-OH~R₄-OH,see Fig.1) containing piperidine unit has been studied on the basis of the calculations of molecular mechanics and quantum chemistry. The calculations of alcohols (R₁-OH~R₄-OH) and their carboxylate derivatives were carried out, and the results of these calculations were listed in Tab.1 and Tab.2. It was showed that there existed the non-classical orbital super-conjugated interactions between the nitrogen atom and oxygen atom which caused the conformations to be more stable when the hydroxylic group lay at axial than at equatorial with respect to the piperidine ring in compounds (R₁-OH) and (R₃-OH). If the axial hydrogen atoms at C₂ and C₆ positions in the piperidine ring were substituted, or the molecular existed in the polar solutions, this non-classical orbital super-conjugated interactions would be much weak even diminished. In this case,the conformations were more stable when the hydroxylic group at equatorial than at axial in these compounds. These consistented with the experimental results.     

Effect of Through‐Bond Interaction on Conformation and Structure in Rod‐Shaped Donor–Acceptor Systems. Part 1

The crystal structures of five N‐arylpiperidin‐4‐one derivatives 2P2, 3P2, 5P2, 1P3 , and 2P3 are presented (Fig. 2 and Tables 1–5) and discussed together with the derivatives 1P2 and 4P2 published previously. In all but one structure, 1P2 , the aryl group is in an equatorial position. The piperidine ring adopts a normal chair conformation. In 1P2 , the piperidine ring central C? C bonds are significantly elongated, which is consistent with the idea that through‐bond interaction is more pronounced in the axial conformation. Through‐bond interaction also influences the pyramidalization at the piperidine C(4)‐atom in such a way that a strong interaction is directing the ethylene C‐atom C(9) into the axial direction.     

Why are silyl ethers conformationally different from alkyl ethers? Chair-chair conformational equilibria in silyloxycyclohexanes and their dependence on the substituents on silicon. The wider roles of eclipsing, of 1,3-repulsive steric interactions, and of attractive steric interactions

An NMR study of the diaxial/diequatorial chair equilibrium in a range of silylated derivatives of trans-1,4- and trans-1,2-dihydroxycyclohexane is reported and discussed with a view to explaining unusually large populations of chair conformations with axial substituents, noted previously for some monosilyloxycyclohexanes and in some silylated sugars. X-ray diffraction studies of three bis-triphenylsilyloxycyclohexanes are reported and show both axial and equatorial silyloxy groups with the exocyclic bonds eclipsed. Eclipsing is also suggested by molecular mechanics (MM3) calculations on such derivatives. Both axial and equatorial tertiary silyl groups have 1,3-repulsive interactions with whatever substituents or hydrogen atoms are at the two adjacent equatorial positions, and these are relieved by rotation toward the eclipsed conformation of the exocyclic C-O bond. The three substituents on silicon interact attractively with the nine atoms at the 3, 4, and 5-positions of the cyclohexane ring and calculations suggest that these stabilizing interactions are significantly greater in the axial than in the equatorial conformation. An equatorial C-OSiR(3) bond with one or two equatorial neighbors has a restricted potential energy well that becomes much broader when the bond is axial without any equatorial neighbors in the alternative chair. Adjacent silyl groups in the 1,2-disubstituted series interact in a stabilizing way overall in all conformations, this being particularly marked in the diaxial conformation of the more complex ethers. These factors lead to unusually large axial populations.     

New mechanistic insight in the thermal helix inversion of second-generation molecular motors

The introduction of dibenzocyclohepten-5-ylidene as part of a unidirectional light-driven molecular motor allows a more complete picture of the pathway of thermal helix inversion to be developed. The most stable conformation is similar to that found in related motors in that it has, overall, an anti-folded structure with the substituent at the stereogenic centre adopting an axial orientation. Photochemical cis/trans isomerisation at -40 degrees C results in the formation of an isomer in a syn-folded conformation with the methyl group in an axial orientation. This contrasts with previous studies on related molecular rotary motors. The conformation of the higher energy intermediate typically observed for this class of compound is the anti-folded conformation, in which the methyl group is in an equatorial orientation. This conformation is available through an energetically uphill upper half ring inversion of the observed photochemical product. However, this pathway competes with a second process that leads to the more stable anti-folded conformation in which the methyl group is oriented axially. It has been shown that the conformations and pathways available for second-generation molecular motors can be described by using similar overall geometries. Differences in the metastable high-energy species are attributable to the relative energy and position on the reaction coordinate of the transition states. Kinetic studies on these new molecular motors thus provide important insights into the conformational dynamics of the rotation cycle.     

Scopolamine and atropineN-methyl diastereomer stability.Ab initio calculations onO-formylscopine andO-formyltropine model compounds

Ab initio geometry optimizations at the RHF-21G basis set level were calculated forequatorial andaxial N-methyl diastereomers ofO-formyltropine andO-formylscopine esters and other model compounds. These optimized geometries were then utilized as input for single-point energy calculations using the higher level RHF/6-31G^* basis set to afford a more precise estimation of the total energies and atomic charges. Ethano bridge pinching of theN-protonated tropanyl piperidine moiety pushes the smalleraxial N-proton closer toward the neighboring twoaxial C-H bonds compared with the analogous case for a bulkyaxial N-methyl. Increasedcis 1,3-diaxial interactions in theaxial N-methyl diastereomer destabilize this epimer in favor of theequatorial N-methyl counterpart [e.g., 2.121 kcal/mol lower energy for theequatorial N-methylO-formyltropineN-protonated diastereomer (12) than for theaxial epimer (13)]. Lower pyramidality at nitrogen in the free base maintains the relative stability of theequatorial N-methyl free base diastereomer (14) (1.120 kcal/mol more stable than theaxial free base15). A nonprotonated carbon atom at the apex of a three-membered ring fused to the 6,7-positions of theO-formyltropine skeleton results in severe transannular nonbonding steric interactions involving the neighboringequatorial N-methyl group inN-protonated16 (3.335 kcal/mol less stable than theaxial N-methyl epimer17, where these transannular interactions are reduced due to the smallerequatorial N-H proton). Oxygen atom occupation of the apex of a similar fused three-membered ring retains the same severe transannular nonbonding steric interactions involving the neighboringequatorial N-methyl group inN-protonated18. These transannular interactions now become electrostatically attractive in theN-protonatedaxial N-methyl epimer19 (2.031 kcal/mol more stable than theequatorial epimer). Reduced pyramidality at nitrogen in theO-formylscopine free base reduces the repulsive transannular interaction with the neighboringequatorial N-methyl group compared to that in theN-protonated form. Lowered pyramidality also reduces thecis-1,3-diaxial interactions in theaxial N-methyl epimer, but the nitrogen lone pair is pushed close to the transannular oxygen lone pair as a result (theequatorial N-methyl free base20 is 3.870 kcal/mol more stable than theaxial epimer21). Theseab initio-calculated models ofO-formyltropines andO-formylscopineN-methyl diastereomeric protonated cations and free bases provide stereochemical insight into the relative stabilities of solution-state atropine and scopolamineN-methyl species previously observed by NMR spectroscopic methods.     

The effect of neighboring 1- and 2-adamantyl group substitution on the conformations and stereodynamics of N-methylpiperidine. Dynamic NMR spectroscopy and molecular mechanics calculations.

When a 1-adamantyl or a 2-adamantyl substituent is introduced at the 2-position in N-methylpiperidine, four different chair conformations are possible. Experimental observation using dynamic NMR spectroscopy and molecular mechanics calculations agree that the chair conformation with an equatorial adamantyl group and an axial methyl group is by far the most stable, but in both cases a minor population of a second conformation is demonstrated and characterized. Interaction between adamantyl and methyl groups is much more conformation-determining than any preference for equatorial over axial location which predominates in simpler 2-substituted N-methylpiperidines.     

Studies on indenopyridine derivatives and related compounds. II. Stereochemistry of 1-substituted 9-phenyl-1,3,4,4a,9,9a-hexahydro-4-hydroxy-2H-indeno[2,1-b] pyridines and their acetates

Chemical and catalytical reduction of 1-methyl- or 1-benzyl-phenyl-1,3,4,9-tetrahydro-2H-indeno[2,1-b ]pyridin-4-ones (VIIa,b) afforded 1-methyl- or 1-benzyl-9-phenyl-1,3,4,4a,9,9a- hexahydro-4-hydroxy-2H-indeno[2,1-b ]pyridines (IXa,b), which gave the corresponding acetates (Xa,b) by treatment with acetic anhydride and pyridine. Based upon a detailed study of 100 MHz nmr spectra of these compounds, it was concluded that the hydroxy group of IXa,b has an axial configuration taking B/C cis stable form which has the large aromatic group equatorial with respect to the piperidine ring, whereas the acetoxy group of Xa,b is equatorial taking an unfavorable B/C cis unstable form which has the large aromatic group axial with respect to the piperidine ring.     

Structural study of 3-methyl-2,4-diphenyl-3-azabicyclo[3.3.1]nonan-9β-ol

The infrared spectra in several media and the crystal structure of 3-methyl-2,4-diphenyl-3-azabicyclo[3.3.1]-nonan-9β-ol ( I ) (Scheme I) have been determined, in order to complete the structural study described for the title compound from the ¹H and ¹³C nmr data [1]. The bicyclic system adopts a flattened chair-chair conformation in which the cyclohexane ring is more flattened. The methyl and phenyl groups are in equatorial positions and the OH group in an axial position with respect to the piperidine ring.     

Spatial structure of 5-phenyl-5-oxo-2,4,6-triisopropyl-1,3,5-dioxa phosphorinane

Conclusions By means of x-ray structure analysis, it has been shown that the stereoisomer of 5-phenyl-5-oxo-2,4,6-triisopropyl-1,3,5-dioxaphosphorinane with mp 215°C has the chair conformation with all equatorial substituents of the ring atoms and axial substituents of the phosphoryl group. The conformations of the isopropyl groups are retarded relative to the ring bonds. The benzene ring at the P atom is perpendicular to the plane of the heterocycle.Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No.3, pp. 599–603, March, 1982.     

(3R,4S)-4-(4-Fluorophenyl)-3-hydroxymethyl-1-methylpiperidine: conformation and structure monitoring by vibrational circular dichroism.

Absorption and vibrational circular dichroism (VCD) spectra of the title compound, a common intermediate in synthesis of many pharmaceuticals, were measured and analyzed in order to determine its absolute configuration and prevailing conformations. The analysis was combined with a systematic conformer search based on relative energies as well as with comparison of experimental and computed NMR shifts. The spectra were interpreted on the basis of ab initio simulations. The results indicate that the compound adopts exclusively a chair conformation of the piperidine ring with all the fluorophenyl, hydroxymethyl, and methyl substituents attached in equatorial positions. A limited rotation of the hydroxymethyl group is most consistent with the observed VCD pattern. VCD parameters were found significantly more sensitive to conformational changes than absorption or NMR. Concentration dependence of the absorption spectra indicated aggregation in concentrated solutions, but involved hydrogen bonds probably do not influence molecular conformation.