环糊精用于分子识别分析的新进展

本文概述了环糊精用于分子识别分析的新进展，讨论了单体、修饰、交联环糊精在分子识别分析中的具体应用与展望。     

环糊精对甲基麻黄碱手性识别的电喷雾质谱研究

利用质谱仪,使用电喷雾离子源,分别研究了以α-环糊精、β-环糊精和产环糊精作为手性拆分剂对手性药物甲基麻黄碱的手性识别效应．实验结果表明,3种环糊精对甲基麻黄碱对映体均有较强的手性识别效应,Rchiral分别为2．43、3．51、4．52．研究了电压的变化对α-环糊精、β-环糊精和γ-环糊精的手性识别的影响,研究发现,在不同的电压下,这3种环糊精对甲基麻黄碱均有手性识别能力．     

环糊精衍生物及包合物构建荧光探针的研究进展

环糊精是超分子化学中的一类重要主体化合物,在药物缓释、化学传感、对映体分离以及新型材料等众多领域都得到了广泛的应用.由于环糊精具有外亲水内疏水的桶形结构,其空腔内可以插入具有识别功能的受体分子或荧光染料,可通过螯合或置换方式实现对目标分子的识别,因此基于环糊精衍生物及包合物构建荧光探针也受到了人们的极大关注.总结了基于环糊精设计合成的荧光探针在检测金属离子、阴离子和分子等方面的应用,重点描述了识别性能和识别机制,为环糊精衍生物及包合物在荧光检测领域的应用提供理论依据.     

超分子体系中的分子识别研究（XXX）：有机硒修饰β—环糊精的合？…

我们曾报道了天然环糊精及一些化学修饰环糊精对氨基酸生物小分子的识别研究[1～3],结果表明,多种弱相互作用协同贡献于环糊精-氨基酸超分子配合物的形成,修饰环糊精取代基的形状及尺寸影响对氨基酸的分子识别和手性识别能力.     

环糊精对手性药物伪麻黄碱分子识别的电喷雾飞行时间质谱研究

用电喷雾正交飞行时间质谱仪分别研究了以α－环糊精、β－环糊精和γ－环 糊精作为手性拆分剂对手性药物伪麻黄碱的分子识别效应，同时还分别研究了 Nozzle电的变化对α－环糊精和γ－环糊精的手性识别的影响。在质谱图中能明显 反映出三种手性拆分剂都具备很强的手性识别能力，随Nozzle电压的改变，三种手 性拆分剂双分别具有各自的手性识别特征。     

含环糊精链节的拓扑高分子

星形、超支化、树枝状、刷状等具有支化拓扑结构的高分子通常具有不同于直链结构高分子的优异性能。将有客体包合功能的环糊精与其结合构筑环糊精拓扑高分子体系,有望在分子识别、基因传输、药控释放等领域得到应用。本文根据高分子拓扑形态的不同,从星形、超支化、树枝状以及其他拓扑形态环糊精聚合物的合成及自组装构筑等方面进行了总结和评述,并在此基础上展望了基于环糊精的拓扑高分子的研究方向和发展趋势。     

超分子体系中的分子识别研究(ⅩⅩⅩ)--有机硒修饰β-环糊精的合成及其与L-和D-色氨酸的包结配位作用

我们曾报道了天然环糊精及一些化学修饰环糊精对氨基酸生物小分子的识别研究[1～3],结果表明,多种弱相互作用协同贡献于环糊精-氨基酸超分子配合物的形成,修饰环糊精取代基的形状及尺寸影响对氨基酸的分子识别和手性识别能力.     

环糊精对手性药物伪麻黄碱分子识别的电喷雾飞行时间质谱研究

用电喷雾正交飞行时间质谱仪分别研究了以α－环糊精、β－环糊精和γ－环 糊精作为手性拆分剂对手性药物伪麻黄碱的分子识别效应,同时还分别研究了 Nozzle电的变化对α－环糊精和γ－环糊精的手性识别的影响。在质谱图中能明显 反映出三种手性拆分剂都具备很强的手性识别能力,随Nozzle电压的改变,三种手 性拆分剂双分别具有各自的手性识别特征。     

环糊精超分子化学在生命科学研究中的新进展

本文介绍了环糊精作为一门交叉学科自20世纪90年代以来在生命科学研究中的新进展,着重阐述它在分子识别和生物体系中的应用,引用文献78篇。     

环糊精键接聚合物的研究进展

环糊精键接聚合物是一种通过化学键将超分子主体环糊精和聚合物连接在一起的新型高分子。其既具有环糊精分子识别的特点,又兼具聚合物的各种优良性质。将二者通过共价键连接后,其在大分子机器、智能材料、分子组装等领域展现出更多新颖的特性,尤其是在生物医学、传感等方面有着潜在的应用价值。本文先介绍了传统环糊精分子的结构性质,并重点从合成方法和性能特点两方面综述了近些年来环糊精键接聚合物的研究进展,最后展望了环糊精键接聚合物的发展方向。     

Structure selective complexation of cyclodextrins with five polyphenols investigated by capillary electrokinetic chromatography

The complexation of five polyphenols, namely trans‐resveratrol, astilbin, taxifolin, ferulic acid, and syringic acid (guest molecules) with α‐, β‐, and γ‐cyclodextrin (host molecules), was investigated by capillary electrokinetic chromatography. The binding constants were calculated based on the effective electrophoretic mobility change of guests with the addition of cyclodextrins into the background electrolyte. Because of cavity size, cyclodextrins showed structure‐selective complexation property to different guest. The stability of the trans‐resveratrol complexes was in the order of β‐ > α‐ > γ‐cyclodextrin. The cavity size of α‐cyclodextrin was too small for astilbin and taxifolin molecules, and thus they could not form complexes. The molecular size of syringic acid was too big for all cyclodextrins cavity, and no cyclodextrin could form complexes with it. Temperature studies showed that the binding constants decreased with the rise of temperature. Enthalpy and entropy values were calculated and the negative values of these parameters indicated that the complexation process was enthalpy‐controlled. Van der Waals force and release of high‐enthalpy water molecules from the cyclodextrins cavity played important roles in the process.     

基于环糊精包结络合作用的大分子自组装

本文综述了基于环糊精包结络合作用的大分子自组装的研究进展,包括：（1) 线型、梳型、多臂星型或超支化聚合物与环糊精或其二聚体自组装形成多聚轮烷（分子项链）、多聚准轮烷、双多聚（准）轮烷、分子管、双分子管、超分子凝胶及其应用;（2）桥联环糊精与桥联客体分子自组装制备线型或超支化超分子聚合物;（3）温度、pH值、光及客体分子刺激响应智能体系; （4) 通过亲水性的环糊精线型均聚物与含金刚烷的疏水性聚合物之间的包结络合作用来制备高分子胶束及其空心球等。     

Study of inclusion complexes of cyclodextrin by cyclic voltammetry

The inclusion complexes of a series of organometallic compound-cyclodextrin and aromatic compound-cyclodextrin have been studied by cyclic voltammetry using glassy carbon electrode. The variations of peak potential and peak current are showed on cyclic voltammogram when the electroactive guest molecules are complexed by cyclodextrins. Dissociation constants of cyclodextrin inclusion complexes have been calculated on the basis of this variation by both potential and current methods. According to the magnitude of dissociation constants the relationship between the stability of cyclodextrin inclusion complex and the degree of matching host molecule with guest molecule has been discussed.     

Molecular Recognition Studies on Modified Cyclodextrins

This account describes our research progress in recent years in the areas of the molecular recognition studies on modified cyclodextrins, including positively charged cyclodextrins, cyclodextrin derivatives with hydrophobic substituent, and dimeric cyclodextrins. Calorimetric titration and various spectrometric techniques were employed to determine the complex stability constants, as well as the thermodynamic parameters, for their inclusion complexation with diverse guest molecules. The results obtained have been discussed from the viewpoint of size/shape‐matching, induced‐fit, geometric compensation, and multiple recognition. Thermodynamically, the compensatory relationship between ΔH and TΔS was found to be exhibited in the inclusion complexation of modified cyclodextrin.     

Unprecedented chiral molecular recognition in a C3-symmetric environment.

The enantiomeric recognition of alpha-chiral primary ammonium ions has been studied with benzene-based tripodal tris(oxazoline) receptors. Contrary to the literature and our expectation, a good level of chiral discrimination is observed with one of the tripodal receptors, which provides a C3-symmetric chiral environment on guest binding. The chiral discrimination has been found to be general in the case of alpha-aryl substituted guests, suggesting pi-pi interactions as an important factor. This result raises a question with respect to the origin of the chiral discrimination since little steric or electronic difference is expected between the diastereomeric inclusion complexes. Binding studies by NMR titration and isothermal titration calorimetry show that the chiral discrimination results from the different thermodynamic stabilities between the diastereomeric complexes and that the host-guest complex formation is driven by favorable enthalpy changes with a minor negative contribution by entropy changes. The X-ray crystal structures for both of the diastereomeric inclusion complexes are resolved, which unambiguously show the binding mode and provide clues on the origin of the chiral discrimination. Bond angle analyses indicate that the minor complex experiences a larger steric strain, which is discernible when it is viewed from "three-body" interactions between the host and the guest. The guest and oxazoline phenyl rings are well stacked, indicating interplay of the pi-pi interactions. The pi-pi interactions are believed to stabilize host-guest complexes, thereby endowing the highly flexible receptors with a substantial enantio-discrimination.     

Fluorescence study of inclusion complexes between star-shaped cholic acid derivatives and polycyclic aromatic fluorescent probes and the size effects of host and guest molecules

Star-shaped host molecules containing two, three, and four cholic acid moieties have been used to form inclusion complexes with polycyclic aromatic hydrocarbon probes (guests) varying in size from four (pyrene) to five (benzo(e)pyrene) and seven aromatic rings (coronene) and investigated by steady-state fluorescence measurements and fluorescence lifetime techniques. The results indicated that these hydrophobic guest probes prefer to locate in the hydrophobic cavities formed by the host molecules in an aqueous solution. Further studies showed that the stoichiometric ratios of the complexes depended on the relative size of both the host and the guest. The complexes of 1:1 ratio (guest:host) were formed between pyrene and the host molecules of different sizes, while the complexes of 1:2 ratio (guest:host) were found for coronene in all cases. For benzo(e)pyrene with an intermediate size, the complexes with 1:1 and 1:2 ratios (guest:host) were formed depending on the relative sizes of the host molecules. The stability of the inclusion complexes was observed to change with the solvent polarity, indicative of an adaptation of the hydrophobicity of the host pockets to the polarity of the solvent. The formation of the complexes was driven by the solvophobic interactions.     

Characterization of Lippia sidoides oil extract-b-cyclodextrin complexes using combined thermoanalytical techniques

Thermoanalytical techniques, being rapid and un-expensive have been used for the investigation of the cyclodextrin inclusion complexes for three decades. The conventional thermoanalytical techniques (TG and DTA/DSC) follow the thermal properties of the uncomplexed compounds. Consequently, the inclusion complex formation as well as the liberation of the entrapped guest cannot be followed. Monitoring the products of the thermal fragmentation of parent cyclodextrin and the included molecule(s), applying TG-MS combined technique provides evidence concerning the inclusion complex formation, and besides, gives selective signal to follow the decomposition of the cyclodextrin inclusion complexes. b-cyclodextrin inclusion complexes of Thymol and Lippia sidoides Cham essential oil extract have been prepared and investigated using conventional and combined (TG-MS) thermoanalytical techniques. The evolved gas analysis proved the inclusion complex formation between the host and guests. By the evaluation of the experimental results the elaboration of the entrapped guests from the cyclodextrin cavity could be followed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Selective sensing and transport in bionic nanochannel based on macrocyclic host-guest chemistry

Imitating the signal transduction and transmembrane transport co ntrolled by biological channels in the cell membra ne,artificial nanochannels with a similar capability of sensing and transport are constructed as bionic nanochannels.To accomplish selective sensing and transport of biological analyte(as "guest"),the bionic nanochannels are modified with the artificial receptor(as "host"),Based on selective recognition between host and guest,bionic nanochannels translate the stimulus of the guest to electrochemical signal as sensors,and further regulate the transmission of guest as transporters.Howeve r,throughout all kinds of guests,the selective sensing and transpo rt of ions and chiral molecules is a challenging problem.And throughout all hosts of ions and chiral molecules,the macrocyclic hosts with multisite of recognition show better selectivity,such as crown ethers,cyclodextrins,calixarenes,and pillararenes.In this article,we highlight recent advances in the macrocyclic host-based nanochannels for the selective sensing and transport of ionic and chiral guests,summarize the similarities and differences of different kinds of macrocyclic host-based nanochannels,and expect the research direction and application prospect.     

水溶性六元瓜环衍生物与1,ω-亚烷基吡啶主客体配合物的^1HNMR及晶体结构

利用^1HNMR技术以及单晶X衍射技术考察对称四甲基取代六元瓜环（TMeQ[6]）与几种1,ω-亚烷基吡啶阳离子（ω=2,4,6,8,10）客体的相互作用．在这些包结配合物中,TMeQ[6]的端口效应以及空腔效应同时存在,其主客体作用模式随着客体亚烷基碳链长短不一而各不相同．对于客体1,2-二乙基吡啶（Edpy）,TMeQ[6]包结Edpy的带正电荷的吡啶环部分,形成一不对称的包结配合物;对于客体1,4-二丁基吡啶（Bdpy）,TMeQ[6]选择性包结Bdpy的吡啶环部分或烷基部分存在竞争作用和快速交换;而具有较长碳链的客体1,6-二己基吡啶（Hdpy）和1,8-二丁庚基吡啶（Odpy）与TMeQ[6]通过空腔的疏水作用以及外部的离子-偶极作用形成稳定的类轮烷包结配合物;客体1,10-二癸基吡啶（Ddpy）的两个吡啶环分别被两个TMeQ[6]包结形成哑铃型的包结配合物．     

Interactions of cyclodextrins with aromatic compounds studied by vibrational circular dichroism spectroscopy

The host/guest complexation between cyclodextrins (CDs) and aromatic compounds was studied by vibrational circular dichroism (VCD) spectroscopy in mid-IR region. Benzoic acid, 4-aminobenzoic acid, and 2,6-naphthalene-dicarboxylic acid acting as the guests with aromatic skeleton, cause the significant changes in VCD patterns of CD, which indicate that the secondary hydroxyl groups of the CDs are involved in the host/guest complexation. In addition, the intensities and dissymmetry factors (deltaA/A) of the VCD bands, which belong to skeletal CD vibrations, depend on the sizes of the guest molecules. Our results indicate that the formation of the CD inclusion complexes can be followed by VCD spectroscopy.