948 resultados para 1,2,3-triazole
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本论文从2,3'-联吡啶出发,利用两个吡啶环上氮的反应活性差异,选择性合成了单烷基盐1-甲基-2,3,-联吡啶盐、1-甲基-1,一氧-2,3,-联吡啶盐和1'-甲基/节基2,3气联吡啶盐,还原单烷基盐合成了天然生物碱毒黎碱、安那他品和异毒黎碱及其衍生物:对异毒黎碱的合成由还原N,-节基盐后脱节基简化为一步实现还原和脱节基直接得到异毒黎碱。通过用(R)-BINOL和(S)-BINOL对N,-节基异毒黎碱拆分得到了旋光纯的N,-节基异毒黎碱和异毒黎碱,-N,-节基异毒黎碱的旋光度[a]D20:-61.50(c=2.0,乙醇),卜异毒黎碱的旋光度fa]D20:-14.4"(c-1.0,乙醇);将C关异毒黎碱用(RMTPA和(s)MT队衍生为Mosher酞胺,应用Mosllel方法确定了C)异毒黎碱手性中心的绝对构型为R型,即(R)-C)异毒黎碱,同时发现,由(R)一MTPA合成的Mosller酞胺中顺式旋转异构体占优。而通常在环胺的Mosller酞胺中,是反式旋转异构体占优。这一例外被MollteCarlo模型模拟计算结果解释:稀溶液中C卜异毒黎碱的Moshel-酞胺,顺式构型能量上比反式更有利。不对称合成天然生物碱更具有挑战性。对异毒黎碱还原合成中的呱l淀烯类中间体,用BINAP-灿催化体系进行了催化不对称还原的合成研究,氢化N'-节基-1,,4,,5,,6,-四氢一2,3,一联吡陡时得到了最高为21.5%的对映体选择性,而对N'-节基一1,,2',5',6,-四氢-2,3'一联吡陡的氢化则只得到了不超过10.0%的对映体选择性。
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一、根据凝胶色谱柱的单分散校准关系和试样的实效关系在概念和实质上的区别以及两者在理论上的定量速率,建议了一个从一组重均和数均分子量已确知的多分散试样的实验谱图同时订定凝胶色谱柱的分子量校准关系和扩展因子的计算觅数方法。用聚苯乙烯和聚丁二烯订定的扩展因子—算出体积依赖关系相互重合,与试样的结构无关。如将扩展因子视作常数时,其具体数值可从实验谱图的方差与实效关系和单分散校准关系的斜率比值之间的定量连系得到选定。二、对高1,2聚丁二烯的级份和原试样作了凝胶色谱、光散射和粘度的测量。建议了从一组分布宽度不等的试样的凝胶色谱数据和光散射及粘度测定结果求得单分散[3]-M方程的三种不同方法。用三种方法所得高1,2聚丁二烯的单分散[3]-M方程相互重合。三、导得了从凝胶色谱图所得乙均分子量的扩展改正因子。由光散射得到了乙均迥转半径与乙均分子量的实验数据,订定了单分散1,2聚丁二烯在溶液中的分子尺寸与分子量间的关系。对实验数据作进一步的分析,获得了高1,2聚丁二烯的特性比和空间住阻因子的具体数值,并讨论了1,2结构含量对形态结构的影响。
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本论文的实验研究内容包括"大鼠眶额叶与吗啡成瘾关系的研究"及"在自由活动的称猴大脑上进行神经元单位放电记录方法的建立"两部分。第一部分在第一部分,着重探讨了眶额叶在吗啡诱导的心理成瘾中的作用。大量的研究证据表明,人类的眶额叶参与了强迫性的药物渴求行为。然而,我们不知道眶额叶在其中是起抑制作用还是促进作用?在人类,眶额叶的功能失调通常会打断动机化行为、不能预测后果以至不能进行正确地判断或者产生难以妙制的重复性行为,那么眶额叶的损伤对吗啡的奖赏效应以及吗啡诱导的药物依赖有什么影响呢?此外,DAD2受体的活动在吗啡成瘾中有十分重要的作用,那么眶额叶中DAD2受体的活动对吗啡诱导的心理成瘾的影响如何呢?另外,给动物或者人系统注射巴氯芬一GAB标受体的激动剂能缓解吗啡诱导的心理成瘾,那么眶额叶GAB绳受体的激活对吗啡诱导的心理成瘾是否具有抑制作用呢?因此,在第一部分我们以大鼠作为吗啡渴求的动物模型围绕上述三个问题开展实验工作。在第一部分的研究中,运用条件化位置偏好的模型,分别研究了大鼠眶额叶电损伤、大鼠眶额叶微量注射DAD2激动剂和拮抗剂以及GABAB受体激动剂一巴氯芬对吗啡诱导的药物依赖的影响;结果表明:(1)大鼠眶额叶在吗啡一环境刺激这个特殊的条件化学习过程中的作用是十分有限的;(2)如果条件化建立之后眶额叶的功能受损,可能导致眶额叶抑制功能的障碍,表现出抑制功能的减弱,因而不能抑制原来在一定的条件下引导的行为反应,所以,表现出对药物渴求的增加;长期滥用药物所导致眶额叶的功能受损势必会增加对药物的依赖。(3)眶额叶的DADZ受体可能对药物心理渴求起着抑制作用,当DAD2受体受到抑制时,眶额叶对吗啡渴求行为的抑制被削弱,导致动物渴求行为明显增加。同时,本研究也证实了眶额叶的GABAB受体活动没有涉及到对心理渴求的调节; 第二部分在第二部分,着重介绍了"在自由活动的称猴大脑上进行神经元单位放电记录方法的建立"。单个神经元活动的胞外记录是现代神经生物学研究的重要手段之一,是在细胞水平上研究大脑的感觉、运动、认知功能等常用而又极其重要的方法,它在研究动物脑与行为的关系上发挥着越来越重要的作用。然而,在传统的记录系统里记录设施通常限制着动物的活动,也影响了动物行为的自然展示,因而对动物脑功能与某些行为关系的研究具有很大的局限性。在传统技术的基础上,我们对神经元胞外记录方法进行了一系列的改进,建立起一套轻便的记录系统和适合在户外自由活动的琳猴大脑上进行神经元单位放电的胞外记录及追踪动物行为的方法。利用这种方法,就可以在室外自由活动称猴的大脑上记录到信噪比高且能稳定数小时的放电神经元;在单位放电的记录过程中,动物是处于室外自由活动状态不会因为实验操作引起动物的紧张;伴随着神经元单位放电的记录,同时进行着动物相关行为信息的记录;其中下列几个因素在方法的建立上起着至关重要的作用:(1)特殊设计的可移动的微电极;(2)小而轻的放大器;(3)信号的无线传输方式;它的建立为我们研究细胞活动和动物行为关系以及研究非人灵长类社会行为的细胞学基础提供了一种全新的方法。
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Exit of cytochrome c from mitochondria into the cytosol has been implicated as an important step in apoptosis. In the cytosol, cytochrome c binds to the CED-4 homologue, Apaf-1, thereby triggering Apaf-1-mediated activation of caspase-9. Caspase-9 is thought to propagate the death signal by triggering other caspase activation events, the details of which remain obscure. Here, we report that six additional caspases (caspases-2, -3, -6, -7, -8, and -10) are processed in cell-free extracts in response to cytochrome c, and that three others (caspases-1, -4, and -5) failed to be activated under the same conditions. In vitro association assays confirmed that caspase-9 selectively bound to Apaf-1, whereas caspases-1, -2, -3, -6, -7, -8, and -10 did not. Depletion of caspase-9 from cell extracts abrogated cytochrome c-inducible activation of caspases-2, -3, -6, -7, -8, and -10, suggesting that caspase-9 is required for all of these downstream caspase activation events. Immunodepletion of caspases-3, -6, and -7 from cell extracts enabled us to order the sequence of caspase activation events downstream of caspase-9 and reveal the presence of a branched caspase cascade. Caspase-3 is required for the activation of four other caspases (-2, -6, -8, and -10) in this pathway and also participates in a feedback amplification loop involving caspase-9.
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The ir absorption of gaseous 15NH3 between 510 and 3040 cm−1 was recorded with a resolution of 0.06 cm−1. The ν2, 2ν2, 3ν2, ν4, and ν2 + ν4 bands were measured and analyzed on the basis of the vibration-rotation Hamiltonian developed by V. Špirko, J. M. R. Stone, and D. Papoušek (J. Mol. Spectrosc. 60, 159–178 (1976)). A set of effective molecular parameters for the ν2 = 1, 2, 3 states was derived, which reproduced the transition frequencies within the accuracy of the experimental measurements. For ν4 and ν2 + ν4 bands the standard deviation of the calculated spectrum is about four times larger than the measurements accuracy: a similar result was found for ν4 in 14NH3 by Š. Urban et al. (J. Mol. Spectrosc. 79, 455–495 (1980)). This result suggests that the present treatment takes into account only the most significant part of the rovibration interaction in the doubly degenerate vibrational states of ammonia.
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A ring-contractive and highly diastereoselective [2,3]-sigmatropic rearrangement occurs when N-methyl-1,2,3,6-tetrahydropyridine is treated with sub-stoichiometric amounts of copper or rhodium salts, in the presence of ethyl diazoacetate, giving ethyl cis-N-methyl-3-ethenyl proline (4).
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In this paper, we have synthesized two novel diketopyrrolopyrrole (DPP) based donor-acceptor (D-A) copolymers poly{3,6-dithiophene-2-yl-2,5-di(2-octyl)- pyrrolo[3,4-c]pyrrole-1,4-dione-alt-1,5-bis(dodecyloxy)naphthalene} (PDPPT-NAP) and poly{3,6-dithiophene-2-yl-2,5-di(2-butyldecyl)-pyrrolo[3,4-c]pyrrole-1,4- dione-alt-2-dodecyl-2H-benzo[d][1,2,3]triazole} (PDPPT-BTRZ) via direct arylation organometallic coupling. Both copolymers contain a common electron withdrawing DPP building block which is combined with electron donating alkoxy naphthalene and electron withdrawing alkyl-triazole comonomers. The number average molecular weight (Mn) determined by gel permeation chromatography (GPC) for polymer PDPPT-NAP is around 23 400 g mol-1 whereas for polymer PDPPT-BTRZ it is 18 600 g mol-1. The solid state absorption spectra of these copolymers show a wide range of absorption from 400 nm to 1000 nm with optical band gaps calculated from absorption cut off values in the range of 1.45-1.30 eV. The HOMO values determined for PDPPT-NAP and PDPPT-BTRZ copolymers from photoelectron spectroscopy in air (PESA) data are 5.15 eV and 5.25 eV respectively. These polymers exhibit promising p-channel and ambipolar behaviour when used as an active layer in organic thin-film transistor (OTFT) devices. The highest hole mobility measured for polymer PDPPT-NAP is around 0.0046 cm2 V-1 s-1 whereas the best ambipolar performance was calculated for PDPPT-BTRZ with a hole and electron mobility of 0.01 cm2 V-1 s-1 and 0.006 cm2 V-1 s-1.
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Glycidyl azide polymer (GAP) was cured through click chemistry by reaction of the azide group with bispropargyl succinate (BPS) through a 1,3-dipolar cycloaddition reaction to form 1,2,3-triazole network. The properties of GAP-based triazole networks are compared with the urethane cured GAP-systems. The glass transition temperature (T-g), tensile strength, and modulus of the system increased with crosslink density, controlled by the azide to propargyl ratio. The triazole incorporation has a higher T-g in comparison to the GAP-urethane system (T-g-20 degrees C) and the networks exhibit biphasic transitions at 61 and 88 degrees C. The triazole curing was studied using Differential Scanning Calorimetry (DSC) and the related kinetic parameters were helpful for predicting the cure profile at a given temperature. Density functional theory (DFT)-based theoretical calculations implied marginal preference for 1,5-addition over 1,4-addition for the cycloaddition between azide and propargyl group. Thermogravimetic analysis (TG) showed better thermal stability for the GAP-triazole and the mechanism of decomposition was elucidated using pyrolysis GC-MS studies. The higher heat of exothermic decomposition of triazole adduct (418kJmol(-1)) against that of azide (317kJmol(-1)) and better mechanical properties of the GAP-triazole renders it a better propellant binder than the GAP-urethane system.
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We synthesized 1,2,3-triazole-linked azobenzene dendrons of four generations. No protection-deprotection approach was needed during the generation development via click reaction. The photoisomerization of azobenzene dendrons was Studied using UV-vis spectra. The cis isomers of these dendrons were more stable than trans isomers in the dark; however, the cis isomers could be quickly converted to trans forms under visible light exposure in seconds. The trans form could change to cis form reversibly by UV irradiation as well.
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In this thesis, the self-assembled functional structure of a broad range of amphiphilic molecular transporters is studied. By employing paramagnetic probe molecules and ions, continuous-wave and pulse electron paramagnetic resonance spectroscopy reveal information about the local structure of these materials from the perspective of incorporated guest molecules. First, the transport function of human serum albumin for fatty acids is in the focus. As suggested by the crystal structure, the anchor points for the fatty acids are distributed asymmetrically in the protein. In contrast to the crystallographic findings, a remarkably symmetric entry point distribution of the fatty acid binding channels is found, which may facilitate the uptake and release of the guest molecules. Further, the metal binding of 1,2,3-triazole modified star-shaped cholic acid oligomers is studied. These biomimetic molecules are able to include and transport molecules in solvents of different polarity. A pre-arrangement of the triazole groups induces a strong chelate-like binding and close contact between guest molecule and metal ion. In absence of a preordering, each triazole moiety acts as a single entity and the binding affinity for metal ions is strongly decreased. Hydrogels based on N-isopropylacrylamide phase separate from water above a certain temperature. The macroscopic thermal collapse of these hydrogels is utilized as a tool for dynamic nuclear polarization. It is shown that a radical-free hyperpolarized solution can be achieved with a spin-labeled gel as separable matrix. On the nanoscale, these hydrogels form static heterogeneities in both structure and function. Collapsed regions protect the spin probes from a chemical decay while open, water-swollen regions act as catalytic centers. Similarly, thermoresponsive dendronized polymers form structural heterogeneities, which are, however, highly dynamic. At the critical temperature, they trigger the aggregation of the polymer into mesoglobules. The dehydration of these aggregates is a molecularly controlled non-equilibrium process that is facilitated by a hydrophobic dendritic core. Further, a slow heating rate results in a kinetically entrapped non-equilibrium state due to the formation of an impermeable dense polymeric layer at the periphery of the mesoglobule.
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In the modern society, light is mostly powered by electricity which lead to a significant increase of the global energy consumption. In order to reduce it, different kinds of electric lamps have been developed over the years; it is now accepted that phosphorescence-based OLEDs offer many advantages over existing light technologies. Iridium complexes are considered excellent candidates for bright materials by virtue of the possibility to easily tune the wavelength of the emitted radiation, by appropriate modifications of the nature of the ligands. It is important to note that the synthesis of Ir(III) blue-emitting complexes is a very challenging goal, because of wide HOMO-LUMO gaps needed for produce a deep blue emission. During my thesis I planned the synthesis of two different series of new Ir(III) heteroleptic complexes, the C and the N series, using cyclometalating ligands containing an increasing number of nitrogens in inverse and regular position. I successfully performed in the synthesis of the required four ligands, i.e. 1-methyl-4-phenyl-1H-imidazole (2), 4-phenyl-1-methyl-1,2,3-triazole (3), 1-phenyl-1H-1,2,3-triazole (6) and 1-phenyl-1H-tetrazole (7), that differ in the number of nitrogens present in the heterocyclic ring and in the position of the phenyl ring. Therefore the cyclometalation of the obtained ligands to get the corresponding Ir(III)-complexes was attempted. I succeeded in the synthesis of two Ir(III)-complexes of the C series, and I carried out various attempts to set up the appropriate reaction conditions to get the remaining desired derivatives. The work is still in progress, and once all the desired complexes will be synthesized and characterized, a correlation between their structure and their emitting properties could be formulated analysing and comparing the photophysical data of the real compounds.
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A would-be amide: A 1,4-disubstituted 1,2,3-triazole was used as a surrogate for a trans amide bond to create a library of 16 diastereomeric pseudotetrapeptides as beta-turn mimetics. High-resolution structural analysis indicated that these scaffolds adopt distinct, rigid, conformationally homogeneous beta-turn-like structures (see example), some of which bind somatostatin receptor subtypes selectively, and some of which show broad-spectrum activity.
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The work presented herein focused on the automation of coordination-driven self assembly, exploring methods that allow syntheses to be followed more closely while forming new ligands, as part of the fundamental study of the digitization of chemical synthesis and discovery. Whilst the control and understanding of the principle of pre-organization and self-sorting under non-equilibrium conditions remains a key goal, a clear gap has been identified in the absence of approaches that can permit fast screening and real-time observation of the reaction process under different conditions. A firm emphasis was thus placed on the realization of an autonomous chemical robot, which can not only monitor and manipulate coordination chemistry in real-time, but can also allow the exploration of a large chemical parameter space defined by the ligand building blocks and the metal to coordinate. The self-assembly of imine ligands with copper and nickel cations has been studied in a multi-step approach using a self-built flow system capable of automatically controlling the liquid-handling and collecting data in real-time using a benchtop MS and NMR spectrometer. This study led to the identification of a transient Cu(I) species in situ which allows for the formation of dimeric and trimeric carbonato bridged Cu(II) assemblies. Furthermore, new Ni(II) complexes and more remarkably also a new binuclear Cu(I) complex, which usually requires long and laborious inert conditions, could be isolated. The study was then expanded to the autonomous optimization of the ligand synthesis by enabling feedback control on the chemical system via benchtop NMR. The synthesis of new polydentate ligands has emerged as a result of the study aiming to enhance the complexity of the chemical system to accelerate the discovery of new complexes. This type of ligand consists of 1-pyridinyl-4-imino-1,2,3-triazole units, which can coordinate with different metal salts. The studies to test for the CuAAC synthesis via microwave lead to the discovery of four new Cu complexes, one of them being a coordination polymer obtained from a solvent dependent crystallization technique. With the goal of easier integration into an automated system, copper tubing has been exploited as the chemical reactor for the synthesis of this ligand, as it efficiently enhances the rate of the triazole formation and consequently promotes the formation of the full ligand in high yields within two hours. Lastly, the digitization of coordination-driven self-assembly has been realized for the first time using an in-house autonomous chemical robot, herein named the ‘Finder’. The chemical parameter space to explore was defined by the selection of six variables, which consist of the ligand precursors necessary to form complex ligands (aldehydes, alkineamines and azides), of the metal salt solutions and of other reaction parameters – duration, temperature and reagent volumes. The platform was assembled using rounded bottom flasks, flow syringe pumps, copper tubing, as an active reactor, and in-line analytics – a pH meter probe, a UV-vis flow cell and a benchtop MS. The control over the system was then obtained with an algorithm capable of autonomously focusing the experiments on the most reactive region (by avoiding areas of low interest) of the chemical parameter space to explore. This study led to interesting observations, such as metal exchange phenomena, and also to the autonomous discovery of self assembled structures in solution and solid state – such as 1-pyridinyl-4-imino-1,2,3-triazole based Fe complexes and two helicates based on the same ligand coordination motif.
