19F NMR在细胞内游离钙离子测定中的应用

讨论了¹⁹F NMR测定细胞内游离钙离子方法的优缺点,介绍了其在游离细胞、心肌、离体主动脉和整体动物原位测定胞内钙离子中的应用.     

稀土长期毒性对大鼠体液的1H NMR研究

采用现代核磁共振技术,通过分析灌胃给药0.2,2.0,10,20mg/kg剂量的La(NO₃)₃6个月后大鼠血清中某些内源性化合物的变化研究了稀土化合物在动物体内的作用情况及长期毒性,同时对各剂量组三个月后大鼠尿液的¹H NMR谱图进行了分析,并通过血液中一些重要生化指标的测定对结果进行了验证.体液中氨基酸、乳酸、N-氧三甲胺、3羟丁酸、葡萄糖、尿素、柠檬酸等重要内源化合物的核磁共振谱峰发生了明显的变化,意味着动物体内的代谢出现异常.结果表明高剂量稀土的引入可能使动物肾脏和肝脏均受到损害,且受损程度随稀土剂量的增高而渐趋严重。     

核磁共振技术在生物质转化中的应用

生物质结构的精确分析研究有利于其各个组分的转化利用,而核磁共振（NMR）技术是生物质解聚及结构演变分析中重要的表征技术.本文主要介绍了¹H NMR、¹³C NMR、³¹P NMR和2D HSQC四种NMR技术在生物质结构、产物定性和定量分析、反应路径和催化解聚机理探究中的应用,然后讨论了NMR技术应用于生物质研究中存在的主要问题,并进行了展望.     

乙酰甲喹影响猪尿液代谢组的 NMR研究

乙酰甲喹是喹噁啉类广谱抗菌药,在我国畜禽养殖业中有广泛的应用.乙酰甲喹的毒性以及毒性机制被越来越多的报道,然而,乙酰甲喹对动物内源性代谢的影响仍不清楚.该研究利用基于核磁共振(NMR)的代谢组学方法并结合多变量数据分析方法研究了乙酰甲喹一次性急性给药(10 mg/kg.bw)对猪尿液代谢组的影响.结果发现,乙酰甲喹给药后,尿液中肌酸、马尿酸和对甲酚葡萄糖醛酸浓度显著降低,而对甲基苯酚和苯甲酸的浓度在给药后显著升高.乙酰甲喹对猪尿液代谢组的影响在给药144 h后未见恢复.研究结果显示,剂量为10 mg/kg.bw乙酰甲喹给药主要影响了猪体内肠道菌群微生态.上述研究为乙酰甲喹对生物体内源性代谢的影响提供了基础数据,并为乙酰甲喹的安全用药提供了数据参考.     

高分子化学位移的量化计算与固体NMR实验研究

该文以2种不同立构聚丙烯（iPP和sPP）为讨论对象,首先研究了量化计算方法在预测高分子¹³C 各向同性和各向异性化学位移（CSA）中的应用,然后讨论了近年来发展的测定¹³C CSA粉末线形的2种重要固体NMR实验技术（SUPER和RAI）的特点和实验优化问题. 最后,利用可获得接近无扭曲线形的SUPER技术测定了等规立构聚丙烯样品的¹³C CSA粉末线形,并与量化计算理论结果比较. 结果表明：¹³C 各向同性化学位移及CSA粉末线形的理论计算结果均与固体NMR实验结果有很好的符合,预示通过¹³C CSA量化计算结合固体NMR实验是阐明高分子微观结构的有力工具.     

基于NMR指纹谱相关分析的生物类似药高级结构评价（英文）

建立了基于1H NMR指纹技术的生物类似药高级结构相似性分析方法,利用相关系数r和决定系数R2定量评估生物类似药与其原研药的结构相似度.将该方法应用在一种分子量为1 620的抗菌性脂肽达托霉素上,比较了其类似药的活性原料成分(API)、类似药制剂与原研药克必信的高级结构相似性.实验结果显示,3个达托霉素样品的谱图存在显著差异,表明达托霉素类似药与其原研药在水溶液中存在结构差异.将该方法应用在分子量为145 423的单克隆抗体药物曲妥珠单抗的高级结构比对上.对1个批次的赫赛汀原研药、4个批次的类似药的1H NMR谱进行相似性分析,相关系数r和决定系数R2的结果显示,曲妥珠单抗的类似药与赫赛汀原研药相似度很高;进一步采用局部相关系数进行谱图分析,得到了曲妥珠单抗类似药与赫赛汀原研药之间的微小差异.研究表明,有效结合NMR指纹分析技术和统计分析方法,将在生物类似药质量控制中发挥重大的作用.     

NMR波谱技术在两亲分子聚集体研究中的应用

通过近年来NMR技术在两亲分子聚集体研究中的应用实例,特别在弛豫时间、自扩散系数测定、谱线宽度、化学位移等方面取得的研究结果,对确定的两亲分子聚集性质、聚集体结构和聚集体性质的研究进行了较为详细的介绍.主要侧重点在于介绍1HNMR、13CNMR、19FNMR及2H四极分裂谱等技术在两亲分子聚集体结构及结构演变研究中的应用,特别在胶束、囊泡和微乳液结构确定上的应用.     

脑科学研究中的质子磁共振波谱方法

核磁共振（NMR）波谱作为一种操作简单、高效且重复性良好的技术手段,在脑科学领域的应用日益广泛,尤其是离体核磁共振氢谱（¹H NMR）和活体核磁共振氢谱（¹H MRS）.¹H NMR和¹H MRS在实验设计、样品预处理、数据处理等方面各有优劣、各擅胜场.本综述主要从适用范围、样品预处理、数据处理分析等方面,对二者在方法学层面的研究现状进行总结和讨论,以期为脑科学领域的研究者进行大脑代谢相关研究时提供一定的参考和帮助.     

昆明小鼠常见体液与组织代谢组NMR分析

昆明小鼠是我国特有且广泛使用的模式动物. 利用核磁共振(NMR)技术对昆明小鼠血液、尿液和肝脏等组织中的代谢物进行了较为系统的研究. 通过对昆明小鼠体液和组织中代表性的¹H NMR谱图,并结合COSY(Correlation Spectroscopy),TOCSY(Total Correlation Spectroscopy),J-Res(J-Resolved Spectroscopy),HSQC(Heteronuclear Single Quantum Coherence),HMBC(Heteronuclear Multiple Bond Coherence)等2D NMR谱图进行分析,共解析出82种小分子代谢物,其中尿液中约有46种,血样中约有32种,肝脏提取物中约有43种,肾脏皮质提取物中约有39种,部分代谢物在不同样品均存在. 这为进一步利用昆明小鼠为动物模型的研究提供了基础信息.     

高压NMR在蛋白质结构和动力学研究中的应用

与温度一样,压力是基本的热力学变量.蛋白质在溶液中是多种构象的热力学平衡体.在不同的温度和压力等条件下,蛋白质包括折叠构象、变性构象以及各种中间体在内的不同构象的存在频率各不相同.当用压力作为扰动时,由于这些构象的偏摩尔体积不同,它们的存在频率便会因而发生变化,加压可将平衡向具有较小偏摩尔体积的方向移动.因此,利用高压核磁共振(NMR)技术,不仅可以研究高压对蛋白质结构和动力学的影响,还可以通过改变压力,在更为广泛的构象空间研究蛋白质结构和动力学.例如,利用平衡体系在加压时向体积小的构象方向移动这一特性,能够对在常压下因其存在频率低而难于检测、但在高压下因其体积小而存在频率增加了的构象进行深入研究,而这些构象往往与蛋白质的功能密切相关.该篇综述首先介绍了高压在蛋白质科学研究中的历史、有关概念和高压NMR技术;其次,结合实例,阐述高压NMR技术在蛋白质结构、折叠以及动力学研究中的应用;最后,对高压NMR技术在蛋白质研究中的应用前景进行展望.     

核磁共振波谱在药物发现中的应用

核磁共振波谱通过检测组成有机化合物分子的原子核跃迁而得到反映核性质的参数以及周围化学环境对这些参数的影响规律. 这些参数的相关内容包含了极其详尽的有机化合物分子结构和分子间相互作用的信息,并构成了核磁共振结构解析和生物靶分子-配体相互作用研究的理论基础. 在生物医药研发领域内,科研院所和公司企业的研发工作者们一直在努力探索利用核磁共振波谱监测生物靶分子-配体相互作用作为药物发现工具的潜能. 本文旨在针对核磁共振波谱在药物发现过程中活性化合物筛选的最新研究进展进行综述.     

A new method for multi-exponential inversion of NMR relaxation measurements

The NMR technique has been widely applied to petroleum well logging and rock core analysis since the 1990s when NUMAR introduced a reliable NMR logging tool to the oil industry. It has been playing an important role for prospecting and exploiting resource of oil and gas for the last ten years. In an oil well, NMR can provide parameters of reservoir and fluid properties, such as porosity, pore size distribution, bound water volume, bulk volume of free water, permeability, in-situ fluid dif…     

BlochLib: a fast NMR C++ tool kit

Computational power, speed, and algorithmic complexity are increasing at a continuing rate. As a result, scientific simulations continue to investigate more and more complex systems. Nuclear magnetic resonance (NMR) is no exception. NMR theory and language is extremely well developed, that simulations have become a standard by which experiments are measured. Nowadays, complex computations can be performed on normal workstations and workstation clusters. Basic numerical operations have also become extremely optimized and new computer language paradigms have become implemented. Currently there exists no complete NMR tool kit which uses these newer techniques. This paper describes such a tool kit, BlochLib. BlochLib is designed to be the next generation of NMR simulation packages; however, the basic techniques implemented are applicable to almost any problem. BlochLib enables the user to simulate almost any NMR idea both experimental or theoretical in nature. Both classical and quantum mechanical techniques are included and demonstrated, as well as several powerful user interface tools. The total tool kit and documentation can be found at http://waugh.cchem.berkeley.edu/blochlib/.     

核磁共振量子信息处理研究的新进展

过去的二十年中,量子信息相关研究取得了显著的进展,重要的理论和实验工作不断涌现.与其他量子信息处理系统相比,基于自旋动力学的核磁共振系统,不仅具有丰富而且成熟的控制技术,还拥有相干时间长、脉冲操控精确、保真度高等优点.这也是核磁共振体量子系统能够精确操控多达12比特的量子系统的原因.因此,核磁共振量子处理器在量子信息领域一直扮演着重要角色.本文介绍核磁共振量子计算的基本原理和一些新研究进展.研究的新进展主要包括量子噪声注入技术、量子机器学习在核磁共振平台上的实验演示、高能物理和拓扑序的量子模拟以及核磁共振量子云平台等.最后讨论了液态核磁共振的发展前景和发展瓶颈,并对未来发展方向提出展望.     

Quartz Crystal Temperature Sensor for MAS NMR

Quartz crystal temperature sensors (QCTS) were tested for the first time as wireless thermometers in NMR MAS rotors utilizing the NMR RF technique itself for exiting and receiving electro-mechanical quartz resonances. This new tool in MAS NMR has a high sensitivity, linearity, and precision. When compared to the frequently used calibration of the variable temperature in the NMR system by a solid state NMR chemical shift thermometer (CST), such as lead nitrate, QCTS shows a number of advantages. It is an inert thermometer in close contact with solid samples operating parallel to the NMR experiment. QCTS can be manufactured for any frequency to be near a NMR frequency of interest (typically 1 to 2 MHz below or above). Due to the strong response of the crystal, signal detection is possible without changing the tuning of the MAS probe. The NMR signal is not influenced due to the relative sharp crystal resonance, restricted excitation by finite pulses, high probeQvalues, and commonly used audio filters. The quadratic dependence of the temperature increase on spinning speed is the same for the QCTS and for the CST lead nitrate and is discussed in terms of frictional heat in accordance with the literature about lead nitrate and with the results of a simple rotor speed jump experiment with differently radial located lead nitrate in the rotor.     

离子对人血清白蛋白影响的1H NMR研究

人血清白蛋白（HSA）上有很多的结合位点,对药物及内源性物质的运输有很重要的作用.由于HSA分子量大且结构复杂,核磁共振（NMR）谱图信号重叠严重,因此使用常规的NMR技术很难获得天然丰度HSA上结合位点的信息.我们通过新的谱编辑技术,将横向弛豫加权（T₂W）与RD-WaterLOGSY技术相结合（即T₂W-RD-WaterLOGSY）,观察到了天然丰度HSA表面的一些明显的特征信号,且这些信号的分辨率较高;通过pH滴定和2D ¹H-¹H TOCSY实验,我们对观察到的信号做了初步指认,发现部分信号来自于HSA表面的组氨酸;然后,我们通过这些特征信号研究了金属离子与HSA之间的相互作用.结果表明该技术可用于简化天然丰度HSA的谱线,在不对HSA进行突变的情况下,能反映了Zn²⁺与HSA的强结合作用以及结合位点等信息.     

In vivo NMR in pharmaceutical research.

In vivo NMR techniques are currently well established in pharmaceutical research and will likely become increasingly important in the future, as they procure noninvasively morphological, physiological, and biochemical information. The status of magnetic resonance imaging (MRI) and spectroscopy (MRS) in drug development is discussed on the basis of the characterization and evaluation of a rat model of ischemic stroke and the development and profiling of drugs for cerebral ischemia in this model. It can be concluded that MRI is well suited for drug screening (quantitative determination of lesion size), while dynamic MRI and MRS techniques provide relevant information on the mechanism of drug actions. The possibility to follow changes, pathological and therapeutic, in the same individual is important from two points of view. First, variations due to interindividual differences may be eliminated, increasing the statistical power of the results. Second, dose and/or time dependence of a drug can be explored in the same individual. As a result, the number of animals required for a study will be reduced, which from both ethical and economic aspects is highly desirable.     

Linking NMR pulse sequences: derivative relation between the responses of two pulse sequences

Examples are shown of how the derivative of the response of an NMR pulse sequence with respect to a variable in that pulse sequence can be obtained by another pulse sequence. This approach holds the potential of being a tool for discovery of new pulse sequences or a means of understanding how some pulse sequences are related to each other.     

Confocal Raman microscopy for simultaneous monitoring of partitioning and disordering of tricyclic antidepressants in phospholipid vesicle membranes

Characterization of drug–membrane interactions is important in order to understand the mechanisms of action of drugs and to design more effective drugs and delivery vehicles. Raman spectra provide compositional and conformational information of drugs and lipid membranes, respectively, allowing membrane disordering effects and drug partitioning to be assessed. Traditional Raman spectroscopy and other widely used bioanalytical techniques such as differential scanning calorimetry (DSC) and nuclear magnetic resonance (NMR) typically require high sample concentrations. Here, we describe how temperature‐controlled, optical‐trapping confocal Raman microscopy facilitates the analysis of drug–membrane interactions using micromolar concentrations of drug, while avoiding drug depletion from solution by working at even lower lipid concentrations. The potential for confocal Raman microscopy as an effective bioanalytical tool is illustrated using tricyclic antidepressants (TCAs), which are cationic amphiphilic molecules that bind to phospholipid membranes and influence lipid phase transitions. The interaction of these drugs with vesicle membranes of differing head‐group charge is investigated while varying the ring and side‐chain structure of the drug. Changes in membrane structure are observed in Raman bands that report intra‐ and intermolecular order versus temperature. The partitioning of drugs into the membrane can also be determined from the Raman scattering intensities. These results demonstrate the usefulness of confocal Raman microscopy for the analysis of drug–membrane systems at biologically relevant drug concentrations. Effective tools for monitoring drug–membrane interactions are crucial for rational design of new drugs. Copyright © 2009 John Wiley & Sons, Ltd.     

Spin-State-Selective TPPI: A New Method for Suppression of Heteronuclear Coupling Constants in Multidimensional NMR Experiments

A novel multidimensional NMR pulse sequence tool, spin-state-selective time-proportional phase incrementation (S(3) TPPI), is introduced. It amounts to application of different TPPIs on the two components of doublets so that their frequencies can be manipulated independently. The chief application is for suppression of large heteronuclear one-bond coupling constants in indirect dimensions of multidimensional experiments without interchanging the two transverse magnetization components of doublets as conventional decoupling does, which is advantageous when they relax at different rates such as by partial compensation of dipolar and CSA relaxation contributions. For experimental confirmation we use a sample of (15)N-labeled neural cell adhesion molecule modules 1 and 2, a protein with a molecular weight of about 20 kDa. The new tool is general and can be combined with many multidimensional NMR experiments for proteins.