NMR chiral discrimination of chalcogen containing secondary alcohols

Here, we report the general strategies by which NMR spectroscopy can be used to determine the enantiopurity and absolute configuration of chalcogen containing secondary alcohols, including the evaluation of the use of chiral solvating and chiral derivatizing agents. The BINOL/DMAP ternary complex demonstrated a simple and fast protocol for determining enantiopurity. The drug Naproxen afforded a stable, nonhygroscopic, and readily available chiral derivatizing agent (CDA) for NMR chiral discrimination of chalcogen containing secondary alcohols. The chiral recognition by CDA and chiral solvating agent (CSA) was assessed using ¹H, ⁷⁷Se‐{1H}, and ¹²⁵Te‐{1H} NMR spectroscopy. A simple model for the assignment of the absolute configuration from NMR data is presented.     

Method for determination of optical purity of 2‐arylpropanoic acids using urea derivatives based on a 1,1′‐binaphthalene skeleton as chiral NMR solvating agents: Advantages and limitations thereof

Five optically active urea derivatives ( 1 ‐ 5 ) were used as NMR solvating agents for analysis of the optical purity of different 2‐arylpropanoic acids commonly used as nonsteroidal anti‐inflammatory drugs. These novel chiral solvating agents were more efficient at discriminating the respective enantiomers of targets than the chiral solvating agents known so far, without the need to add a base for achieving the signal splitting. The advantages and limits of the use of these novel chiral solvating agents were studied.     

N-(n-Butylamide) of (S)-2-(phenylcarbamoyloxy)propionic acid: A new chiral solvating agent,derived from L-lactic acid,for the enantiomeric purity determination of derivatized amino acids

The N-(n-butylamide) of (S)-2-(phenylcarbamoyloxy)propionic acid, easily prepared starting from the inexpensive L -ethyl lactate, can be used as convenient chiral solvating agent (CSA) to determine the enantiomeric composition of N-(3,5-dinitrobenzoyl)amino acid methyl esters.     

Enantiopure encaged Verkade's superbases: Synthesis,chiroptical properties,and use as chiral derivatizing agent

Verkade's superbases, entrapped in the cavity of enantiopure hemicryptophane cages, have been synthesized with enantiomeric excess (ee) superior to 98%. Their absolute configuration has been determined by using electronic circular dichroism (ECD) spectroscopy. These enantiopure encaged superbases turned out to be efficient chiral derivatizing agents for chiral azides, underlining that the chirality of the cycloveratrylene (CTV) macrocycle induces different magnetic and chemical environments around the phosphazide functions.     

Chiral nuclear magnetic resonance shift reagents: Lanthanide mixtures with 1-(1-naphthyl) ethylurea derivatives of amino acids

Esters of 1-(1-naphthly)ethylurea derivatives of L-valine, L-leucine, L-tert-leucine, and L-proline are examined as organic-soluble chiral nuclear magnetic resonance (NMR) resolving agents. The reagents are useful for resolving the spectra of chiral sulfoxides, amines, alcohols, and carboxylic acids. Enantiomeric resolution is caused by a combination of diastereomeric effects and the different association constants of the substrates with the resolving agents. Organic-soluble lanthanide species are added to resolving agent-substrate mixtures and often enhance the enantiomeric resolution. The enhancement occurs because the substrate that exhibits weaker binding with the resolving agent is more available to bond to the lanthanide. Broadening in the spectra with lanthanides is reduced at 50°C. Enantiomeric resolution is still observed at elevated temperatures. Chirality 9:1–9, 1997. © 1997 Wiley-Liss, Inc.     

Assignment of absolute configuration using chiral reagents and NMR spectroscopy

An overview of chiral reagents that are used to assign the absolute configuration of particular classes of compounds using NMR spectroscopy is presented. The use of chiral derivatizing agents, chiral solvating agents, metal complexes, and liquid crystals is described. Chirality, 2011. © 2010 Wiley‐Liss, Inc.     

NMR chiral recognition of lipoic acid by cinchonidine CSA: A stereocenter beyond the organic function

Alpha-lipoic acid is a natural product that possesses distinct pharmacological properties. Lipoic acid is a short-chain fatty acid containing an asymmetric carbon at five bonds of distance to the organic function. Herein, we developed a nuclear magnetic resonance protocol to access the chiral recognition of lipoic acid in a simple and rapid procedure employing cinchonidine as a cheap chiral solvation agent in deuterated chloroform. To optimize this method, a statistical design of the experimental model was performed to produce a clear understanding of the optimal concentration, temperature, and molar ratio parameters. Based on the obtained spectra, the cinchonidine H₈-H₉ scalar coupling indicated a conformational preference in the chiral discrimination procedure. Density functional theory calculations established a proximity between the asymmetric center of lipoic acid and the aromatic moiety of cinchonidine, clarifying possible conformations in this ion-pair interaction. The described protocol demonstrates how far is far enough to chiral discrimination using a chiral solvation agent, expanding the method to compounds that contain a remote stereocenter.     

Determination of the enantiomeric excess of chiral carboxylic acids by 31P NMR with phosphorylated derivatizing agents from C2-symmetrical diamines containing the (S)-alpha-phenylethyl group

The use of P(III) and P(V) organophosphorus derivatizing agents prepared from C(2) symmetrical (1R,2R)- and (1S,2S)-trans-N,N'-bis-[(S)-alpha-phenylethyl]-cyclohexane-1,2-diamines 1 and 2, as well as (1R,2R)- and (1S,2S)-trans-N,N'-bis-[(S)-alpha-phenylethyl]-4-cyclohexene-1,2-diamines 3 and 4 for the determination of enantiomeric composition of chiral carboxylic acids by (31)P NMR, is described.     

Determination of the enantiomeric composition of chiral delta-2-oxazolines-1,3 by 1H and 19F NMR spectroscopy using chiral solvating agents

Studies of the perturbing effect of chiral solvating agents (CSAs) 5a and mostly of 5c upon the NMR spectra of chiral Delta(2)-oxazoline 1 demonstrated the ability of these fluoroalcohols to afford diastereomeric solvates from these solutes. Thus, for all tested Delta(2)-oxazolines 1Aa-d, 1Ba, and 1e there is at least one possibility to proceed to their enantiomeric discrimination either by (1)H or (19)F NMR using these CSAs (see Fig. 1). NMR results are discussed from substrate and CSA structure standpoints and a solvation model is proposed on the basis of the inequivalence senses generally observed. Then the method was applied to extracts of incubated locust tissues obtained by solid phase extraction (SPE) after a partial unmasking of the substrate 1.     

Can an a priori strategy be developed for biological control? The case of Onopordum spp. thistles in Australia

Abstract  Between 1992 and 2000, seven insect agents were released in Australia for the biological control of Onopordum spp. thistles. This paper describes the protocol used for the selection of these agents, starting with the development of a preliminary strategy, based on the ecology and population dynamics of the target weed. The strategy informed the surveys for natural enemies in the native range of Onopordum , targeting insects that attacked key transitional stages of the weed's life cycle. Ongoing studies of Onopordum populations in both Australia and Europe, plus experimental studies on the ecology, potential impact and preliminary host specificity of the agents, led to the refinement of the strategy and the selection and prioritisation of the agents. It is argued that development of an explicit strategy prior to release should be encouraged, as it forces researchers to revisit the rationale for and aims of particular biological control projects, ensuring that the process of agent selection remains focused. It also provides a tool to improve the process of agent selection, as subsequent results can be measured against the strategy and agent success or failure evaluated against the a priori expectations.     

Absolute Configuration and Enantiodifferentiation of a Hemicryptophane Incorporating an Azaphosphatrane Moiety

The hemicryptophane racemate (±)‐ M-1 , P-1 was optically resolved by semipreparative HPLC on Chiralpak IC column. The absolute configuration of each isolated enantiomer was established from the analysis of their electronic circular dichroism spectra. Enantiodifferentiation of the chiral cationic cage (±)‐ M-1 , P-1 was evidenced in solution using Δ‐TRISPHAT as chiral solvating agent, and the diastereomeric associations were observed in ¹H and ³¹P NMR spectra. Chirality 24:1077–1081, 2012. © 2012 Wiley Periodicals, Inc.     

New chiral fluoroanthryl derivatives: Resolution of the enantiomers by chromatography on cellulose esters and their evaluation as chiral solvating agents in NMR spectroscopy

2,2,2-Trifluoro-1-(9-anthryl)ethanol (TFAE) has now been widely used as a powerful chiral solvating agent for NMR spectroscopy. In connection with the development of a new general synthesis of halogenoalkylalkanols, starting from the corresponding ketone or aldehyde, we synthesized some halogenoalkyl-1-(9-anthryl)methanol derivatives liable to work as chiral solvating agents. The racemic anthryl derivatives were preparatively resolved into their corresponding enantiomers by chromatography on triacetyl cellulose (CTA I) or on meta-methylbenzoyl cellulose beads as chiral stationary phases. Their effectiveness as chiral solvating agents was measured as the magnitude of the splitting induced in the ¹H-NMR spectra of 1-phenylethylamine and of (1-phenylethyl)methyl ether in comparison with splitting caused by TFAE. While TFAE induced the largest splitting for 1-phenylethylamine, 2,2,3,3,3-pentafluoro-1-(9-anthryl)propanol 2 was more effective in the case of (1-phenylethyl)methyl ether, pointing out that depending on the substrate, other derivatives of the TFAE type can be very useful as chiral solvating agents.     

细菌感染显像剂的研究进展

细菌感染显像剂是利用一些示踪基团(如放射性核素及荧光染料)标记对细菌具有特异性识别作用的导向物,通过检测示踪信号定位细菌感染部位。到目前为止,针对细菌内的特异性位点(如细胞壁、酶、受体等)研制和开发了一系列细菌感染显像剂(包括核素标记的抗生素、噬菌体、抗菌肽、核苷及荧光染料标记的糖类等),这些显像剂能在细菌感染部位高度特异性聚集,有望应用于临床早期诊断细菌感染。本文对这些细菌感染显像剂的种类、浓集机制及研究现状进行了概述,并在此基础上,总结了理想细菌感染显像剂所应具有的特征,为进一步研究和开发新的细菌感染显像剂提供参考。     

Analysis and Design of an Agent Searching Algorithm for e-Marketplaces

Recently, agent techniques in electronic marketplaces (e-marketplaces) bring B-to-B trading into a new era. However, not much analysis on the behavior of agents has been reported. In this paper, based on the ant algorithm in network routing, we introduce a jumping (searching) model for agents in an e-marketplace network. However, we should be aware that if there are too many agents in the e-marketplace network, they will use up all communication bandwidth and computing resource. It is inevitable to investigate the behavior of agents, such as agent population. Based on the existing results in the ant algorithm in network routing, we present the behavior of agents in an e-marketplace network. Hence, we can control the agent population by setting the appropriate agent generation rate.     

肿瘤多药耐药:机制及逆转剂

肿瘤细胞多药耐药性(multidrug resistance,MDR)的产生是临床上导致肿瘤化疗失败的主要原因之一,因此寻找高效低毒的MDR逆转剂已成为肿瘤药物开发领域的热点。MDR的作用机制主要包括P-糖蛋白、多药耐药相关蛋白、乳腺癌耐药蛋白、肺耐药相关蛋白等等。多药耐药逆转剂包括钙离子通道阻滞剂、维拉帕米及其衍生物等等。本文主要介绍了MDR的作用机制以及肿瘤多药耐药逆转剂的研究进展。     

Nonlinearity in optical resolution via distillation applying mixtures of resolving agents

During an optical resolution it is the resolving agent that has the strongest influence on the outcome of the process. Applying a mixture of resolving agents can result either in antagonism or in synergy. We found that using mixtures of tartaric acid and its derivatives chiral selectivity is at least the same, but in several cases markedly better (synergistic effect), than the sum of the effect of the individual resolving agents. Thus, the "Dutch method," reported for the crystallization method, also works for distillation. A calculation method is applied for measuring the synergistic effect. Interestingly, an individually inactive resolving agent can be a useful contributor to the mixture of the resolving agents.     

Chromatographic optical resolution on trans-1,2-diaminocyclohexane derivatives: Theory and applications

An overall view on some new chiral stationary phases based on (trans)-1,2-diaminocyclohexane is illustrated. The selected chiral moiety, derivatized with different aroyl groups, has been linked to a silica matrix in order to give chiral stationary phases (CSPs) enabling them to be used efficiently in the normal and reverse phase, both for analytical and preparative purposes. In addition new polymeric CSPs have been prepared by using the same selector, suitably modified, as monomer. The new chiral stationary phases have been characterised by physicochemical methods and used for the resolution of various racemic compounds classes such as α-aryloxyacetic acids, alcohols, sulfoxides, selenoxides, phosphinates, tertiaryphosphine oxides, benzodiazepines etc. without prederivatization or as amines, amino acids, amino alcohols, nonsteroidal antiinflammatory agents in a derivatized form. The separated solutes structural variety suggests that multiple interaction sites are involved in the recognition process: some thermodynamic data relative to the CSPs—selectands interactions are also illustrated. © 1992 Wiley-Liss, Inc.     

临床病原菌种类及耐药性监测

目的 探讨病原菌种类及其对抗菌药物的耐的耐药状况。方法 收集１９９８年１月－１９９９年１２月临床感染标本分离的病原菌并分析其种类,药敏试验采用Ｋｉｒｂｙ－Ｂａｕｅｒ纸片扩散法。结果 １１８２株病原菌,革兰氏阳性球菌６０４株（５１．１％）,革兰氏阴性杆菌５７８株（４８．９％）。病原菌以金黄一萄球菌、大肠埃希菌、表皮葡萄球菌、铜绿假单胞菌最多见。去甲万古霉素、阿米卡星、新霉素对革兰氏阳性球菌抗菌作用较     

Multiple Bypass: Interposition Agents for Distributed Computing

Interposition agents are a well-known device for attaching legacy applications to distributed systems. However, agents are difficult to build and are often large, monolithic pieces of software which are suited only to limited applications or systems. We solve this problem with Bypass, a language and a tool for quickly building multiple small agents that can be combined together to create powerful yet manageable software.     

A scientific approach to agent selection

Abstract  The prioritisation of potential agents on the basis of likely efficacy is an important step in biological control because it can increase the probability of a successful biocontrol program, and reduce risks and costs. In this introductory paper we define success in biological control, review how agent selection has been approached historically, and outline the approach to agent selection that underpins the structure of this special issue on agent selection. Developing criteria by which to judge the success of a biocontrol agent (or program) provides the basis for agent selection decisions. Criteria will depend on the weed, on the ecological and management context in which that weed occurs, and on the negative impacts that biocontrol is seeking to redress. Predicting which potential agents are most likely to be successful poses enormous scientific challenges. 'Rules of thumb', 'scoring systems' and various conceptual and quantitative modelling approaches have been proposed to aid agent selection. However, most attempts have met with limited success due to the diversity and complexity of the systems in question. This special issue presents a series of papers that deconstruct the question of agent choice with the aim of progressively improving the success rate of biological control. Specifically they ask: (i) what potential agents are available and what should we know about them? (ii) what type, timing and degree of damage is required to achieve success? and (iii) which potential agent will reach the necessary density, at the right time, to exert the required damage in the target environment?