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2013 | Book

Molecular Chirality: Language, History, and Significance Read chapter Read first chapter

Differentiation of Enantiomers I

Editor: Volker Schurig

Publisher: Springer International Publishing

Book Series : Topics in Current Chemistry

Part of: Springer Professional "Wirtschaft+Technik" , Springer Professional "Technik"

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About this book

The series Topics in Current Chemistry presents critical reviews of the present and future trends in modern chemical research. The scope of coverage is all areas of chemical science including the interfaces with related disciplines such as biology, medicine and materials science. The goal of each thematic volume is to give the non-specialist reader, whether in academia or industry, a comprehensive insight into an area where new research is emerging which is of interest to a larger scientific audience. Each review within the volume critically surveys one aspect of that topic and places it within the context of the volume as a whole. The most significant developments of the last 5 to 10 years are presented using selected examples to illustrate the principles discussed. The coverage is not intended to be an exhaustive summary of the field or include large quantities of data, but should rather be conceptual, concentrating on the methodological thinking that will allow the non-specialist reader to understand the information presented. Contributions also offer an outlook on potential future developments in the field.

Table of Contents

Frontmatter
Molecular Chirality: Language, History, and Significance
Abstract
In this chapter some background material concerning molecular chirality and enantiomerism is presented. First some basic chemical-molecular aspects of chirality are reviewed, after which certain relevant terminology whose use in the literature has been problematic is discussed. Then an overview is provided of some of the early discoveries that laid the foundations of the science of molecular chirality in chemistry and biology, including the discovery of the phenomenon of molecular chirality by L. Pasteur, the proposals for the asymmetric carbon atom by J.H. van ‘t Hoff and J.A. Lebel, Pasteur’s discovery of biological enantioselectivity, the discovery of enantioselectivity at biological receptors by A. Piutti, the studies of enzymatic stereoselectivity by E. Fischer, and the work on enantioselectivity in pharmacology by A. Cushny. Finally, the role of molecular chirality in pharmacotherapy and new-drug development, arguably one of the main driving forces for the current intense interest in the phenomenon of molecular chirality, is discussed.
Joseph Gal
Terms for the Quantitation of a Mixture of Stereoisomers
Abstract
Various terms for the quantitation of a mixture of enantiomers and diastereomers are discussed.
Volker Schurig
Enantiomeric Differentiation by Synthetic Helical Polymers
Abstract
Recent advances in the synthesis of helical polymers and their applications as chiral materials, in particular chiral stationary phases (CSPs), for high-performance liquid chromatography (HPLC) are reviewed with an emphasis on the key role of the helical conformations with one-handedness for the prominent chiral recognition of enantiomers. The historical background of artificial optically active helical polymers is also briefly described.
Eiji Yashima, Hiroki Iida, Yoshio Okamoto
Chiral Supramolecular Selectors for Enantiomer Differentiation in Liquid Chromatography
Abstract
Biochemical processes in living organisms rely on a plethora of molecular reactions and interactions involving chiral molecules, and these processes often show different responses to the enantiomers of exogenous or endogenous chemicals. The interaction of enantiomeric drugs with a target receptor is a paradigmatic example of chirality effects on general biological action and is directly related to the formation of a drug-receptor supramolecular complex. In particular the drug-receptor model can be used to explore the relation of chirality to at least three important issues encountered in supramolecular chemistry: complementarity, preorganization, and (enantio)selectivity. A detailed understanding of those factors governing enantioselectivity of biological receptors is facilitated by the study at molecular level of model systems with simplified structures that are amenable to physico-chemical investigations. Liquid chromatography on chiral stationary phases offers the opportunity to study enantioselective interactions between surface immobilized chiral selectors, viewed as minimalist mimics of macromolecular receptors, and a large set of chiral guests, under a variety of experimental conditions. Indeed, for a significant number of systems, close agreement has been found between retention data gathered by chromatography and association constants measured by spectroscopy in free solution. Chiral supramolecular selectors featuring highly preorganized, medium-sized macrocyclic structures are attractive in this context because they often afford high levels of enantioselectivity and yet have relatively low molecular complexity, thus facilitating the understanding of operative enantioselective recognition mechanisms from easily collected chromatographic data. In the present chapter we first illustrate the general principles of supramolecular chemistry and their integration into the design of liquid chromatographic systems, with particular focus on enantioselective variants based on chiral macrocyclic selectors of natural or synthetic origin. In the second part we discuss the elaboration of enantioselective recognition models from chromatographic data and how these models can be extended to and studied with non-chromatographic systems (free solution by nuclear magnetic resonance, gas phase by mass spectrometry).
Alessia Ciogli, Dorina Kotoni, Francesco Gasparrini, Marco Pierini, Claudio Villani
Chiroptical Detectors for the Study of Unusual Phenomena in Chiral Chromatography
Abstract
Differentiation of enantiomers in chromatography requires specific detectors, based on polarimetry or circular dichroism. Their use is limited to chiral HPLC and SFC. We explain the operating principles of the different chiroptical detectors available and stress the influence of working wavelength and mobile phase on the output signal. Current and relevant applications of chiroptical detectors are absolute configuration assignment, measurement of enantiomeric excesses in complex mixtures and determination of elution order. We focus on the reversals of enantiomeric elution order, an important subject for the understanding of the chiral recognition mechanisms. We review the main parameters which can induce a reversal, show the usefulness of chiroptical detectors to easily identify reversals and emphasize the significance of the isoenantioselective temperature. The aim of this chapter is to highlight the valuable information provided by chiroptical detectors to study unusual behaviour in chiral HPLC and SFC, reversals of enantiomeric elution order and exchange phenomena as dynamic chromatography and self-disproportionation on achiral columns.
Nicolas Vanthuyne, Christian Roussel
Salient Features of Enantioselective Gas Chromatography: The Enantiomeric Differentiation of Chiral Inhalation Anesthetics as a Representative Methodological Case in Point
Abstract
The enantiomeric differentiation of the volatile chiral inhalation anesthetics enflurane, isoflurane, and desflurane by analytical and preparative gas chromatography on various modified cyclodextrins is described. Very large enantioseparation factors α are obtained on the chiral selector octakis(3-O-butanoyl-2,6-di-O-pentyl)-γ-cyclodextrin (Lipodex E). The gas-chromatographically observed enantioselectivities are corroborated by NMR-spectroscopy using Lipodex E as chiral solvating agent and by various sensor devices using Lipodex E as sensitive chiral coating layer. The assignment of the absolute configuration of desflurane is clarified. Methods are described for the determination of the enantiomeric distribution of chiral inhalation anesthetics during narcosis in clinical trials. The quantitation of enantiomers in a sample by the method of enantiomeric labeling is outlined. Reliable thermodynamic parameters of enantioselectivity are determined by using the retention-increment R′ approach for the enantiomeric differentiation of various chiral halocarbon selectands on diluted cyclodextrin selectors.
Volker Schurig
Differentiation of Enantiomers by Capillary Electrophoresis
Abstract
Capillary electrophoresis (CE) has matured to one of the major liquid phase enantiodifferentiation techniques since the first report in 1985. This can be primarily attributed to the flexibility as well as the various modes available including electrokinetic chromatography (EKC), micellar electrokinetic chromatography (MEKC), and microemulsion electrokinetic chromatography (MEEKC). In contrast to chromatographic techniques, the chiral selector is mobile in the background electrolyte. Furthermore, a large variety of chiral selectors are available that can be easily combined in the same separation system. In addition, the migration order of the enantiomers can be adjusted by a number of approaches. In CE enantiodifferentiations the separation principle is comparable to chromatography while the principle of the movement of the analytes in the capillary is based on electrophoretic phenomena. The present chapter will focus on mechanistic aspects of CE enantioseparations including enantiomer migration order and the current understanding of selector–selectand structures. Selected examples of the basic enantioseparation modes EKC, MEKC, and MEEKC will be discussed.
Gerhard K. E. Scriba
Backmatter
Metadata
Title
Differentiation of Enantiomers I
Editor
Volker Schurig
Copyright Year
2013
Electronic ISBN
978-3-319-03239-9
Print ISBN
978-3-319-03238-2
DOI
https://doi.org/10.1007/978-3-319-03239-9

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