K. Hostettmann, M. Hostettmann, A. Marston Preparative Chromatography Techniques Applications in Natural Product Isolation With 51 Figures and 18 Tables Springer-Verlag Berlin Heidelberg GmbH
Professor Or. Kurt Hostettmann Or. Maryse Hostettmann Or. Andrew Marston Institute of Pharmacognosy and Phytochemistry, School of Pharmacy, University of Lausanne, 2 rue Vuillermet, CH-1005 LausannejSwitzerland ISBN 978-3-662-02494-2 Library of Congress Cataloging-in-Publication Data. Hostettmann, K. (Kurt), 1944- Preparative chromatography techniques. Bibliography: p. 1. Chromatographic analysis. 2. Plant products - Analysis. I. Hostettmann, M. (Maryse), 1937- II. Marston, A. (Andrew), 1953-. III. Title. QD272.C4H67 1986 543'.089 86-10073 ISBN 978-3-662-02494-2 ISBN 978-3-662-02492-8 (ebook) DOI 10.1007/9978-3-662-02492-8 This work is subject to copyright. All rights are reserved, whether the whole or part of the material is concerned, specifically those of translation, reprinting, re-use of illustrations, broadcasting, reproduction by photocopying machine or similar means, and storage in data banks. U nder 54 of the German Copyright Law where copies are made for other than private use, a fee is payable to the publisher, the amount to "Verwertungsgesellschaft Wort". Munich. Springer-Verlag Berlin Heidelberg 1986 Originally published by Springer-Verlag Berlin Heidelberg New York in 1986 Softcover reprint of the hardcover 1 st edition 1986 The use of general descriptive names, trademarks, etc. in this publication, even if the former are not especially identified, is not to be taken as a sign that such names, as understood by the Trade Marks and Merchandise Marks Act. may accordingly be used freely by anyone. 21523020-543210
Preface Over the last few years several new instrumental techniques have been introduced for chromatographie separations. In addition, rapid developments in existing methods, such as preparative HPLC, have taken place. Despite these advances, however, a handbook covering the various preparative aspects ofthe new separation techniques does not exist. This book is an attempt to fill the gap and to present a compilation of modern separation techniques that will be useful for researchers faced with day-to-day preparative problems. Numerous examples of separations have been selected in order to show the possibilities (and also the limits) of each technique treated. These are often either applications from our own laboratory or else they reflect the approach we have been following for the isolation of natural products from plant sourees. Owing to the large number of published papers and the diversity of secondary plant constituents. an exhaustive survey of the literature has not been undertaken. We hope, however, that the examples selected will suggest to the reader which technique(s) and which conditions to choose for a particular isolation problem in the field of natural products. For invaluable help in the preparation of the manuscript for this book, we would like to thank Corinne Appolonia and Christine Marston. Lausanne, November 1985 K. Hostettmann M. Hostettmann A.. Marston
Foreword Although not many people realize this, isolation and purification of biologically active materials is becoming increasingly crucial. This is because the rapid progress in spectroscopic methods and X-ray crystallography have made structure determination a rather routine step. Chromatographic methods have also advanced explosively, but the choice of chromatographic method, column support, particle size, reverse phase or normal phase, solvent, etc. is never routine. Even HPLC supports of the same type and particle size behave differently depending on the manufacturer. It is not exaggerating to state that, very frequently, the success or failure of studies with bioactive factors depends solelyon whether one succeeds in the isolation, especially when the factor exists in minute quantities or is labile; and, indeed, most of the challenging problems these days are associated with the characterization of precisely such factors. Once the isolation has been achieved (which may take over ten years), the structure can usually be readily determined; structural elucidation then allows us to advance towards clarification of the mode of action, etc. on a concrete structural basis rather than guessing from graphs and tabu la ted data with no structures. The importance of proper isolation and purification can never be sufficiently emphasized. Spectral data analysis may be more appealing to the research scientist, readers of a paper, or audience at a lecture because there is logic to it. For contrast, chromatography is a much more delicate art and requires a tedious and patient trial and error approach. The details of an isolation process is usually of no interest to the general audience unless they are working with the same type of compounds. Nevertheless, isolation is crucial because it is the first step if one is interested in understanding a phenomenon on a structural basis, one of the important future directions of bioorganic chemistry. I am delighted that Kurt and Maryse Hostettmann, together with Dr. Andrew Marston, have published a practical book covering all the up-dated techniques of chromatography with numerous practical examples. No team could be better for writing such a book. The Hostettmanns are the best analytical-minded organic chemists that I have encountered. During their two-year stay with us at Columbia University, 1976--1978, I was pleasantly shocked to see them efficiently check HPLC solvent composition, type of support, etc. and exploit the newly-arrived droplet counter-current chromatography system. They have been immensely successful in dealing with difficult separation projects. I have no hesitation in recommending this book, written by practical experimentalists with ample experience, to all scientists engaged in any field where isolation plays a role, analytical or preparative. Columhia University, New York February 1986 K. Nakanishi
Contents 1 Introduction........... 2 Sampie Preparation and Purification. 2.1 Referenees.... 3 Planar Chromatography 3.1 Preparative Thin-Layer Chromatography. 3.2 Centrifugal Thin-Layer Chromatography. 3.3 Referenees.............. 4 Special Column Chromatography. 4.1 Dry-Column ehromatography. 4.2 Vaeuum Liquid Chromatography 4.3 Referenees.......... 2 5 6 6 8 17 19 19 23 26 5 Preparative Pressure Liquid Chromatography 27 5.1 Basic Prineiples........................ 27 5.2 The Different Preparative Pressure Liquid Chromatographie Methods 41 5.2.1 Flash Chromatography 41 5.2.2 Low-Pressure LC..... 46 5.2.3 Medium-Pressure LC... 51 5.2.4 High-Pressure LC (HPLC). 56 5.2.5 Special Pressure Liquid Chromatographie Teehniques. 65 5.3 Referenees...................... 75 6 Counter-Current Chromatography 6.1 Droplet Counter-Current Chromatography... 6.2 Rotation Loeular Counter-Current Chromatography. 6.3 Centrifugal Counter-Current Chromatography. 6.4 Referenees................... 7 Combination of Methods 7.1 Hydrophilie Substanees. 7.2 Lipophilie Substanees 7.3 Referenees 8 Subject Index. 80 80 101 109 123 127 127 132 135 137