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NMR-based metabolomics PDF

382 Pages·2018·15.584 MB·English
by  KeunHector C
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NMR-based Metabolomics 1 0 0 P F 7- 3 9 7 2 6 2 8 7 1 8 7 9 9/ 3 0 1 0. 1 oi: d g | or c. s s.r b u p p:// htt n o 8 1 0 2 y ar u n a J 4 0 n o d e h s bli u P View Online New Developments in NMR Editor-in-chief: William S. Price, Western Sydney University, Australia 1 0 0 P Series editors: F 7- Sharon Ashbrook, University of St Andrews, UK 3 9 7 Bruce Balcom, University of New Brunswick, Canada 2 6 2 István Furó, Industrial NMR Centre at KTH, Sweden 8 7 1 Masatsune Kainosho, Tokyo Metropolitan University, Japan 8 7 9 Maili Liu, Chinese Academy of Sciences, Wuhan, China 9/ 3 0 1 0. Titles in the series: 1 doi: 1: Contemporary Computer-Assisted Approaches to Molecular Structure g | Elucidation or c. 2: New Applications of NMR in Drug Discovery and Development s s.r 3: Advances in Biological Solid-State NMR b u p 4: Hyperpolarized Xenon-129 Magnetic Resonance: Concepts, Production, http:// Techniques and Applications n 5: Mobile NMR and MRI: Developments and Applications o 18 6: Gas Phase NMR 0 y 2 7: Magnetic Resonance Technology: Hardware and System Component uar Design n Ja 8: Biophysics and Biochemistry of Cartilage by NMR and MRI 4 0 9: Diffusion NMR of Confined Systems: Fluid Transport in Porous Solids n d o and Heterogeneous Materials e h 10: NMR in Glycoscience and Glycotechnology s ubli 11: Fast NMR Data Acquisition: Beyond the Fourier Transform P 12: Cross-relaxation and Cross-correlation Parameters in NMR: Molecular Approaches 13: Contrast Agents for MRI: Experimental Methods 14: NMR-based Metabolomics How to obtain future titles on publication: A standing order plan is available for this series. A standing order will bring delivery of each new volume immediately on publication. For further information please contact: Book Sales Department, Royal Society of Chemistry, Thomas Graham House, Science Park, Milton Road, Cambridge, CB4 0WF, UK Telephone: +44 (0)1223 420066, Fax: +44 (0)1223 420247 Email: [email protected] Visit our website at www.rsc.org/books View Online NMR-based Metabolomics 1 0 0 P F 7- Edited by 3 9 7 2 26 Hector C. Keun 8 17 Imperial College London, UK 8 97 Email: [email protected] 9/ 3 0 1 0. 1 oi: d g | or c. s s.r b u p p:// htt n o 8 1 0 2 y ar u n a J 4 0 n o d e h s bli u P View Online 1 0 0 P F 7- 3 9 7 2 6 2 8 7 1 8 7 9 9/ New Developments in NMR No. 14 3 0 1 0. Print ISBN: 978-1-84973-643-5 1 oi: PDF ISBN: 978-1-78262-793-7 d g | EPUB ISBN: 978-1-78801-397-0 or ISSN: 2044-253X c. s bs.r A catalogue record for this book is available from the British Library u p p:// © The Royal Society of Chemistry 2018 htt n o All rights reserved 8 1 0 y 2 Apart from fair dealing for the purposes of research for non-commercial purposes or for ar private study, criticism or review, as permitted under the Copyright, Designs and Patents u an Act 1988 and the Copyright and Related Rights Regulations 2003, this publication may J 04 not be reproduced, stored or transmitted, in any form or by any means, without the prior on permission in writing of The Royal Society of Chemistry or the copyright owner, or in d e the case of reproduction in accordance with the terms of licences issued by the Copyright h blis Licensing Agency in the UK, or in accordance with the terms of the licences issued by the Pu appropriate Reproduction Rights Organization outside the UK. Enquiries concerning reproduction outside the terms stated here should be sent to The Royal Society of Chemistry at the address printed on this page. Whilst this material has been produced with all due care, The Royal Society of Chemistry cannot be held responsible or liable for its accuracy and completeness, nor for any consequences arising from any errors or the use of the information contained in this publication. The publication of advertisements does not constitute any endorsement by The Royal Society of Chemistry or Authors of any products advertised. The views and opinions advanced by contributors do not necessarily reflect those of The Royal Society of Chemistry which shall not be liable for any resulting loss or damage arising as a result of reliance upon this material. The Royal Society of Chemistry is a charity, registered in England and Wales, Number 207890, and a company incorporated in England by Royal Charter (Registered No. RC000524), registered office: Burlington House, Piccadilly, London W1J 0BA, UK, Telephone: +44 (0) 207 4378 6556. For further information see our web site at www.rsc.org Printed in the United Kingdom by CPI Group (UK) Ltd, Croydon, CR0 4YY, UK 5 0 0 P F 7- 3 Preface 9 7 2 6 2 8 7 1 8 7 9 9/ 3 0 1 0. NMR spectroscopy has long been a leading technique in the study of meta- 1 oi: bolic biochemistry, with a rich literature predating the terms ‘metabolomics’ d g | and ‘metabonomics’. However, with the advent of metabolic profiling as an or c. independent field of research the power and versatility of a technique that s s.r can be readily applied to many biological matrices to provide highly compa- b pu rable, inherently quantitative, largely unselective compositional descriptions p:// has been revealed. This is why, despite the superior sensitivity and metab- htt n olome coverage of rival techniques such as mass spectrometry, NMR still o 8 offers so much to metabolic profiling studies. 1 0 2 As a final year undergraduate I was first introduced to the concept of y ar taking NMR spectra of biological samples and using pattern recognition u n a analysis to discern the information about pathology and drug response. It J 04 seemed at the time an impossible and incredible task and I was glad not to n o be attempting it. The spectra generated and the biological problem appeared d he too complex, with too many possible sources of uncertainty and variability. s bli After many years working in the field many of these sources of variation u P are better rationalised, with a growing understanding of genetic and envi- ronmental influences. Indeed, this complexity is increasingly embraced as an advantage, for example, in the study of symbiotic microbes and health where NMR offers a window into the metabolic cross-talk between multiple genomes and a myriad of exposures. However, I personally have found that the most rewarding aspect of using NMR spectroscopy in this context is its ability to reveal the completely unexpected, sometimes a simple and obvious but critical observation hidden just out of sight of the investigative team. I can attest to many projects, laboratory and clinical, rescued by the unique perspective offered by NMR, and even in today’s world of large-scale studies   New Developments in NMR No. 14 NMR-based Metabolomics Edited by Hector C. Keun © The Royal Society of Chemistry 2018 Published by the Royal Society of Chemistry, www.rsc.org v View Online vi Preface using established methodology, the data generated are continuing to teach us new and unpredicted things about metabolism. I salute all the pioneers of the field, cited throughout this volume, for having the vision and perseverance to realise the potential of the approach, 5 which, in the context of biofluid NMR, is now well on the way to successful 0 P0 translation into an important clinical tool. I hope that readers of this volume F 7- will find it a useful introduction to the methodology and many of the appli- 3 79 cations of NMR-based metabolomics, and that it will help to germinate new 2 26 success stories for the field. 8 7 1 8 Hector C. Keun 7 9 9/ 3 0 1 0. 1 oi: d g | or c. s s.r b u p p:// htt n o 8 1 0 2 y ar u n a J 4 0 n o d e h s bli u P 7 0 0 P F 7- 3 Acknowledgements 9 7 2 6 2 8 7 1 8 7 9 9/ 3 0 1 0. I would like to thank all the colleagues who contributed to this volume for 1 oi: their great patience and efforts. In particular I am very grateful to Toby d g | Athersuch for the unstinting enthusiasm, creativity and hard work he has or c. given to this project and many of our other joint endeavours over the years. s s.r Finally I would like to thank my wife Ellie, for her tolerance and support for b pu all that I try to do, and who has heard infinitely more about this book than p:// she would ever have wished to. htt n o 8 1 0 2 y ar u n a J 4 0 n o d e h s bli u P   New Developments in NMR No. 14 NMR-based Metabolomics Edited by Hector C. Keun © The Royal Society of Chemistry 2018 Published by the Royal Society of Chemistry, www.rsc.org vii 9 0 0 P F 7- 3 Contents 9 7 2 6 2 8 7 1 8 7 9 9/ 3 0 1 0. Chapter 1 Instrumental Platforms for NMR-based Metabolomics 1 1 oi: Anthony C. Dona d g | or c. 1.1 History of NMR Hardware Development 1 s s.r 1.2 Components of NMR Hardware 3 b pu 1.2.1 Magnet 3 p:// 1.2.2 Shim Coils 4 htt n 1.2.3 Sample Probe 4 o 8 1.2.4 Digital Filtering 8 1 0 2 1.2.5 Computational Support to Hardware 9 y ar 1.3 Automation of Metabolomic Profiling 10 u n a 1.3.1 Sample Preparation 11 J 04 1.3.2 Automated NMR 13 n o 1.3.3 Automated Acquisition 16 d he 1.3.4 Integrated Metabolic Profiling NMR Systems 19 s bli References 20 u P Chapter 2 NMR Pulse Sequences for Metabolomics 22 Bénédicte Elena-Herrmann 2.1 Introduction 22 2.2 Standard 1D NMR Pulses Sequences for High-throughput Metabolomics 23 2.2.1 One-dimensional 1H NOESY Experiment 23 2.2.2 The Carr–Purcell–Meiboom–Gill (CPMG) Experiment 25 2.2.3 Diffusion-edited NMR Spectroscopy 25   New Developments in NMR No. 14 NMR-based Metabolomics Edited by Hector C. Keun © The Royal Society of Chemistry 2018 Published by the Royal Society of Chemistry, www.rsc.org ix View Online x Contents 2.3 Water and Solvent Suppression for NMR of Biofluids 27 2.3.1 Water Pre-saturation 27 2.3.2 Advanced Water Suppression Schemes 28 9 2.4 Multidimensional NMR Techniques for Metabolite 0 P0 Identification and Quantification 28 F 7- 2.4.1 Proton Homonuclear Correlation 3 79 Spectroscopy 29 2 26 2.4.2 2D 1H–13C Heteronuclear Correlation 8 17 Experiments 31 8 97 2.4.3 Metabolite Quantification from 9/ 3 Two-dimensional NMR 32 0 1 0. 2.5 Novel Strategies for Fast NMR Data Acquisition 1 oi: in Metabolomics 33 d g | 2.5.1 Non-uniform Sampling 33 c.or 2.5.2 Fast Targeted Multidimensional NMR s s.r Spectroscopy 33 b u 2.5.3 Ultrafast 2D NMR for Metabolite p p:// Quantification 36 n htt 2.6 Conclusion 37 o 8 References 37 1 0 2 y ar Chapter 3 NMR Spectroscopy of Urine 39 u an Barry Slaff, Arjun Sengupta and Aalim Weljie J 4 0 on 3.1 Introduction 39 d he 3.1.1 NMR Spectra of Urine and Conventional s bli Normalization to Creatinine 40 u P 3.1.2 Early Applications: Urine NMR Metabolomics in Toxicology 43 3.1.3 Analytical Reproducibility of Urine NMR Spectra 46 3.2 NMR Spectroscopy of Urine in Metabolomics Studies 48 3.2.1 Collection and Storage of Urine Samples 48 3.2.2 Preparation of Urine Samples for NMR 53 3.2.3 Recommendations Pertaining to Urine Sample Collection, Storage and Treatment with a Focus on Diagnostic Study 56 3.2.4 One-dimensional NMR Experiments and Suppression Methods for Use with Urine 57 3.2.5 Two-dimensional NMR Experiments and Suppression Methods for Use with Urine 59 3.2.6 Normalization of Urine NMR Spectral Datasets 60 3.2.7 Multivariate Statistical Analysis of NMR Urine Spectra 63 View Online Contents xi 3.3 NMR Spectroscopy of Urine: Systems Biology Applications 66 3.3.1 Metabolite Variation in Urine from Healthy Subjects 66 9 3.3.2 Metabolite Variation in Urine Between 0 P0 Healthy Population Groups 66 F 7- 3.3.3 Unhealthy Pathophysiologies, Disease 3 79 Diagnosis, and Pharmacometabolomics 70 2 26 3.4 Conclusion 72 8 17 References 73 8 7 9 9/ 3 Chapter 4 NMR Spectroscopy of Serum and Plasma 85 0 1 0. Hector C. Keun 1 oi: d g | 4.1 Introduction 85 c.or 4.1.1 Sample Composition and Metabolome s s.r Coverage 86 b u 4.2 Methodology 89 p p:// 4.2.1 Comparison of Sample Preparation Methods 90 n htt 4.2.2 Data Acquisition 94 o 8 4.3 Applications 105 1 20 4.3.1 Sample Collection and Pre-analytical Variation 105 y ar 4.3.2 Confounding and Normal Variation 107 u an 4.3.3 Cancer 108 J 4 4.3.4 Cardiovascular Disease 110 0 on 4.3.5 Diabetes Risk 112 d he 4.3.6 Genetic Influences on the Serum NMR s bli Metabolome 113 u P 4.3.7 Toxicology 114 4.4 Future Perspectives 115 References 116 Chapter 5 High-resolution Magic-angle Spinning (HR-MAS) NMR Spectroscopy 133 Alan Wong and Covadonga Lucas-Torres 5.1 Introduction 133 5.2 HR-MAS Basic Concepts 134 5.2.1 Magnetic Susceptibility Broadening 134 5.2.2 Magic-angle Spinning 136 5.3 Hardware and Practical Considerations 138 5.3.1 Magnetic Susceptibility Components 138 5.3.2 B Field Correction 138 0 5.3.3 B Field Locking 140 0 5.3.4 Sample Temperature 140 5.3.5 Pulse-field Gradient 140 5.3.6 Pulse Experiments 141

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