Mass Spectrometry
Instrumentation, Interpretation, and Applications
Wiley-Interscience Series on Mass Spectrometry
1. Auflage April 2009
400 Seiten, Hardcover
Wiley & Sons Ltd
Ekman, Rolf / Silberring, Jerzy / Brinkmalm, Ann M. (Herausgeber)
Kurzbeschreibung
Mass Spectrometry: Instrumentation, Interpretation, and Applications discusses applications of MS in organic and inorganic chemistry, forensic science, biotechnology, proteomics, genomics, and other areas. It provides a broad background, covering the instrumentation, theory, and basic applications. Key terms and definitions are included, along with a CD-ROM containing tutorials, and a Web site with additional resources. This book emphasizes the use of MS with other techniques, such as chromatography, for more powerful analyses. This is an excellent textbook for graduate students in chemistry and biochemistry and a practical, hands-on reference for professionals.
Helps students fully leverage mass spectrometry in whichever field of research they choose
Mass Spectrometry: Instrumentation, Interpretation, and Applications enables students to become fully versed in the principles and uses of mass spectrometry. Featuring contributions from international experts, the text introduces the many perspectives and approaches that different scientific fields bring to mass spectrometry, including applications for organic and inorganic chemistry, forensic science, biotechnology, and much more. This multidisciplinary approach enables students to apply their knowledge in their chosen fields of research in order to identify, quantify, and determine the structures and chemical properties of compounds.
This text is divided into three parts that guide students from basic principles to applications:
* Part One, Instrumentation, begins with basic definitions and explanations followed by a discussion of the mass spectrometer and its building blocks. Next, the text describes fragmentation methods and tandem MS analyzer configurations, ending with a short summary of separation methods used in conjunction with mass spectrometry.
* Part Two, Interpretation, explains basic concepts in mass spectra interpretation and then demonstrates how these concepts are used to interpret mass spectra in organic chemistry. Students also learn how to use mass spectrometry as a tool for peptide sequencing and how to optimize sensitivity and specificity in mass spectrometric proteome analysis.
* Part Three, Applications, features ten researchers and research groups from different fields describing how they use mass spectrometry in their own work.
Designed for graduate-level students, this textbook assumes that most students will not become mass spectrometry specialists. Instead, it focuses on how they can use the mass spectrometer to support and advance research across a broad range of disciplines.
CONTRIBUTORS.
PART I INSTRUMENTATION.
1 DEFINITIONS AND EXPLANATIONS (Ann Westman-Brinkmalm and Gunnar Brinkmalm).
References.
2 A MASS SPECTROMETER'S BUILDING BLOCKS (Ann Westman-Brinkmalm and Gunnar Brinkmalm).
References.
3 TANDEM MASS SPECTROMETRY (Ann Westman-Brinkmalm and Gunnar Brinkmalm).
References.
4 SEPARATION METHODS (Ann Westman-Brinkmalm, Jerzy Silberring, and Gunnar Brinkmalm).
References.
PART II INTERPRETATION.
5 INTRODUCTION TO MASS SPECTRA INTERPRETATION: ORGANIC CHEMISTRY (Albert T. Lebedev).
References.
6 SEQUENCING OF PEPTIDES AND PROTEINS (Marek Noga, Tomasz Dylag, and Jerzy Silberring).
Acknowledgments.
References.
Online Tutorials.
7 OPTIMIZING SENSITIVITY AND SPECIFICITY IN MASS SPECTROMETRIC PROTEOME ANALYSIS (Jan Eriksson and David Fenyö).
References.
PART III APPLICATIONS.
8 DOPING CONTROL (Graham Trout).
References.
9 OCEANOGRAPHY (R. Timothy Short, Robert H. Byrne, David Hollander, Johan Schijf, Strawn K. Toler, and Edward S. VanVleet).
References.
10 "OMICS" APPLICATIONS (Simone Koñig).
11 SPACE SCIENCES (Robert Sheldon).
References.
12 BIOTERRORISM (Vito G. DelVecchio and Cesar V. Mujer).
References.
13 IMAGING OF SMALL MOLECULES (MaBgorzata Iwona Szynkowska).
References.
14 UTILIZATION OF MASS SPECTROMETRY IN CLINICAL CHEMISTRY (Donald H. Chace).
15 POLYMERS (Maurizio S. Montaudo).
References.
16 FORENSIC SCIENCES (Maria Kala).
References.
17 NEW APPROACHES TO NEUROCHEMISTRY (Jonas Bergquist, Jerzy Silberring, and Rolf Ekman).
Acknowledgments.
References.
PART IV APPENDIX.
INDEX.
JERZY SILBERRING, PhD, is the Head of the Department of Neurobiochemistry in the Department of Chemistry and the former deputy head of the Regional Laboratory of Physicochemical Analyses at Jagiellonian University in Krakow, Poland.
Ann M. Westman-Brinkmalm, PhD, is a Junior Research Fellow at the Sahlgrenska Academy at University of Gothenburg in Sweden.
Agnieszka Kraj, PhD, is an Assistant Professor in the Department of Neurobiochemistry, Faculty of Chemistry at Jagiellonian University in Krakow, Poland.
