Fundamentals and applications of Fourier transform mass spectrometry:
Gespeichert in:
| Weitere Verfasser: | , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam ; Oxford ; Cambridge, MA
Elsevier
[2019]
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xxiii, 754 Seiten Illustrationen, Diagramme (teilweise farbig) |
| ISBN: | 9780128140130 0128140135 |
Internformat
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| 245 | 1 | 0 | |a Fundamentals and applications of Fourier transform mass spectrometry |c edited by Basem Kanawati (Analytical Biogeochemistry, Helmholtz Zentrum München, Neuherberg, Germany) Philippe Schmitt-Kopplin (Analytical Biogeochemistry , Helmholtz Zentrum München, Neuherberg, Germany, Analytical Food Chemistry, Technical University of Munich, Freising, Germany) |
| 264 | 1 | |a Amsterdam ; Oxford ; Cambridge, MA |b Elsevier |c [2019] | |
| 264 | 4 | |c © 2019 | |
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| 653 | 0 | |a Fourier transform spectroscopy | |
| 653 | 0 | |a Mass spectrometry / Methodology | |
| 700 | 1 | |a Kanawati, Basem |0 (DE-588)1194501389 |4 edt | |
| 700 | 1 | |a Schmitt-Kopplin, Philippe |0 (DE-588)135809045 |4 edt | |
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Datensatz im Suchindex
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Contents Contributors χία Foreword xvii Preface xix A ckn owledgments Section A 1. xxiii Historical chapters Historical developments in Fourier transform ion cyclotron resonance mass spectrometry 3 Karl Peter Wanczek, Basem Kanawati Introduction Developments before 5 Developments from 1970 to 1980 Developments from 1981 to 1990 13 Developments from 1991 to 2000 15 7 Developments from 2001 17 Conclusion 22 References 23 Section В 2. 4 1970 Fundamental/technology chapters Fundamentals of Orbitrap analyzer 37 Alexander Makarov, Dmitry Grinfeld, Konstantin Ayzikov 3. Principles of operation 38 Non-Ideal orbital traps and their calibration 43 Advances In signal processing 48 Evolution of the Orbitrap platform and selected applications 54 Acknowledgments 57 References 57 Fundamentals, strengths, and future directions forFourier transform ion cyclotron resonance mass spectrometry 63 Michael L. Easterling, Jeffery N. Agar FT-ICR fundamentals 67 Significant recent developments in FT-ICR 72 References 81
vi 4. Contents Fundamentals and simulations in FT-ICR-MS 89 Eugene N. Nikolaev, Yury I. Kostyukevich, Gleb Vladimirov Ion motion In the electromagnetic field 89 Ion motion In traps with quadrupolar type field distribution 91 The detection of Induced signal by cylindrical geometry electrodes 92 The influence of Inharmonlclty of electrostatic field and Inhomogenelty of the magnetic field on Ion motion synchronization. Comet formation 5. 96 Ion traps with dynamic harmonization 100 Conclusion 108 References 109 Advanced fundamentals in Fourier transform mass spectrometry 113 Yury O. Tsybin, Konstantin O. Nagornov, Anton N. Kozhinov ICR and Orbitrap FTMS: A preamble 113 Mass spectra processing: From a single to a summed (averaged) mass spectrum 115 6. Representation of mass spectra in full and reduced profile modes 118 FTMS resolution performance: Orbltrap and ICR 121 Conclusions 128 Acknowledgments 129 References 130 Data processing and automation in Fourier transform mass spectrometry 133 Basem Kanawati, Karl Peter Wanczek, Philippe Schmitt-Kopplin Introduction 133 Noise and de-noising in FTMS 134 Correct assignment of chemically relevant peaks In FTMS 141 Magnitude mode detection in FT-ICR-MS 144 Absorption mode detection In FT-ICR-MS 146 Non-Fourier transform techniques 150 Apodizatlon 157 Calibration 159 The physics behind the need of additional terms In the calibration equation 161 Further developed external calibration equations 162 Beat patterns In time-domain FTMS transients 169 FT artifacts in FTMS and their Implications on data processing 171 Batch processing of FTMS
mass spectra 172 Automation of FTMS instruments 174 Acknowledgments 177 References 177
Contents 7. Fundamentals of two dimensional Fourier transform mass spectrometry vii 187 Federico Floris, Peter B. O'Connor Introduction 18/ Mnss spectrometry in the second dimension 193 Date acquisition and processing 209 Data analysis 214 Applications ol2D MS 218 C om lusion dossale Reiniene es 8. Trapped ion mobility spectrometry coupled to FT-ICR MS: Fundamentals and applications 225 227 228 233 Francisco Fernandez-Lima Intioduction 285 Bui kqiound 234 I IMS analy/ei 235 FIMS ΙΟΙ MS vs, ПМЅ Ո ICR MS 242 t 9. Irisions 24 3 Acknowledgments 245 References 245 In situ metabolomics in cancer tissue by high-resolution mass spectrometry imaging 253 oik Lisa Kreutzer, Michaela Aichler, Axel Karl Walch Intioduction Common preservation methods for cancer tissue's 283 250 MAI Dl ľ 1 ICR MSI in metabolomlc-based cancer research 259 Data processine] in high-resolution MALDI MSI 266 Disc oveiy of diagnostic markers and tissue-based disease classification by mass spectrometry imaging 269 Inlet and Intratumoral heterogeneity at metabolite levels 270 Therapy response prediction and prognosis 277 Conclusion 273 Re՝fere՝nces 2 74
viii Contents 10. Fourier transform ion cyclotron resonance mass spectrometry and laser: A versatile tool 281 Frédéric Aubriet, Vincent Carré Introduction 281 Laser-matter and laser-molecule Interactions In the solid or In the gas phase 283 Coupling of FT-ICR MS instruments to laser Ionization sources 297 Some applications of laser Ionization coupled to FT-ICR MS 306 Conclusions 313 References 314 Further reading 322 Section C Applications chapters 11. Metabolomics using Fourier transform mass spectrometry 325 Christophe Junot, François Fenaille Introduction 325 The metabolomlc workflow 328 The input of Fourier mass spectrometry to metabolite detection and quantification 333 Handling and processing of Fourier transform mass spectrometry based metabolomlc data 338 The Input of Fourier transform mass spectrometry to metabolome annotation and metabolite Identification 340 Conclusion and perspectives 347 Acknowledgment 347 References 348 12. Mass differences in metabolome analyses of untargeted direct infusion ultra-high resolution MS data 357 Franco Moritz, Daniel Hemmler, Basem Kanawati, Jörg-Peter Schnitzler, Philippe Schmitt-Kopplin Introduction to metabolomics 357 Meaning and application of mass differences In mass spectrometry 364 Mass difference networks in the visualization and secondary analysis of UHR-MS data 387 Conclusion 396 References 397
Contents 13. FT-ICR MS and Orbitrap mass spectrometry approaches in environmental chemistry ix 407 Michael Gonsior General introduction 407 Drinking water and the discovery of new disinfection by-products 408 Characterization of organic constituents in wastewater and hydraulic fracturing fluids 413 Conclusions and suggestions for future work 418 Acknowledgments 419 References 419 14. Identification of biologically active peptides by means of Fourier transform mass spectrometry 425 Sergey V. Kovalev, Albert T. Lebedev Introduction 425 FTMS basics 426 FTMS for mass fingerprinting of peptides 428 Fourier transform tandem mass spectrometry 431 Collisional activation 433 Electron-based dissociation 439 Photoactivation 446 Combining different activation methods 447 Conclusion 458 References 459 15. Fourier transform mass spectrometry applied to Forensic Chemistry 469 João Francisco Allochlo Filho, Valdemar Lacerda, Jr., Wanderson Romão Introduction 469 Illicit abused drugs 471 New psychoactive substances 481 Foods and beverages falsification 486 Evidence analysis 494 Conclusions 501 References 502
x Contents 16. Fourier transform mass spectrometry applied to petroleomics 509 Igor Pereira, Deborah V.A. de Aguiar, Géssica Vasconselos, Boniek G. Vaz Introduction 509 Ionization methods 510 High-resoiution mass analyzers applied to petroleomics 515 Conclusion 524 References 525 17. Proteomics and proteoforms: Bottom-up or top-down, how to use high-resolution mass spectrometry to reach the Grail 529 Joelle Vlnh Introduction: the importance of proteins in a multi-omics context 529 Seeking for high performance mass spectrometry 531 Bioinformatics 540 Bottom-up proteomics: analysis of peptides 541 Top-down proteomics 549 Epilogue 554 Acknowledgments 555 References 555 Further reading 567 18. Gas phase ion-molecule reactions of inorganic compounds in FT-ICR-MS 569 Karl Peter Wanczek, Basem Kanawatl Introduction 569 Hydrogen and rare gases 570 Boron 572 Carbon, silicon, and germanium 572 Nitrogen, phosphorus, and arsenic 574 Oxygen, sulfur, selenium, and tellurium 582 Fluorine and chlorine 584 Conclusion 585 References 585 19. Cryo trapping by FT-MS for kinetics and spectroscopy 593 Sebastian Dllllnger, Gereon Niedner-Schatteburg Introduction 593 The evolution of cryo FT-MS 599 Some recent examples of cryo FT-ICR experiments 606 The future 612 a short outlook
Contents xi Conclusions біб Acknowledgments 617 References 617 Further reading 621 20. Application of FTMS to the analysis of glycosaminoglycans 623 Jiana Duan, I. Jonathan Amster Introduction to glycosaminoglycans 623 Glycosaminoglycan analysis with mass spectrometry 627 Automated structural interpretation 641 Conclusion 644 References 645 Further reading 649 21. Foodomics assessed byFourier transform mass spectrometry 651 Michael Rychlik, Basem Kanawati, Chloé Roullier-Gall, Daniel Hemmler, Youzhong Liu, Hervé Alexandre, Régis D. Gougeon, Lena Gmelch, Marina Gotthardt, Philippe Schmitt-Kopplin introduction 651 High-resolution mass spectrometry In foodomics 652 Data management in FT-ICR-MS 655 Applications of Fourier transform mass spectrometry In foodomics 656 Deep metabotyplng of foods 659 Inroads to comprehensive food safety assessment 66/ Aspects of nutritive quality of foods: vitamins 667 Conclusions 671 References 672 22. Contribution of Fourier transform mass spectrometry to bio-oil study 679 Jasmine Hertzog, Vincent Carré, Frédéric Aubriet Introduction 679 Properties and upgrading of bio-oils 682 Analytical methods for bio-oil characterization 686 Petroleomic non-targeted approach 688 Concluding remarks on the characterization of bio-oil by F Г-МЅ 719 Acknowledgments 721 References 721 Index 735 |
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| isbn | 9780128140130 0128140135 |
| language | English |
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| spelling | Fundamentals and applications of Fourier transform mass spectrometry edited by Basem Kanawati (Analytical Biogeochemistry, Helmholtz Zentrum München, Neuherberg, Germany) Philippe Schmitt-Kopplin (Analytical Biogeochemistry , Helmholtz Zentrum München, Neuherberg, Germany, Analytical Food Chemistry, Technical University of Munich, Freising, Germany) Amsterdam ; Oxford ; Cambridge, MA Elsevier [2019] © 2019 xxiii, 754 Seiten Illustrationen, Diagramme (teilweise farbig) txt rdacontent n rdamedia nc rdacarrier Fourier transform spectroscopy Mass spectrometry / Methodology Kanawati, Basem (DE-588)1194501389 edt Schmitt-Kopplin, Philippe (DE-588)135809045 edt Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031565116&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Fundamentals and applications of Fourier transform mass spectrometry |
| title | Fundamentals and applications of Fourier transform mass spectrometry |
| title_auth | Fundamentals and applications of Fourier transform mass spectrometry |
| title_exact_search | Fundamentals and applications of Fourier transform mass spectrometry |
| title_full | Fundamentals and applications of Fourier transform mass spectrometry edited by Basem Kanawati (Analytical Biogeochemistry, Helmholtz Zentrum München, Neuherberg, Germany) Philippe Schmitt-Kopplin (Analytical Biogeochemistry , Helmholtz Zentrum München, Neuherberg, Germany, Analytical Food Chemistry, Technical University of Munich, Freising, Germany) |
| title_fullStr | Fundamentals and applications of Fourier transform mass spectrometry edited by Basem Kanawati (Analytical Biogeochemistry, Helmholtz Zentrum München, Neuherberg, Germany) Philippe Schmitt-Kopplin (Analytical Biogeochemistry , Helmholtz Zentrum München, Neuherberg, Germany, Analytical Food Chemistry, Technical University of Munich, Freising, Germany) |
| title_full_unstemmed | Fundamentals and applications of Fourier transform mass spectrometry edited by Basem Kanawati (Analytical Biogeochemistry, Helmholtz Zentrum München, Neuherberg, Germany) Philippe Schmitt-Kopplin (Analytical Biogeochemistry , Helmholtz Zentrum München, Neuherberg, Germany, Analytical Food Chemistry, Technical University of Munich, Freising, Germany) |
| title_short | Fundamentals and applications of Fourier transform mass spectrometry |
| title_sort | fundamentals and applications of fourier transform mass spectrometry |
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