NMR in Medicine and Biology: Structure Determination, Tomography, In Vivo Spectroscopy0 e From the reviews of the German edition: "NMR: readable yet professional... Through this book the reader with a scientific background becomes familiar with all important NMR phenomena, methods and conceptions... The great amount of carefully drawn figures and skillfully selected biologically relevant spectra and figures are an decisive bridge to the ... aim, to convey the NMR basics without mathematics. Besides biologists and physicians the book can be highly recommended to physicists and chemists..." #Nachrichten a. d. Chemie, Technik u. Laboratorien#1 "An extraordinary NMR textbook ... The authors succeeded in presenting the subject vividly. This book is clearly set out and easy to follow at a glance, and its numerous figures are extremely well done." #Labo#2 |
Contents
1 | |
NMR Spectroscopy in Biochemistry | 37 |
1 | 73 |
Structure Determination from NMR Data | 113 |
2 | 121 |
NMR Tomography | 135 |
Spatial Selective Spectroscopy and In Vivo | 173 |
References | 203 |
Other editions - View all
NMR in Medicine and Biology: Structure Determination, Tomography, In Vivo ... Karl H. Hausser,Hans R. Kalbitzer No preview available - 1991 |
NMR in Medicine and Biology: Structure Determination, Tomography, In Vivo ... Karl H. Hausser,Hans R. Kalbitzer No preview available - 2012 |
Common terms and phrases
absorption lines additional amino acids atoms B₁ biological Bo-field cells chemical shift components concentration correlation corresponding coupling constant CPMG cross peaks decoupling decreases depends detection determined dihedral angles dipolar distance electronic equations equilibrium experiment external magnetic field fast exchange Fourier transformation function gradient Hence histidine HPr protein interaction investigated ions isotope J-coupling M₂ Magn magnetic field magnetic field Bo Magnetic Resonance measured membrane method molecular molecules multiplet NMR signal NMR spectroscopy NMR spectrum NMR tomography nuclear Overhauser effect nuclear spins nuclei observed obtained paramagnetic pH value phase phosphocreatine phosphorus resonance possible principle processes proteins protons pulse sequence quadrupole radio frequency relaxation rate resonance frequency resonance lines ring rotation sample saturation signal-to-noise ratio simple slice solvent spatial selection spectra spin echo spin-lattice relaxation spin-spin splitting structure substance substrates surface coil T₁ T₂ technique time-dependent tissue two-dimensional NMR vivo NMR Wüthrich