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catalog contributor b11631870.
catalog contributor b11631871.
catalog created "2000.".
catalog date "2000".
catalog date "2000.".
catalog dateCopyrighted "2000.".
catalog description "10.1.3. Reporting Results and Interpretation 395 -- 10.2. Aromatic Substitution and Ring Fusion Patterns: Simple Cases 398 -- 10.3. Aromatic Substitution and Ring Fusion Patterns: More Complex Cases 406 -- 10.3.1. Petroporphyrins 407 -- 10.3.2. Isoquinoline and Related Alkaloids 409 -- 10.4. Double Bond Isomers 415 -- 10.5. Saturated Ring Systems: Simple Cases 420 -- 10.5.1. Substituent Stereochemistry 422 -- 10.5.2. Ring Fusion Stereochemistry 432 -- 10.6. Saturated Ring Systems: More Complex Cases 442 -- 10.6.1. Pulvomycin 444 -- 10.6.2. Penitrem A 447 -- Chapter 11. Applications of the Noe to Conformational Analysis 456 -- 11.1. General Considerations 456 -- 11.1.1. Why Structural and Conformational Problems are Different 456 -- 11.1.2. Multiple Conformations 458 -- 11.2. Local Conformational Detail in Small Molecules 459 -- 11.2.1. Slowly Exchanging Equilibria 461 --".
catalog description "11.2.2. Rapidly Exchanging Equilibria: A Hypothetical Example, X-CH[subscript 2]OH 461 -- 11.2.3. Rapidly Exchanging Equilibria: Real Examples 463 -- 11.3. Conformational Analysis of Medium-Sized Molecules 472 -- Chapter 12. Calculating Structures of Biopolymers 485 -- 12.2. Restraints 486 -- 12.2.1. Assigning NOE Restraints 487 -- 12.2.1.1. Using Only ([superscript 1]H, [superscript 1]H) NOESY Data 488 -- 12.2.1.2. Using Preliminary Structural Data 489 -- 12.2.1.3. Using Heteronuclear Labeling 490 -- 12.2.2. Measuring NOE Restraints 491 -- 12.2.3. Calibrating NOE Restraints 493 -- 12.2.4. Averaging in Equivalent Groups 499.".
catalog description "156 -- 5.4. Estimating Flexibility Using Heteronuclear Relaxation Analysis 158 -- 5.5. How Internal Motions Average Internuclear Distances 167 -- 5.5.1. Internal Motions Slower Than Overall Tumbling: "r[superscript -6] Averaging" 171 -- 5.5.2. Internal Motions Faster Than Overall Tumbling 172 -- 5.6. Allowing for Averaging 174 -- 5.7. The Transferred NOE 178 -- 5.8. Intermolecular NOE Enhancements Involving Water 185 -- Chapter 6. Complications from Spin-Spin Coupling 190 -- 6.1. Decoupling 190 -- 6.2. Selective Population Transfer 191 -- 6.2.1. Theory 192 -- 6.2.2. Consequences 199 -- 6.3. Effects of Cross-Correlation 201 -- 6.4. Strong Coupling 204 -- 6.4.1. A{B} Enhancements 206 -- 6.4.2. AB{X} Enhancements 206 -- 6.4.3. Scalar Relaxation 213 -- 6.4.3.1. Scalar Relaxation of the First Kind 213 -- 6.4.3.2. Scalar Relaxation of the Second Kind 216 -- Part II.".
catalog description "3.2.2.1. Direct Effects 76 -- 3.2.2.2. Indirect Effects 79 -- 3.2.2.3. When Do Indirect Effects Matter? 80 -- 3.2.2.4. Magnetic Equivalence 82 -- 3.2.2.5. T[subscript 1] and the 3/2 Effect 84 -- 3.2.2.6. Chemical Equivalence 85 -- 3.2.3. Away from the Extreme Narrowing Limit 86 -- 3.3. In Practice 91 -- 3.3.1. Incomplete Saturation 92 -- 3.3.2. Failure to Reach Steady-State 93 -- 3.3.3. Competition From Other Relaxation Sources 94 -- Chapter 4. The Kinetics of the Noe 98 -- 4.1.1. Types of Kinetic NOE Experiment 99 -- 4.2. Theory of the Kinetic NOE in a Two-Spin System 105 -- 4.3. Theory of the Kinetic NOE in Multispin Systems 108 -- 4.3.1. Multispin Kinetics in Transient NOE Experiments 108 -- 4.3.2. Multispin Kinetics in TOE Experiments 111 -- 4.4. Estimating Internuclear Distances 111 -- 4.4.1. The Initial Rate Approximation 112 -- 4.4.2.".
catalog description "7.5.2. Non-Gradient Transient NOE Experiments 260 -- 7.5.3. Gradient-Assisted Transient NOE Experiments 261 -- 7.5.3.1. Gradient Selection 262 -- 7.5.3.2. DPFGSE-NOE 264 -- 7.5.3.3. GOESY 267 -- 7.5.3.4. Variations 272 -- 7.5.3.5. Applications and Practicalities 274 -- 7.5.4. Doubly Selective Experiments 276 -- Chapter 8. The Two-Dimensional NOESY Experiment 282 -- 8.1. One Dimension or Two? 282 -- 8.1.1. The Negative NOE Regime ([omega tau subscript c]> 1.12) 283 -- 8.1.2. The Positive NOE Regime ([omega tau subscript c] <1.12) 283 -- 8.2. Basic Principles 285 -- 8.3. Acquiring a NOESY Spectrum 293 -- 8.3.1. Fixed Delays and Pulse Widths 294 -- 8.3.2. Acquisition Times t[subscript 1] and t[subscript 2] and Spectral Widths SW[subscript 1] and SW[subscript 2] 296 -- 8.3.3. Quadrature Detection in F[subscript 1] and F[subscript 2] 299 -- 8.3.4. Phase-Sensitive NOESY 304 -- 8.4.".
catalog description "Distances From Enhancement Ratios 113 -- 4.4.3. Errors in Distance Measurements Using the Initial Rate Approximation 115 -- 4.4.4. Spin Diffusion, Nonlinear NOE Growth, and Interpretation 117 -- 4.5. More About Experiments 122 -- 4.5.1. Symmetry in Kinetic NOE Experiments 122 -- 4.5.2. T[subscript 1] Values as an Aid to Interpretation 124 -- Chapter 5. The Effects of Exchange and Internal Motion 129 -- 5.1. Transfer of Saturation 131 -- 5.2. General Equations for the NOE in Systems of Two-Site Exchange 136 -- 5.2.1. Exchange in a Two-Spin System 136 -- 5.2.2. Exchange in Dimethylformanide 143 -- 5.3. Applications to More Complicated Cases of Exchange 148 -- 5.3.1. Averaging of Rates Rather than Enhancements 148 -- 5.3.2. Analyzing Conformational Equilibria 150 -- 5.3.2.1. Olefinic Methoxy Conformations 150 -- 5.3.2.2. Nucleotide Conformations 151 -- 5.3.2.3. A Statistical Approach".
catalog description "Editing and Spectral Simplification of NOE Experiments 341 -- 9.2.1. Editing Using the NOE Itself 341 -- 9.2.2. Editing Using Heteronuclear Scalar Couplings 346 -- 9.2.2.1. X-Filtered NOE Experiments 347 -- 9.2.2.2. X-Separated NOE Experiments 350 -- 9.2.3. Homonuclear Three-Dimensional NOE Experiments 359 -- 9.2.4. Editing Using Something Else 362 -- 9.3. Rotating Frame NOE Experiments 364 -- 9.3.1. Theory 365 -- 9.3.1.1. Spin-Locking 365 -- 9.3.1.2. Spin-Locked Transverse Dipole-Dipole Relaxation 367 -- 9.3.1.3. Other Effects During Spin-Locking 371 -- 9.3.2. Practicalities 379 -- 9.4. Manipulation of [omega tau subscript c] 382 -- Part III. Applications 389 -- Chapter 10. Applications of the Noe to Structure Elucidation 391 -- 10.1. General Considerations 391 -- 10.1.1. Why Structural and Conformational Problems Are the Same 391 -- 10.1.2. Spectra and Assignments 393 --".
catalog description "Experimental 219 -- Chapter 7. One-Dimensional Experiments 221 -- 7.1. Sample Preparation 221 -- 7.1.1. Solvent 221 -- 7.1.2. Solute Concentration 224 -- 7.1.3. Sample Purification 225 -- 7.2. Setting Up the Steady-State Difference Experiment 227 -- 7.2.1. Introduction to the Difference Experiment 227 -- 7.2.2. Minimizing Subtraction Artifacts 230 -- 7.2.3. Automatic Multiple Experiments 234 -- 7.2.4. Irradiation Power and Selectivity 235 -- 7.2.5. Multiplet Irradiation and SPT Suppression 240 -- 7.2.6. Timing 243 -- 7.3. Processing, Display, and Calculation of Results 247 -- 7.3.1. General 247 -- 7.3.2. Reference Deconvolution 249 -- 7.4. Other 1D Experiments Employing Continuous Saturation 254 -- 7.4.1. CW Steady-State Integration 254 -- 7.4.2. The Truncated Driven NOE (TOE) Experiment 255 -- 7.5. Transient Experiments 258 -- 7.5.1. Selective Pulses 259 --".
catalog description "Includes bibliographical references and index.".
catalog description "Intermolecular Dipole -- Dipole Relaxation 50 -- 2.4.3. Quadrupolar Relaxation 52 -- 2.4.4. Chemical Shift Anisotropy (CSA) Relaxation 53 -- 2.4.5. Scalar Relaxation 53 -- 2.4.6. Spin -- Rotation Relaxation 53 -- 2.5. The Heteronuclear NOE 54 -- 2.6. An Extension to the Solomon Equations 59 -- Chapter 3. The Steady-State Noe in Rigid Multispin Systems 62 -- 3.1. The Equations 63 -- 3.1.1. The Solomon Equations for More Than Two Spins 63 -- 3.1.2. Cross-Correlation 66 -- 3.1.3. Two General Solutions to the Multispin Solomon Equations 68 -- 3.1.3.1. Saturation of One Spin 68 -- 3.1.3.2. Saturation of All Spins Except One 69 -- 3.1.4. Internuclear Distances and Steady-State NOE Enhancements 71 -- 3.2. What the Equations Mean 72 -- 3.2.1. General: Direct Enhancements and Spin Diffusion 72 -- 3.2.2. Interpretation at the Extreme Narrowing Limit ([omega tau subscript c] <<1) 76 --".
catalog description "Part I. Theory 2 -- 1.1. Energy Levels, Populations, and Intensities 3 -- 1.2. Relaxation, T[subscript 1] and T[subscript 2] 8 -- 1.3. The Nature of Relaxation 12 -- 1.4. The Local Field and Dipole -- Dipole Relaxation 13 -- 1.5. Pulses and Saturation 15 -- Chapter 2. The Steady-State Noe for Two Spins 23 -- 2.1. The Origin and Form of the NOE 23 -- 2.1.1. Qualitative Considerations 23 -- 2.1.2. The Solomon Equations 27 -- 2.2. Dependence of the NOE on Molecular Motion 30 -- 2.2.1. Correlation Times, Spectral Density Functions, and Transition Probabilities 31 -- 2.2.2. Anisotropic Tumbling 38 -- 2.3. What the Symbols Mean for Two Spins and for Many Spins 38 -- 2.3.1. Relaxation Rates 39 -- 2.3.2. T[subscript 1] Measurements and Cross-Relaxation 42 -- 2.4. Effects of Other Relaxation Sources 46 -- 2.4.1. The External Relaxation Rate [rho]* 46 -- 2.4.2.".
catalog description "Phase-Cycling, Signal Selection, and Artifact Suppression 307 -- 8.4.1. Rejection of Nonlongitudinal Contributions During [tau subscript m]: J-Peak Suppression 309 -- 8.4.2. Other Forms of J-Peaks: Zero Quantum Coherences and Pulse Angle Effects 310 -- 8.4.3. Axial Peaks 313 -- 8.4.4. Quadrature Images 313 -- 8.4.5. t[subscript 1] Noise 314 -- 8.5. Data Processing 316 -- 8.5.1. Zero Filling 317 -- 8.5.2. Window Functions and Linear Prediction 318 -- 8.5.3. Symmetrization and t[subscript 1] Noise Removal 320 -- 8.5.4. Integration 321 -- 8.6. Variations 322 -- 8.6.1. Semi-Selective and Network-Edited Experiments 322 -- 8.6.2. Other Variants 327 -- Chapter 9. Other Developments 331 -- 9.1. Heteronuclear NOE Enhancements 331 -- 9.1.1. Non-Specific Heteronuclear NOE Experiments 331 -- 9.1.2. Specific Heteronuclear NOE Experiments 335 -- 9.2.".
catalog extent "619 p. :".
catalog hasFormat "Nuclear Overhauser effect in structural and conformational analysis.".
catalog identifier "0471246751 (alk. paper)".
catalog isFormatOf "Nuclear Overhauser effect in structural and conformational analysis.".
catalog isPartOf "Methods in stereochemical analysis (Unnumbered).".
catalog isPartOf "Methods in stereochemical analysis".
catalog issued "2000".
catalog issued "2000.".
catalog language "eng".
catalog publisher "New York : John Wiley,".
catalog relation "Nuclear Overhauser effect in structural and conformational analysis.".
catalog subject "541.2/23 21".
catalog subject "Conformational analysis.".
catalog subject "Overhauser effect (Nuclear physics)".
catalog subject "QD481 .N46 2000".
catalog tableOfContents "10.1.3. Reporting Results and Interpretation 395 -- 10.2. Aromatic Substitution and Ring Fusion Patterns: Simple Cases 398 -- 10.3. Aromatic Substitution and Ring Fusion Patterns: More Complex Cases 406 -- 10.3.1. Petroporphyrins 407 -- 10.3.2. Isoquinoline and Related Alkaloids 409 -- 10.4. Double Bond Isomers 415 -- 10.5. Saturated Ring Systems: Simple Cases 420 -- 10.5.1. Substituent Stereochemistry 422 -- 10.5.2. Ring Fusion Stereochemistry 432 -- 10.6. Saturated Ring Systems: More Complex Cases 442 -- 10.6.1. Pulvomycin 444 -- 10.6.2. Penitrem A 447 -- Chapter 11. Applications of the Noe to Conformational Analysis 456 -- 11.1. General Considerations 456 -- 11.1.1. Why Structural and Conformational Problems are Different 456 -- 11.1.2. Multiple Conformations 458 -- 11.2. Local Conformational Detail in Small Molecules 459 -- 11.2.1. Slowly Exchanging Equilibria 461 --".
catalog tableOfContents "11.2.2. Rapidly Exchanging Equilibria: A Hypothetical Example, X-CH[subscript 2]OH 461 -- 11.2.3. Rapidly Exchanging Equilibria: Real Examples 463 -- 11.3. Conformational Analysis of Medium-Sized Molecules 472 -- Chapter 12. Calculating Structures of Biopolymers 485 -- 12.2. Restraints 486 -- 12.2.1. Assigning NOE Restraints 487 -- 12.2.1.1. Using Only ([superscript 1]H, [superscript 1]H) NOESY Data 488 -- 12.2.1.2. Using Preliminary Structural Data 489 -- 12.2.1.3. Using Heteronuclear Labeling 490 -- 12.2.2. Measuring NOE Restraints 491 -- 12.2.3. Calibrating NOE Restraints 493 -- 12.2.4. Averaging in Equivalent Groups 499.".
catalog tableOfContents "156 -- 5.4. Estimating Flexibility Using Heteronuclear Relaxation Analysis 158 -- 5.5. How Internal Motions Average Internuclear Distances 167 -- 5.5.1. Internal Motions Slower Than Overall Tumbling: "r[superscript -6] Averaging" 171 -- 5.5.2. Internal Motions Faster Than Overall Tumbling 172 -- 5.6. Allowing for Averaging 174 -- 5.7. The Transferred NOE 178 -- 5.8. Intermolecular NOE Enhancements Involving Water 185 -- Chapter 6. Complications from Spin-Spin Coupling 190 -- 6.1. Decoupling 190 -- 6.2. Selective Population Transfer 191 -- 6.2.1. Theory 192 -- 6.2.2. Consequences 199 -- 6.3. Effects of Cross-Correlation 201 -- 6.4. Strong Coupling 204 -- 6.4.1. A{B} Enhancements 206 -- 6.4.2. AB{X} Enhancements 206 -- 6.4.3. Scalar Relaxation 213 -- 6.4.3.1. Scalar Relaxation of the First Kind 213 -- 6.4.3.2. Scalar Relaxation of the Second Kind 216 -- Part II.".
catalog tableOfContents "3.2.2.1. Direct Effects 76 -- 3.2.2.2. Indirect Effects 79 -- 3.2.2.3. When Do Indirect Effects Matter? 80 -- 3.2.2.4. Magnetic Equivalence 82 -- 3.2.2.5. T[subscript 1] and the 3/2 Effect 84 -- 3.2.2.6. Chemical Equivalence 85 -- 3.2.3. Away from the Extreme Narrowing Limit 86 -- 3.3. In Practice 91 -- 3.3.1. Incomplete Saturation 92 -- 3.3.2. Failure to Reach Steady-State 93 -- 3.3.3. Competition From Other Relaxation Sources 94 -- Chapter 4. The Kinetics of the Noe 98 -- 4.1.1. Types of Kinetic NOE Experiment 99 -- 4.2. Theory of the Kinetic NOE in a Two-Spin System 105 -- 4.3. Theory of the Kinetic NOE in Multispin Systems 108 -- 4.3.1. Multispin Kinetics in Transient NOE Experiments 108 -- 4.3.2. Multispin Kinetics in TOE Experiments 111 -- 4.4. Estimating Internuclear Distances 111 -- 4.4.1. The Initial Rate Approximation 112 -- 4.4.2.".
catalog tableOfContents "7.5.2. Non-Gradient Transient NOE Experiments 260 -- 7.5.3. Gradient-Assisted Transient NOE Experiments 261 -- 7.5.3.1. Gradient Selection 262 -- 7.5.3.2. DPFGSE-NOE 264 -- 7.5.3.3. GOESY 267 -- 7.5.3.4. Variations 272 -- 7.5.3.5. Applications and Practicalities 274 -- 7.5.4. Doubly Selective Experiments 276 -- Chapter 8. The Two-Dimensional NOESY Experiment 282 -- 8.1. One Dimension or Two? 282 -- 8.1.1. The Negative NOE Regime ([omega tau subscript c]> 1.12) 283 -- 8.1.2. The Positive NOE Regime ([omega tau subscript c] <1.12) 283 -- 8.2. Basic Principles 285 -- 8.3. Acquiring a NOESY Spectrum 293 -- 8.3.1. Fixed Delays and Pulse Widths 294 -- 8.3.2. Acquisition Times t[subscript 1] and t[subscript 2] and Spectral Widths SW[subscript 1] and SW[subscript 2] 296 -- 8.3.3. Quadrature Detection in F[subscript 1] and F[subscript 2] 299 -- 8.3.4. Phase-Sensitive NOESY 304 -- 8.4.".
catalog tableOfContents "Distances From Enhancement Ratios 113 -- 4.4.3. Errors in Distance Measurements Using the Initial Rate Approximation 115 -- 4.4.4. Spin Diffusion, Nonlinear NOE Growth, and Interpretation 117 -- 4.5. More About Experiments 122 -- 4.5.1. Symmetry in Kinetic NOE Experiments 122 -- 4.5.2. T[subscript 1] Values as an Aid to Interpretation 124 -- Chapter 5. The Effects of Exchange and Internal Motion 129 -- 5.1. Transfer of Saturation 131 -- 5.2. General Equations for the NOE in Systems of Two-Site Exchange 136 -- 5.2.1. Exchange in a Two-Spin System 136 -- 5.2.2. Exchange in Dimethylformanide 143 -- 5.3. Applications to More Complicated Cases of Exchange 148 -- 5.3.1. Averaging of Rates Rather than Enhancements 148 -- 5.3.2. Analyzing Conformational Equilibria 150 -- 5.3.2.1. Olefinic Methoxy Conformations 150 -- 5.3.2.2. Nucleotide Conformations 151 -- 5.3.2.3. A Statistical Approach".
catalog tableOfContents "Editing and Spectral Simplification of NOE Experiments 341 -- 9.2.1. Editing Using the NOE Itself 341 -- 9.2.2. Editing Using Heteronuclear Scalar Couplings 346 -- 9.2.2.1. X-Filtered NOE Experiments 347 -- 9.2.2.2. X-Separated NOE Experiments 350 -- 9.2.3. Homonuclear Three-Dimensional NOE Experiments 359 -- 9.2.4. Editing Using Something Else 362 -- 9.3. Rotating Frame NOE Experiments 364 -- 9.3.1. Theory 365 -- 9.3.1.1. Spin-Locking 365 -- 9.3.1.2. Spin-Locked Transverse Dipole-Dipole Relaxation 367 -- 9.3.1.3. Other Effects During Spin-Locking 371 -- 9.3.2. Practicalities 379 -- 9.4. Manipulation of [omega tau subscript c] 382 -- Part III. Applications 389 -- Chapter 10. Applications of the Noe to Structure Elucidation 391 -- 10.1. General Considerations 391 -- 10.1.1. Why Structural and Conformational Problems Are the Same 391 -- 10.1.2. Spectra and Assignments 393 --".
catalog tableOfContents "Experimental 219 -- Chapter 7. One-Dimensional Experiments 221 -- 7.1. Sample Preparation 221 -- 7.1.1. Solvent 221 -- 7.1.2. Solute Concentration 224 -- 7.1.3. Sample Purification 225 -- 7.2. Setting Up the Steady-State Difference Experiment 227 -- 7.2.1. Introduction to the Difference Experiment 227 -- 7.2.2. Minimizing Subtraction Artifacts 230 -- 7.2.3. Automatic Multiple Experiments 234 -- 7.2.4. Irradiation Power and Selectivity 235 -- 7.2.5. Multiplet Irradiation and SPT Suppression 240 -- 7.2.6. Timing 243 -- 7.3. Processing, Display, and Calculation of Results 247 -- 7.3.1. General 247 -- 7.3.2. Reference Deconvolution 249 -- 7.4. Other 1D Experiments Employing Continuous Saturation 254 -- 7.4.1. CW Steady-State Integration 254 -- 7.4.2. The Truncated Driven NOE (TOE) Experiment 255 -- 7.5. Transient Experiments 258 -- 7.5.1. Selective Pulses 259 --".
catalog tableOfContents "Intermolecular Dipole -- Dipole Relaxation 50 -- 2.4.3. Quadrupolar Relaxation 52 -- 2.4.4. Chemical Shift Anisotropy (CSA) Relaxation 53 -- 2.4.5. Scalar Relaxation 53 -- 2.4.6. Spin -- Rotation Relaxation 53 -- 2.5. The Heteronuclear NOE 54 -- 2.6. An Extension to the Solomon Equations 59 -- Chapter 3. The Steady-State Noe in Rigid Multispin Systems 62 -- 3.1. The Equations 63 -- 3.1.1. The Solomon Equations for More Than Two Spins 63 -- 3.1.2. Cross-Correlation 66 -- 3.1.3. Two General Solutions to the Multispin Solomon Equations 68 -- 3.1.3.1. Saturation of One Spin 68 -- 3.1.3.2. Saturation of All Spins Except One 69 -- 3.1.4. Internuclear Distances and Steady-State NOE Enhancements 71 -- 3.2. What the Equations Mean 72 -- 3.2.1. General: Direct Enhancements and Spin Diffusion 72 -- 3.2.2. Interpretation at the Extreme Narrowing Limit ([omega tau subscript c] <<1) 76 --".
catalog tableOfContents "Part I. Theory 2 -- 1.1. Energy Levels, Populations, and Intensities 3 -- 1.2. Relaxation, T[subscript 1] and T[subscript 2] 8 -- 1.3. The Nature of Relaxation 12 -- 1.4. The Local Field and Dipole -- Dipole Relaxation 13 -- 1.5. Pulses and Saturation 15 -- Chapter 2. The Steady-State Noe for Two Spins 23 -- 2.1. The Origin and Form of the NOE 23 -- 2.1.1. Qualitative Considerations 23 -- 2.1.2. The Solomon Equations 27 -- 2.2. Dependence of the NOE on Molecular Motion 30 -- 2.2.1. Correlation Times, Spectral Density Functions, and Transition Probabilities 31 -- 2.2.2. Anisotropic Tumbling 38 -- 2.3. What the Symbols Mean for Two Spins and for Many Spins 38 -- 2.3.1. Relaxation Rates 39 -- 2.3.2. T[subscript 1] Measurements and Cross-Relaxation 42 -- 2.4. Effects of Other Relaxation Sources 46 -- 2.4.1. The External Relaxation Rate [rho]* 46 -- 2.4.2.".
catalog tableOfContents "Phase-Cycling, Signal Selection, and Artifact Suppression 307 -- 8.4.1. Rejection of Nonlongitudinal Contributions During [tau subscript m]: J-Peak Suppression 309 -- 8.4.2. Other Forms of J-Peaks: Zero Quantum Coherences and Pulse Angle Effects 310 -- 8.4.3. Axial Peaks 313 -- 8.4.4. Quadrature Images 313 -- 8.4.5. t[subscript 1] Noise 314 -- 8.5. Data Processing 316 -- 8.5.1. Zero Filling 317 -- 8.5.2. Window Functions and Linear Prediction 318 -- 8.5.3. Symmetrization and t[subscript 1] Noise Removal 320 -- 8.5.4. Integration 321 -- 8.6. Variations 322 -- 8.6.1. Semi-Selective and Network-Edited Experiments 322 -- 8.6.2. Other Variants 327 -- Chapter 9. Other Developments 331 -- 9.1. Heteronuclear NOE Enhancements 331 -- 9.1.1. Non-Specific Heteronuclear NOE Experiments 331 -- 9.1.2. Specific Heteronuclear NOE Experiments 335 -- 9.2.".
catalog title "The nuclear Overhauser effect in structural and conformational analysis / David Neuhaus and Michael P. Williamson.".
catalog type "text".