Mass spectrometry in structural biology and biophysics: architecture, dynamics, and interaction of biomolecules
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, New Jersey
Wiley
2012
|
| Ausgabe: | 2. ed. |
| Schriftenreihe: | Wiley series on mass spectrometry
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | XIV, 289 S. Ill., graph. Darst. |
| ISBN: | 9780470937792 |
Internformat
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| 100 | 1 | |a Kaltashov, Igor A. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Mass spectrometry in structural biology and biophysics |b architecture, dynamics, and interaction of biomolecules |c Igor A. Kaltashov ; Stephen J. Eyles |
| 250 | |a 2. ed. | ||
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| 300 | |a XIV, 289 S. |b Ill., graph. Darst. | ||
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Datensatz im Suchindex
| _version_ | 1804149321041444864 |
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| adam_text | CONTENTS
Preface to the Second Edition
xi
Preface to the First Edition
xiii
1
General Overview of Basic Concepts in Molecular Biophysics
1
1.1
Covalent Structure of
Biopolymers, 1
1.2
Noncovalent Interactions and Higher Order Structure,
3
1.2.1
Electrostatic Interaction,
3
1.2.2
Hydrogen Bonding,
6
1.2.3
Steric Clashes and Allowed Conformations of the
Peptide
Backbone:
Secondary Structure,
6
1.2.4
Solvent-Solute Interactions,
Hydrophobie
Effect, Side-Chain Packing,
and Tertiary Structure,
7
1.2.5
Intermolecular Interactions and Association: Quaternary Structure,
9
1.3
The Protein Folding Problem,
9
1.3.1
What Is Protein Folding?,
9
1.3.2
Why Is Protein Folding So Important?,
10
1.3.3
What Is the Natively Folded Protein and How Do We Define a Protein
Conformation?,
11
1.3.4
What Are Non-Native Protein Conformations?: Random Coils, Molten
Globules, and Folding Intermediates,
12
1.3.5
Protein Folding Pathways,
13
1.4
Protein Energy Landscapes and the Folding Problem,
14
1.4.1
Protein Conformational Ensembles and Energy Landscapes:
Enthalpie
and
Entropie
Considerations,
14
1.4.2
Equilibrium and Kinetic Intermediates on the Energy Landscape,
16
1.5
Protein Dynamics and Function,
17
1.5.1
Limitations of the Structure-Function Paradigm,
17
1.5.2
Protein Dynamics under Native Conditions,
17
1.5.3
Is Weil-Defined Structure Required for Functional Competence?,
18
1.5.4
Biomolecular Dynamics and Binding from The Energy Landscape
Perspective,
19
1.5.5
Energy Landscapes Within a Broader Context of Nonlinear Dynamics:
Information Flow and Fitness Landscapes,
21
vi
CONTENTS
1.6 Protein Higher Order
Structure and Dynamics from A Biotechnology
Perspective,
22
References,
22
2
Overview of Traditional Experimental Arsenal to Study Biomolecular Structure
and Dynamics
26
2.1
Х
-Ray Crystallography,
26
2.1.1
Fundamentals,
26
2.1.2
Crystal Structures at Atomic and Ultrahigh Resolution,
27
2.1.3
Crystal Structures of Membrane Proteins,
27
2.1.4
Protein Dynamics and
Х
-Ray Diffraction,
28
2.2
Solution Scattering Techniques,
28
2.2.1
Static and Dynamic Light Scattering,
28
2.2.2
Small-Angle
Х
-Ray Scattering,
29
2.2.3
Cryo-Electron Microscopy,
29
2.2.4
Neutron Scattering,
30
2.3
NMR Spectroscopy,
30
2.3.1
Heteronuclear NMR,
32
2.3.2
Hydrogen Exchange by NMR,
33
2.4
Other
Spectroscopie
Techniques,
34
2.4.1
Cumulative Measurements of Higher Order Structure: Circular
Dichroism,
34
2.4.2
Vibrational Spectroscopy,
37
2.4.3
Fluorescence: Monitoring Specific Dynamic Events,
39
2.5
Other Biophysical Methods to Study Macromolecular Interactions and
Dynamics,
41
2.5.1
Calorimetrie
Methods,
41
2.5.2
Analytical
Ultracentrifugádon,
43
2.5.3
Surface Plasmon Resonance,
45
2.5.4
Size Exclusion Chromatography (Gel Filtration),
46
2.5.5
Electrophoresis,
47
2.5.6
Affinity Chromatography,
48
References,
48
3
Overview of Biological Mass Spectrometry
52
3.1
Basic Principles of Mass Spectrometry,
52
3.1.1
Stable Isotopes and
Isotopie
Distributions,
53
3.1.2
Macromolecular Mass: Terms and Definitions,
57
3.2
Methods of Producing Biomolecular Ions,
57
3.2.1
Macromolecular Ion Desorption Techniques: General Considerations,
57
3.2.2
Electrospray Ionization,
58
3.2.3
Matrix Assisted Laser Desorption Ionization (MALDI),
60
3.3
Mass Analysis,
63
3.3.1
General Considerations: m/z Range and Mass Discrimination, Mass
Resolution, Duty Cycle, and Data Acquisition Rate,
63
3.3.2
Mass Spectrometry Combined with Separation Methods,
64
3.4
Tandem Mass Spectrometry,
65
3.4.1
Basic Principles of Tandem Mass Spectrometry,
65
3.4.2
Collision-Induced Dissociation: Collision Energy, Ion Activation Rate,
and Dissociation of Large Biomolecular Ions,
66
3.4.3
Surface- and Photoradiation-Induced Dissociation,
68
3.4.4
Electron-Based Ion Fragmentation Techniques: Electron Capture
Dissociation and Electron Transfer Dissociation,
71
CONTENTS
3.4.5
Ion-Molecule Reactions in the Gas Phase: Internal Rearrangement and
Charge Transfer,
71
3.5
Brief Overview of Common Mass Analyzers,
72
3.5.1
Mass Analyzer As an Ion Dispersion Device: Magnetic Sector Mass
Spectrometry,
72
3.5.2
Temporal Ion Dispersion: Time-of-Flight Mass Spectrometer,
73
3.5.3
Mass Analyzer As an Ion Filter,
75
3.5.4
Mass Analyzer As an Ion-Storing Device: The Quadrupole (Paul) Ion
Trap and Linear Ion Trap,
76
3.5.5
Mass Analyzer As an Ion Storing Device: FT ICR MS,
78
3.5.6
Mass Analyzer as An Ion Storing Device: Orbitrap MS,
80
3.5.7
Ion Mobility Analyzers,
81
3.5.8
Hybrid Mass Spectrometers,
82
References,
82
Mass Spectrometry Based Approaches to Study Biomolecular Higher Order
Structure
89
4.1
Direct Methods of Structure Characterization: Native Electrospray Ionization
Mass Spectrometry,
89
4.1.1
Preservation of Noncovalent Complexes in the Gas Phase: Stoichiometry
of Biomolecular Assemblies,
89
4.1.2
Utilization of Ion Chemistry in the Gas Phase to Aid Interpretation of ESI
MS Data,
91
4.1.3
Dissociation of Noncovalent Complexes in the Gas Phase: Can It Lead to
Wrong Conclusions?,
93
4.1.4
Evaluation of Macromolecular Shape in Solution: The Extent of Multiple
Charging in ESI MS,
94
4.1.5
Macromolecular Shape in the Gas Phase: Ion Mobility-Mass
Spectrometry,
97
4.1.6
How Relevant Are Native ESI MS Measurements? Restrictions on
Solvent Composition in ESI,
98
4.1.7
Noncovalent Complexes by MALDI MS,
98
4.2
Chemical Cross-Linking for Characterization of Biomolecular
Topography,
99
4.2.1
Mono- and Bifunctional Cross-Linking Reagents,
99
4.2.2
Chemical Cross-Linkers with Fixed Arm-Length: Molecular Rulers or
Tape Measures?,
100
4.2.3
Mass Spectrometry Analysis of Chemical
Cross-Linking Reaction Products,
102
4.2.4
Intrinsic Cross-Linkers: Methods to Determine Disulfide Connectivity
Patterns in Proteins,
108
4.2.5
Other Intrinsic Cross-Linkers: Oxidative
Cross-Linking of Tyrosine Side Chains,
109
4.3
Mapping Solvent-Accessible Areas with Chemical Labeling and
Footprinting Methods,
110
4.3.1
Selective Chemical Labeling,
110
4.3.2
Nonspecific Chemical Labeling,
115
4.4
Hydrogen Exchange,
116
4.4.1
Hydrogen Exchange in Peptides and Proteins: General
Considerations,
116
4.4.2
Probing Exchange Patterns with HDX MS at the Local Level,
116
References,
119
viii CONTENTS
5
Mass Spectrometry Based Approaches to Study Biomolecular Dynamics:
Equilibrium Intermediates
127
5.1
Direct Methods of Monitoring Equilibrium Intermediates: Protein Ion
Charge-State Distributions in ESI MS,
127
5.1.1
Protein Conformation as a Determinant of the Extent of Multiple
Charging in ESI MS,
127
5.1.2
Detection and Characterization of Large-Scale Conformational
Transitions by Monitoring Protein Ion Charge-State
Distributions in ESI MS,
128
5.1.3
Detection of Small-Scale Conformational Transitions by Monitoring
Protein Ion Charge-State Distributions,
130
5.1.4
Pitfalls and Limitations of Protein Ion Charge-State Distribution
Analysis,
133
5.2
Chemical Labeling and Trapping Equilibrium States in Unfolding
Experiments,
135
5.2.1
Characterization of the Solvent-Exposed Surfaces with Chemical
Labeling,
135
5.2.2
Exploiting Intrinsic Protein Reactivity: Disulfide Scrambling and Protein
Misfolding,
136
5.3
Structure and Dynamics of Intermediate Equilibrium States by Hydrogen
Exchange,
137
5.3.1
Protein Dynamics and Hydrogen Exchange,
137
5.3.2
Global Exchange Kinetics in the Presence of Non-Native States:
EX1, EX2, and EXX Exchange Regimes in a Simplified Two-State
Model System,
138
5.3.3
A More Realistic Two-State Model System: Effect of Local Fluctuations
on the Global Exchange Pattern Under EX2 Conditions,
141
5.3.4
Effects of Local Fluctuations on the Global Exchange Pattern Under EX1
and Mixed (EXX) Conditions,
143
5.3.5
Exchange in Multistate Protein Systems: Superposition of EX1 and EX2
Processes and Mixed-Exchange Kinetics,
144
5.4
Measurements of Local Patterns of Hydrogen Exchange in the Presence
of Non-Native States,
146
5.4.1
Bottom-Up Approaches to Probing the Local Structure of Intermediate
States,
146
5.4.2
Тор
-Down
Approaches to Probing the Local Structure of Intermediate
States,
150
5.4.3
Further Modifications and Improvements of HDX MS in
Conformationally Heterogeneous Systems,
153
References,
153
6
Kinetic Studies By Mass Spectrometry
160
6.1
Kinetics of Protein Folding,
160
6.1.1
Stopped-Flow Measurement of Kinetics,
160
6.1.2
Kinetic Measurements with Hydrogen Exchange,
162
6.2
Kinetics by Mass Spectrometry,
163
6.2.1
Pulse Labeling Mass Spectrometry,
163
6.2.2
Continuous-Flow Mass Spectrometry,
168
6.2.3
Stopped-Flow Mass Spectrometry,
169
6.2.4
Kinetics of Disulfide Formation During Folding,
171
6.2.5
Irreversible Covalent Labeling As a Probe of Protein Kinetics,
172
6.3
Kinetics of Protein Assembly,
174
CONTENTS ix
6.4
Kinetics of Enzyme Catalysis,
178
References,
181
7
Protein Interactions: A Closer Look at the Structure-Dynamics-Function
Triad
186
7.1
Direct Methods of Monitoring Protein Interactions with Their
Physiological Partners in Solution by ESI MS: From Small
Ligands to Other
Biopolymers, 186
7.2
Assessment of Binding Affinity with Direct ESI MS Approaches,
189
7.3
Indirect Characterization of Non-covalent Interactions Under Physiological and
Near-Physiological Conditions,
190
7.3.1
Assessment of Ligand Binding by Monitoring Dynamics of Native
Proteins with Hydrogen-Deuterium Exchange (HDX MS),
190
7.3.2
PLIMSTEX and Related Techniques: Binding Assessment by Monitoring
Conformational Changes with HDX MS in
Titration
Experiments,
192
7.3.3
Binding Revealed by Changes in Ligand Mobility,
194
7.4
Indirect Characterization of Noncovalent Interactions Under Partially
Denaturing Conditions,
194
7.4.1
Ligand-Induced Protein Stabilization Under Mildly Denaturing
Conditions: Effect of Ligand Binding on Charge-State Distributions of
Protein Ions,
195
7.4.2
SUPREX: Utilizing HDX Under Denaturing Conditions to Discern
Protein-Ligand Binding Parameters,
196
7.5
Understanding Protein Action: Mechanistic Insights from the Analysis of
Structure and Dynamics under Native Conditions,
198
7.5.1
Dynamics at the Catalytic Site and Beyond: Understanding Enzyme
Mechanism,
198
7.5.2
Allosteric Effects Probed by HDX MS,
201
7.6
Going Full Circle with MS: Native ESI MS Reveals Structural Changes
Predicted by HDX MS Measurements,
201
7.7
Understanding Protein Action: Mechanistic Insights from the Analysis of
Structure and Dynamics under Non-Native (Partially Denaturing)
Conditions,
203
References,
206
8
Other
Biopolymers
and Synthetic Polymers of Biological Interest
212
8.1
Nucleic Acids,
212
8.1.1
Characterization of the Covalent Structure of Nucleic Acids,
212
8.1.2 DNA
Higher Order Structure and Interactions with Physiological
Partners and Therapeutics,
215
8.1.3
Higher Order Structure and Dynamics of
RNA,
219
8.2
Oligosaccharides,
223
8.2.1
Covalent Structure of Oligosaccharides,
225
8.2.2
Higher Order Structure of Oligosaccharides and Interactions with their
Physiological Partners,
226
8.3
Synthetic Polymers and their Conjugates with Biomolecules,
226
8.3.1
Covalent Structure of Polymers and Polymer-Protein
Conjugates,
229
8.3.2
Higher Order Structure of Polymers and Polymer-Protein
Conjugates,
232
References,
233
X
CONTENTS
9
Mass Spectrometry on the Frontiers of Molecular Biophysics and Structural
Biology: Perspectives and Challenges
239
9.1
Mass Spectrometry and the Unique Challenges of Membrane Proteins,
239
9.1.1
Analysis of Membrane Proteins in Organic Solvents,
240
9.1.2
Analysis of Membrane Proteins Using Detergents,
241
9.1.3
Analysis of Membrane Proteins Utilizing Other Membrane Mimics,
244
9.1.4
Analysis of Membrane Proteins in Their Native Environment,
249
9.2
The Protein Aggregation Problem,
249
9.2.1
The Importance and Challenges of Protein Aggregation,
249
9.2.2
Direct Monitoring of Protein Aggregation and Amyloidosis with Mass
Spectrometry,
250
9.2.3
Structure of Protein Aggregates, Amyloids, and
Pre-
Amyloid States,
253
9.3
The Many Faces of Complexity: Mass Spectrometry and the Problem of
Structural Heterogeneity,
258
9.4
How Large Is Too Large ? Mass Spectrometry in Characterization of Ordered
Macromolecular Assemblies,
263
9.4.1
Proteasomes,
264
9.4.2
Ribosomes,
264
9.4.3
Molecular Chaperones,
267
9.5
Complexity of Macromolecular Interactions In Vivo and Emerging
Mass Spectrometry Based Methods to Probe Structure and Dynamics
of Biomolecules in Their Native Environment,
269
9.5.1
Macromolecular Crowding Effect,
269
9.5.2
Macromolecular Properties In Vitro and In Vivo,
270
9.5.3
Live Macromolecules: Equilibrium Systems or Dissipative
Structures?,
271
References,
272
Appendix: Physics of Electrospray
279
Index
285
THE DEFINITIVE GUIDE TO MASS SPECTROMETRY
TECHNIQUES IN BIOLOGY AND BIOPHYSICS
The use of mass spectrometry (MS) to study the architecture and dynamics of proteins is increasingly com¬
mon within the biophysical community, and Mass Spectrometry in Structural Biology and Biophysics: Architecture,
Dynamics, and Interaction of Biomolecules, Second Edition provides readers with detailed, systematic coverage
of the current state of the art.
Offering an unrivalled overview of modern MS-based armamentarium that can be used to solve the most
challenging problems in biophysics, structural biology, and biopharmaceuticals, the book is a practical guide
to understanding the role of MS techniques in biophysical research. Designed to meet the needs of both
academic and industrial researchers, it makes mass spectrometry accessible to professionals in a range of
fields, including biopharmaceuticals.
This new edition has been significantly expanded and updated to include the most recent experimental
methodologies and techniques, MS applications in biophysics and structural biology, methods for studying
higher order structure and dynamics of proteins, an examination of other biopolymers and synthetic polymers,
such as nucleic acids and oligosaccharides, and much more.
Featuring high-quality illustrations that illuminate the concepts described in the text, as well as extensive
references that enable the reader to pursue further study, Mass Spectrometry in Structural Biology and
Biophysics is an indispensable resource for researchers and graduate students working in biophysics,
structural biology, protein chemistry, and related fields.
PHD is a Professor in the Department of Chemistry at the University of
Massachusetts Amherst.
is a Senior Lecturer in the Department of Biochemistry and Molecular Biology,
and the Director of the Mass Spectrometry Center at the University of Massachusetts Amherst.
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|
| any_adam_object | 1 |
| author | Kaltashov, Igor A. Eyles, Stephen J. |
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| dewey-sort | 3610.28 14 |
| dewey-tens | 610 - Medicine and health |
| discipline | Chemie / Pharmazie Physik Biologie Chemie Medizin |
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| id | DE-604.BV040302904 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:21:10Z |
| institution | BVB |
| isbn | 9780470937792 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-025157893 |
| oclc_num | 796759315 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-703 DE-19 DE-BY-UBM DE-11 |
| owner_facet | DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-703 DE-19 DE-BY-UBM DE-11 |
| physical | XIV, 289 S. Ill., graph. Darst. |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley series on mass spectrometry |
| spelling | Kaltashov, Igor A. Verfasser aut Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules Igor A. Kaltashov ; Stephen J. Eyles 2. ed. Hoboken, New Jersey Wiley 2012 XIV, 289 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley series on mass spectrometry Biomolekül (DE-588)4135124-1 gnd rswk-swf Biophysik (DE-588)4006891-2 gnd rswk-swf Massenspektrometrie (DE-588)4037882-2 gnd rswk-swf Biophysik (DE-588)4006891-2 s Massenspektrometrie (DE-588)4037882-2 s DE-604 Biomolekül (DE-588)4135124-1 s b DE-604 Eyles, Stephen J. Verfasser aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025157893&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025157893&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Kaltashov, Igor A. Eyles, Stephen J. Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules Biomolekül (DE-588)4135124-1 gnd Biophysik (DE-588)4006891-2 gnd Massenspektrometrie (DE-588)4037882-2 gnd |
| subject_GND | (DE-588)4135124-1 (DE-588)4006891-2 (DE-588)4037882-2 |
| title | Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules |
| title_auth | Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules |
| title_exact_search | Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules |
| title_full | Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules Igor A. Kaltashov ; Stephen J. Eyles |
| title_fullStr | Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules Igor A. Kaltashov ; Stephen J. Eyles |
| title_full_unstemmed | Mass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules Igor A. Kaltashov ; Stephen J. Eyles |
| title_short | Mass spectrometry in structural biology and biophysics |
| title_sort | mass spectrometry in structural biology and biophysics architecture dynamics and interaction of biomolecules |
| title_sub | architecture, dynamics, and interaction of biomolecules |
| topic | Biomolekül (DE-588)4135124-1 gnd Biophysik (DE-588)4006891-2 gnd Massenspektrometrie (DE-588)4037882-2 gnd |
| topic_facet | Biomolekül Biophysik Massenspektrometrie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025157893&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025157893&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
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