Metabolic Engineering
Metabolic Engineering
Concepts and Applications
Nielsen, Jens; Lee, Sang Yup; Stephanopoulos, Gregory
Wiley-VCH Verlag GmbH
06/2021
976
Dura
Inglês
9783527346622
15 a 20 dias
2086
Preface xvii
Part I Concepts 1
1 Metabolic Engineering Perspectives 3
Nian Liu and Gregory Stephanopoulos
1.1 History and Overview of Metabolic Engineering 3
1.2 Understanding Cellular Metabolism and Physiology 5
1.3 General Approaches to Metabolic Engineering 9
1.4 Host Organism Selection 15
1.5 Substrate Considerations 15
1.6 Metabolic Engineering and Synthetic Biology 16
1.7 The Future of Metabolic Engineering 17
2 Genome-ScaleModels: Two Decades of Progress and a 2020 Vision 23
Bernhard O. Palsson
2.1 Introduction 23
2.2 Flux Balance Analysis 23
2.3 Network Reconstruction 30
2.4 Brief History of the GEM for E. coli 36
2.5 From Metabolism to the Proteome 42
2.6 Current Developments 50
2.7 Broader Perspectives 56
2.8 What Does the Future Look Like for GEMs? 59
3 Quantitative Metabolic Flux Analysis Based on Isotope Labeling 73
WolfgangWiechert and Katharina Noeh
3.1 Introduction 73
3.2 A Toy Example Illustrates the Basic Principles 77
3.3 Lessons Learned from the Example 97
3.4 How to Configure an Isotope Labeling Experiment 100
3.5 Putting Theory into Practice 108
3.6 Future Challenges of 13C-MFA 124
4 Proteome Constraints in Genome-Scale Models 137
Yu Chen, Jens Nielsen, and Eduard J. Kerkhoven
4.1 Introduction 137
4.2 Cellular Constraints 137
4.3 Formulation of Proteome Constraints 139
4.4 Perspectives 150
5 Kinetic Models of Metabolism 153
Hongzhong Lu, Yu Chen, Jens Nielsen, and Eduard J. Kerkhoven
5.1 Introduction 153
5.2 Definition of Enzyme Kinetics 153
5.3 Factors Affecting Intracellular Enzyme Kinetics 155
5.4 KineticModel: Definition and Scope 156
5.5 Main Mathematical Expressions in Description of Reaction Rates 158
5.6 Approximative Rate Expressions 159
5.7 Approaches to Assign Parameters in the Rate Expressions 160
5.8 Applications 166
5.9 Perspectives 167
6 Metabolic Control Analysis 171
David A. Fell
6.1 The Metabolic Engineering Context of Metabolic Control Analysis 171
6.2 MCA Theory 174
6.3 Implications of MCA for Metabolic Engineering Strategies 190
6.4 Conclusion 205
7 Thermodynamics of Metabolic Pathways 213
Daniel RobertWeilandt, MariaMasid, and Vassily Hatzimanikatis
7.1 Bioenergetics in Life and in Metabolic Engineering 213
7.2 Thermodynamics-Based Flux AnalysisWorkflow 215
7.3 Thermodynamics-Based Flux Analysis Applications 228
7.4 Conclusion and Future Perspectives 231
8 PathwayDesign 237
Jasmin Hafner, Homa Mohammadi-Peyhani, and Vassily Hatzimanikatis
8.1 De Novo Design of Metabolic Pathways 237
8.2 Pathway DesignWorkflow 238
8.3 Applications 247
8.4 Conclusions and Future Perspectives 253
9 Metabolomics 259
Tomek Diederen, Alexis Delabriere, Alaa Othman,Michelle E. Reid, and Nicola Zamboni
9.1 Introduction 259
9.2 Fundamentals 260
9.3 Analytical Techniques 262
9.4 Data Analysis 272
9.5 Emerging Trends for Cellular Analyses 279
9.6 Applications of Metabolomics in Metabolic Engineering 281
9.7 Final Remarks 285
10 Genome Editing of Eukarya 301
Jonathan A. Arnesen, Jakob Blaesbjerg Hoof, Helene Faustrup Kildegaard, and Irina Borodina
10.1 Basic Principles of Genome Editing 301
10.2 Endonucleases 304
10.3 Genome Editing of Industrially Relevant Eukaryotes 310
10.4 Outlook 320
Volume 13b
Preface xvii
Part II Applications 339
11 Metabolic Engineering of Escherichia coli 341
ZiWei Luo, Jung Ho Ahn, Tong Un Chae, So Young Choi, Seon Young Park, Yoojin Choi, Jiyong Kim, Cindy Pricilia Surya Prabowo, Jong An Lee, Dongsoo Yang, Taehee Han, Hanwen Xu, and Sang Yup Lee
12 Metabolic Engineering of Corynebacterium glutamicum 403
Judith Becker and Christoph Wittmann
13 Metabolic Engineering of Bacillus - New Tools, Strains, and Concepts 469
Mathis Appelbaum and Thomas Schweder
14 Metabolic Engineering of Pseudomonas 519
Pablo I. Nikel and Victor de Lorenzo
15 Metabolic Engineering of Lactic Acid Bacteria 551
Robin Dorau, Jianming Liu, Christian Solem, and Peter Ruhdal Jensen
16 Metabolic Engineering and the Synthetic Biology Toolbox for Clostridium 611
Rochelle C. Joseph, Susan Q. Kelley, NancyM. Kim, and Nicholas R. Sandoval
17 Metabolic Engineering of Filamentous Actinomycetes 653
Charlotte Beck, Kai Blin, Tetiana Gren, Xinglin Jiang, Omkar Satyavan Mohite, Emilia Palazzotto, Yaojun Tong, Pep Charusanti, and TilmannWeber
18 Metabolic Engineering of Yeast 689
Rui Pereira, Olena P. Ishchuk, Xiaowei Li, Quanli Liu, Yi Liu,Maximilian Otto, Yun Chen, Verena Siewers, and Jens Nielsen
19 Harness Yarrowia lipolytica to Make Small Molecule Products 735
Kang Zhou and Gregory Stephanopoulos
20 Metabolic Engineering of Filamentous Fungi 765
Vera Meyer
21 Metabolic Engineering of Photosynthetic Cells - in Collaboration with Nature 803
Mette Sorensen and Birger Lindberg Moller
22 Metabolic Engineering for Large-Scale Environmental Bioremediation 859
Pablo I. Nikel and Victor de Lorenzo
Index 891
Preface xvii
Part I Concepts 1
1 Metabolic Engineering Perspectives 3
Nian Liu and Gregory Stephanopoulos
1.1 History and Overview of Metabolic Engineering 3
1.2 Understanding Cellular Metabolism and Physiology 5
1.3 General Approaches to Metabolic Engineering 9
1.4 Host Organism Selection 15
1.5 Substrate Considerations 15
1.6 Metabolic Engineering and Synthetic Biology 16
1.7 The Future of Metabolic Engineering 17
2 Genome-ScaleModels: Two Decades of Progress and a 2020 Vision 23
Bernhard O. Palsson
2.1 Introduction 23
2.2 Flux Balance Analysis 23
2.3 Network Reconstruction 30
2.4 Brief History of the GEM for E. coli 36
2.5 From Metabolism to the Proteome 42
2.6 Current Developments 50
2.7 Broader Perspectives 56
2.8 What Does the Future Look Like for GEMs? 59
3 Quantitative Metabolic Flux Analysis Based on Isotope Labeling 73
WolfgangWiechert and Katharina Noeh
3.1 Introduction 73
3.2 A Toy Example Illustrates the Basic Principles 77
3.3 Lessons Learned from the Example 97
3.4 How to Configure an Isotope Labeling Experiment 100
3.5 Putting Theory into Practice 108
3.6 Future Challenges of 13C-MFA 124
4 Proteome Constraints in Genome-Scale Models 137
Yu Chen, Jens Nielsen, and Eduard J. Kerkhoven
4.1 Introduction 137
4.2 Cellular Constraints 137
4.3 Formulation of Proteome Constraints 139
4.4 Perspectives 150
5 Kinetic Models of Metabolism 153
Hongzhong Lu, Yu Chen, Jens Nielsen, and Eduard J. Kerkhoven
5.1 Introduction 153
5.2 Definition of Enzyme Kinetics 153
5.3 Factors Affecting Intracellular Enzyme Kinetics 155
5.4 KineticModel: Definition and Scope 156
5.5 Main Mathematical Expressions in Description of Reaction Rates 158
5.6 Approximative Rate Expressions 159
5.7 Approaches to Assign Parameters in the Rate Expressions 160
5.8 Applications 166
5.9 Perspectives 167
6 Metabolic Control Analysis 171
David A. Fell
6.1 The Metabolic Engineering Context of Metabolic Control Analysis 171
6.2 MCA Theory 174
6.3 Implications of MCA for Metabolic Engineering Strategies 190
6.4 Conclusion 205
7 Thermodynamics of Metabolic Pathways 213
Daniel RobertWeilandt, MariaMasid, and Vassily Hatzimanikatis
7.1 Bioenergetics in Life and in Metabolic Engineering 213
7.2 Thermodynamics-Based Flux AnalysisWorkflow 215
7.3 Thermodynamics-Based Flux Analysis Applications 228
7.4 Conclusion and Future Perspectives 231
8 PathwayDesign 237
Jasmin Hafner, Homa Mohammadi-Peyhani, and Vassily Hatzimanikatis
8.1 De Novo Design of Metabolic Pathways 237
8.2 Pathway DesignWorkflow 238
8.3 Applications 247
8.4 Conclusions and Future Perspectives 253
9 Metabolomics 259
Tomek Diederen, Alexis Delabriere, Alaa Othman,Michelle E. Reid, and Nicola Zamboni
9.1 Introduction 259
9.2 Fundamentals 260
9.3 Analytical Techniques 262
9.4 Data Analysis 272
9.5 Emerging Trends for Cellular Analyses 279
9.6 Applications of Metabolomics in Metabolic Engineering 281
9.7 Final Remarks 285
10 Genome Editing of Eukarya 301
Jonathan A. Arnesen, Jakob Blaesbjerg Hoof, Helene Faustrup Kildegaard, and Irina Borodina
10.1 Basic Principles of Genome Editing 301
10.2 Endonucleases 304
10.3 Genome Editing of Industrially Relevant Eukaryotes 310
10.4 Outlook 320
Volume 13b
Preface xvii
Part II Applications 339
11 Metabolic Engineering of Escherichia coli 341
ZiWei Luo, Jung Ho Ahn, Tong Un Chae, So Young Choi, Seon Young Park, Yoojin Choi, Jiyong Kim, Cindy Pricilia Surya Prabowo, Jong An Lee, Dongsoo Yang, Taehee Han, Hanwen Xu, and Sang Yup Lee
12 Metabolic Engineering of Corynebacterium glutamicum 403
Judith Becker and Christoph Wittmann
13 Metabolic Engineering of Bacillus - New Tools, Strains, and Concepts 469
Mathis Appelbaum and Thomas Schweder
14 Metabolic Engineering of Pseudomonas 519
Pablo I. Nikel and Victor de Lorenzo
15 Metabolic Engineering of Lactic Acid Bacteria 551
Robin Dorau, Jianming Liu, Christian Solem, and Peter Ruhdal Jensen
16 Metabolic Engineering and the Synthetic Biology Toolbox for Clostridium 611
Rochelle C. Joseph, Susan Q. Kelley, NancyM. Kim, and Nicholas R. Sandoval
17 Metabolic Engineering of Filamentous Actinomycetes 653
Charlotte Beck, Kai Blin, Tetiana Gren, Xinglin Jiang, Omkar Satyavan Mohite, Emilia Palazzotto, Yaojun Tong, Pep Charusanti, and TilmannWeber
18 Metabolic Engineering of Yeast 689
Rui Pereira, Olena P. Ishchuk, Xiaowei Li, Quanli Liu, Yi Liu,Maximilian Otto, Yun Chen, Verena Siewers, and Jens Nielsen
19 Harness Yarrowia lipolytica to Make Small Molecule Products 735
Kang Zhou and Gregory Stephanopoulos
20 Metabolic Engineering of Filamentous Fungi 765
Vera Meyer
21 Metabolic Engineering of Photosynthetic Cells - in Collaboration with Nature 803
Mette Sorensen and Birger Lindberg Moller
22 Metabolic Engineering for Large-Scale Environmental Bioremediation 859
Pablo I. Nikel and Victor de Lorenzo
Index 891