Description

Book Synopsis
Essentials of Chemical Biology

Discover a detailed knowledge of concepts and techniques that shape this unique multi-discipline

Chemical Biology is devoted to understanding the way that Biology works at the molecular level. This is a problem-driven multi-discipline, incorporating as it does Organic, Physical, Inorganic, and Analytical Chemistry alongside newer emerging molecular disciplines. In recent years, Chemical Biology has emerged as a vibrant and growing multi-discipline distinct from Biochemistry that is focused on the quantitative analyses of the structures and functions of biological macromolecules and macromolecular lipid assemblies, at first in isolation, then in vitro and in vivo.

The second edition of the Essentials of Chemical Biology begins with a thorough introduction to the structure of biological macromolecules and macromolecular lipid assemblies, before moving on to the principles of chemical and biological synthesis, fo

Table of Contents

Preface x

Glossary of Physical and Chemical Terms xii

About the Companion Website xviii

1 The Structures of Biological Macromolecules and Lipid Assemblies 1

1.1 General introduction 1

1.2 Protein structures 3

1.3 Carbohydrate structures 20

1.4 Nucleic acid structures 31

1.5 Macromolecular lipid assemblies 53

1.6 Structural forces in biological macromolecules 60

2 Chemical and Biological Synthesis 68

2.1 Introduction to synthesis in chemical biology 68

2.2 Chemical synthesis of peptides and proteins 68

2.3 Chemical synthesis of nucleic acids 75

2.4 Chemical synthesis of oligosaccharides 84

2.5 Chemical synthesis of lipids 87

2.6 Biological synthesis of biological macromolecules 89

2.7 Directed biological synthesis of proteins 97

2.8 Biological syntheses of nucleic acids, oligosaccharides and lipids 102

3 Molecular Biology as a Toolset for Chemical Biology 104

3.1 Key concepts in molecular biology 104

3.2 Tools and techniques in molecular biology 108

3.3 Cloning and identification of genes in DNA 117

3.4 Integrating cloning and expression 123

3.5 Site-directed mutagenesis 125

4 Electronic and Vibrational Spectroscopy 128

4.1 Electronic and vibrational spectroscopy in chemical biology 128

4.2 Ultraviolet-visible spectroscopy 128

4.3 Circular dichroism spectroscopy 134

4.4 Vibrational spectroscopy 138

4.5 Fluorescence spectroscopy 141

4.6 Probing metal centres by absorption spectroscopy 163

5 Magnetic Resonance 164

5.1 Magnetic resonance in chemical biology 164

5.2 Key principles of NMR 164

5.3 Two-dimensional NMR 176

5.4 Multidimensional NMR 180

5.5 Biological macromolecule structural information 183

5.6 Electron paramagnetic resonance spectroscopy: key principles 193

6 Diffraction and Microscopy 199

6.1 Diffraction and microscopy in chemical biology 199

6.2 Key principles of X-ray diffraction 199

6.3 Structural information from X-ray diffraction 206

6.4 Neutron diffraction 216

6.5 Key principles of electron microscopy 217

6.6 Key principles of scanning probe microscopy 224

7 Molecular Recognition and Binding 232

7.1 Molecular recognition and binding in chemical biology 232

7.2 Theoretical models of binding 245

7.3 Analysing molecular recognition and binding 251

7.4 Biological molecular recognition studies 263

8 Kinetics and Catalysis 278

8.1 Catalysis in chemical biology 278

8.2 Steady state kinetic schemes 300

8.3 Pre-steady-state kinetics 323

8.4 Theories of biocatalysis 328

8.5 Electron transfer 346

9 Mass Spectrometry and Proteomics 348

9.1 Mass spectrometry in chemical biology 348

9.2 Key principles in mass spectrometry 349

9.3 Structural analysis of biological macromolecules and lipids by mass spectrometry 359

9.4 The challenge of proteomics 368

9.5 Genomics: assigning function to genes and proteins 375

10 Molecular Selection and Evolution 378

10.1 Chemical biology and the origins of life 378

10.2 Molecular breeding: natural selection acting on self-organisation 383

10.3 Directed evolution of protein function 385

10.4 Directed evolution of nucleic acids 390

10.5 Catalytic antibodies 398

11 Chemical Biology of Cells 401

11.1 General introduction 401

11.2 Array technologies, microfluidics and miniaturisation 401

11.3 Chemical genetics and potential new therapeutics 403

11.4 Chemical cellular dynamics 412

11.5 Chemical biology and in vivo cell connectomics 415

12 Chemical Biology of Stem Cells to Tissue Engineering 421

12.1 General introduction 421

12.2 Chemical stem cell biology 421

12.3 The road to cell therapies 437

12.4 Tissue engineering 439

13 Chemical Biology, Nanomedicine and Advanced Therapeutics 441

13.1 General introduction 441

13.2 The chemical biology approach to gene therapy 441

13.3 Biophysical characterisation of LNPs 467

13.4 Applications of LNPs with small molecule drugs 471

14 Chemical Biology and Advanced Diagnostics Leading to Precision Therapeutic Approaches 472

14.1 General introduction 472

14.2 MRI basic principles leading to diagnostic applications 472

14.3 PET/CT and SPECT fundamentals 477

14.4 Understanding how to control nanoparticle biodistribution behaviour in vivo 478

14.5 Theranostics 479

15 DNA Nanotechnology 489

15.1 Background 489

15.2 Three-dimensional DNA nanostructures 491

15.3 Dynamic DNA nanostructures 496

15.4 Biomedical applications of DNA nanostructures 500

Bibliography 502

Index 519

Essentials of Chemical Biology

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    A Paperback / softback by Andrew D. Miller, Julian A. Tanner

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      Publisher: John Wiley & Sons Inc
      Publication Date: 02/02/2024
      ISBN13: 9781119437970, 978-1119437970
      ISBN10: 1119437970

      Description

      Book Synopsis
      Essentials of Chemical Biology

      Discover a detailed knowledge of concepts and techniques that shape this unique multi-discipline

      Chemical Biology is devoted to understanding the way that Biology works at the molecular level. This is a problem-driven multi-discipline, incorporating as it does Organic, Physical, Inorganic, and Analytical Chemistry alongside newer emerging molecular disciplines. In recent years, Chemical Biology has emerged as a vibrant and growing multi-discipline distinct from Biochemistry that is focused on the quantitative analyses of the structures and functions of biological macromolecules and macromolecular lipid assemblies, at first in isolation, then in vitro and in vivo.

      The second edition of the Essentials of Chemical Biology begins with a thorough introduction to the structure of biological macromolecules and macromolecular lipid assemblies, before moving on to the principles of chemical and biological synthesis, fo

      Table of Contents

      Preface x

      Glossary of Physical and Chemical Terms xii

      About the Companion Website xviii

      1 The Structures of Biological Macromolecules and Lipid Assemblies 1

      1.1 General introduction 1

      1.2 Protein structures 3

      1.3 Carbohydrate structures 20

      1.4 Nucleic acid structures 31

      1.5 Macromolecular lipid assemblies 53

      1.6 Structural forces in biological macromolecules 60

      2 Chemical and Biological Synthesis 68

      2.1 Introduction to synthesis in chemical biology 68

      2.2 Chemical synthesis of peptides and proteins 68

      2.3 Chemical synthesis of nucleic acids 75

      2.4 Chemical synthesis of oligosaccharides 84

      2.5 Chemical synthesis of lipids 87

      2.6 Biological synthesis of biological macromolecules 89

      2.7 Directed biological synthesis of proteins 97

      2.8 Biological syntheses of nucleic acids, oligosaccharides and lipids 102

      3 Molecular Biology as a Toolset for Chemical Biology 104

      3.1 Key concepts in molecular biology 104

      3.2 Tools and techniques in molecular biology 108

      3.3 Cloning and identification of genes in DNA 117

      3.4 Integrating cloning and expression 123

      3.5 Site-directed mutagenesis 125

      4 Electronic and Vibrational Spectroscopy 128

      4.1 Electronic and vibrational spectroscopy in chemical biology 128

      4.2 Ultraviolet-visible spectroscopy 128

      4.3 Circular dichroism spectroscopy 134

      4.4 Vibrational spectroscopy 138

      4.5 Fluorescence spectroscopy 141

      4.6 Probing metal centres by absorption spectroscopy 163

      5 Magnetic Resonance 164

      5.1 Magnetic resonance in chemical biology 164

      5.2 Key principles of NMR 164

      5.3 Two-dimensional NMR 176

      5.4 Multidimensional NMR 180

      5.5 Biological macromolecule structural information 183

      5.6 Electron paramagnetic resonance spectroscopy: key principles 193

      6 Diffraction and Microscopy 199

      6.1 Diffraction and microscopy in chemical biology 199

      6.2 Key principles of X-ray diffraction 199

      6.3 Structural information from X-ray diffraction 206

      6.4 Neutron diffraction 216

      6.5 Key principles of electron microscopy 217

      6.6 Key principles of scanning probe microscopy 224

      7 Molecular Recognition and Binding 232

      7.1 Molecular recognition and binding in chemical biology 232

      7.2 Theoretical models of binding 245

      7.3 Analysing molecular recognition and binding 251

      7.4 Biological molecular recognition studies 263

      8 Kinetics and Catalysis 278

      8.1 Catalysis in chemical biology 278

      8.2 Steady state kinetic schemes 300

      8.3 Pre-steady-state kinetics 323

      8.4 Theories of biocatalysis 328

      8.5 Electron transfer 346

      9 Mass Spectrometry and Proteomics 348

      9.1 Mass spectrometry in chemical biology 348

      9.2 Key principles in mass spectrometry 349

      9.3 Structural analysis of biological macromolecules and lipids by mass spectrometry 359

      9.4 The challenge of proteomics 368

      9.5 Genomics: assigning function to genes and proteins 375

      10 Molecular Selection and Evolution 378

      10.1 Chemical biology and the origins of life 378

      10.2 Molecular breeding: natural selection acting on self-organisation 383

      10.3 Directed evolution of protein function 385

      10.4 Directed evolution of nucleic acids 390

      10.5 Catalytic antibodies 398

      11 Chemical Biology of Cells 401

      11.1 General introduction 401

      11.2 Array technologies, microfluidics and miniaturisation 401

      11.3 Chemical genetics and potential new therapeutics 403

      11.4 Chemical cellular dynamics 412

      11.5 Chemical biology and in vivo cell connectomics 415

      12 Chemical Biology of Stem Cells to Tissue Engineering 421

      12.1 General introduction 421

      12.2 Chemical stem cell biology 421

      12.3 The road to cell therapies 437

      12.4 Tissue engineering 439

      13 Chemical Biology, Nanomedicine and Advanced Therapeutics 441

      13.1 General introduction 441

      13.2 The chemical biology approach to gene therapy 441

      13.3 Biophysical characterisation of LNPs 467

      13.4 Applications of LNPs with small molecule drugs 471

      14 Chemical Biology and Advanced Diagnostics Leading to Precision Therapeutic Approaches 472

      14.1 General introduction 472

      14.2 MRI basic principles leading to diagnostic applications 472

      14.3 PET/CT and SPECT fundamentals 477

      14.4 Understanding how to control nanoparticle biodistribution behaviour in vivo 478

      14.5 Theranostics 479

      15 DNA Nanotechnology 489

      15.1 Background 489

      15.2 Three-dimensional DNA nanostructures 491

      15.3 Dynamic DNA nanostructures 496

      15.4 Biomedical applications of DNA nanostructures 500

      Bibliography 502

      Index 519

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