Structure and Physics of Viruses : An Integrated Guide / edited by Mauricio G. Mateu.

Format:

Book

Author/Creator:

Mateu, Mauricio G.

Contributor:

Mateu, Francese.

Series:

Subcellular Biochemistry, 2542-8810 ; 105

Language:

English

Subjects (All):

Biophysics.

Biomolecules.

Virology.

Proteins.

Molecular biology.

Physical biochemistry.

Macromolecules.

Molecular Biophysics.

Protein Biochemistry.

Molecular Biology.

Structural Biology.

Local Subjects:

Molecular Biophysics.

Virology.

Protein Biochemistry.

Molecular Biology.

Structural Biology.

Physical Description:

1 online resource (911 pages)

Edition:

2nd ed. 2024.

Place of Publication:

Cham : Springer Nature Switzerland : Imprint: Springer, 2024.

Summary:

In the ten years since the publication of the first edition of this book, structural virology has undergone many important conceptual and technical advances. A technical revolution has allowed the determination of the molecular structures of many viruses at very high resolution by cryogenic electron microscopy. The dynamic nature of viral particles is being revealed and analysed by an increasing number of biophysical techniques, such as NMR spectroscopy and mass spectrometry as well as by all-atom molecular dynamics simulations. New advances in correlative microscopy are being applied to probe the structure and dynamics of viruses inside infected cells. The fight against the COVID-19 pandemia has also contributed to stimulate basic and applied research studies on the relationships between the structure and function of viruses. Physical virology has come of age and offers approaches based on fundamental physics to study different aspects of the architecture, self-assembly, and material properties of viral particles. Atomic force microscopy and optical tweezers are probing the mechanical behavior of viral particles and unraveling their biological implications. High-speed atomic force microscopy is beginning to provide new detailed insights into virus assembly and dynamics. Powerful theoretical approaches and molecular dynamics simulations search for the physical underpinnings underlying viruses' structure and material properties. Structural virology and physical virology are merging with biochemical and biological approaches to provide a renewed and richer view of the relationships between the molecular structure, physical properties, and biological function of viruses. This interdisciplinary approach is also leading to important advances in the fight against viral diseases and to applications of virus-derived particles and virus components in biomedicine, biotechnology and nanotechnology. Structure and Physics of Viruses, 2nd edition is an interdisciplinary textbook that takes an integrated approach to the rapidly merging and expanding fields of structural and physical virology. This new edition has been updated to include many important technical developments and conceptual advances in these research areas over the past decade. The content of the book has been kept basic enough to be useful to students and advanced enough to be useful to senior scientists. This book is aimed primarily at master's students, Ph.D. students and postdoctoral researchers with undergraduate degrees in biology, chemistry, physics or related sciences who are interested in viruses or are just starting to work with viruses. It also aims to provide an up-to-date overview of many important concepts, techniques, studies, and applications in structural and physical virology for established researchers working with viruses, regardless of their physical, chemical, or biological background and field of specialization.

Contents:

Part I: The Viral Machine

Chapter 1: Introduction, The Structural Basis of Virus Function

Chapter 2: The Basic Architecture of Viruses

Part II: Determination of the Structure, Dynamics and Physical Properties of Viruses

Chapter 3: Conventional Electron Microscopy, Cryogenic Electron Microscopy and Cryogenic Electron Tomography of Viruses

Chapter 4: X-Ray Crystallography of Viruses

Chapter 5: Nuclear Magnetic Resonance Spectroscopy to study Virus Structure

Chapter 6: Fluorescence, Circular Dichroism and Mass Spectrometry as Tools to Study Virus Structure

Chapter 7: Integrative Approaches to Study Virus Structures

Chapter 8: 3D Cryo-Correlative Methods to Study Virus Structure and Dynamics within Cells

Chapter 9: Atomic Force Microscopy of Viruses

Chapter 10: Optical Tweezers to Study Viruses

Part III: Structural Foundations of Virus Properties and Functions

Chapter 11: Assembly of Structurally Simple Icosahedral Viruses

Chapter 12: Architecture and Assembly of Structurally Complex Viruses

Chapter 13: Nucleic Acid Packaging in Viruses

Chapter 14: Maturation of Viruses

Chapter 15: Virus-Receptor Interactions and Receptor-Mediated Virus Entry into Host Cells

Chapter 16: Entry of Enveloped Viruses into Host Cells: Membrane Fusion

Chapter 17: Bacteriophage Receptor Recognition and Nucleic Acid Transfer

Chapter 18: Mechanical Properties of Viruses

Chapter 19: Theoretical Studies on Assembly, Physical Stability and Dynamics of Viruses

Part IV: Applied Structural and Physical Virology

Chapter 20: Antiviral Agents: Structural Basis of Action and Rational Design

Chapter 21: Design of Novel Vaccines Based on Virus-Like Particles

Chapter 22: Engineering and Bio/Nanotechnological Applications of Virus Particles.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

9783031651878

3031651871

OCLC:

1490379947