Membrane Fusion

Membrane Fusion, 1st Edition

Membrane Fusion, 1st Edition,Leonid Chernomordik,Michael Kozlov,ISBN9780123858917

Current Topics in Membranes

Chernomordik   &   Kozlov   

Academic Press




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This volume of Current Topics in Membranes focuses on Membrane Fusion, beginning with fusion and fission of lipid bilayers, with reviews focused on hemifusion and dynamic remodeling of membranes catalyzed by dynamin. Other topics discussed include viral fusion, intracellular fusion, developmental cell fusion, and theoretical modeling.


Researchers in biochemistry, molecular and cellular biology.

Information about this author is currently not available.
Information about this author is currently not available.

Membrane Fusion, 1st Edition

The Pathway to Membrane Fusion through Hemifusion

I. Overview

II. Introduction

III. Criteria and Assays to Identify Hemifusion

IV. Experimental Evidence for Hemifusion

V. Modeling the Biophysical Mechanisms of Hemifusion on the Pathway to Fusion

Dynamic Remodeling of Membranes Catalyzed by Dynamin

I. Overview

II. Introduction

III. Characteristics of Dynamin

IV. Dynamin-Induced Membrane Remodeling

V. Evolution of Models for Dynamin-Catalyzed Membrane Fission

VI. Current Insights from Structural Studies

VII. Future Perspectives


Structure and Working of Viral Fusion Machinery

I. Overview

II. Introduction

III. Structures of Fusion Proteins

IV. Regulation of the Conformational Change

V. Working of the Fusion Machinery

VI. Concluding Remarks


Membrane Fusion Mediated by Human Immunodeficiency Virus Envelope Glycoprotein

I. Introduction

II. HIV Assembly and Structure

III. Structural Changes in HIV Env Leading to Membrane Fusion

IV. What Drives the Enlargement of Fusion Pores?

V. HIV Entry Pathways

VI. Concluding Remarks


The Reovirus Fusion-Associated Small Transmembrane (FAST) Proteins: Virus-Encoded Cellular Fusogens

I. Overview

II. Introduction

III. The Diversity of Fast Proteins

IV. The Fast Proteins are Necessary and Sufficient to Induce Membrane Fusion

V. The Fast Proteins and Prefusion Events

VI. The Fast Proteins and Membrane Merger

VII. The Fast Proteins and Postfusion Events

VIII. Model of the Fast Protein-Mediated Cell–Cell Fusion Reaction

IX. Summary and Future Directions


C2 Domains and Membrane Fusion

I. Overview

II. Membrane Fusion

III. The Molecular Machinery Mediating Calcium-Dependent Membrane Fusion

IV. Conclusion

Chasing the Trails of SNAREs and Lipids Along the Membrane Fusion Pathway

I. Overview

II. Introduction

III. Snare-Dependent Membrane Fusion

IV. Small Molecules as Interrogators for SNARE-Mediated Membrane Fusion

V. Single Molecule (or Particle) Fluorescence Techniques to Study SNARE-Mediated Membrane Fusion

Inferring Structures of Kinetic Intermediates in Ca2+-Triggered Exocytosis

I. Overview

II. Introduction

III. Hypothetical Intermediates

IV. Lipid Contact

V. Fluid Contact

VI. Hydrocarbon–Water Contact

VII. Membrane Bending

VIII. Role of Proteins

IX. Conclusion

Eukaryotic Cell–Cell Fusion Families

I. Overview

II. Introduction

III. Choosing a Model System: C. Elegans as an Organism to Study Cell–Cell Fusion

IV. Syncytins: an Expanding Metazoan Fusion Family

V. Regulation of Cell–Cell Fusion in Nematodes and Mammals

VI. Concluding Remarks

Invasive Podosomes and Myoblast Fusion

I. Overview

II. Introduction

III. Myoblast Fusion in Vertebrates

IV. Drosophila as A Model System to Study Myoblast Fusion

V. Myoblast Fusion in Drosophila

VI. Relevance to Vertebrate Myoblast Fusion

VII. Concluding Remarks


Lipid Acrobatics in the Membrane Fusion Arena

I. Overview

II. Introduction

III. Historical Background

IV. Fusion Pathways at the Molecular Level

V. Energy Landscape Along the Fusion Pathway

VI. Fission Pathways in Molecular Detail

VII. Peptide Modulated Fusion

VII. Outlook


An Alternate Path for Fusion and its Exploration by Field-Theoretic Means

I. Overview

II. Introduction

III. A Different Pathway to Fusion

IV. Results from A Field-Theoretic Description

V. Outlook

VI. Conclusion


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