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This volume provides a wide range of protocols used in studying the nuclear envelope, with special attention to the experimental adjustments that may be required to successfully investigate this complex organelle in cells from various organisms. The Nuclear Envelope: Methods and Protocols is divided into five sections: Part I - Nuclear Envelope Isolation; Part II - Nuclear Envelope Protein Interactions, Localization, and Dynamics; Part III - Nuclear Envelope Interactions with the Cytoskeleton; Part IV - Nuclear Envelope-Chromatin Interactions; and Part V - Nucleo-Cytoplasmic Transport. Many of the modifications discussed in this book have only been circulated within laboratories that have conducted research in this field for many years. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting edge and thorough, The Nuclear Envelope: Methods and Protocols is a timely resource for researchers who have joined this dynamic and rapidly growing field.
This volume provides an exhaustive review of the most current knowledge of the composition, architecture and dynamics of the nuclear envelope. In contrast to other comprehensive works on cellular membranes in general, this book is the first to specifically address the nuclear envelope. Experts in the field relate the different domains of the nuclear envelope, their biogenesis, their composition, their mode of targeting to chromosomes and how they dissociate from chromosomes upon cell division. A wealth of information from several experimental systems is provided, such as dividing somatic cells, embryos and nuclear assembly assays in cell-free extracts, in a wide range of vertebrate and invertebrate organisms ranging from humans to yeast. The book also contains up-to-date reviews on the relationship between mutations in proteins of the nuclear envelope and Emery-Dreifuss muscular dystrophy. The breadth of topics covered in what may seem to be a field as narrow as the nuclear envelope makes this volume a valuable reference.
This volume provides a wide range of protocols used in studying the nuclear envelope, with special attention to the experimental adjustments that may be required to successfully investigate this complex organelle in cells from various organisms. The Nuclear Envelope: Methods and Protocols is divided into five sections: Part I - Nuclear Envelope Isolation; Part II - Nuclear Envelope Protein Interactions, Localization, and Dynamics; Part III - Nuclear Envelope Interactions with the Cytoskeleton; Part IV - Nuclear Envelope-Chromatin Interactions; and Part V - Nucleo-Cytoplasmic Transport. Many of the modifications discussed in this book have only been circulated within laboratories that have conducted research in this field for many years. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting edge and thorough, The Nuclear Envelope: Methods and Protocols is a timely resource for researchers who have joined this dynamic and rapidly growing field.
This volume provides an exhaustive review of the most current knowledge of the composition, architecture and dynamics of the nuclear envelope. In contrast to other comprehensive works on cellular membranes in general, this book is the first to specifically address the nuclear envelope. Experts in the field relate the different domains of the nuclear envelope, their biogenesis, their composition, their mode of targeting to chromosomes and how they dissociate from chromosomes upon cell division. A wealth of information from several experimental systems is provided, such as dividing somatic cells, embryos and nuclear assembly assays in cell-free extracts, in a wide range of vertebrate and invertebrate organisms ranging from humans to yeast. The book also contains up-to-date reviews on the relationship between mutations in proteins of the nuclear envelope and Emery-Dreifuss muscular dystrophy. The breadth of topics covered in what may seem to be a field as narrow as the nuclear envelope makes this volume a valuable reference.
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