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Author: Pierre Bensidoun
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
The export of mRNAs from the nucleus to the cytoplasm is one of many steps along the gene expression pathway and is fundamental for mRNAs to meet with ribosomes for translation in the cytoplasm. Exchanges between nucleus and cytoplasm occur through the nuclear pore complex (NPC), which is a large multi-protein complex embedded in the nuclear membrane and assembled by 30 different proteins the nucleoporins. The nucleoplasmic side of the pore is believed to orchestrate many fundamental nuclear processes. Indeed, a growing body of evidence suggests that the nuclear pore is involved in a broad range of activities including modulation of DNA topology, DNA repair, epigenetic regulation of gene expression, and selective access to exporting molecules. The structural component required for orchestrating those nucleoplasmic functions is the basket, a ∼60- to 80-nm-long structure protruding into the nucleoplasm. The consensus view depicts the basket as a structure assembled by filamentous proteins, TPR (Translocated Promoter Region protein) in humans and by its two paralogues Mlp1 and Mlp2 (myosin-like proteins) in yeast, converging into a distal ring. In the first part of this thesis, we characterized the motion of specific mRNAs at the vicinity of the nuclear periphery. We observed that transcripts scan along the nuclear envelope, likely to find a nuclear pore to be exported. We also showed the scanning behavior was affected upon Mlp1 deletion or truncation as well as upon mutation of the nuclear poly(A) binding protein Nab2. These observations indicated that Mlp1 and hence baskets, as well as specific RNA binding proteins, facilitate the interaction of mRNA with the nuclear periphery. While the canonical structure of the NPC is well established, our understanding of the conditions and factors contributing to the assembly of a basket, as well as the stoichiometry of its components, remains incomplete. Although basket proteins have been implicated in the regulation of gene expression through gene anchoring to the nuclear periphery and in mRNA scanning before export, how this is mediated by Mlp1/2 is poorly understood. Moreover, the dynamics of basket proteins in yeast seem to obey different rules than those of other nucleoporins as their turnover at the pore is faster than any other NPC components. Furthermore, it has been observed that during heat shock Mlp1 and Mlp2 dissociate from nuclear pores and form intra-nuclear granules, sequestering mRNAs and RNA export factors. Yet the mechanism for the formation of these granules or their role during heat shock is poorly understood. In yeast, the nuclear baskets are not associated with all NPCs, as no baskets assemble on the pores adjacent to the nucleolus. Yet, how cells establish these basket-less pores and whether they represent specialized nuclear pores with different functions from basket-containing pores is still unknown. To understand the dynamics of basket assembly and the biological relevance of establishing distinct sets of pores, we dissected the biological processes leading to the formation of baskets. In addition, to highlight potential functional differences between the two types of pores, we identified the interactors of nuclear basket-containing and nucleolar basket-less pores. We showed that assembling a basket is not a default mode for a pore in the nucleoplasm and that active mRNA processing is required to maintain baskets integrity. While mRNA can be found associated with both types of pores, our results suggest that export kinetics may be different on basket-containing and basket-less pores. The eukaryotes organize their nucleus in discrete functional regions and the nuclear envelope has been envisioned as an organelle by and of itself. Our analyzes indicate that mRNAs and Mlp1 participate in an additional degree of nuclear compartmentalization by enabling the formation of a dynamic structure: the basket. Overall my project sheds new light on the nuclear organization and highlights the surprising entanglement between mRNA export and NPC plasticity.
Author: Pierre Bensidoun
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
The export of mRNAs from the nucleus to the cytoplasm is one of many steps along the gene expression pathway and is fundamental for mRNAs to meet with ribosomes for translation in the cytoplasm. Exchanges between nucleus and cytoplasm occur through the nuclear pore complex (NPC), which is a large multi-protein complex embedded in the nuclear membrane and assembled by 30 different proteins the nucleoporins. The nucleoplasmic side of the pore is believed to orchestrate many fundamental nuclear processes. Indeed, a growing body of evidence suggests that the nuclear pore is involved in a broad range of activities including modulation of DNA topology, DNA repair, epigenetic regulation of gene expression, and selective access to exporting molecules. The structural component required for orchestrating those nucleoplasmic functions is the basket, a ∼60- to 80-nm-long structure protruding into the nucleoplasm. The consensus view depicts the basket as a structure assembled by filamentous proteins, TPR (Translocated Promoter Region protein) in humans and by its two paralogues Mlp1 and Mlp2 (myosin-like proteins) in yeast, converging into a distal ring. In the first part of this thesis, we characterized the motion of specific mRNAs at the vicinity of the nuclear periphery. We observed that transcripts scan along the nuclear envelope, likely to find a nuclear pore to be exported. We also showed the scanning behavior was affected upon Mlp1 deletion or truncation as well as upon mutation of the nuclear poly(A) binding protein Nab2. These observations indicated that Mlp1 and hence baskets, as well as specific RNA binding proteins, facilitate the interaction of mRNA with the nuclear periphery. While the canonical structure of the NPC is well established, our understanding of the conditions and factors contributing to the assembly of a basket, as well as the stoichiometry of its components, remains incomplete. Although basket proteins have been implicated in the regulation of gene expression through gene anchoring to the nuclear periphery and in mRNA scanning before export, how this is mediated by Mlp1/2 is poorly understood. Moreover, the dynamics of basket proteins in yeast seem to obey different rules than those of other nucleoporins as their turnover at the pore is faster than any other NPC components. Furthermore, it has been observed that during heat shock Mlp1 and Mlp2 dissociate from nuclear pores and form intra-nuclear granules, sequestering mRNAs and RNA export factors. Yet the mechanism for the formation of these granules or their role during heat shock is poorly understood. In yeast, the nuclear baskets are not associated with all NPCs, as no baskets assemble on the pores adjacent to the nucleolus. Yet, how cells establish these basket-less pores and whether they represent specialized nuclear pores with different functions from basket-containing pores is still unknown. To understand the dynamics of basket assembly and the biological relevance of establishing distinct sets of pores, we dissected the biological processes leading to the formation of baskets. In addition, to highlight potential functional differences between the two types of pores, we identified the interactors of nuclear basket-containing and nucleolar basket-less pores. We showed that assembling a basket is not a default mode for a pore in the nucleoplasm and that active mRNA processing is required to maintain baskets integrity. While mRNA can be found associated with both types of pores, our results suggest that export kinetics may be different on basket-containing and basket-less pores. The eukaryotes organize their nucleus in discrete functional regions and the nuclear envelope has been envisioned as an organelle by and of itself. Our analyzes indicate that mRNAs and Mlp1 participate in an additional degree of nuclear compartmentalization by enabling the formation of a dynamic structure: the basket. Overall my project sheds new light on the nuclear organization and highlights the surprising entanglement between mRNA export and NPC plasticity.
Author: Maximiliano D’Angelo
Publisher: Springer
ISBN: 331971614X
Category : Medical
Languages : en
Pages : 245
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Book Description
The three-dimensional organization of the DNA inside the eukaryotic cell nucleus has emerged a critical regulator of genome integrity and function. Increasing evidence indicates that nuclear pore complexes (NPCs), the large protein channels that connect the nucleus to the cytoplasm, play a critical role in the establishment and maintenance of chromatin organization and in the regulation of gene activity. These findings, which oppose the traditional view of NPCs as channels with only one: the facilitation of nucleocytoplasmic molecule exchange, have completely transformed our understanding of these structures. This book describes our current knowledge of the role of NPCs in genome organization and gene expression regulation. It starts by providing an overview of the different compartments and structures of the nucleus and how they contribute to organizing the genome, then moves to examine the direct roles of NPCs and their components in gene expression regulation in different organisms, and ends by describing the function of nuclear pores in the infection and genome integration of HIV, in DNA repair and telomere maintenance, and in the regulation of chromosome segregation and mitosis. This book provides an intellectual backdrop for anyone interested in understanding how the gatekeepers of the nucleus contribute to safeguarding the integrity and function of the eukaryotic genome.
Author: Timothy A. Isgro
Publisher: ProQuest
ISBN: 9780549340690
Category :
Languages : en
Pages : 80
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Book Description
The nucleus of the cell is of central importance to an organism, serving to store and organize genetic material, while separating and protecting this very important information from the host of other cellular components. While the nucleus requires this protective isolation, it also needs to communicate with the rest of the cell, exchanging proteins and RNA, for a variety of nuclear and cytoplasmic processes which act in concert. The nuclear pore complex is responsible for controlling the transport of large molecules into and out of the cell nucleus. It is perhaps the largest protein structure in eukaryotic cells, and because of its size, pointed experimental study has been difficult. As a result, the mechanism by which the nuclear pore complex selectively allows "good" material across the nuclear envelope, while preventing the transit of "bad", remains unknown. Here, the computer has been used to study interactions between the transport receptors that shuttle material across the nuclear pore complex and FG-nucleoporins, proteins which compose the complex itself and are of great importance in allowing protected nuclear transport. Molecular dynamics simulations have been performed on transport complexes formed by the transport receptors importin-beta, NTF2, and Cse1p. The simulations confirm nearly all interactions previously known about from experimental data, while serving, in some cases, to provide greater detail about these interactions. Furthermore, the simulations uncover a host of previously unknown interactions between each transport receptor and FG-nups. When the interactions are compared across all three transport receptors, a novel binding pattern is revealed that indicates how the nuclear pore complex may recognize the difference between the macromolecules destined to cross the nuclear envelope and the host of other proteins for which it must protect against transport.
Author: Reiner Peters
Publisher: Springer Science & Business Media
ISBN: 3642715656
Category : Science
Languages : en
Pages : 296
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Book Description
Author:
Publisher: Elsevier
ISBN: 0124171788
Category : Science
Languages : en
Pages : 553
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Book Description
Volume 122 of Methods in Cell Biology describes modern tools and techniques used to study nuclear pore complexes and nucleocytoplasmic transport in diverse eukaryotic model systems (including mammalian cells, Xenopus, C. elegans, yeast). The volume enables investigators to analyze nuclear pore complex structure, assembly, and dynamics; to evaluate protein and RNA trafficking through the nuclear envelope; and to design in vivo or in vitro assays appropriate to their research needs. Beyond the study of nuclear pores and transport as such, these protocols will also be helpful to scientists characterizing gene regulation, signal transduction, cell cycle, viral infections, or aging. The NPC being one of the largest multiprotein complexes in the cell, some protocols will also be of interest for people currently characterizing other macromolecular assemblies. This book is thus designed for laboratory use by graduate students, technicians, and researchers in many molecular and cellular disciplines. Describes modern tools and techniques used to study nuclear pore complexes and nucleocytoplasmic transport in diverse eukaryotic model systems (mammalian cells, Xenopus, C. elegans, yeast) Chapters are written by experts in the field Cutting-edge material
Author: Marlene Oeffinger
Publisher: Springer Nature
ISBN: 3030314340
Category : Science
Languages : en
Pages : 318
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Book Description
The book provides an overview on the different aspects of gene regulation from an mRNA centric viewpoint, including how mRNA is assembled and self-assembles in a complex consisting of RNA and proteins, and how its ability to be translated at the right time and space depends on many processes acting on the mRNAs, leading to a properly folded complex. This book shows how new technologies have led to a better understanding of these processes and their connected diseases.The book is written for scientists in fundamental and applied biomedical research working on different aspects of gene regulation. It is also targeted to an audience that is not implicated in these fields directly, but wants to gain a better understanding of mRNA biology.
Author: Buddhi Prakash Jain
Publisher: Academic Press
ISBN: 0323983960
Category : Science
Languages : en
Pages : 310
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Book Description
Understanding Cancer: From Basics to Therapeutics presents both basic concepts and research prospects in the field of cancer biology. This book summarizes the fundamental aspects of cancer and presents a detailed description of molecular aspects as well as treatment and therapeutics for patients. The book is divided into three parts: the first part deals with the basics of cancer, including etiology and medical diagnosis; the second part explores the molecular mechanisms associated with cancer, focusing on cell cycle and apoptosis, cell metabolism, gene regulation, epigenetics, and stem cells; and the third part is dedicated to therapeutics, discussing chemo and radiotherapies, gene, hormone, herbal, and immunotherapies. It is a valuable resource for cancer researchers, oncologists, graduate students, and biomedical researchers who need to understand the fundamental topics related to cancer to apply to their research work or clinical setting. Presents fundamental aspects of cancer in a didactic way to make the content easily applicable by readers Illustrates the content through detailed images developed by the authors exclusively for the book to facilitate comprehension Summarizes the content of each chapter with several tables and schematic diagrams for quick consult
Author: Kiyoshi Nagai
Publisher: Oxford University Press, USA
ISBN:
Category : Medical
Languages : en
Pages : 302
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Book Description
The study of RNA-protein interactions is crucial to understanding the mechanisms and control of gene expression and protein synthesis. The realization that RNAs are often far more biologically active than was previously appreciated has stimulated a great deal of new research in this field. Uniquely, in this book, the world's leading researchers have collaborated to produce a comprehensive and current review of RNA-protein interactions for all scientists working in this area. Timely, comprehensive, and authoritative, this new Frontiers title will be invaluable for all researchers in molecular biology, biochemistry and structural biology.
Author: Weidong Yang
Publisher: Springer
ISBN: 3319773097
Category : Science
Languages : en
Pages : 277
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Book Description
Dysfunction of nuclear-cytoplasmic transport systems has been associated with many human diseases. Thus, understanding of how functional this transport system maintains, or through dysfunction fails to maintain remains the core question in cell biology. In eukaryotic cells, the nuclear envelope (NE) separates the genetic transcription in the nucleus from the translational machinery in the cytoplasm. Thousands of nuclear pore complexes (NPCs) embedded on the NE selectively mediate the bidirectional trafficking of macromolecules such as RNAs and proteins between these two cellular compartments. In this book, the authors integrate recent progress on the structure of NPC and the mechanism of nuclear-cytoplasmic transport system in vitro and in vivo.
Author: Gary Whitson
Publisher: Elsevier
ISBN: 0323154468
Category : Science
Languages : en
Pages : 359
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Book Description
Nuclear-Cytoplasmic Interactions in the Cell Cycle
