Dynamics Of Nucleosome Remodeling By Atp Dependent Chromatin Remodelers

Dynamics of Nucleosome Remodeling by ATP-dependent Chromatin Remodelers

Author : Arjan Hada

Publisher :

Page : 356 pages

File Size : 11,71 MB

Release : 2017

Category : Adenosine triphosphate

ISBN :

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Book Description

Chromatin is highly regulated nucleoprotein complex facilitating the dynamic balance between genome packaging and accessibility. The central workhorses regulating the dynamic nature of chromatin are ATP-dependent chromatin remodelers- ISWI, SWI/SNF, INO80, and CHD/Mi2. All chromatin remodelers transduce the energy from ATP hydrolysis to translocate on DNA, break histone-DNA contacts, and mobilize nucleosomes. However, the final outcomes of nucleosome remodeling are diverse - nucleosome sliding, dimer exchange, nucleosome disassembly, and nucleosome conformation alteration. This study sheds light on how different chromatin remodelers catalyze various structural transformations. We provide novel insights into the nucleosome dynamics, the role of histone octamer dynamics on nucleosome remodeling by ISW2, mechanism of dimer exchange by INO80 and mechanism of nucleosome disassembly by the coordinated action of RSC and histone chaperone Nap1. We also provide insights on how aberrant SWI/SNF complexes affect fundamental enzymatic properties such as ATPase and processive nucleosome remodeling. ISW2 remodelers sense and respond to the length of linker DNA separating the nucleosome and centers nucleosome. Histone octamers are perceived as a mostly static structure whereas DNA deforms itself to fit nucleosome. We have found change in histone octamer conformation as a novel step in ISW2 mobilizing DNA through the nucleosome. We provide evidence for an induced fit mechanism where histone-histone and histone-DNA interactions change in respond to remodeler, and these changes promote DNA entry into the nucleosome. Our data supports a model in which DNA translocation causes the change in histone octamer conformation, followed by DNA entry into nucleosome and resetting of the histone octamer core. We also move a step ahead and show that SANT domain promotes the entry of DNA into nucleosome and resets the histone octamer core allowing processive nucleosome mobilization. INO80 nucleosome remodeling provides two outcomes- nucleosome centering and dimer exchange. INO80 exchanges H2A.Z-H2B dimer for H2A-H2B. We show that INO80 is incredibly slow at centering nucleosome compared to ISW2. We also provide evidence for a mechanism where INO80 persistently displaces DNA from the dimer interface, unlike ISW2, facilitating dimer exchange. In another instance, we show that kinetic step sizes are modulated by a combination of enzyme and DNA sequence properties, and are not hardwired into the enzyme. ISW2 has been previously shown to translocate DNA with a kinetic step sizes of ~7bp and ~3bp. We show that kinetic step sizes may vary depending on nucleosomal location where we monitor DNA movement. Next, we studied the mechanism of nucleosome disassembly by RSC in the presence of Nap1. We found that Nap1 promotes the disassembly of the distal nucleosome that RSC collides with rather than the proximal nucleosomes it mobilizes. SWI/SNF tops the list of the frequently mutated epigenetic factor in cancer with its subunits mutated in more than 20% of all cancers. Loss of hSnf5 is a driver mutation in pediatric rhabdoid tumors. Our lab has previously identified that the deletion of Snf5 causes yeast SWI/SNF to lose an entire module comprised of Snf5, Swp82, and Taf14. In this study, we establish the properties of aberrant SWI/SNF complex formed in the absence of Snf5 module. The deletion resulted in lower ATP hydrolysis and nucleosome mobilization activities of the mutant SWI/SNF. We found that Snf5 module is necessary to couple ATP hydrolysis with DNA translocation. We studied the role of accessory domain AT-hooks in the ATPase subunit of SWI/SNF and found similar results. Interestingly, AT hook and SnAC domains, and Snf5 subunit were found to communicate with the same region in ATPase domain physically. These studies provide valuable mechanistic insights into chromatin structure and function and highlight how different chromatin remodelers catalyze different chromatin remodeling outcomes. We also provide new insights on how the activity of the core ATPase motor is regulated either by accessory domains on the same subunit or by accessory subunits as a part of the larger complex.



Introduction to Epigenetics

Author : Renato Paro

Publisher : Springer Nature

Page : 215 pages

File Size : 17,16 MB

Release : 2021-03-23

Category : Science

ISBN : 3030686701

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Book Description

This open access textbook leads the reader from basic concepts of chromatin structure and function and RNA mechanisms to the understanding of epigenetics, imprinting, regeneration and reprogramming. The textbook treats epigenetic phenomena in animals, as well as plants. Written by four internationally known experts and senior lecturers in this field, it provides a valuable tool for Master- and PhD- students who need to comprehend the principles of epigenetics, or wish to gain a deeper knowledge in this field. After reading this book, the student will: Have an understanding of the basic toolbox of epigenetic regulation Know how genetic and epigenetic information layers are interconnected Be able to explain complex epigenetic phenomena by understanding the structures and principles of the underlying molecular mechanisms Understand how misregulated epigenetic mechanisms can lead to disease



Chromatin

Author : Alan P. Wolffe

Publisher : Academic Press

Page : 462 pages

File Size : 46,69 MB

Release : 2012-12-02

Category : Science

ISBN : 0080926606

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Book Description

The Third Edition of Chromatin: Structure and Function brings the reader up-to-date with the remarkable progress in chromatin research over the past three years. It has been extensively rewritten to cover new material on chromatin remodeling, histone modification, nuclear compartmentalization, DNA methylation, and transcriptional co-activators and co-repressors. The book is written in a clear and concise fashion, with 60 new illustrations. Chromatin: Structure and Function provides the reader with a concise and coherent account of the nature, structure, and assembly of chromatin and its active involvement in the processes of DNA transcription, replication and repair. This book consistently interrelates the structure of eukaryotic DNA with the nuclear processes it undergoes, and will be essential reading for students and molecular biologists who want to really understand how DNA works. Written in a clear and concise fashion Includes 60 new illustrations Extensively rewritten Brings the reader up-to-date with the remarkable progress in chromatin research over the past three years.



Chromatin Regulation and Dynamics

Author : Anita Göndör

Publisher : Academic Press

Page : 498 pages

File Size : 18,9 MB

Release : 2016-10-25

Category : Science

ISBN : 0128034025

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Book Description

Chromatin Regulation and Dynamics integrates knowledge on the dynamic regulation of primary chromatin fiber with the 3D nuclear architecture, then connects related processes to circadian regulation of cellular metabolic states, representing a paradigm of adaptation to environmental changes. The final chapters discuss the many ways chromatin dynamics can synergize to fundamentally contribute to the development of complex diseases. Chromatin dynamics, which is strategically positioned at the gene-environment interface, is at the core of disease development. As such, Chromatin Regulation and Dynamics, part of the Translational Epigenetics series, facilitates the flow of information between research areas such as chromatin regulation, developmental biology, and epidemiology by focusing on recent findings of the fast-moving field of chromatin regulation. Presents and discusses novel principles of chromatin regulation and dynamics with a cross-disciplinary perspective Promotes crosstalk between basic sciences and their applications in medicine Provides a framework for future studies on complex diseases by integrating various aspects of chromatin biology with cellular metabolic states, with an emphasis on the dynamic nature of chromatin and stochastic principles Integrates knowledge on the dynamic regulation of primary chromatin fiber with 3D nuclear architecture, then connects related processes to circadian regulation of cellular metabolic states, representing a paradigm of adaptation to environmental changes



Structural Insights Into the Assembly and Dynamics of the ATP-dependent Chromatin-remodeling Complex SWR1

Author : Vu Quang Nguyen

Publisher :

Page : pages

File Size : 19,72 MB

Release : 2014

Category :

ISBN :

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Book Description

The ATP-dependent chromatin remodeling complex SWR1 exchanges a variant histone H2A.Z-H2B dimer for a canonical H2A-H2B dimer at nucleosomes flanking histone-depleted regions, such as promoters. This localization of H2A.Z is conserved throughout eukaryotes. SWR1 is a 1 Mega-Dalton complex containing 14 different polypeptides, including the AAA+ ATPases Rvb1 and Rvb2. Using electron microscopy, we obtained the three-dimensional structure of SWR1 and mapped its major functional components. Our data show that SWR1 contains a single hetero-hexameric Rvb1/2 ring that, together with the catalytic subunit Swr1, brackets two independently assembled multi-subunit modules. We also show that SWR1 undergoes a large conformational change upon engaging a limited region of the nucleosome core particle. Our work suggests an important structural role for the Rvb1/2 ring and a distinct substrate-handling mode by SWR1, thereby providing the first structural framework for understanding the complex dimer-exchange reaction.



Fundamentals of Chromatin

Author : Jerry L. Workman

Publisher : Springer Science & Business Media

Page : 594 pages

File Size : 13,76 MB

Release : 2013-12-04

Category : Medical

ISBN : 1461486246

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Book Description

​​​​​​​​​​​​​While there has been an increasing number of books on various aspects of epigenetics, there has been a gap over the years in books that provide a comprehensive understanding of the fundamentals of chromatin. ​Chromatin is the combination of DNA and proteins that make up the genetic material of chromosomes. Its primary function is to package DNA to fit into the cell, to strengthen the DNA to prevent damage, to allow mitosis and meiosis, and to control the expression of genes and DNA replication. The audience for this book is mainly newly established scientists ​and graduate students. Rather than going into the more specific areas of recent research on chromatin the chapters in this book give a strong, updated groundwork about the topic. Some the fundamentals that this book will cover include the structure of chromatin and biochemistry and the enzyme complexes that manage it.





Chromatin and Disease

Author : Tapas K. Kundu

Publisher : Springer Science & Business Media

Page : 456 pages

File Size : 22,46 MB

Release : 2007-05-04

Category : Science

ISBN : 1402054661

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Book Description

This book includes a collection of articles with the broad theme of disease connection to chromatin structure and function. It elaborates on the molecular pharmacology of the drugs targeting chromatin structure and its components. The book contains up-to-date information about the chromatin structure and chromatin related diseases and drug functions. This work is the first endeavor to present different aspects encompassing the above theme.



Activation Mechanisms of SWI2/SNF2 Family ATP-Dependent Chromatin Remodeling Enzymes

Author : Nathan Gamarra

Publisher :

Page : pages

File Size : 35,36 MB

Release : 2020

Category :

ISBN :

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Book Description

Eukaryotic genomes are packaged into chromatin: a highly heterogeneous structure composed of nucleic acids and proteins. This packaging controls access to the underlying DNA sequences and, as a result plays a critical role in nearly all genomic processes. The primary molecular structure of chromatin is the nucleosome: ~147 bp of DNA wrapped around a core of histone proteins. Both the location and status of nucleosomes in the genome are critical for the proper packaging of chromatin. As a result, cells have evolved several sophisticated molecular machines to disrupt or modify nucleosomes to achieve specific packaging states. A critical member of these machines are the SWI2/SNF2 superfamily of ATP-dependent chromatin remodeling enzymes, which are DNA translocases that harness the energy of ATP hydrolysis to physically disrupt nucleosomes. Because of their central role in control nucleosome structure throughout the genome, remodelers play roles in virtually all DNA-dependent process, but the precise mechanisms of how remodelers disrupt nucleosomes and how this disruption is coupled to other molecular events remains very poorly understood. In this thesis we focus on understanding the remodeling mechanisms of two subfamilies of SWI2/SNF2 remodelers that slide nucleosomes: INO80 and ISWI. To understand how these and other SWI2/SNF2 ATP-dependent remodelers might cooperate with nuclear machinery to enable biological processes, we first review our broad understanding of remodeling mechanism as it compares to another molecular motor that disrupts nucleosomes: RNA polymerase. We then speculate on how these two distinct families cooperate to accomplish transcription on chromatin templates. After this, we set out to uncover elements of nucleosome that control remodeler activity and identify a conserved surface of the nucleosome known as the acidic patch that is required to activate both ISWI and INO80 family remodelers. Using a combination of biochemical and biophysical assays, we show that this surface activates remodeling by these two families after they bind the nucleosome. For the ISWI remodeler SNF2h, the acidic patch activates remodeling by serving as a landing pad for the binding of autoinhibitory domains while INO80 uses a separate mechanism. We then solve the near-atomic CryoEM structure of SNF2h bound to the nucleosome. Unexpectedly, we find that SNF2h binding in an activated state asymmetrically distorts the histone core of the nucleosome and that this may be important in regulating the activity of the enzyme. Finally, we test the hypothesis that by measuring remodeling activity of nucleosomes with site-specific restraints in the histone core. We find that specifically restraining histone dynamics in locations across all 4 histone proteins inhibits SNF2h-mediated nucleosome sliding. Taken together, these results suggest that remodelers rely on the structure and dynamics of both the DNA and protein components of the nucleosome to accomplish their activities.



Chromatin Structure and Dynamics

Author : J. Zlatanova

Publisher : Gulf Professional Publishing

Page : 546 pages

File Size : 50,30 MB

Release : 2004

Category : Medical

ISBN : 9780444515940

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Book Description

Biological processes that replicate, preserve and use the genetic information encoded in DNA must operate in the context of chromatin, a highly organized complex of DNA and proteins. These proteins do not merely package the DNA in the tiny volume of the nucleus, but impart the structure the ability to change according to the requirements of the specific process the DNA is involved in. Moreover, chromatin structure is used by the cell to control the activity of DNA. In this volume the basics of chromatin structure and dynamics are presented by established experts in the field.