Chromatin Remodeling Around Nucleosome Free Regions Represses Non Coding Rna By Dna Looping And Transcription Factor Dependent Targeting Of Isw2

Chromatin Remodeling Around Nucleosome Free Regions Represses Non-coding RNA by DNA Looping and Transcription Factor Dependent Targeting of Isw2

Author : Adam Nicholas Yadon

Publisher :

Page : 294 pages

File Size : 49,69 MB

Release : 2012

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ISBN :

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The efficient three-dimensional packaging of DNA into eukaryotic nuclei is accomplished through spatially organizing and compacting DNA into chromatin. Maintaining proper access to DNA, by modulation of either the location of DNA within the nucleus or the positions of nucleosomes, is essential for regulating DNA-dependent processes. The work in this dissertation focuses on elucidating the functions and molecular mechanisms by which the three-dimensional packaging of eukaryotic DNA affects DNA-dependent processes. Here I show that the ATP-dependent chromatin remodeling enzyme Isw2 is a global repressor of non-coding RNA (ncRNA) transcription that initiates from the edges of nucleosome free regions (NFRs) genome-wide. Isw2-dependent chromatin remodeling activity is required to reduce accessibility to DNA by sliding nucleosomes toward NFRs and occluding transcription start sites. This work establishes Isw2 as the first factor that functions to reduce the size of NFRs in vivo. My evidence also suggests that proper repression of ncRNA by Isw2 prevents transcriptional interference of mRNA, providing an important biological role for Isw2-dependent chromatin remodeling. Analysis of the targeting mechanisms of Isw2 to NFRs uncovered the sequence-specific transcription factors (TFs) Ume6, Nrg1, Cin5, and Sok2 as globally required for Isw2 recruitment to many target loci genome-wide. This establishes the first comprehensive genome-wide map for TF-dependent targeting of a chromatin remodeling enzyme. The observation that Isw2 is targeted in a TF-dependent fashion to a large number of loci not containing an annotated TF binding site led to the discovery that Isw2 can also be targeted to specific loci via Ume6- and TFIIB-dependent DNA looping. Both Ume6 and TFIIB-dependent DNA looping are required to maintain transcriptional repression at target loci. I have thus identified DNA looping as a previously unknown mechanism to target a chromatin remodeling enzyme and uncovered a novel physiological role for DNA looping. My work has led to a better understanding of how the three dimensional packaging of DNA into eukaryotic nuclei affects a DNA-dependent process in which transcriptional repression is facilitated by DNA-looping mediated TF-dependent targeting of a chromatin remodeling enzyme.



Spatial Organization of the ISW2-nucleosome Complex

Author : Weiwei Dang

Publisher :

Page : 318 pages

File Size : 17,95 MB

Release : 2006

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ISBN :

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The mechanism of ATP-dependent chromatin remodeling was explored using the Saccharomyces cerevisiae ISW2 complex, a member of the ISWI subfamily of chromatin remodeling factors. Site-specific DNA photoaffinity labeling and peptide mapping were utilized to study the specific interactions between ISW2 and nucleosomes. The subunits of ISW2 that contact particular sites on nucleosomal and extranucleosomal DNA were identified. In an extensive scan, three DNA regions on the end-positioned nucleosome were shown to be the major contact sites of ISW2. The extranucleosomal DNA region was bound by the largest subunit Itc1 and one of the small histone fold subunits (Dpb4). The region around the DNA entry/exit site or the edge of the nucleosome was contacted by both Itc1 and the catalytic subunit Isw2. The internal site 2 helical turns from the dyad axis of the nucleosome, which has been shown to be critical for chromatin remodeling, was associated with the two large subunits Itc1 and Isw2. The contacts of specific Isw2 domains were determined by peptide mapping of photoaffinity labeled Isw2. The SLIDE domain was found to interact with extranucleosomal DNA 20 bp from the entry/exit site and the novel HAND domain contacts the DNA just 10 bp inside the nucleosome. The helicase domain containing the ATP binding pocket is bound at the critical internal site two helical turns from the dyad. Determination of the spatial arrangement of ISW2 with nucleosomes illustrates, for the first time, the interaction of a chromatin remodeling factor with the nucleosome and key structural information for understanding how ISW2 repositions mononucleosomes and generates regularly spaced nucleosome arrays. The interaction of ISW2 with the nucleosome was found to be affected by the length of the extranucleosomal DNA with an optimal length of ~70 bp and by the histone H4 tail in parallel pathways to direct ISW2 to the critical internal site of the nucleosome. The domains of Ume6 that binds to ISW2 was determined and to be sufficient to recruit ISW2 under limiting conditions. Finally, studies on the histone fold dimer of ISW2 have suggested roles in facilitating ISW2 interacting with extranucleosomal DNA, as well as nucleosome mobilization.



Chromatin Remodeling Complexes and Transcriptional Coregulators

Author :

Publisher : Elsevier

Page : 208 pages

File Size : 37,76 MB

Release : 2023-10

Category : Science

ISBN : 0443160074

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Chromatin Remodeling Complexes and Transcriptional Coregulators, Volume 53, the latest release in The Enzymes series highlights new advances in the field, with interesting new chapters that cover Perspectives on Chromatin Remodeling, The functions of ISWI-type remodelers in yeast, Conserved mechanisms of NuRD function in hematopoietic gene expression, The SIN3 complex as a metabolic epigenetic regulator, Soft repression and chromatin modification by conserved transcriptional corepressors, The NPAC-LSD2 complex in nucleosome demethylation, Role of intrinsically disordered domains in transcriptional regulation, and Regulation of the Recovery of Cancer from Therapy Exposure by Noncoding RNAs.



Distinct Genome Wide Functions of Chromatin Remodelers in Nucleosome Organization and Transcription Regulation

Author : Solomon G. Hailu

Publisher :

Page : 328 pages

File Size : 50,82 MB

Release : 2017

Category : Cell nuclei

ISBN :

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Chromatin remodelers are conserved from yeast to humans and are the gatekeepers of chromatin. They regulate transcription by occluding or exposing DNA regulatory elements globally. They are crucial for DNA processes such as DNA replication, repair and recombination. In addition, they are critical in developmental processes and differentiation. Chromatin remodelers are categorized into several families based on their conserved ATPase domain, an essential component required for their DNA translocation ability. In this study, we investigated the role yeast ISWI and SWI/SNF family of chromatin remodelers play on nucleosome rearrangement and transcription regulation by targeted mutagenesis of domains in accessory subunits and at the C-terminus of the catalytic subunit. All members of the ISWI family (ISW1a, ISW1b, ISW2) share a conserved C-terminal HAND, SANT and SLIDE domains, which are important for sensing linker DNA. We find an auto-regulation of ISWI complexes by the SLIDE domain, independent of the histone H4 Nterminal tail. Our protein-protein chemical crosslinking and mass spectrometry (CX-MS) analysis indicate that the SLIDE domain regulates the ATPase core through N terminal domains of the accessory subunit Itc1. Moreover, we show that the accessory subunits of ISWI modulate the ATPase activity and specificity of ISWI complexes. The DNA sensing ability of the SLIDE domain is required for the in vivo nucleosome spacing and transcription regulation by ISWI. We find that while ISW2 primarily regulates transcription at the 5' end of genes. ISW1a is important in transcription elongation by rearranging nucleosomes starting at the +2 nucleosome and through the rest of the body of genes towards the 3' end. ISW1b on the other hand rearrange nucleosomes in the gene body to facilitate suppression of cryptic transcription. For the first time, we show the potential division of labor between ISW1a and ISW1b during transcription elongation. On the other hand, SWI/SNF chromatin remodelers are essential epigenetic factors that are frequently mutated in cancer and neurological disorders. They harbor a C-terminal SnAC and AT hook domains that positively regulate their DNA dependent ATPase activity and nucleosome mobilizing capabilities. By deleting the AT hook motifs, we have identified the role of SWI/SNF in organizing the -1 and +1 nucleosomes at transcription start sites flanking the nucleosome free region (NFR). Our RNA-seq analysis shows SWI/SNF positively regulates the bi-directional transcription of non-coding RNA (ncRNA) which are activated when the AT hook motifs are deleted. Moreover, AT hooks regulate such activities of SWI/SNF through direct protein-protein interactions with the ATPase core as evidenced by our chemical crosslinking and mass spectrometry (CX-MS) analysis.



Isw2 and Ino80 Complexes Regulate the Ribosomal DNA Locus and DNA Break Repair Choice

Author : Samuel R. Cutler

Publisher :

Page : 105 pages

File Size : 25,34 MB

Release : 2019

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ISBN :

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To achieve the high degree of compaction required to fit the eukaryotic genome into a nucleus, DNA has evolved to be organized in a structure referred to as chromatin. Chromatin involves the tight interaction of DNA with histone octamers known as nucleosomes. Because this association between DNA and nucleosomes inhibits DNA-dependent processes, chromatin structure is carefully regulated to facilitate transcription of RNAs from the DNA template, repair of DNA damage, and replication of the genome. ATP-dependent chromatin remodeling factors use the energy of ATP hydrolysis to modify specific features of chromatin structure. In this dissertation, I focus on elucidating biological functions of the Saccharomyces cerevisiae remodeling factors Isw2 and Ino80. I show that these complexes are targeted to the yeast ribosomal DNA locus, where they modify local chromatin structure and regulate replication initiation from this genomic locus and changes of the size of the highly repetitive rDNA array. In addition, I show evidence supporting possible roles for Isw2 and Ino80 in regulating the balance between two mechanisms of repair of DNA double strand breaks. In sum, my work establishes novel functions for these chromatin remodeling factors at a uniquely repetitive and important part of the eukaryotic genome and in a process that is crucial for genome stability.



Introduction to Epigenetics

Author : Renato Paro

Publisher : Springer Nature

Page : 215 pages

File Size : 48,90 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 Regulation and Dynamics

Author : Anita Göndör

Publisher : Academic Press

Page : 498 pages

File Size : 22,10 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



The Yeast Role in Medical Applications

Author : Waleed Mohamed Hussain Abdulkhair

Publisher : BoD – Books on Demand

Page : 178 pages

File Size : 36,76 MB

Release : 2018-01-17

Category : Technology & Engineering

ISBN : 9535137344

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Book Description

Biotechnology including medical applications depends on the yeast as biofermenter to produce many industrial products including pharmaceutical ones. Although yeasts are first known as useful microorganisms, some of them are identified as pathogens for plants, animals, and humans. Due to the simple cellular structure of the yeast among other microbial groups, it is used in the earliest investigations to determine the features of eukaryotic molecular biology, cell biology, and physiology. The economic income of some countries mainly depends on yeast for producing the economic products, such as France that depends on yeast for wine production. This book throws light on yeast and its important role in the medical applications.



Fundamentals of Chromatin

Author : Jerry L. Workman

Publisher : Springer Science & Business Media

Page : 594 pages

File Size : 15,29 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.



Methods in Molecular Biology

Author : Peter B. Becker

Publisher :

Page : 528 pages

File Size : 15,31 MB

Release : 1999

Category : Chromatin

ISBN : 9780896036659

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