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Author : Muyu Xu
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (85 download)
Download or read book Mechanisms of Core Promoter Sequence-dependent RNA Polymerase II Transcription written by Muyu Xu and published by . This book was released on 2012 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Manchuta Dangkulwanich
Publisher :
ISBN 13 :
Total Pages : 137 pages
Book Rating : 4.:/5 (928 download)
Download or read book Molecular Mechanisms of Factors that Control RNA Polymerase II Transcription Elongation Dynamics written by Manchuta Dangkulwanich and published by . This book was released on 2015 with total page 137 pages. Available in PDF, EPUB and Kindle. Book excerpt: The expression of a gene begins by transcribing a target region on the DNA to form a molecule of messenger RNA. As transcription is the first step of gene expression, it is there- fore highly regulated. The regulation of transcription is essential in fundamental biological processes, such as cell growth, development and differentiation. The process is carried out by an enzyme, RNA polymerase, which catalyzes the addition of a nucleotide complementary to the template and moves along the DNA one base pair at a time. To complete its tasks, the enzyme functions as a complex molecular machine, possessing various evolutionarily designed parts. In eukaryotes, RNA polymerase has to transcribe through DNA wrapped around histone proteins forming nucleosomes. These structures represent physical barriers to the transcribing enzyme. In chapter 2, we investigated how each nucleosomal component--the histone tails, the specific histone-DNA contacts, and the DNA sequence--contributes to the strength of the barrier. Removal of the tails favors progression of RNA polymerase II into the entry region of the nucleosome by locally increasing the wrapping-unwrapping rates of the DNA around histones. In contrast, point mutations that affect histone-DNA contacts at the dyad abolish the barrier to transcription in the central region by decreasing the local wrapping rate. Moreover, we showed that the nucleosome amplifies sequence-dependent transcriptional pausing, an effect mediated through the structure of the nascent RNA. Each of these nucleosomal elements controls transcription elongation by distinctly affecting the density and duration of polymerase pauses, thus providing multiple and alternative mechanisms for control of gene expression by additional factors. During transcription elongation, RNA polymerase has been assumed to attain equilibrium between pre- and post-translocated states rapidly relative to the subsequent catalysis. Under this assumption, a branched Brownian ratchet mechanism that necessitates a putative secondary nucleotide binding site on the enzyme was proposed. In chapter 3, we challenged individual yeast RNA polymerase II (Pol II) with a nucleosome as a "road block", and separately measured the forward and reverse translocation rates with our single-molecule transcription elongation assay. Surprisingly, we found that the forward translocation rate is comparable to the catalysis rate. This finding reveals a linear, non-branched ratchet mech-anism for the nucleotide addition cycle in which translocation is one of the rate-limiting steps. We further determined all the major on- and off-pathway kinetic parameters in the elongation cycle. This kinetic model provides a framework to study the influence of various factors on transcription dynamics. To further dissect the operation of Pol II, we focused on the trigger loop, a mobile element near the active site of the enzyme. Biochemical and structural studies have demonstrated that the trigger loop makes direct contacts with substrates and promotes nucleotide incorporation. It is also an important regulatory element for transcription fidelity. In chapter 4, we characterized the dynamics of a trigger loop mutant RNA polymerase to elucidate the roles of this element in transcription regulation, and applied the above kinetic framework to quantify the effects of the mutation. In comparison to the wild-type enzyme, we found that the mutant is more sensitive to force, faster at substrate sequestration, and more efficient to return from a pause to active transcription. This work highlighted important roles of regulatory elements in controlling transcription dynamics and fidelity. Moreover, RNA polymerase interacts with various additional factors, which add layers of regulation on transcription. Transcription factors IIS (TFIIS) and IIF (TFIIF) are known to interact with elongating RNA polymerase directly and stimulate transcription. In chapter 5, we studied the effects of these factors on elongation dynamics using our single molecule assay. We found that both TFIIS and TFIIF enhance the overall transcription elongation by reducing the lifetime of transcriptional pauses and that TFIIF also decreases the probability of pause entry. Furthermore, we observed that both factors enhance the efficiency of nucleosomal transcription. Our findings helped elucidate the molecular mechanisms of gene expression modulation by transcription factors. In summary, we have dissected the mechanisms by which the nucleosomal elements regulate transcription, and derived a quantitative kinetic model of transcription elongation in a linear Brownian ratchet scheme with the slow translocation of the enzyme. The corresponding translocation energy landscape shows that the off-pathway states are favored thermodynamically but not kinetically over the on-pathway states. This observation confers the enzyme its high propensity to pause, thus allowing additional regulatory mechanisms during pausing. TFIIS and TFIIF, for example, regulate transcription dynamics by shortening the lifetime of Pol II pauses. On the other hand, the trigger loop of Pol II regulates both the active elongation and pausing. These examples illustrate molecular mechanisms of cis- and trans-acting factors regulate the dynamics of transcription elongation.
Author : Ronald C. Conaway
Publisher : Raven Press (ID)
ISBN 13 :
Total Pages : 600 pages
Book Rating : 4.3/5 (91 download)
Download or read book Transcription written by Ronald C. Conaway and published by Raven Press (ID). This book was released on 1994 with total page 600 pages. Available in PDF, EPUB and Kindle. Book excerpt: Presents a coherent account of many productive lines of investigation, organized as a series of mini-reviews that focus on major research areas including studies on the structure and mechanisms of action of bacterial, viral, and eukaryotic RNA polymerases, and the transcription factors that control their activities. Each review provides a brief but up-to-date account of the progress of research in a particular area, a discussion of the major issues and questions driving that research, and a brief description of the evolving approaches and technologies used to address those questions. Annotation copyright by Book News, Inc., Portland, OR
Author : Catherine Patricia George
Publisher :
ISBN 13 :
Total Pages : 232 pages
Book Rating : 4.:/5 (318 download)
Download or read book Mechanisms of RNA Polymerase II Transcription Initiation written by Catherine Patricia George and published by . This book was released on 1996 with total page 232 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Jason Nicholas Kuehner
Publisher :
ISBN 13 :
Total Pages : 188 pages
Book Rating : 4.:/5 (891 download)
Download or read book Mechanism and Regulation of Yeast RNA Polymerase II Transcription Initiation and Termination written by Jason Nicholas Kuehner and published by . This book was released on 2008 with total page 188 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Torben Heick Jensen
Publisher : Springer Science & Business Media
ISBN 13 : 1441978410
Total Pages : 161 pages
Book Rating : 4.4/5 (419 download)
Download or read book RNA Exosome written by Torben Heick Jensen and published by Springer Science & Business Media. This book was released on 2011-06-29 with total page 161 pages. Available in PDF, EPUB and Kindle. Book excerpt: The diversity of RNAs inside living cells is amazing. We have known of the more “classic” RNA species: mRNA, tRNA, rRNA, snRNA and snoRNA for some time now, but in a steady stream new types of molecules are being described as it is becoming clear that most of the genomic information of cells ends up in RNA. To deal with the enormous load of resulting RNA processing and degradation reactions, cells need adequate and efficient molecular machines. The RNA exosome is arising as a major facilitator to this effect. Structural and functional data gathered over the last decade have illustrated the biochemical importance of this multimeric complex and its many co-factors, revealing its enormous regulatory power. By gathering some of the most prominent researchers in the exosome field, it is the aim of this volume to introduce this fascinating protein complex as well as to give a timely and rich account of its many functions. The exosome was discovered more than a decade ago by Phil Mitchell and David Tollervey by its ability to trim the 3’end of yeast, S. cerevisiae, 5. 8S rRNA. In a historic account they laid out the events surrounding this identification and the subsequent birth of the research field. In the chapter by Kurt Januszyk and Christopher Lima the structural organization of eukaryotic exosomes and their evolutionary counterparts in bacteria and archaea are discussed in large part through presentation of structures.
Author : Bruce Stillman
Publisher : CSHL Press
ISBN 13 : 9780879695507
Total Pages : 724 pages
Book Rating : 4.6/5 (955 download)
Download or read book Mechanisms of Transcription written by Bruce Stillman and published by CSHL Press. This book was released on 1998 with total page 724 pages. Available in PDF, EPUB and Kindle. Book excerpt: Proceedings of a summer 1998 meeting, presenting results of recent studies in gene transcription. Covers events ranging from activation, through promoter recognition, repression, chromosome structure, chromatin remodeling, initiation and elongation, and regulatory complexes and pathways. Subjects include targeting sir proteins to sites of action, the yeast RNA polymerase III transcription machinery, nuclear matrix attachment regions to confer long-range function on immunoglobulin, ATP-dependent remodeling of chromatin, and the transcriptional basis of steroid physiology. Annotation copyrighted by Book News, Inc., Portland, OR.
Author : Chin Yan Lim
Publisher :
ISBN 13 :
Total Pages : 258 pages
Book Rating : 4.:/5 (318 download)
Download or read book The MTE, a New Core Promoter Element for Transcription by RNA Polymerase II written by Chin Yan Lim and published by . This book was released on 2006 with total page 258 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Leslie Ann Kerrigan
Publisher :
ISBN 13 :
Total Pages : 322 pages
Book Rating : 4.:/5 (318 download)
Download or read book Mechanisms of RNA Polymerase II Transcription written by Leslie Ann Kerrigan and published by . This book was released on 1993 with total page 322 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Stephen Peter Bell
Publisher :
ISBN 13 :
Total Pages : 368 pages
Book Rating : 4.:/5 (33 download)
Download or read book Mechanisms of Species Specific Transcriptional Initiation by RNA Polymerase I written by Stephen Peter Bell and published by . This book was released on 1990 with total page 368 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author :
Publisher :
ISBN 13 :
Total Pages : 204 pages
Book Rating : 4.:/5 (86 download)
Download or read book Mechanisms of Yeast RNA Polymerase II Transcription and the Role of Transcription Factor IIF written by and published by . This book was released on 2006 with total page 204 pages. Available in PDF, EPUB and Kindle. Book excerpt: Transcription of protein-coding genes by eukaryotic RNA polymerase II (RNAPII) is a multistep process that involves the concerted action of RNAPII and accessory proteins including the general transcription factors (GTFs); TFIID, TFIIB, TFIIF, TFIIE and TFIIH. The GTFs are being intensely studied to determine their function during the different stages of the transcription cycle. Numerous investigations have reported functions for the general transcription factor IIF (TFIIF) of higher eukaryotes in multiple stages of the transcription cycle, although few studies have examined the TFIIF homolog in the yeast Saccharomyces cerevisiae. The objective of this dissertation is to better understand the mechanism of action of S. cerevisiae TFIIF during the different stages of the RNAPII transcription cycle. Although the basal transcription factors are highly homologous in eukaryotes, the mechanism of transcription start site utilization on TATA-dependent promoters in S. cerevisiae is fundamentally different from that in higher eukaryotes, where the PIC assembles on the promoter and transcription initiates at a discrete site 25-30 base pairs downstream of the TATA element with the architecture of the PIC determining the initiation site. In contrast, the S. cerevisiae RNAPII machinery typically initiates at multiple sites in a window from 45 to 120 base pairs downstream of the TATA element. Results in this thesis support a transcription initiation mechanism that involves transcription-independent translocation of the yeast RNAPII to the far downstream start sites. Previous work in our laboratory identified mutations in the yeast TFIIF subunits Tfg1 and Tfg2 that confer upstream shifts in start site utilization. In vivo and in vitro studies demonstrate that TFIIF modulates the utilization of transcription start site sequences through its interaction with RNAPII. In the second and third part of this dissertation, genetic and biochemical approaches were utilized to better define TFIIF functions at post-initiation steps in the S. cerevisiae transcription cycle, and support a role for TFIIF in both promoter escape and early elongation. Combined results of this work support a model for TFIIF function where the TFIIF, through its interaction with RNAPII, affects the DNA recognition properties of the polymerase during start site utilization, promoter escape, and early elongation.
Author : Hojoong Kwak
Publisher :
ISBN 13 :
Total Pages : 183 pages
Book Rating : 4.:/5 (913 download)
Download or read book Dissection of the Precise Mechanisms of RNA Polymerase II Pausing and Elongation Using Nascent Transcript Analysis written by Hojoong Kwak and published by . This book was released on 2013 with total page 183 pages. Available in PDF, EPUB and Kindle. Book excerpt: Limiting RNA polymerase II (Pol II) at various stages of the transcription cycle is critical for gene regulation, which often occurs during the elongation stage at promoter proximal pause sites and in gene bodies. To determine the distribution of Pol II along genes, I used nascent transcript analysis as a general method. First, I identified the precise positions of Pol II pausing near promoters using a genome-wide nuclear run-on, called Precision Run-On sequencing (PRO-seq) in Drosophila embryonic cells. Using this, I revealed how the position of pausing is associated with initiation and promoter DNA elements. To further dissect the precise dynamics of paused Pol II, I probed the stability of paused Pol II and its termination by analyzing steady-state turn-over of the nascent transcript associated with Drosophila Hsp70 promoter. This shows that paused Pol II on Hsp70 is stable for around 5 min and can either terminate or elongate into the gene body, which is consistent with optical measurements of paused Pol II. I also examined how Pol II elongates during the time course of rapid and robust inhibition of pause escape in mouse embryonic stem cells. The analysis of the elongation rates in nearly 1,000 genes showed tight interplay between promoter proximal pausing, early elongation rates, and co-transcriptional splicing at the beginning of the genes. Finally, I demonstrate that the nascent transcriptome analysis methods can be directly extended into mammalian tissues, and show possibility of linking the study of the fundamental mechanism of Pol II into biomedical applications.
Author : Natalya Yudkovsky
Publisher :
ISBN 13 :
Total Pages : 188 pages
Book Rating : 4.:/5 (55 download)
Download or read book Mechanisms of Factor Recruitment at Promoters During RNA Polymerase II Transcription written by Natalya Yudkovsky and published by . This book was released on 2001 with total page 188 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Jeffrey A. Ranish
Publisher :
ISBN 13 :
Total Pages : 242 pages
Book Rating : 4.:/5 (428 download)
Download or read book Mechanisms of Transcription by RNA Polymerase II written by Jeffrey A. Ranish and published by . This book was released on 1999 with total page 242 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Yuli Guo
Publisher :
ISBN 13 :
Total Pages : 246 pages
Book Rating : 4.:/5 ( download)
Download or read book Mechanism and Regulation of Bacterial Promoter Opening written by Yuli Guo and published by . This book was released on 1999 with total page 246 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Carsten Carlberg
Publisher : Springer
ISBN 13 : 9401777411
Total Pages : 219 pages
Book Rating : 4.4/5 (17 download)
Download or read book Mechanisms of Gene Regulation written by Carsten Carlberg and published by Springer. This book was released on 2016-06-06 with total page 219 pages. Available in PDF, EPUB and Kindle. Book excerpt: This textbook aims to describe the fascinating area of eukaryotic gene regulation for graduate students in all areas of the biomedical sciences. Gene expression is essential in shaping the various phenotypes of cells and tissues and as such, regulation of gene expression is a fundamental aspect of nearly all processes in physiology, both in healthy and in diseased states. This pivotal role for the regulation of gene expression makes this textbook essential reading for students of all the biomedical sciences, in order to be better prepared for their specialized disciplines. A complete understanding of transcription factors and the processes that alter their activity is a major goal of modern life science research. The availability of the whole human genome sequence (and that of other eukaryotic genomes) and the consequent development of next-generation sequencing technologies have significantly changed nearly all areas of the biological sciences. For example, the genome-wide location of histone modifications and transcription factor binding sites, such as provided by the ENCODE consortium, has greatly improved our understanding of gene regulation. Therefore, the focus of this book is the description of the post-genome understanding of gene regulation. The purpose of this book is to provide, in a condensed form, an overview on the present understanding of the mechanisms of gene regulation. The authors are not aiming to compete with comprehensive treatises, but rather focus on the essentials. Therefore, the authors have favored a high figure-to-text ratio following the rule stating that “a picture tells more than thousand words”. The content of the book is based on the lecture course, which is given by Prof. Carlberg since 2001 at the University of Eastern Finland in Kuopio. The book is subdivided into 4 sections and 13 chapters. Following the Introduction there are three sections, which take a view on gene regulation from the perspective of transcription factors, chromatin and non-coding RNA, respectively. Besides its value as a textbook, Mechanisms of Gene Regulation will be a useful reference for individuals working in biomedical laboratories.
Author : Hanif Vahedian Movahed
Publisher :
ISBN 13 :
Total Pages : 163 pages
Book Rating : 4.:/5 (13 download)
Download or read book Sequence-specific Interactions Between RNA Polymerase and the Core Recognition Element written by Hanif Vahedian Movahed and published by . This book was released on 2017 with total page 163 pages. Available in PDF, EPUB and Kindle. Book excerpt: In bacteria, the flow of biological information from DNA to RNA is carried out by a single enzyme called RNA polymerase (RNAP). Bacterial RNAP is composed of a multi-subunit catalytic core and a dissociable subunit called sigma factor. Since the discovery of sigma factor in 1969, the prevailing view has been that the RNAP core enzyme requires binding to sigma for sequence-specific transcription, because the RNAP core does not contain the determinants for sequence-specific core promoter recognition and DNA unwinding. It has also been assumed that sequence-specific RNAP-DNA interactions are mainly limited to transcription initiation, as sigma could dissociate from the RNAP core after the initiation stage. These two paradigmatic assumptions have been challenged by recent structural evidence from our lab, which indicates in the initiation complex, the RNAP core directly interacts with the non-template strand segment of the transcription bubble corresponding to positions -4 to +2, and that the interaction with this element is sequence-specific at least at one of its positions. This element has been termed the "core recognition element, " CRE. This thesis addresses three major topics regarding CRE: sequence-specificity, recognition mechanism, and the functional roles. In chapter 1, using equilibrium binding and dissociation kinetics studies, I demonstrate that the RNAP core shows sequence-specificity at 3-out-of-6 CRE positions (the consensus sequence is T-4 n-3 n-2 n-1 T+1 G+2). I also determine that RNAP amino acid bR371 mediates specificity at CRE position -4, W183 mediates specificity at CRE position +1, and bR151, bD446, or bR451 mediates specificity at CRE position +2. In subsequent chapters, I use the RNAP derivative containing the D446A substitution as a reagent to assess the functional significance of RNAP-CRE+2G interactions on transcription initiation and elongation. In chapters 2, 3 and 4, using a combination of next-generation sequencing approaches and biophysical and biochemical assays, I show that sequence-specific RNAP-GCRE interactions play functional roles in three key stages of transcription initiation: promoting DNA unwinding at a consensus GCRE sequence, favoring start-site selection at positions upstream of a consensus GCRE sequence, and reducing the probability of abortive transcript release at positions upstream of a consensus GCRE sequence. In chapter 5, using biochemical assays and mNET-seq, I show that sequence-specific RNAP-GCRE interaction occurs in and plays functional roles in key stages of transcription elongation through the E. coli genome: favoring pause-read-through at positions upstream of consensus GCRE sequence and favoring post-translocated states at positions upstream of consensus GCRE sequence. In chapter 6, using a promoter-independent transcription assay, I show that RNAP-GCRE interaction occurs in, and plays functional roles in all three domains of life: bacteria, archaea and eukaryote. In chapter 7, using genome-wide next-generation sequencing approaches, I show that the RNAP core can perform sequence-specific transcription in the absence of sigma factor in a manner that correlates with the presence of an AT-rich region followed by a TG-motif. In the final chapter, I summarize how my work revealed previously undocumented regulatory events in transcription initiation and elongation. Based on my findings, I describe two implications of this thesis for future consideration: a scenario describing what the architecture of primordial promoter sequences might have looked like and a mechanism for antibiotic-tolerant persistence state.
