The Design and Study of Chemically Modified RNA for RNA Interference and RNA Editing Using Structure Guided Approaches PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download The Design and Study of Chemically Modified RNA for RNA Interference and RNA Editing Using Structure Guided Approaches PDF full book. Access full book title The Design and Study of Chemically Modified RNA for RNA Interference and RNA Editing Using Structure Guided Approaches by Scott Ryan Suter. Download full books in PDF and EPUB format.
Author: Scott Ryan Suter
Publisher:
ISBN: 9780438637276
Category :
Languages : en
Pages :
Get Book Here
Book Description
Nucleic acids have been studied extensively due to their numerous functional roles in biological systems. Biological processes associated with the post transcriptional modification of RNA, namely RNA interference (RNAi) and RNA editing, have shown therapeutic potential due to their ability to alter mRNAs. RNA interference is a process which results in the cleavage of mRNA transcripts using a guide RNA template to find its target sequence and prevent translational expression. RNA editing causes the recoding of mRNA transcripts, altering protein function. The following dissertation discusses experiments which guide the chemical modification of RNA substrates of RNAi and RNA editing to bypass hurdles associated with their development as therapeutics. The Beal lab studies nucleobase modifications of short interfering RNAs (siRNAs), which are used in RNAi to target mRNA sequences of interest. Chapters 2 and 3 of this thesis will discuss nucleobase modifications to bypass the innate immune response of the cell and prevent off-target knockdown of undesired mRNA sequences. Using the crystal structures of an innate immune signaling protein, Toll-like Receptor 8 (TLR8), and of the catalytic endonuclease of RNAi, Argonaute 2 (Ago2), new chemical modifications for siRNAs were synthesized which can bypass TLR8 recognition and allow selective target mRNA cleavage by Ago2. Crystal structures of TLR8 bound to a small molecule and RNA derived agonists allowed the rational design of major and minor groove nucleobase modifications for siRNAs to bypass TLR8 recognition. To study the off-target knockdown of mRNA transcripts by Ago2, ethynyl modified riboses and nucleobases within key positions of the siRNA sequence were synthesized. Crystal structures of guide RNA loaded hAgo2 bound to an off-target mimic were vital for the study of these new triazoles. This resulted in the development of new siRNAs which were able to select for the knockdown of their targeted sequence over known off-target sequences. Chapter 4 of this dissertation discusses preliminary work in the use of small molecule molecular docking software to find nucleobase modifications to enhance RNA/protein interactions. New RNAs which can bind to guide strand loaded Ago2 were synthesized using this screening method and were found to bind more tightly than three of the four canonical RNA bases. This screening method was also applied to the RNA editing protein adenosine deaminase acting on RNA 2 (ADAR2). The recently solved crystal structure of ADAR2’s catalytic domain bound to its RNA substrate displayed a potential binding pocket to which modified, non-edited RNAs could bind. This work discusses the preliminary results of these modified non-edited RNAs, and how they influence the deamination reaction of ADAR2. This chapter also discusses the use of the transition state inhibitor 8-aza-nebularine from the solved crystal structure, as a ligand to accomplish a molecular docking screen to search for potential inhibitors of ADAR2.
Author: Scott Ryan Suter
Publisher:
ISBN: 9780438637276
Category :
Languages : en
Pages :
Get Book Here
Book Description
Nucleic acids have been studied extensively due to their numerous functional roles in biological systems. Biological processes associated with the post transcriptional modification of RNA, namely RNA interference (RNAi) and RNA editing, have shown therapeutic potential due to their ability to alter mRNAs. RNA interference is a process which results in the cleavage of mRNA transcripts using a guide RNA template to find its target sequence and prevent translational expression. RNA editing causes the recoding of mRNA transcripts, altering protein function. The following dissertation discusses experiments which guide the chemical modification of RNA substrates of RNAi and RNA editing to bypass hurdles associated with their development as therapeutics. The Beal lab studies nucleobase modifications of short interfering RNAs (siRNAs), which are used in RNAi to target mRNA sequences of interest. Chapters 2 and 3 of this thesis will discuss nucleobase modifications to bypass the innate immune response of the cell and prevent off-target knockdown of undesired mRNA sequences. Using the crystal structures of an innate immune signaling protein, Toll-like Receptor 8 (TLR8), and of the catalytic endonuclease of RNAi, Argonaute 2 (Ago2), new chemical modifications for siRNAs were synthesized which can bypass TLR8 recognition and allow selective target mRNA cleavage by Ago2. Crystal structures of TLR8 bound to a small molecule and RNA derived agonists allowed the rational design of major and minor groove nucleobase modifications for siRNAs to bypass TLR8 recognition. To study the off-target knockdown of mRNA transcripts by Ago2, ethynyl modified riboses and nucleobases within key positions of the siRNA sequence were synthesized. Crystal structures of guide RNA loaded hAgo2 bound to an off-target mimic were vital for the study of these new triazoles. This resulted in the development of new siRNAs which were able to select for the knockdown of their targeted sequence over known off-target sequences. Chapter 4 of this dissertation discusses preliminary work in the use of small molecule molecular docking software to find nucleobase modifications to enhance RNA/protein interactions. New RNAs which can bind to guide strand loaded Ago2 were synthesized using this screening method and were found to bind more tightly than three of the four canonical RNA bases. This screening method was also applied to the RNA editing protein adenosine deaminase acting on RNA 2 (ADAR2). The recently solved crystal structure of ADAR2’s catalytic domain bound to its RNA substrate displayed a potential binding pocket to which modified, non-edited RNAs could bind. This work discusses the preliminary results of these modified non-edited RNAs, and how they influence the deamination reaction of ADAR2. This chapter also discusses the use of the transition state inhibitor 8-aza-nebularine from the solved crystal structure, as a ligand to accomplish a molecular docking screen to search for potential inhibitors of ADAR2.
Author: Jonatha M. Gott
Publisher: Springer Science & Business Media
ISBN: 1592597750
Category : Science
Languages : en
Pages : 437
Get Book Here
Book Description
This volume presents a comprehensive collection of cuttingedge methods for elucidating the function of new genes and altering gene expression. These readily reproducible techniques can be used either in transient and stable gene splicing applied to worms, flies, trypanosomes, mammals, and plants, or in studying RNA editing mechanisms in a wide range of organisms, including systems that involve the conversion of one base to another and insertion/deletion editing. Topics of interest include stable and transient RNA interference, gene silencing, RNA editing, bioinformatics, small noncoding RNAs, and RNomics. Special attention is given to methods for the identification and characterization of small RNAs involved in RNA interference or modification. Readily reproducible protocols for discovering new genes or altering gene expression.
Author: Ute Schepers
Publisher: John Wiley & Sons
ISBN: 3527604375
Category : Science
Languages : en
Pages : 336
Get Book Here
Book Description
This hands-on guide to RNA interference brings the power of targeted gene silencing to any laboratory with the basic equipment for handling nucleic acids. In easy-to-follow, step-by-step protocols you will learn * how RNAi works in worms, flies and mammals, * how to design the most efficient RNAi constructs, * how to achieve transient, stable and conditional RNAi in cell cultures, * how to determine the efficiency of an RNAi experiment, * and how to use RNAi for gene therapy. All the protocols have been thoroughly tested in the author's own laboratory, and she provides examples of successful experiments and troubleshooting hints to help in establishing your own successful RNAi experiments. Also includes a list of suppliers for RNAi reagents and equipment as well as a glossary of terms.
Author: Leanna Rose Monteleone
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
RNA editing is defined as the insertion, deletion, or modification of a nucleotide that changes the information content of a sequence. Adenosine deaminases acting on RNA (ADARs) can deaminate an adenosine (A) in duplex RNA to inosine (I). Cellular machinery interprets inosine as guanosine, which can result in various consequences on RNA function. A-to-I editing can alter microRNA sequences, redirect splicing, and change secondary structure. More dramatically A-to-I editing can result in a recoding event, thereby changing the amino acid at a specific position. In recent years, there has been rapidly growing interest in engineering ADARs or directing endogenous ADARs to specific G-to-A mutations linked to various diseases. The contents of this dissertation details the progress we have made, with the help of various collaborations, to use ADARs for site- directed RNA editing. In chapter 1, I review various types of RNA editing with a great focus on adenosine deamination. I emphasize ADARs biological function, substrate specificity, and the roles ADARs have in various diseases. I further discuss the structural data that is known for ADAR2 and how this knowledge has led to a better understanding of using ADARs for site-directed RNA editing. In chapter 2, I discuss the previous approaches used for site-ivdirected RNA editing with ADAR and the challenge of overcoming off-target reactions. To overcome off-target reactions, I have designed an orthogonal editing system utilizing a bump-hole strategy to prevent off-target edits. I have shown that combining bulky ADAR mutants with a chemically modified guide RNA (gRNA) achieves site-selective editing with reduced off-target edits both in vitro and in cellular assays. In chapter 3, I focus on our collaboration with Prof. Gail Mandel's laboratory at Oregon Health and Science University to study a disease-causing mutation linked to Rett Syndrome. In this approach, we have focused on rationally designing chemically modified gRNAs that could potentially recruit endogenous wild type ADARs. Our rational design utilizes the crystallography of ADAR2 constructs bound to double stranded RNA (dsRNA) that were solved by our collaborators in Prof. Andrew Fisher's laboratory. In chapter 4, I deviate from using ADARs for site-directed RNA editing to elucidate the biological role of ADAR3. ADAR3 is catalytically inactive and is exclusively located in the brain. To further understand the role of ADAR3, five mutations were incorporated to engineer an active ADAR3 (ADAR3 M3). From here, we propose that ADAR3 not only acts as a negative regulator of ADAR1 and ADAR2, but also as a direct regulator in stabilizing specific transcripts. With an active ADAR3, future studies can be done to use ADAR3 M3 or another version of an active ADAR3 for site-directed RNA editing.
Author:
Publisher: Academic Press
ISBN: 0128023317
Category : Science
Languages : en
Pages : 441
Get Book Here
Book Description
RNA Modification provides a useful examination of the science and its role in biological regulation, the current frontier of life science research, and includes various RNA modications and their role in gene expression. It represents the most up-to-date knowledge and protocols available today. Dynamic RNA modifications and their roles in biological regulation are the current frontier of life science research This volume of Methods in Enzymology represents up to date knowledge and protocols
Author: Harold C. Smith
Publisher: John Wiley & Sons
ISBN: 9780470262252
Category : Science
Languages : en
Pages : 456
Get Book Here
Book Description
RNA and DNA Editing assembles a team of leading experts who present the latest discoveries in the field alongside the latest models and methodology. In addition, the authors set forth the many open questions and suggest routes for further investigation. Overall, the book serves as a practical guide for professionals in the field who need to understand the interrelationship of RNA and DNA editing with other chemical and biological processes.
Author: Tudor A. Fulga
Publisher: Humana
ISBN: 9781071606896
Category : Science
Languages : en
Pages : 286
Get Book Here
Book Description
This detailed volume focuses on the CRISPR-associated guide RNA and how it can be designed, modified, and validated for a broad repertoire of purposes. Beginning with a section on computational design of target-specific guide RNAs, the book continues by covering chemical modifications to alter guide RNA stability, specificity, and efficiency, as well as to create inducible guide RNAs, append additional functional domains, and express guide RNAs in a conditional manner. It concludes with methods for measuring off-target guide RNA activity. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and essential, CRISPR Guide RNA Design: Methods and Protocols provides a comprehensive pipeline for guide RNA design and aims to be an invaluable resource in applying this powerful technology to basic research and therapeutic applications.
Author:
Publisher: Academic Press
ISBN: 0128235861
Category : Science
Languages : en
Pages : 476
Get Book Here
Book Description
RNA Modification Enzymes, Volume 659 in the Methods in Enzymology series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of related topics, including Locating chemical modifications in RNA sequences through ribonucleases and LC-MS based analysis, Development of RNA modification mapping pipelines for high-throughput sequencing approaches, AlkAniline-Seq for high-resolution mapping RNA m7G and m3C modifications, Facile detection of RNA phospho-methylation in cells, Detection and analysis of glycosylated queuosine modifications, A comprehensive pipeline for analysis of RNA 3’-end modification, Analysis of the epitranscriptome with ion-pairing reagent free oligonucleotide mass spectrometry, and more. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Methods in Enzymology series Updated release includes the latest information on the RNA Modification Enzymes
Author: Madeline Marie Mumbleau
Publisher:
ISBN: 9781658413633
Category :
Languages : en
Pages :
Get Book Here
Book Description
RNA is considered one of the most versatile biological macromolecules, playing diverse roles in both encoding and manipulating gene expression. The function of RNA-mediated biology depends on the RNA's three-dimensional structure and its interactions with a multitude of biological ligands (proteins, small regulatory RNAs, and translation initiation or splice site selection machinery). One of these RNA-mediated pathways, RNA interference (RNAi), over the past two decades, has emerged a prominent tool and potential therapeutic utilizing small RNAs in regulating gene expression. Understanding the structure and function of these small RNAs, such as small interfering RNAs (siRNAs) is necessary to gain insight in the RNAi pathway. Building off of previous work in our laboratory, which demonstrated that chemically modifying siRNAs can lead to greater on-target selectivity and potency at guide position 6, we further explore the structural basis of this observation. We evaluated the structural impact of 7-ethynyl-8-aza-7-deazaadenosine (7-EAA) triazole modifications in RNA duplex formation and hAgo2-guide-target ternary complexes. A high-resolution crystal structure of an RNA duplex bearing a 7-EAA BrPh triazole suggests the ability to disrupt RNA-protein interactions. Leveraging off of successful results at guide position 6, initial studies with 7-EAA modified at a new guide position, guide position 7, were conducted to observe its influence of on-target potency and selectivity in the RNAi pathway. Both native and 7-EAA modified siRNAs at guide position 7 were tested to establish a preliminary understanding of how position-dependent modifications effect on-target and off-target knockdown efficiency. Initial results suggest that our target siRNA exhibits a potent IC50 for on-target knockdown experiments, whereas off-target knockdown was inconclusive. Hence, more experimental optimization is required to obtain more accurate and statistically significant results with 7-EAA and 7-EAA triazole modifications at siRNA guide position 7. Once optimized, further advances in rational siRNA therapeutic design can be achieved through the studies with 7-EAA modified siRNAs at guide position 7 and their effect on RNAi machinery.
Author: Mouldy Sioud
Publisher: Humana
ISBN: 9781071602928
Category : Medical
Languages : en
Pages : 486
Get Book Here
Book Description
This volume explores the uses of RNAi and CRISPR interferences as a general method for inhibiting gene expression, with focus on their biological functions, design, chemical modifications, delivery, and preclinical/clinical applications. In addition to relevant backgrounds, the chapters in this book discuss simple and accurate protocols dealing with the latest advances in RNAi and CRISPR applications and look at how these methods differ from one another. 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. Comprehensive and cutting-edge, RNA Interference and CRISPR Technologies: Technical Advances and New Therapeutic Opportunities is a valuable resource for any scientist, teachers, graduate student, postdoc, and clinician interested in this field. This book also benefits anyone in research and development in biotech and pharmaceutical companies who want to understand more about these technologies, and their applications in biology and medicine.
