Single-molecule Studies of Nucleic Acid Folding PDF Download
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Author: Peter Caton Anthony
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Nucleic acids--DNA and RNA--are critical to life, involved in the storage and decoding of genetic information in the cell as well as the regulation and catalysis of specific biological processes. The function of a nucleic acid molecule is determined in large part by the structure it adopts, which in turn depends on its sequence. The mechanisms of sequence-directed nucleic acid folding remain incompletely understood, particularly for large RNA molecules. The work presented in this thesis uses single-molecule optical-trapping techniques to study nucleic acid folding, where reversible folding is induced and measured in individual molecules through the application of force. In Chapter 2 we demonstrate direct measurement of the full folding energy landscapes of DNA hairpins, which comprise a model system for studying nucleic acid secondary structure, and show how such landscapes are sensitive to sequence. In Chapter 3 we study the electrostatics of DNA hairpin folding by measuring trends in folding energies under different ionic conditions and comparing these trends with those predicted by Poisson-Boltzmann theory. Finally, in Chapter 4 we examine folding of the TPP riboswitch aptamer, an RNA molecule with complex secondary structure that also adopts tertiary structure upon binding a small-molecule ligand. We measured the folding energy landscape of the aptamer and perturbations of this landscape resulting from mutations and ligand binding, and propose a kinetic model to describe the coupling between aptamer folding and ligand binding. Taken together, the results presented here demonstrate the usefulness of the energy landscape framework for characterizing nucleic acid folding in conjunction with single-molecule measurements.
Author: Peter Caton Anthony
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Nucleic acids--DNA and RNA--are critical to life, involved in the storage and decoding of genetic information in the cell as well as the regulation and catalysis of specific biological processes. The function of a nucleic acid molecule is determined in large part by the structure it adopts, which in turn depends on its sequence. The mechanisms of sequence-directed nucleic acid folding remain incompletely understood, particularly for large RNA molecules. The work presented in this thesis uses single-molecule optical-trapping techniques to study nucleic acid folding, where reversible folding is induced and measured in individual molecules through the application of force. In Chapter 2 we demonstrate direct measurement of the full folding energy landscapes of DNA hairpins, which comprise a model system for studying nucleic acid secondary structure, and show how such landscapes are sensitive to sequence. In Chapter 3 we study the electrostatics of DNA hairpin folding by measuring trends in folding energies under different ionic conditions and comparing these trends with those predicted by Poisson-Boltzmann theory. Finally, in Chapter 4 we examine folding of the TPP riboswitch aptamer, an RNA molecule with complex secondary structure that also adopts tertiary structure upon binding a small-molecule ligand. We measured the folding energy landscape of the aptamer and perturbations of this landscape resulting from mutations and ligand binding, and propose a kinetic model to describe the coupling between aptamer folding and ligand binding. Taken together, the results presented here demonstrate the usefulness of the energy landscape framework for characterizing nucleic acid folding in conjunction with single-molecule measurements.
Author: Gregory Edward Bokinsky
Publisher:
ISBN: 9781109894295
Category : RNA
Languages : en
Pages : 136
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Book Description
Our studies of RNA folding examined the minimal hairpin ribozyme, a system that exhibits a simple two-state behavior. By monitoring the folding and unfolding rates of several mutants and with metal ion titrations, we have developed a coarse-grained picture of an elementary RNA folding transition state. We found that the transition state structure is very compact and stabilized by electrostatic interactions, though native tertiary contacts are either lacking entirely or only partially formed.
Author: Daniel Cibrán Pérez González
Publisher:
ISBN:
Category : DNA-protein interactions
Languages : en
Pages : 194
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Book Description
Author: David Bensimon
Publisher: Oxford University Press
ISBN: 0192559966
Category : Science
Languages : en
Pages : 224
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Book Description
This book provides the basis for understanding the elastic properties of nucleic acids (DNA, RNA), the methods used to manipulate them (e.g. optical, magnetic and acoustic tweezers and traps), and how to observe their interactions with proteins (e.g. fluorescence microscopy, FCS, FRET, etc.). It then exemplifies the use of these various methods in the study of three families of DNA enzymes: polymerases, helicases and topoisomerases. The book aims not to be exhaustive, but rather to stimulate the imagination of readers in the application of these single molecule approaches to the study of DNA/RNA and their interactions.
Author: Daniel Herschlag
Publisher: Academic Press
ISBN: 0123809231
Category : Science
Languages : en
Pages : 567
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Book Description
This MIE volume provides laboratory techniques that aim to predict the structure of a protein which can have tremendous implications ranging from drug design, to cellular pathways and their dynamics, to viral entry into cells. - Expert researchers introduce the most advanced technologies and techniques in protein structure and folding - Includes techniques on tiling assays
Author: Wolfram Saenger
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 230
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Book Description
This volume contains a series of essays which describe a range of problems in the field of nucleic-acid interactions, investigated by a variety of techniques. An introductory chapter on DNA-protein interactions in the regulation of gene expression is followed by papers on selected model systems.
Author: Rick Russell
Publisher: Springer Science & Business Media
ISBN: 1461449545
Category : Science
Languages : en
Pages : 238
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Book Description
This volume, written by experts in the field, discusses the current understanding of the biophysical principles that govern RNA folding, with featured RNAs including the ribosomal RNAs, viral RNAs, and self-splicing introns. In addition to the fundamental features of RNA folding, the central experimental and computational approaches in the field are presented with an emphasis on their individual strengths and limitations, and how they can be combined to be more powerful than any method alone; these approaches include NMR, single molecule fluorescence, site-directed spin labeling, structure mapping, comparative sequence analysis, graph theory, course-grained 3D modeling, and more. This volume will be of interest to professional researchers and advanced students entering the field of RNA folding.
Author: Peter Hinterdorfer
Publisher: Springer Science & Business Media
ISBN: 0387764976
Category : Science
Languages : en
Pages : 634
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Book Description
This handbook describes experimental techniques to monitor and manipulate individual biomolecules, including fluorescence detection, atomic force microscopy, and optical and magnetic trapping. It includes single-molecule studies of physical properties of biomolecules such as folding, polymer physics of protein and DNA, enzymology and biochemistry, single molecules in the membrane, and single-molecule techniques in living cells.
Author: Kazuyuki Akasaka
Publisher: Springer
ISBN: 9401799180
Category : Medical
Languages : en
Pages : 722
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Book Description
This volume covers both the basic concepts and theory of bio-macromolecules under pressure and the various frontiers in high-pressure bioscience and biotechnology. A century has passed since Bridgman discovered the irreversible coagulation of egg white by applying pressure at 700 atmospheres in 1914. Today we are able to monitor pressure-dependent changes in protein structure as a reversible process even at atomic scale with modern spectroscopic techniques. We can study the fluctuating reality of protein structures as designed by nature, which is the basis for all dynamism of life on earth. We are currently facing a new era of high-pressure bioscience, in which pressure is no longer an “odd” or “foreign” variable to life, but rather an integrated part of it. Pressure is used as a crucial variable for disclosing the secrets of nature and as a powerful new tool for enhancing certain reactions in bio-macromolecules and even in living cells for our practical and industrial needs. A dramatic advancement of high-pressure bioscience both in the basic and the applied sciences is thus anticipated in near future, for which sharing the current advanced knowledge on structure and dynamics of bio-macromolecules under pressure among researchers in both fields is crucial. This book serves as a valuable resource not only for those working directly in a pressure-related field, but also for those working in many other fields of the biosciences. Particularly, the basic part of it is intended to serve as a classical text book on high-pressure bioscience to a wide audience including students and researchers in both basic and applied fields in years to come. Readers can focus on topics of immediate interest first, but may wish to go over other chapters if interest arises in a later occasion.
Author: Krishnarjun Sarkar
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
