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Author: Nicholas K. Preketes
Publisher:
ISBN: 9781303603662
Category :
Languages : en
Pages : 152
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Book Description
Simulations of two-dimensional infrared (2DIR) spectroscopy of several proteins are presented. Applications of 2DIR spectroscopy to protein folding, protein aggregation, and photosensing are reported. We demonstrate that 2DIR spectroscopy is an excellent probe of protein structure and dynamics. Our simulations predict future experiments as well as provide detailed explanations of previous experiments. We also present simulations of the related two-dimensional ultraviolet and two-dimensional stimulated resonance Raman spectroscopies, which are shown to provide complementary information to 2DIR spectroscopy. This thesis can be viewed as a guide for the design and analysis of future two-dimensional optical measurements on proteins.
Author: Nicholas K. Preketes
Publisher:
ISBN: 9781303603662
Category :
Languages : en
Pages : 152
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Book Description
Simulations of two-dimensional infrared (2DIR) spectroscopy of several proteins are presented. Applications of 2DIR spectroscopy to protein folding, protein aggregation, and photosensing are reported. We demonstrate that 2DIR spectroscopy is an excellent probe of protein structure and dynamics. Our simulations predict future experiments as well as provide detailed explanations of previous experiments. We also present simulations of the related two-dimensional ultraviolet and two-dimensional stimulated resonance Raman spectroscopies, which are shown to provide complementary information to 2DIR spectroscopy. This thesis can be viewed as a guide for the design and analysis of future two-dimensional optical measurements on proteins.
Author: Huong Tran Kratochvil
Publisher:
ISBN:
Category :
Languages : en
Pages : 231
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Book Description
Understanding the structure and dynamics of proteins is essential to understanding their roles and functions in these physiological processes. In this thesis, I describe the implementation of an ultrafast nonlinear spectroscopic technique, two-dimensional infrared (2D IR) spectroscopy to probe the structure and dynamics of ion channels and amyloid fibers. Regarding ion channels, I describe the combination of semisynthesis, 2D IR spectroscopy and molecular dynamic (MD) simulations in addressing the longstanding question of ion permeation through the selectivity filter of a potassium ion channel. I show that ions and water alternate through the filter and that these ions cannot occupy adjacent binding sites. Furthermore, 2D IR experiments revealed a flipped state that is predicted by MD simulations but not observed in x-ray crystallography. In another aspect of this work, we show that the collapsed state of the filter is structurally different in low K+ and low pH. Moreover, our work also reveals how the large conformational motions of the protein are coupled to structural changes in the selectivity filter, as evidenced by a change in the ion occupancy. In a second research direction, I developed an optical technique to quantify photoactivatable fluorophores with fluorescence microscopy. This technique allows for the quantification of a limitless number of fluorophores, and corrects for stochastic events such as fluorescence intermittency. This work can be extended to the study of amyloids, where determining the number of proteins in a prefibrillar aggregates is necessary for understanding their roles in amyloid related diseases. Finally, using 2D IR spectroscopy we describe the effect of common solvents on the anharmonicity of small molecule chromophores. The data indicates that the carbonyl anharmonicity, and, subsequently, the Stark tuning rate, is an intrinsic property of the carbonyl vibrational probes, which have important implications on the interpretation of carbonyl vibrational frequency shifts in the condensed phase.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Theoretical Vibrational Spectroscopy of Proteins Lu Wang Under the supervision of Professor James L. Skinner At the University of Wisconsin-Madison Vibrational spectroscopy, such as linear and two-dimensional infrared (IR) spectroscopy, is widely utilized to study the structure and dynamics of peptides and proteins. Interpretation of the experiment, or a direct assignment of the complex experimental spectra to the underlying protein structure, can be difficult. Molecular dynamics (MD) simulations offer a complementary approach to provide high-resolution structural and temporal information of proteins, although they are limited by factors such as force field accuracy and are not directly comparable to spectroscopic experiments. We have developed vibrational frequency maps for proteins that generate instantaneous site frequencies directly from MD simulations. We combine the frequency maps with established nearest-neighbor frequency shift and coupling schemes and a mixed quantum/classical framework to form a theoretical strategy for calculating protein linear and 2D IR spectra in the amide I region. This theoretical method provides a means to bridge spectroscopic experiments and molecular simulations, which allows a critical assessment of MD simulations by comparison to experiment, and enables the interpretation of experimental spectra at the molecular level. In this dissertation, we present the development of the vibrational frequency maps and provide the theoretical protocol that allows the calculation of protein vibrational spectra directly from MD simulations. We validate the theoretical method by applying it to peptides with various secondary structures in aqueous solution, and apply it to a few biologically relevant problems. For instance, we have studied the thermal unfolding transition of the villin headpiece subdomain (HP36) using IR spectra calculations. We follow the unfolding process of HP36 by monitoring its spectral changes as a function of temperature. With the help of isotope labeling, we are able to capture the feature that helix 2 of HP36 loses its secondary structure before global unfolding occurs, in agreement with experiment. In collaboration with the Zanni group and the de Pablo group at University of Wisconsin, we have also carried out studies on IAPP, a peptide closely related to type 2 diabetes. By combining theoretical modeling with extensive computer simulations and spectroscopic experiments, we have investigated the structure and dynamics of IAPP in aqueous solution, in the fibril form and in the vicinity of lipid membranes.
Author: Yukihiro Ozaki
Publisher: Academic Press
ISBN: 0128186119
Category : Science
Languages : en
Pages : 609
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Book Description
Vibrational Spectroscopy in Protein Research offers a thorough discussion of vibrational spectroscopy in protein research, providing researchers with clear, practical guidance on methods employed, areas of application, and modes of analysis. With chapter contributions from international leaders in the field, the book addresses basic principles of vibrational spectroscopy in protein research, instrumentation and technologies available, sampling methods, quantitative analysis, origin of group frequencies, and qualitative interpretation. In addition to discussing vibrational spectroscopy for the analysis of purified proteins, chapter authors also examine its use in studying complex protein systems, including protein aggregates, fibrous proteins, membrane proteins and protein assemblies. Emphasis throughout the book is placed on applications in human tissue, cell development, and disease analysis, with chapters dedicated to studies of molecular changes that occur during disease progression, as well as identifying changes in tissues and cells in disease studies. Provides thorough guidance in implementing cutting-edge vibrational spectroscopic methods from international leaders in the field Emphasizes in vivo, in situ and non-invasive analysis of proteins in biomedical and life science research more broadly Contains chapters that address vibrational spectroscopy for the study of simple purified proteins and protein aggregates, fibrous proteins, membrane proteins and protein assemblies
Author: Ayanjeet Ghosh
Publisher:
ISBN:
Category :
Languages : en
Pages : 285
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Book Description
Author: Michael D. Fayer
Publisher: CRC Press
ISBN: 1466510137
Category : Science
Languages : en
Pages : 491
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Book Description
The advent of laser-based sources of ultrafast infrared pulses has extended the study of very fast molecular dynamics to the observation of processes manifested through their effects on the vibrations of molecules. In addition, non-linear infrared spectroscopic techniques make it possible to examine intra- and intermolecular interactions and how such interactions evolve on very fast time scales, but also in some instances on very slow time scales. Ultrafast Infrared Vibrational Spectroscopy is an advanced overview of the field of ultrafast infrared vibrational spectroscopy based on the scientific research of the leading figures in the field. The book discusses experimental and theoretical topics reflecting the latest accomplishments and understanding of ultrafast infrared vibrational spectroscopy. Each chapter provides background, details of methods, and explication of a topic of current research interest. Experimental and theoretical studies cover topics as diverse as the dynamics of water and the dynamics and structure of biological molecules. Methods covered include vibrational echo chemical exchange spectroscopy, IR-Raman spectroscopy, time resolved sum frequency generation, and 2D IR spectroscopy. Edited by a recognized leader in the field and with contributions from top researchers, including experimentalists and theoreticians, this book presents the latest research methods and results. It will serve as an excellent resource for those new to the field, experts in the field, and individuals who want to gain an understanding of particular methods and research topics.
Author: Minhaeng Cho
Publisher: CRC Press
ISBN: 1420084305
Category : Medical
Languages : en
Pages : 396
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Book Description
Two-Dimensional Optical Spectroscopy discusses the principles and applications of newly emerging two-dimensional vibrational and optical spectroscopy techniques. It provides a detailed account of basic theory required for an understanding of two-dimensional vibrational and electronic spectroscopy. It also bridges the gap between the formal developm
Author: Isao Noda
Publisher: John Wiley & Sons
ISBN: 0470012390
Category : Science
Languages : en
Pages : 310
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Book Description
A valuable tool for individuals using correlation spectroscopy and those that want to start using this technique. Noda is known as the founder of this technique, and together with Ozaki, they are the two biggest names in the area First book on 2D vibrational and optical spectroscopy - single source of information, pulling together literature papers and reveiws Growing number of applications of this methodology - book now needed for people thinking of using this technique Limitations and benefits discussed and comparisons made with 2D NMR Discusses 20 optical and vibrational spectroscopy (IR, Raman, UV, Visible)
Author: Peter Hamm
Publisher: Cambridge University Press
ISBN: 1139497073
Category : Science
Languages : en
Pages : 297
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Book Description
2D infrared (IR) spectroscopy is a cutting-edge technique, with applications in subjects as diverse as the energy sciences, biophysics and physical chemistry. This book introduces the essential concepts of 2D IR spectroscopy step-by-step to build an intuitive and in-depth understanding of the method. This unique book introduces the mathematical formalism in a simple manner, examines the design considerations for implementing the methods in the laboratory, and contains working computer code to simulate 2D IR spectra and exercises to illustrate involved concepts. Readers will learn how to accurately interpret 2D IR spectra, design their own spectrometer and invent their own pulse sequences. It is an excellent starting point for graduate students and researchers new to this exciting field. Computer codes and answers to the exercises can be downloaded from the authors' website, available at www.cambridge.org/9781107000056.
Author: Goran Tumbic
Publisher:
ISBN:
Category : Proteins
Languages : en
Pages : 0
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Book Description
Proteins function as ensembles of interconverting structures. The motions span from picosecond bond rotations to millisecond and longer subunit displacements. Characterization of functional dynamics on all spatial and temporal scales remains challenging experimentally. Two-dimensional IR spectroscopy (2D IR) is maturing as a powerful approach for investigating proteins and their dynamics. This document outlines the advantages of IR spectroscopy, describes 2D IR and the information it provides, and introduces vibrational groups for protein analysis. Following this introduction, example studies are presented that illustrate the power and versatility of 2D IR for characterizing protein dynamics. The thesis concludes with a brief discussion of the outlook for biomolecular 2D IR.
