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Author: Thinh Luong
Publisher:
ISBN:
Category :
Languages : en
Pages : 204
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Book Description
Proteins are the work horses of the cell that perform the vast majority of functions essential for life. The mechanism by which proteins fold to their functional native state has been a subject of extensive research for more than 50 years now. Downhill folders are the class of proteins whose folding reaction is heterogeneous, non-cooperative, and happens without encountering a significant free energy barrier, resulting in ultrafast kinetics. The single ensemble of conformations of a global downhill folding protein moves gradually from highly disordered to the unique native structure when thermodynamic parameters that affect the protein's stability are changed (one-state folding). The gradual morphing of a one-state downhill folding protein structure in response to thermodynamic bias is referred to as a conformational rheostat. When such a conformational rheostat is coupled to binding an analyte, it can result in an ultrafast, broad band, and single-molecule analog biosensors. This thesis explores conformational rheostats as the mechanism behind the folding upon binding behavior of intrinsically disordered proteins and as broadband transducers towards engineering high-performance biosensors.The second chapter of this thesis describes a new methodology that we have developed to study the conformational landscape of intrinsically partially disordered proteins (IPDP). This methodology is inspired by the LEGO game, where the sequence of an IPDP is deconstructed into its local structural elements and their possible combinations based on the 3D structure the IPDP acquires upon binding its partners. The local structural elements are hence analogous to LEGO building blocks, and their combinations report on the interactions among them, like the complementary indentations of LEGO pieces. In particular, we chose the IPDP NCBD as model IPDP to develop the proof of concept for the method. Our results showed that even though the NCBD is highly flexible and apparently disordered, there are strong local signals and different sets of long-range transient interactions. These sets of interactions stabilize the overall fold and compete with one another hence resulting in a dynamic ensemble. The methodology developed in Chapter 2 is expected to be extremely useful in characterizing the incipient cooperativity of virtually any IPDP in their unbound form, a capability that is currently unavailable. Chapters 3 and 4 of this thesis deal with the design of a pH biosensor using the downhill folding protein gpW as a scaffold and unfolding coupled to ionization as a transducer. In chapter 3, a methodology for engineering conformational pH transducing into pH insensitive proteins using a histidine grafting approach was developed. The methodology was applied to the protein gpW to demonstrate an engineered, tunable broadband pH transducer based on the conformational rheostat mechanism. Chapter 4 explores general strategies for introducing fluorescence readouts capable of converting the gradual conformational changes of the rheostatic pH transducer into broadband fluorescence-based pH biosensors. Strategies that exploit the Förster Resonance Energy Transfer (FRET) and Photo Induced Electron Transfer (PET) mechanisms were explored as potential means to convert changes in conformation into suitable fluorescence signals were explored and characterized. We discovered that FRET signals using fluorophores in the visible (required for high-sensitivity biosensing) are insensitive to the localized conformational changes associated with conformational rheostats in native-like conditions. In contrast, the very short-range distance dependence of PET (
Author: Thinh Luong
Publisher:
ISBN:
Category :
Languages : en
Pages : 204
Get Book Here
Book Description
Proteins are the work horses of the cell that perform the vast majority of functions essential for life. The mechanism by which proteins fold to their functional native state has been a subject of extensive research for more than 50 years now. Downhill folders are the class of proteins whose folding reaction is heterogeneous, non-cooperative, and happens without encountering a significant free energy barrier, resulting in ultrafast kinetics. The single ensemble of conformations of a global downhill folding protein moves gradually from highly disordered to the unique native structure when thermodynamic parameters that affect the protein's stability are changed (one-state folding). The gradual morphing of a one-state downhill folding protein structure in response to thermodynamic bias is referred to as a conformational rheostat. When such a conformational rheostat is coupled to binding an analyte, it can result in an ultrafast, broad band, and single-molecule analog biosensors. This thesis explores conformational rheostats as the mechanism behind the folding upon binding behavior of intrinsically disordered proteins and as broadband transducers towards engineering high-performance biosensors.The second chapter of this thesis describes a new methodology that we have developed to study the conformational landscape of intrinsically partially disordered proteins (IPDP). This methodology is inspired by the LEGO game, where the sequence of an IPDP is deconstructed into its local structural elements and their possible combinations based on the 3D structure the IPDP acquires upon binding its partners. The local structural elements are hence analogous to LEGO building blocks, and their combinations report on the interactions among them, like the complementary indentations of LEGO pieces. In particular, we chose the IPDP NCBD as model IPDP to develop the proof of concept for the method. Our results showed that even though the NCBD is highly flexible and apparently disordered, there are strong local signals and different sets of long-range transient interactions. These sets of interactions stabilize the overall fold and compete with one another hence resulting in a dynamic ensemble. The methodology developed in Chapter 2 is expected to be extremely useful in characterizing the incipient cooperativity of virtually any IPDP in their unbound form, a capability that is currently unavailable. Chapters 3 and 4 of this thesis deal with the design of a pH biosensor using the downhill folding protein gpW as a scaffold and unfolding coupled to ionization as a transducer. In chapter 3, a methodology for engineering conformational pH transducing into pH insensitive proteins using a histidine grafting approach was developed. The methodology was applied to the protein gpW to demonstrate an engineered, tunable broadband pH transducer based on the conformational rheostat mechanism. Chapter 4 explores general strategies for introducing fluorescence readouts capable of converting the gradual conformational changes of the rheostatic pH transducer into broadband fluorescence-based pH biosensors. Strategies that exploit the Förster Resonance Energy Transfer (FRET) and Photo Induced Electron Transfer (PET) mechanisms were explored as potential means to convert changes in conformation into suitable fluorescence signals were explored and characterized. We discovered that FRET signals using fluorophores in the visible (required for high-sensitivity biosensing) are insensitive to the localized conformational changes associated with conformational rheostats in native-like conditions. In contrast, the very short-range distance dependence of PET (
Author: Charis Ghélis
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 592
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Book Description
Protein Folding aims to collect the most important information in the field of protein folding and probes the main principles that govern formation of the three-dimensional structure of a protein from a nascent polypeptide chain, as well as how the functional properties appear. This text is organized into three sections and consists of 15 chapters. After an introductory chapter where the main problems of protein folding are considered at the cellular level in the context of protein biosynthesis, the discussion turns to the conformation of native globular proteins. Definitions and rules of nome ...
Author: Suhani Nagpal
Publisher:
ISBN:
Category :
Languages : en
Pages : 382
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Book Description
In order to execute their biological activities, most proteins fold into their unique, three-dimensional structure. The discovery of intrinsically disordered proteins (IDPs) about two decades ago, which are now widely found in eukaryotes, has since challenged the structure-function paradigm. IDPs, which in isolation exist as broad, non-random, conformational ensembles of interconverting states, are centrally involved in many biological processes. The key to their functioning is the ability to fold when bound to ligand partner(s), thus operating as morphing proteins. Despite booming interest in morphing behavior, investigating their structural transitions and mechanism remains extremely difficult because of their distinct characteristics. Previously, we observed a close connection between intrinsically partially disordered proteins (IPDPS) and gradual (un)folding transitions of downhill folders, leading to the hypothesis that many IPDPs work as a conformational rheostat. The scope of this dissertation is to investigate the biological and technological implications of gradual conformational transitions. We first demonstrate the design principles of protein-based scaffolds by utilizing gradual (un)folding coupled to binding for developing rheostatic conformational transducers using computational modeling and experiments. Our engineered transducers showcase>6 orders of magnitude change in analyte concentration (broadband sensitivity) and have practical advantages over extant ones, which conventionally operate as conformational switches. Next, inspired by the LEGO toy, we devised a novel modular approach to dissect the folding cooperativity and the energetic contributions of native interactions in defining the conformational ensemble and binding properties of IPDPs. Using an integrated strategy of computation and experiments, we perform an ensemble-based conformational analysis and find that the approach provides an exciting new tool for analyzing morphing transitions that should generally apply to any IPDP, thereby addressing a fundamental gap in the field. One particularly interesting IPDP is NCBD that binds to multiple structurally diverse ligand partners and recruits the basal transcription machinery. We then explore the concept of NCBD functioning as a conformational rheostat, which allows its promiscuous binding. Finally, using extensive all-atom Molecular Dynamics simulations of NCBD and its biological partners in their free and bound forms, we decipher the hidden conformational biases in the dynamics of the heterogeneous ensemble of NCBD, undergoing gradual morphing transitions hinting at a working conformational rheostat in transcription.
Author: Cláudio M. Gomes
Publisher: Springer
ISBN: 331900882X
Category : Science
Languages : en
Pages : 63
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Book Description
This snapshot volume is designed to provide a smooth entry into the field of protein folding. Presented in a concise manner, each section introduces key concepts while providing a brief overview of the relevant literature. Outlook subsections will pinpoint specific aspects related to emerging methodologies, concepts and trends.
Author: Derek J. Chadwick
Publisher: John Wiley & Sons
ISBN: 0470514159
Category : Science
Languages : en
Pages : 282
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Book Description
How the amino acid sequence of a protein determines its three-dimensional structure is a major problem in biology and chemistry. Leading experts in the fields of NMR spectroscopy, X-ray crystallography, protein engineering and molecular modeling offer provocative insights into current views on the protein folding problem and various aspects for future progress.
Author: Alka Dwevedi
Publisher: Springer
ISBN: 3319125923
Category : Science
Languages : en
Pages : 61
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Book Description
The book will discuss classes of proteins and their folding, as well as the involvement of bioinformatics in solving the protein folding problem. In vivo and in vitro folding mechanisms are examined, as well as the failures of in vitro folding, a mechanism helpful in understanding disease caused by misfolding. The role of energy landscapes is also discussed and the computational approaches to these landscapes.
Author: Yawen Bai
Publisher: Springer Science & Business Media
ISBN: 1597451894
Category : Science
Languages : en
Pages : 332
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Book Description
Covering experiment and theory, bioinformatics approaches, and state-of-the-art simulation protocols for better sampling of the conformational space, this volume describes a broad range of techniques to study, predict, and analyze the protein folding process. Protein Folding Protocols also provides sample approaches toward the prediction of protein structure starting from the amino acid sequence, in the absence of overall homologous sequences.
Author: Henrik Bohr
Publisher: CRC Press
ISBN: 9780849340093
Category : Medical
Languages : en
Pages : 352
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Book Description
Written by outstanding scientists in physics and molecular biology, this book addresses the most recent advances in the analysis of the protein folding processes and protein structure determination. Emphasis is also placed on modelling and presentation of experimental results of structural membrane bound proteins. Many color plates help to illustrate structural aspects covered including: Defining folds of protein domains Structure determination from sequence Distance geometry Lattice theories Membrane proteins Protein-Ligand interaction Topological considerations Docking onto receptors All analysis is presented with proven theory and experimentation. Protein Folds: A Distance-Based Approach is an excellent text/reference for biotechnologists and biochemists as well as graduate students studying in the research sciences.
Author: Richard A. Friesner
Publisher: John Wiley & Sons
ISBN: 0471465232
Category : Science
Languages : en
Pages : 544
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Book Description
Since the first attempts to model proteins on a computer began almost thirty years ago, our understanding of protein structure and dynamics has dramatically increased. Spectroscopic measurement techniques continue to improve in resolution and sensitivity, allowing a wealth of information to be obtained with regard to the kinetics of protein folding and unfolding, and complementing the detailed structural picture of the folded state. Concurrently, algorithms, software, and computational hardware have progressed to the point where both structural and kinetic problems may be studied with a fair degree of realism. Despite these advances, many major challenges remain in understanding protein folding at both the conceptual and practical levels. Computational Methods for Protein Folding seeks to illuminate recent advances in computational modeling of protein folding in a way that will be useful to physicists, chemists, and chemical physicists. Covering a broad spectrum of computational methods and practices culled from a variety of research fields, the editors present a full range of models that, together, provide a thorough and current description of all aspects of protein folding. A valuable resource for both students and professionals in the field, the book will be of value both as a cutting-edge overview of existing information and as a catalyst for inspiring new studies. Computational Methods for Protein Folding is the 120th volume in the acclaimed series Advances in Chemical Physics, a compilation of scholarly works dedicated to the dissemination of contemporary advances in chemical physics, edited by Nobel Prize-winner Ilya Prigogine.
Author: Wolfgang Pfeil
Publisher: Springer Science & Business Media
ISBN: 3642587607
Category : Science
Languages : en
Pages : 662
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Book Description
Protein folding remains one of the most exclusive problems of modern biochemistry. Structure analysis has given access to the wealth of the molecular architecture of pro teins. As architecture needs static calculations, protein structure is always related to thermodynamic factors that govern folding and stability of a particular folded protein over the non-organized polypeptide chain. During the past decades a huge amount of thermodynamic data related to protein folding and stability has been accumulated. The data are certainly of importance in dechiffring the protein folding problem. At the same time, the data can guide the con struction of modified and newly synthesized proteins with properties optimized for particular application. The intention of this book is a generation of a data collection which makes the vast amount of present data accessible for multidisciplinary research where chemistry, phy sics, biology, and medicine are involved and also pharmaceutical and food research and technology. It took several years to compile all the data and the author wishes to thank everyone who provided data, ideas or even unpublished results. The author is, in particular, indebted to Prof. Wadso (Lund, Sweden) and IUPAC's Steering Committee on Bio physical Chemistry. Furthermore, support by the Deutsche Forschungsgemeinschafi (INK 16 AI-I) is acknowledged.
