Single Biomolecule Detection and Analysis
Single Biomolecule Detection and Analysis

Author: Tuhin Subhra Santra

Publisher: CRC Press

Published: 2023-08-15

Total Pages: 355

ISBN-13: 1000916650

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This collection discusses various micro/nanodevice design and fabrication for single-biomolecules detection. It will be an ideal reference text for graduate students and professionals in diverse subject areas including materials science, biomedical engineering, chemical engineering, mechanical engineering, and nanoscience. This book- Discusses techniques of single-biomolecule detection, their advantages, limitations, and applications. Covers comprehensively several electrochemical detection techniques. Provides single-molecule separation, sensing, imaging, sequencing, and analysis in detail. Examines different types of cantilever-based biomolecule sensing, and its limitations. Single Biomolecule Detection and Analysis covers single-biomolecule detection and characterization using micro/nanotechnologies and micro/nanofluidic devices, electrical and magnetic detection technologies, microscopy and spectroscopy techniques, single biomolecule optical, and nanopore devices. The text covers key important biosensors-based detection, stochastic optical reconstruction microscopy-based detection, electrochemical detection, metabolic engineering of animal cells, single-molecule intracellular delivery and tracking, terahertz spectroscopy-based detection, total internal reflection fluorescence (TIFR) detection, and Fluorescence Correlation Spectroscopy (FCS) detection. The text will be useful for graduate students and professionals in diverse subject areas including materials science, biomedical engineering, chemical engineering, mechanical engineering, and nanoscience. Discussing chemical process, physical process, separation, sensing, imaging, sequencing, and analysis of single-molecule detection, this text will be useful for graduate students and professionals in diverse subject areas including materials science, biomedical engineering, chemical engineering, mechanical engineering, and nanoscience. It covers microscopy and spectroscopy techniques for single-biomolecule detection, analysis, and their biomedical engineering applications.

Single Molecule Analysis
Single Molecule Analysis

Author: Iddo Heller

Publisher: Springer Nature

Published: 2023-11-13

Total Pages: 511

ISBN-13: 1071633775

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This third edition volume expands on the previous editions with new discussions on the latest techniques and developments in the field. The chapters in this book are organized into four parts, and cover topics such as optical tweezers; single-molecule fluorescence tools; atomic force microscopy; magnetic tweezers; applications to virus protein shells, unfolding of proteins, nucleic acids, motor proteins, in vivo and in vitro; and protocols to establish specific surface interactions and perform force calibration. 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. Cutting-edge and thorough, Single Molecule Analysis: Methods and Protocols, Third Edition is a valuable resource for all researchers who want to learn more about this exciting and still expanding field. Chapters 2, 7, 8, 9, 12, 18, and 19 are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.

New Frontiers in Ultrasensitive Bioanalysis
New Frontiers in Ultrasensitive Bioanalysis

Author: Xiao-Hong Nancy Xu

Publisher: John Wiley & Sons

Published: 2007-06-04

Total Pages: 338

ISBN-13: 0470119497

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An overview of current research and developments in ultrasensitive bioanalysis New platforms of ultrasensitive analysis of biomolecules and single living cells using multiplexing, single nanoparticle sensing, nano-fluidics, and single-molecule detection are advancing every scientific discipline at an unprecedented pace. With chapters written by a diverse group of scientists working in the forefront of ultrasensitive bioanalysis, this book provides an overview of the current status and an in-depth understanding of the objectives and future research directions of ultrasensitive bioanalysis. Spanning a wide spectrum of new research approaches, this book: Introduces new theories, ideas, methodologies, technologies, and applications of ultrasensitive bioanalysis in a wide variety of research fields Includes background, fundamentals, and descriptions of instrumentation and techniques behind every experimental design and approach to help readers explore the promising applications of new tools Covers single molecule detection (SMD), single living cell analysis, multi-functional nanoparticle probes, miniaturization, multiplexing, quantitative and qualitative analysis of metal ions and small molecules, and more Discusses techniques such as single molecule microscope and spectroscopy, single nanoparticle optics, single nanoparticle sensors, micro- and nano-fluidics, microarray detection, ultramicroelectrodes, electrochemiluminescence, mass spectrometry, and more This book will be a useful resource and an inspiration for scientists and graduate and undergraduate students in a wide variety of research fields, including chemistry, biology, biomedical science and engineering, and materials science and engineering.

Single-molecule Tracking and Its Application in Biomolecular Binding Detection
Single-molecule Tracking and Its Application in Biomolecular Binding Detection

Author: Cong Liu (Ph. D.)

Publisher:

Published: 2017

Total Pages: 274

ISBN-13:

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In the past two decades significant advances have been made in single-molecule detection, which enables the direct observation of single biomolecules at work in real time under physiological conditions. In particular, the development of single-molecule tracking (SMT) microscopy allows us to monitor the motion paths of individual biomolecules in living systems, unveiling the localization dynamics and transport modalities of the biomolecules that support the development of life. While 3D-SMT is probably the most suitable method for determining whether tracked molecules (can be any biomolecule such as DNA, membrane receptors, and transcription factors) form dimers or complexes with other molecules, great technical challenges remain to be overcome before the potential of 3D-SMT in biomolecular binding detection can be realized. This dissertation describes my work on recent methodology development to overcome these challenges, and new applications of the 3D-SMT technology in rare molecular species quantification. First, we provide an overview of current SMT technologies, with an emphasis on three-dimensional feedback controlled SMT. Advantages and drawbacks of each SMT method are outlined. Second, we describe the theoretical modeling and instrumentation of our confocal tracking microscope. Its multi-dimensional sensing capability (3D position, diffusion coefficient, fluorescence lifetime) is experimentally characterized. In order to maximize the tracking duration, we have also developed strategies to effectively slow-down fast diffusing molecule, and optimized the buffer conditions. Third, we show that our 3D-SMT microscope can detect biomolecular association/disassociated by two types of contrast mechanisms: diffusion rate and lifetime FRET signal. DNA transient binding is used as a model system because of ease of fluorescent labeling and tunable binding kinetics. Both of the two mechanisms involve tracking a fluorescent-labeled single-stranded DNA (ssDNA), but the second approach also requires its complementary strand to be labeled by a dark quencher. A combined analysis of multiple single-molecule trajectories allow us to measure the kinetics that is even beyond the physical bandwidth of the tracking system. In the end, we introduce the application of SMT in rare single-molecule species quantification. The theory for predicting the sensitivity and fidelity is established. Our work highlights the fundamental limitations that we are facing in precise single-molecule identification and quantification without amplification.

Handbook of Single-Molecule Biophysics
Handbook of Single-Molecule Biophysics

Author: Peter Hinterdorfer

Publisher: Springer Science & Business Media

Published: 2009-12-24

Total Pages: 634

ISBN-13: 0387764976

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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.

Modern Biophysical Chemistry
Modern Biophysical Chemistry

Author: Peter Jomo Walla

Publisher: John Wiley & Sons

Published: 2015-09-10

Total Pages: 358

ISBN-13: 3527683550

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This updated and up-to-date version of the first edition continues with the really interesting stuff to spice up a standard biophysics and biophysical chemistry course. All relevant methods used in current cutting edge research including such recent developments as super-resolution microscopy and next-generation DNA sequencing techniques, as well as industrial applications, are explained. The text has been developed from a graduate course taught by the author for several years, and by presenting a mix of basic theory and real-life examples, he closes the gap between theory and experiment. The first part, on basic biophysical chemistry, surveys fundamental and spectroscopic techniques as well as biomolecular properties that represent the modern standard and are also the basis for the more sophisticated technologies discussed later in the book. The second part covers the latest bioanalytical techniques such as the mentioned super-resolution and next generation sequencing methods, confocal fluorescence microscopy, light sheet microscopy, two-photon microscopy and ultrafast spectroscopy, single molecule optical, electrical and force measurements, fluorescence correlation spectroscopy, optical tweezers, quantum dots and DNA origami techniques. Both the text and illustrations have been prepared in a clear and accessible style, with extended and updated exercises (and their solutions) accompanying each chapter. Readers with a basic understanding of biochemistry and/or biophysics will quickly gain an overview of cutting edge technology for the biophysical analysis of proteins, nucleic acids and other biomolecules and their interactions. Equally, any student contemplating a career in the chemical, pharmaceutical or bio-industry will greatly benefit from the technological knowledge presented. Questions of differing complexity testing the reader's understanding can be found at the end of each chapter with clearly described solutions available on the Wiley-VCH textbook homepage under: www.wiley-vch.de/textbooks

Single-Molecule Tools for Bioanalysis
Single-Molecule Tools for Bioanalysis

Author: Shuo Huang

Publisher: CRC Press

Published: 2022-05-25

Total Pages: 238

ISBN-13: 100040921X

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In the last three decades, the fast development of single-molecule techniques has revolutionized the way we observe and understand biological processes. Some of these techniques have been further adapted as tools for bioanalysis. This book summarizes and details the frontiers of the development of these tools as well as their applications. The contributors are young and established researchers in their respective fields. The main content originates from the lecture notes of a chemistry graduate course taught by the book editor at Nanjing University. This book is suitable to be used as a textbook for a high-level undergraduate or an entry-level graduate course. The systematically written content provides a thorough illustration of the mechanisms of each methodology presented.

Single-Molecule Biophysics
Single-Molecule Biophysics

Author: Tamiki Komatsuzaki

Publisher: John Wiley & Sons

Published: 2011-11-16

Total Pages: 403

ISBN-13: 111813138X

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Discover the experimental and theoretical developments in optical single-molecule spectroscopy that are changing the ways we think about molecules and atoms The Advances in Chemical Physics series provides the chemical physics field with a forum for critical, authoritative evaluations of advances in every area of the discipline. This latest volume explores the advent of optical single-molecule spectroscopy, and how atomic force microscopy has empowered novel experiments on individual biomolecules, opening up new frontiers in molecular and cell biology and leading to new theoretical approaches and insights. Organized into two parts—one experimental, the other theoretical—this volume explores advances across the field of single-molecule biophysics, presenting new perspectives on the theoretical properties of atoms and molecules. Single-molecule experiments have provided fresh perspectives on questions such as how proteins fold to specific conformations from highly heterogeneous structures, how signal transductions take place on the molecular level, and how proteins behave in membranes and living cells.This volume is designed to further contribute to the rapid development of single-molecule biophysics research. Filled with cutting-edge research reported in a cohesive manner not found elsewhere in the literature, each volume of the Advances in Chemical Physics series serves as the perfect supplement to any advanced graduate class devoted to the study of chemical physics.

Microfluidics and Nanotechnology
Microfluidics and Nanotechnology

Author: Eric Lagally

Publisher: CRC Press

Published: 2017-12-19

Total Pages: 294

ISBN-13: 1351831488

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An increasing number of technologies are being used to detect minute quantities of biomolecules and cells. However, it can be difficult to determine which technologies show the most promise for high-sensitivity and low-limit detection in different applications. Microfluidics and Nanotechnology: Biosensing to the Single Molecule Limit details proven approaches for the detection of single cells and even single molecules—approaches employed by the world’s foremost microfluidics and nanotechnology laboratories. While similar books concentrate only on microfluidics or nanotechnology, this book focuses on the combination of soft materials (elastomers and other polymers) with hard materials (semiconductors, metals, and glass) to form integrated detection systems for biological and chemical targets. It explores physical and chemical—as well as contact and noncontact—detection methods, using case studies to demonstrate system capabilities. Presenting a snapshot of the current state of the art, the text: Explains the theory behind different detection techniques, from mechanical resonators for detecting cell density to fiber-optic methods for detecting DNA hybridization, and beyond Examines microfluidic advances, including droplet microfluidics, digital microfluidics for manipulating droplets on the microscale, and more Highlights an array of technologies to allow for a comparison of the fundamental advantages and challenges of each, as well as an appreciation of the power of leveraging scalability and integration to achieve sensitivity at low cost Microfluidics and Nanotechnology: Biosensing to the Single Molecule Limit not only serves as a quick reference for the latest achievements in biochemical detection at the single-cell and single-molecule levels, but also provides researchers with inspiration for further innovation and expansion of the field.

Nonradioactive Labeling and Detection of Biomolecules
Nonradioactive Labeling and Detection of Biomolecules

Author: Christoph Kessler

Publisher: Springer

Published: 2012-12-06

Total Pages: 449

ISBN-13: 3662001446

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All the bioanalytical labeling and detection techniques in one source! This book gathers together all the important nonradioactive labeling techniques for nucleic acids, proteins, glycoproteins and glycolipids like Digoxigenin:Anti-Dioxigenin (DIG), Biotin, 5-Bromodeoxyuridine (BrdU), Sulfone, Immunogold, Silver Enhancement, and Synthetic Nucleic Acid Probe (SNAP) as well as the standard procedures for optical, chemical, biological, electrochemiluminescent and fluorescent detection. Additionally, applications for the use of non-isotopically labeled biomolecules are described. Specific protocols are given for hybridization analysis such as blot, colony/plaque and in-situ hybridization formats, quantitative formats, and also nonradioactivetechniques for nucleic acid sequencing and amplification. Each chapter contains a short introduction, a detailed description of the method with labprotocols, troubleshooting tips and references.