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Author: Ashley Meagan Newbigging
Publisher:
ISBN:
Category : Biochemical markers
Languages : en
Pages : 0
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Book Description
The early detection of disease is beneficial for improved patient prognoses. One major challenge in early disease detection is the small, undetectable amounts of biomarkers. Detection strategies that confer amplification of the biomarker itself or of the detection signal are therefore desirable. Furthermore, emerging strategies conferring amplification at isothermal temperatures offer improvements in technical procedures by circumventing the requirement for multiple different reaction temperatures as is required in polymerase chain reaction. Despite the advances in isothermal amplification strategies using nucleic acids, there are still some drawbacks such as the technical difficulty of protocols and number of reagents required. The primary objective of my research was to develop novel techniques to improve and simplify the detection of nucleic acid and protein targets. In order to address this objective, I developed three new techniques for the isothermal and amplified detection of nucleic acid and protein targets with improved features. To improve isothermal and exponential amplified detection, I developed a new technique called Beacon-mediated Exponential Amplification Reaction (BEAR) to detect nucleic acid targets. BEAR only required a single enzyme and a single primer. I applied BEAR to detect Myoclonus Epilepsy with Ragged Red Fibres (MERRF). I achieved a limit of detection of 10 fM in 80 min and a recovery of ~91% in cell lysate for the MERRF sequence using BEAR. To improve isothermal and amplified detection without using enzymes, I developed a new turn-on fluorescence technique inspired by hybridization chain reaction (HCR) enabling the generation of turn-on fluorescence signals from label-free hairpins. This HCR technique uses four hairpins which overcomes the background that could arise when using two label-free hairpins. Using this new technique, I achieved a limit of detection of 660 pM of a nucleic acid target in solution when using 50 nM of hairpins in 30 min at room temperature. To improve the protocols of localized protein imaging, I adapted the concept of bindinginduced DNA assembly (BINDA) to the developed HCR technique. I used BINDA to convert protein binding into the generation of a DNA strand. The formation of the DNA strand initiated the HCR that produced fluorescence signals. I applied this technique to detect a HER2+ breast cancer cell line where membrane fluorescence indicating the HER2 status of the cells was achieved in as soon as 5 min with strong fluorescence signals at about 45 min to 60 min. This technique did not require any enzymes or washing steps and was performed at room temperature. These developed techniques feature isothermal reaction temperatures, low reaction volumes, and technically simple protocols because they are all in mix-and-read formats. These features allow potential applications of my techniques for improved clinical laboratory testing, point-of-care assays, and testing in resource-limited settings. Furthermore, the modularity of these developed DNA designs allows for the adaptation to other targets as well.
Author: Ashley Meagan Newbigging
Publisher:
ISBN:
Category : Biochemical markers
Languages : en
Pages : 0
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Book Description
The early detection of disease is beneficial for improved patient prognoses. One major challenge in early disease detection is the small, undetectable amounts of biomarkers. Detection strategies that confer amplification of the biomarker itself or of the detection signal are therefore desirable. Furthermore, emerging strategies conferring amplification at isothermal temperatures offer improvements in technical procedures by circumventing the requirement for multiple different reaction temperatures as is required in polymerase chain reaction. Despite the advances in isothermal amplification strategies using nucleic acids, there are still some drawbacks such as the technical difficulty of protocols and number of reagents required. The primary objective of my research was to develop novel techniques to improve and simplify the detection of nucleic acid and protein targets. In order to address this objective, I developed three new techniques for the isothermal and amplified detection of nucleic acid and protein targets with improved features. To improve isothermal and exponential amplified detection, I developed a new technique called Beacon-mediated Exponential Amplification Reaction (BEAR) to detect nucleic acid targets. BEAR only required a single enzyme and a single primer. I applied BEAR to detect Myoclonus Epilepsy with Ragged Red Fibres (MERRF). I achieved a limit of detection of 10 fM in 80 min and a recovery of ~91% in cell lysate for the MERRF sequence using BEAR. To improve isothermal and amplified detection without using enzymes, I developed a new turn-on fluorescence technique inspired by hybridization chain reaction (HCR) enabling the generation of turn-on fluorescence signals from label-free hairpins. This HCR technique uses four hairpins which overcomes the background that could arise when using two label-free hairpins. Using this new technique, I achieved a limit of detection of 660 pM of a nucleic acid target in solution when using 50 nM of hairpins in 30 min at room temperature. To improve the protocols of localized protein imaging, I adapted the concept of bindinginduced DNA assembly (BINDA) to the developed HCR technique. I used BINDA to convert protein binding into the generation of a DNA strand. The formation of the DNA strand initiated the HCR that produced fluorescence signals. I applied this technique to detect a HER2+ breast cancer cell line where membrane fluorescence indicating the HER2 status of the cells was achieved in as soon as 5 min with strong fluorescence signals at about 45 min to 60 min. This technique did not require any enzymes or washing steps and was performed at room temperature. These developed techniques feature isothermal reaction temperatures, low reaction volumes, and technically simple protocols because they are all in mix-and-read formats. These features allow potential applications of my techniques for improved clinical laboratory testing, point-of-care assays, and testing in resource-limited settings. Furthermore, the modularity of these developed DNA designs allows for the adaptation to other targets as well.
Author: Vadim V. Demidov
Publisher: Springer
ISBN: 331942226X
Category : Science
Languages : en
Pages : 180
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Book Description
This book covers the latest developments in rolling circle amplification (RCA) technology with applications in clinical diagnostic tests and molecular medicine. Topics covered include new enzymes useful in RCA, techniques involving RCA for enhanced signal amplification, novel RCA diagnostics, sensors for expediting RCA detection, and prospective RCA-based therapeutics. This is a valuable book for university professors and students in the field of biomedical engineering and biomolecular pharmacology as well as R&D managers of biotechnology and biopharmaceutical companies. Specifically, this book: Reviews prospective RCA-based therapeutics, including RCA-derived DNA nanoparticles that strongly bind to cancer cells Expands readers’ understanding of sensor systems for expediting detection of RCA products by using probe-tagged magnetic nanobeads Maximizes reader insights into novel RCA diagnostics, such as PNA openers-assisted RCA for detection of single target cells and in situ RCA diagnosis of cancer cells and malignant tissues Presents innovative methods for quasi-exponential enhancement of RCA-generated signals, such as nicking enzyme-assisted cascade RCA and RCA coupled with loop-mediated amplification Advance Praise for Rolling Circle Amplification (RCA): “This book provides a badly needed compendium of innovative RCA methods and applications. It should help further increase the community of scientists that have employed RCA in research and diagnostic programs.”— Charles Cantor, Professor Emeritus of Biomedical Engineering, Boston University Executive Director, Retrotope Inc. (USA) “In this new book Vadim Demidov has assembled an enticing menu of articles that illustrate the evolution of the RCA field, including improved protein parts for building superior DNA nanomachines, enhanced modalities of amplification and detection, diagnostic applications, and even a sampling of potential therapeutic applications. The reader will appreciate that while RCA has come of age, there is no lack of exciting surprises, turns, and twists in the continuing evolution of the technology.”— Paul Lizardi, Professor of Pathology, Yale University School of Medicine (retired) Investigator, University of Granada, Spain, President, PetaOmics, Inc., San Marcos, Texas.
Author: Kirstin J. Edwards
Publisher: Taylor & Francis
ISBN: 113418400X
Category : Polymerase chain reaction
Languages : en
Pages : 362
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Book Description
Author: Dmitry M. Kolpashchikov
Publisher: Humana Press
ISBN: 9781627035347
Category : Medical
Languages : en
Pages : 0
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Book Description
In Nucleic Acid Chemistry: Methods and Protocols, expert researches in the field detail techniques and approaches for the detection of DNA and RNA. These techniques include the recovery of trace amounts of DNA for amplification and analysis, new qPCR chemistries, new application of isothermal amplification techniques, assays with visual or electric signals for point-of-care diagnostics, improvement of fluorescent in situ hybridization, and new signal amplification techniques. 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 key tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Nucleic Acid Chemistry: Methods and Protocols seeks to aid scientists in the further study of detection for DNA and RNA.
Author: Patricia Frye Walker
Publisher: Elsevier Health Sciences
ISBN: 0323070574
Category : Medical
Languages : en
Pages : 783
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Book Description
Immigrant Medicine is the first comprehensive guide to caring for immigrant and refugee patient populations. Edited by two of the best-known contributors to the growing canon of information about immigrant medicine, and written by a geographically diverse collection of experts, this book synthesizes the most practical and clinically relevant information and presents it in an easy-to-access format. An invaluable resource for front-line clinicians and other healthcare professionals, public health officials, and policy makers, Immigrant Medicine is destined to become the benchmark reference in this emerging field. Features expert guidance on data collection, legal, interpretive and social adjustment issues, as well as best practices in caring for immigrants to help you confidently manage all aspects of immigrant medicine. Includes detailed discussions on major depression, post traumatic stress disorder, and issues related to torture so you can effectively diagnose and treat common psychiatric issues. Covers international and new-arrival screening and immunizations offering you invaluable advice. Presents a templated diseases/disorders section with discussions on tuberculosis, hepatitis B, and common parasites that helps you easily manage the diseases and syndromes you are likely to encounter. Provides boxed features and tables, differential diagnoses, and treatment algorithms to help you absorb information at a glance.
Author: Shusheng Zhang
Publisher: Springer
ISBN: 9811370443
Category : Science
Languages : en
Pages : 337
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Book Description
This book describes the rational design, development and application of nucleic acid amplification strategies for biosensing, bioimaging and biomedicine. It consists of fifteen chapters demonstrating the use of these strategies in various areas, including fluorescence techniques, Chemiluminescence biosensors, electrochemiluminescence biosensors, colorimetric assays, surface plasmon resonance technologies, electrochemical DNA sensors, photoelectrochemical biosensor, nanopore sensors, quartz crystal microbalance, fluorescence imaging, surface-enhanced Raman spectroscopy, in vitro and in vivo metal ions detection, theranostics and microdroplet chips. Offering a collection of reviews illustrating the latest advances in biochemical analysis and therapeutics, the book shares valuable insights into current challenges and future prospects, making it a valuable resource for a wide readership in the various fields of biosensing, bioimaging and biomedicine.
Author: Lisa Becherer
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Abstract: Nucleic acid amplification tests (NAATs) are an essential diagnostic tool throughout the field of life sciences, including clinical applications, food quality control, and environmental monitoring. In the last 20 years, polymerase chain reaction (PCR) has been steadily replaced by isothermal alternatives. These are especially suitable for point-of-need (PON) applications. Loop-mediated isothermal amplification (LAMP) stands out as a particularly robust and highly sensitive method. Special attention is given to the sequence-specific, fluorescence-based detection of LAMP, which allows the highly specific and simultaneous detection of various targets (multiplexing). However, current state-of-the-art methods suffer from complex probe design and elaborate optimization work, which is required for the detection of different targets due to the use of target-specific fluorogenic probes. The principal objectives of this thesis are first, to develop an improved sequence-specific detection method for LAMP with a simplified probe design, second, to verify its analytical performance and third, to validate the method by using it to analyze clinical samples. Furthermore, the feasibility of transferring the novel method to two other platforms, digital nucleic acid testing and electrochemical nucleic acid testing, is investigated. A novel method was successfully developed and named mediator displacement (MD) LAMP. MD LAMP stands out from other state-of-the-art methods because of its use of unique, target-independent fluorogenic reporter molecules. The working principle involves a non-fluorogenic MD probe which features a primer bound to a generic mediator. Mediator displacement occurs during the amplification of target DNA. Fluorescence signal generation is then induced by the interaction between the displaced mediator and a universal reporter molecule. The universal mediator-reporter set can be used to detect various targets. Simplified probe design was demonstrated by the example of a reverse transcription (RT)-LAMP of human immunodeficiency virus (HIV)-1 RNA. The time required for MD probe design was first compared with the time needed to create a state-of-the-art molecular beacon (MD: 10 minutes, molecular beacon: 3-4 hours). Moreover, HIV-1 MD RT-LAMP surpassed molecular beacon-based HIV-1 RT-LAMP, with times to positive 4.1 ± 0.1 minutes shorter (16-20 minutes for 10^3-10^6 HIV RNA copies per reaction) and double the signal-to-noise fluorescence ratio (MD: 5.9 ± 0.4, molecular beacon: 2.7 ± 0.4; n = 15). The analytical performance parameters were equally good for both detection methods (limit of detection for MD: 132 HIV RNA copies per reaction, molecular beacon: 141 HIV RNA copies per reaction; linearity for MD and molecular beacon: R^2 = 0.94). Furthermore, multiplex detection of two different targets was demonstrated in a biplex MD RT-LAMP for the simultaneous detection of HIV-1 and human T-lymphotropic virus (HTLV)-1. To present an additional possible application, the biplex RT-LAMP of HIV-1 and HTLV-1 was transferred to a centrifugal microfluidic platform for digital nucleic acid amplification in droplets. Digital NAATs allow precise quantification without the need for standard curves. Compared to existing viral load measurements, the novel assay excelled through the simultaneous and quantitative detection of relevant coinfections. The universal mediator-reporter sets were successfully used for the detection of a second clinically relevant target panel, which is associated with yaws, a neglected tropical disease. For the molecular detection of yaws, a biplex MD LAMP of Treponema pallidum and Haemophilus ducreyi (TPHD-LAMP) was designed, optimized and clinically validated with 293 patient samples. The samples originated from individuals with yaws-like skin lesions in Ghana and Papua New Guinea. So far, no isothermal alternatives to PCR which enable differentiation between T. pallidum, which causes yaws, and H. ducreyi, which is responsible for skin lesions of similar appearance, are available. TPHD-LAMP revealed high diagnostic sensitivities and specificities for T. pallidum (84.7 % and 95.7 %) and H. ducreyi (91.6 % and 84.8 %) compared to TaqMan singleplex qPCR. TPHD-LAMP has become the focus of a large clinical trial conducted in three yaws endemic African countries and linked to the goal of supporting national yaws eradication programmes. So far, the analytical performance of MD LAMP has been verified, the feasibility of a digital MD RT-LAMP has been shown, and MD LAMP has been clinically validated with patient samples. To emphasize the versatility of this novel method, its compatibility with real-time electrochemical NAATs was also demonstrated. Microarray-based electrochemical detection facilitates the simultaneous detection of multiple targets by using spatially-resolved measurement with the help of immobilized probes. In addition, it enables the use of very small and therefore portable devices. To exploit these benefits, MD LAMP was adapted to electrochemical detection by immobilizing universal reporter molecules on an electrode microarray. The feasibility of electrochemical MD LAMP was demonstrated for real-time detection of T. pallidum and end-point detection of HIV-1. Rapid signal increase was observed in real time after 15 minutes for 1000 T. pallidum DNA copies per reaction. Electrochemical MD LAMP enables the use of universal electrode microarrays and could thus bring economic advantages with regard to large-scale fabrication. This thesis concludes with a critical review of the methods and the method-related instrumentation for the sequence-specific detection of LAMP, which are based on a diverse variety of sensing techniques. The multitude of methods is systematically classified and critically evaluated according to a catalogue of criteria covering analytical performance, handling of complex samples, multiplexing, and quantification. The most widespread sensing technique is based on fluorescence detection and is used in around half of the discussed methods. A particular highlight is the universal character of a few fluorescence-based methods, which use generic probes applicable to different targets
Author: Kary B. Mullis
Publisher: Springer Science & Business Media
ISBN: 1461202574
Category : Medical
Languages : en
Pages : 464
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Book Description
James D. Watson When, in late March of 1953, Francis Crick and I came to write the first Nature paper describing the double helical structure of the DNA molecule, Francis had wanted to include a lengthy discussion of the genetic implications of a molecule whose struc ture we had divined from a minimum of experimental data and on theoretical argu ments based on physical principles. But I felt that this might be tempting fate, given that we had not yet seen the detailed evidence from King's College. Nevertheless, we reached a compromise and decided to include a sentence that pointed to the biological significance of the molecule's key feature-the complementary pairing of the bases. "It has not escaped our notice," Francis wrote, "that the specific pairing that we have postulated immediately suggests a possible copying mechanism for the genetic material." By May, when we were writing the second Nature paper, I was more confident that the proposed structure was at the very least substantially correct, so that this second paper contains a discussion of molecular self-duplication using templates or molds. We pointed out that, as a consequence of base pairing, a DNA molecule has two chains that are complementary to each other. Each chain could then act ". . . as a template for the formation on itself of a new companion chain, so that eventually we shall have two pairs of chains, where we only had one before" and, moreover, " ...
Author: Marcelo Larramendy
Publisher: BoD – Books on Demand
ISBN: 9535122649
Category : Science
Languages : en
Pages : 222
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Book Description
This edited book, "Nucleic Acids - From Basic Aspects to Laboratory Tools", contains a series of chapters that highlight the development and status of the various aspects of the nucleic acids related to DNA chemistry and biology and the molecular application of these small DNA molecules and related synthetic analogues within biological systems. Furthermore, it is hoped that the information in the present book will be of value to those directly engaged in the handling and use of nucleic acids, and that this book will continue to meet the expectations and needs of all who are interested in the different fascinating aspects of molecular biology.
Author: Dirk Lassner
Publisher: Springer
ISBN: 1461553792
Category : Science
Languages : en
Pages : 143
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Book Description
In the ten years since the first publication on PCR (Saiki et al. , 1985), this in vitro method of nucleic acid replication and modification has grown to rival in popularity traditional microbiological, genetical und technical procedures for cloning, sequencing, gene detecting and related procedures. To date the PCR literature has emphasized six main areas of application: genetic mapping, detection of mutations, genetic polymorphism, transcriptional splicing and regulation, molecular virology and quantitative procedures. The overwhelming focus of quantification of DNA or RNA by PCR has been on human microbiology and oncological problems. The exquisite sensitivity of PCR gives this method the ability to detect extremely rare DNAs, mRNAs, mRNAs in small numbers of cells or in small amounts of tissue, and mRNAs expressed in mixed-cell populations. However, the exact and accurate quantification of specific nucleic acids in biological samples is in spite of numerous publications in that field still a general problem: during the peR process, an unknown initial number of target sequences are used as a template from which a large quantity of specific product can be obtained. Although the amount of product formed is easy to determine, it is difficult to deduce the initial copy number of the target molecule because the efficiency of the peR is largely unknown.
