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Author: Dolonchampa Maji
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 149
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Book Description
Optical imaging and spectroscopy technologies offer the ability to provide structural and functional information in a fast, low-cost, ionizing radiation free, highly sensitive and high throughput fashion. The diverse contrast mechanisms and complementary imaging platforms form the foundation for the application of optical imaging in pre-clinical studies of pathophysiological development as well as direct clinical application as a tool for diagnosis and therapy. Fluorescence imaging techniques have been one of the most rapidly adopted methods in biology and biomedicine. Visualization of biological processes and pathologic conditions at the cellular and tissue levels largely relies on the use of exogenous fluorophores or their bioconjugates. Some fluorescent molecular probes provide usable contrast for disease diagnosis due to their responsiveness to interactions with other molecular species and/or immediate microenvironment. As a result, understanding exogenous fluorescent contrast mechanisms will allow the development of efficient strategies for biomedical fluorescence imaging. The present work focuses on exploring novel fluorescent molecular probe strategies for imaging cancer and cardiovascular diseases. We have developed a platform for synthesizing activatable fluorescent molecular probes using the fluorescence quenching properties of copper (II) ions. We used these activatable probes for rapid imaging of cancerous tissue in vivo in mice. While developing these molecular probes, we discovered an unexpected molecular interaction that yields stable dimeric molecules. This finding can potentially enable the development of new molecular entities for modifying the signaling properties of fluorescent dyes to minimize background fluorescence. Although planar fluorescence imaging methods using exogenous molecular probes provide rapid information about molecular processes in vivo, extraction of depth information require complex data acquisition and image analysis methods. By designing a dual emission fluorescent probe incorporating two spectrally different fluorophore systems, we developed a method to successfully estimate the depth of fluorescent inclusions from planar imaging data and demonstrated the potential of using this approach to locate a blood vessel and tumorous tissue in mouse in vivo. An important feature of fluorescence methods is the availability of various techniques that provide complementary information. Combining the fluorescence intensity and lifetime properties of a biologically targeted near infrared fluorescent probe, we demonstrate an effective way to distinguish specific from nonspecific uptake mechanisms in cancer cells, an approach that can be translated in vivo. Alternatively, dynamic fluorescence imaging technique expands the scope of applications to include detection and estimation of the size of circulating cancer cells and clusters. The approach developed in this work could allow longitudinal monitoring of these cells, which are implicated in cancer metastases. To circumvent the shallow penetration of light using optical methods, we developed multimodal imaging approaches by incorporating a radionuclide for nuclear imaging into a broad spectrum near infrared fluorescent tumor targeting agent. This molecular construct allows for noninvasive whole body nuclear imaging of tumors, followed by fluorescence image guided resection. In each of these areas, novel fluorescent molecular probes were developed, characterized and applied to solve critical biomedical problems.
Author: Dolonchampa Maji
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 149
Get Book Here
Book Description
Optical imaging and spectroscopy technologies offer the ability to provide structural and functional information in a fast, low-cost, ionizing radiation free, highly sensitive and high throughput fashion. The diverse contrast mechanisms and complementary imaging platforms form the foundation for the application of optical imaging in pre-clinical studies of pathophysiological development as well as direct clinical application as a tool for diagnosis and therapy. Fluorescence imaging techniques have been one of the most rapidly adopted methods in biology and biomedicine. Visualization of biological processes and pathologic conditions at the cellular and tissue levels largely relies on the use of exogenous fluorophores or their bioconjugates. Some fluorescent molecular probes provide usable contrast for disease diagnosis due to their responsiveness to interactions with other molecular species and/or immediate microenvironment. As a result, understanding exogenous fluorescent contrast mechanisms will allow the development of efficient strategies for biomedical fluorescence imaging. The present work focuses on exploring novel fluorescent molecular probe strategies for imaging cancer and cardiovascular diseases. We have developed a platform for synthesizing activatable fluorescent molecular probes using the fluorescence quenching properties of copper (II) ions. We used these activatable probes for rapid imaging of cancerous tissue in vivo in mice. While developing these molecular probes, we discovered an unexpected molecular interaction that yields stable dimeric molecules. This finding can potentially enable the development of new molecular entities for modifying the signaling properties of fluorescent dyes to minimize background fluorescence. Although planar fluorescence imaging methods using exogenous molecular probes provide rapid information about molecular processes in vivo, extraction of depth information require complex data acquisition and image analysis methods. By designing a dual emission fluorescent probe incorporating two spectrally different fluorophore systems, we developed a method to successfully estimate the depth of fluorescent inclusions from planar imaging data and demonstrated the potential of using this approach to locate a blood vessel and tumorous tissue in mouse in vivo. An important feature of fluorescence methods is the availability of various techniques that provide complementary information. Combining the fluorescence intensity and lifetime properties of a biologically targeted near infrared fluorescent probe, we demonstrate an effective way to distinguish specific from nonspecific uptake mechanisms in cancer cells, an approach that can be translated in vivo. Alternatively, dynamic fluorescence imaging technique expands the scope of applications to include detection and estimation of the size of circulating cancer cells and clusters. The approach developed in this work could allow longitudinal monitoring of these cells, which are implicated in cancer metastases. To circumvent the shallow penetration of light using optical methods, we developed multimodal imaging approaches by incorporating a radionuclide for nuclear imaging into a broad spectrum near infrared fluorescent tumor targeting agent. This molecular construct allows for noninvasive whole body nuclear imaging of tumors, followed by fluorescence image guided resection. In each of these areas, novel fluorescent molecular probes were developed, characterized and applied to solve critical biomedical problems.
Author: Maura Loew
Publisher:
ISBN: 9781321572001
Category : Electronic books
Languages : en
Pages : 382
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Book Description
Author: Vladimir V. Didenko
Publisher: Springer Science & Business Media
ISBN: 1597450693
Category : Science
Languages : en
Pages : 368
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Book Description
Fluorescent nucleic acid probes, which use energy transfer, include such constructs as molecular beacons, molecular break lights, Scorpion primers, TaqMan probes, and others. These probes signal detection of their targets by changing either the intensity or the color of their fluorescence. Not surpr- ingly, these luminous, multicolored probes carry more flashy names than their counterparts in the other fields of molecular biology. In recent years, fluor- cent probes and assays, which make use of energy transfer, have multiplied at a high rate and have found numerous applications. However, in spite of this explosive growth in the field, there are no manuals summarizing different p- tocols and fluorescent probe designs. In view of this, the main objective of Fluorescent Energy Transfer Nucleic Acid Probes: Designs and Protocols is to provide such a collection. Oligonucleotides with one or several chromophore tags can form fluor- cent probes capable of energy transfer. Energy transport within the probe can occur via the resonance energy transfer mechanism, also called Förster tra- fer, or by non-Förster transfer mechanisms. Although the probes using Förster transfer were developed and used first, the later non-Förster-based probes, such as molecular beacons, now represent an attractive and widely used option. The term “fluorescent energy transfer probes” in the title of this book covers both Förster-based fluorescence resonance energy transfer (FRET) probes and probes using non-FRET mechanisms. Energy transfer probes serve as molecule-size sensors, changing their fluorescence upon detection of various DNA reactions.
Author: Yoshiaki Toyama
Publisher: Springer Nature
ISBN: 9811379084
Category : Medical
Languages : en
Pages : 292
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Book Description
This open access book describes marked advances in imaging technology that have enabled the visualization of phenomena in ways formerly believed to be completelyimpossible. These technologies have made major contributions to the elucidation of the pathology of diseases as well as to their diagnosis and therapy. The volume presents various studies from molecular imaging to clinical imaging. It also focuses on innovative, creative, advanced research that gives full play to imaging technology inthe broad sense, while exploring cross-disciplinary areas in which individual research fields interact and pursuing the development of new techniques where they fuse together. The book is separated into three parts, the first of which addresses the topic of visualizing and controlling molecules for life. Th e second part is devoted to imaging of disease mechanisms, while the final part comprises studies on the application of imaging technologies to diagnosis and therapy. Th e book contains the proceedings of the 12th Uehara International Symposium 2017, “Make Life Visible” sponsored by the Uehara Memorial Foundation and held from June 12 to 14, 2017. It is written by leading scientists in the field and is an open access publication under a CC BY 4.0 license.
Author: Vishal Kanthuria
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Author: Binghe Wang
Publisher: John Wiley & Sons
ISBN: 1118019571
Category : Science
Languages : en
Pages : 830
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Book Description
A thorough, accessible, and general overview of chemosensors Providing a comprehensive overview of chemosensors organic molecules designed to bind and sense small molecules or metal ions and their applications, Chemosensors: Principles, Strategies, and Applications is an accessible one-stop resource for analysts, clinicians, and graduate students studying advanced chemistry and chemosensing. Chemosensors function on a molecular level, generating a signal upon binding. The book reviews their synthesis, design, and applications for detecting biological and organic molecules as well as metal ions. The text highlights applications in drug discovery and catalyses that have not been well covered elsewhere. Covering such topics as molecular recognition, detection methods, design strategies, and important biological issues, the book is broken into four sections that examine intermolecular interactions, strategies in sensor design, detection methods, and case studies in metal, saccharide, and amino acid sensing. An indispensable source of information for chemical and biomedical experts using sensors, Chemosensors includes case studies to make the material both accessible and understandable to chemists of all backgrounds.
Author: Ruud Kraayenhof
Publisher: Springer Science & Business Media
ISBN: 3642560679
Category : Science
Languages : en
Pages : 401
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Book Description
The increased use of fluorescence techniques is greatly enhanced by the improved instrumentation pioneered by inventive scientists and now made available commercially by several high-tech companies. Moreover, the design and development of many new molecular probes with higher selectivity for specific microenvironmental properties has stimulated many new researchers to employ fluorescence techniques for solving their problems. This topic book, the second in his series, reflects this exciting scientific progress and deals, among others, with new approaches and new probes in fluorescence spectroscopy, single molecule fluorescence, applications in biomembrane and enzyme studies and imaging of living cells.
Author:
Publisher: Academic Press
ISBN: 012386951X
Category : Science
Languages : en
Pages : 449
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Book Description
One of the major challenges of modern biology and medicine consists in finding means to visualize biomolecules in their natural environment with the greatest level of accuracy, so as to gain insight into their properties and behaviour in a physiological and pathological setting. This has been achieved thanks to the design of novel imaging agents, in particular to fluorescent biosensors. Fluorescence Biosensors comprise a large set of tools which are useful for fundamental purposes as well as for applications in biomedicine, drug discovery and biotechnology. These tools have been designed and engineered thanks to the combined efforts of chemists and biologists over the last decade, and developed hand in hand together with imaging technologies. This volume will convey the many exciting developments the field of fluorescent biosensors and reporters has witnessed over the recent years, from concepts to applications, including chapters on the chemistry of fluorescent probes, on technologies for monitoring protein/protein interactions and technologies for imaging biosensors in cultured cells and in vivo. Other chapters are devoted to specific examples of genetically-encoded reporters, or to protein and peptide biosensors, together with examples illustrating their application to cellular and in vivo imaging, biomedical applications, drug discovery and high throughput screening. - Contributions from leading authorities - Informs and updates on all the latest developments in the field
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Abstract : My thesis is focused on the development of fluorescent probes for biosensing and bioimaging within specific organelles. My main research efforts are mainly focused on the design, synthesis and biological applications of these new molecular probes. These new fluorescent probes I developed can be manipulated through the chemical modifications for binding to specific organelles capable of reporting localized bioinformation. Compared to the currently commercially available organelle-specific fluorescent stains, the advantages of the newly synthesized fluorescent probes include low cytotoxicity, high photostability, and long fluorescence lifetimes. These features are crucial for long-time tracking study of biological processes. Research on fluorescent probes with both analyte responsiveness and organelle targetability is a new and emerging area that has attracted increasing attention over the past few years. Because of their high sensitivity, specificity and fast response, these novel fluorescent probes have been proven to be useful tools for facilitating biomedical research. I have further extended the diversity by developing organelle-specific responsive probes capable of detecting changes in biomolecular levels and the microenvironment. My future research efforts give more considerations of the "low-concern" organelles, such as the Golgi apparatus, the endoplasmic reticulum, and ribosomes. Considering the tiny sizes of subcellular organelles, we anticipate that better visualization of the cellular events within specific organelles will rely on super-resolution optical microscopy with nanoscopic-scale resolution.
Author: Bernard Valeur
Publisher: John Wiley & Sons
ISBN: 3527328467
Category : Science
Languages : en
Pages : 595
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Book Description
This second edition of the well-established bestseller is completely updated and revised with approximately 30 % additional material, including two new chapters on applications, which has seen the most significant developments. The comprehensive overview written at an introductory level covers fundamental aspects, principles of instrumentation and practical applications, while providing many valuable tips. For photochemists and photophysicists, physical chemists, molecular physicists, biophysicists, biochemists and biologists, lecturers and students of chemistry, physics, and biology.
