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Author: Michael Andreas Ochsenkühn
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Biomedical sciences are in need of more versatile and more sensitive approaches for research and also for diagnostic purposes. In particular, intracellular detection and imaging of disease relevant proteins is a challenge. Although the state of the art method of intracellular imaging is fluorescence, it suffers from several drawbacks. Raman is an alternative imaging modality and this work investigates the use of different Raman techniques for detection and imaging of cellular constituents. In one aspect of the work, surface-enhanced Raman spectroscopy using gold nanoshells excitable at a wavelength of 780 nm was investigated. Initially the investigation of the uptake of the 150 nm diameter nanoparticles showed that NS are taken up voluntarily by a non-standard en- docytosis mechanism into mammalian fibroblast cells. Furthermore it was shown that internalized particles have no detrimental in uence on cell growth or cell viability. That these nanoparticles are non toxic was further confirmed by testing for markers of apoptosis and necrosis. Preliminary surface-enhanced Raman spectroscopy (SERS) studies produced spectra from intracellular compartments with an enhancement factor of 1010. To yield high specificity of the intracellular Raman protein sensor, two different approaches were studied. The first is based on the application of DNA aptamers which form a stacked G-quadruplex on target protein binding. A SERS sensor based on the well characterized Thrombin binding aptamer (TBA) yielded high reproducibility, high target specificity, and a limit of detection down to 0.1 fM. Further studies on a similar stacked G-quadruplex forming aptamer confirmed that observed detection signal is produced by the aptamer assuming its secondary structure but also showed that the stabilization and formation of the G-quadruplex secondary structure is strongly buffer dependent. A second sensing approach was based on a peptide (a3(IV)NC1) influential in Goodpasture's syndrome, an autoimmune disease. With the help of this peptide we found that an intracellular redoxpotential of -200 mV is necessary to make it accessible for the protease Cathepsin D. We found that SERS sensing has the ability to study the binding of Cathepsin D, its activity and with the help of a synthesized amino-acid SERS library the direct detection of the remaining peptide products. Finally this work concludes with imaging the changes of lipid droplet structure and distribution in fibroblast cells during the infection process of the murine cytomegalovirus (MCMV) in fixed and in living cells by coherent anti-Stokes Raman based on a Synchro-lock phase coupled setup. This showed that CARS imaging is able to non-invasively investigate the changes of lipid structures during different stages of the infection process and therefore promises to be a valuable tool in biological research.
Author: Michael Andreas Ochsenkühn
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Biomedical sciences are in need of more versatile and more sensitive approaches for research and also for diagnostic purposes. In particular, intracellular detection and imaging of disease relevant proteins is a challenge. Although the state of the art method of intracellular imaging is fluorescence, it suffers from several drawbacks. Raman is an alternative imaging modality and this work investigates the use of different Raman techniques for detection and imaging of cellular constituents. In one aspect of the work, surface-enhanced Raman spectroscopy using gold nanoshells excitable at a wavelength of 780 nm was investigated. Initially the investigation of the uptake of the 150 nm diameter nanoparticles showed that NS are taken up voluntarily by a non-standard en- docytosis mechanism into mammalian fibroblast cells. Furthermore it was shown that internalized particles have no detrimental in uence on cell growth or cell viability. That these nanoparticles are non toxic was further confirmed by testing for markers of apoptosis and necrosis. Preliminary surface-enhanced Raman spectroscopy (SERS) studies produced spectra from intracellular compartments with an enhancement factor of 1010. To yield high specificity of the intracellular Raman protein sensor, two different approaches were studied. The first is based on the application of DNA aptamers which form a stacked G-quadruplex on target protein binding. A SERS sensor based on the well characterized Thrombin binding aptamer (TBA) yielded high reproducibility, high target specificity, and a limit of detection down to 0.1 fM. Further studies on a similar stacked G-quadruplex forming aptamer confirmed that observed detection signal is produced by the aptamer assuming its secondary structure but also showed that the stabilization and formation of the G-quadruplex secondary structure is strongly buffer dependent. A second sensing approach was based on a peptide (a3(IV)NC1) influential in Goodpasture's syndrome, an autoimmune disease. With the help of this peptide we found that an intracellular redoxpotential of -200 mV is necessary to make it accessible for the protease Cathepsin D. We found that SERS sensing has the ability to study the binding of Cathepsin D, its activity and with the help of a synthesized amino-acid SERS library the direct detection of the remaining peptide products. Finally this work concludes with imaging the changes of lipid droplet structure and distribution in fibroblast cells during the infection process of the murine cytomegalovirus (MCMV) in fixed and in living cells by coherent anti-Stokes Raman based on a Synchro-lock phase coupled setup. This showed that CARS imaging is able to non-invasively investigate the changes of lipid structures during different stages of the infection process and therefore promises to be a valuable tool in biological research.
Author: Michael Andreas Ochsenkühn
Publisher:
ISBN:
Category :
Languages : en
Pages : 150
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Book Description
Author: Ewen Smith
Publisher: John Wiley & Sons
ISBN: 1119440548
Category : Science
Languages : en
Pages : 304
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Book Description
Second edition of the guide to the modern techniques that demonstrate the potential of Raman spectroscopy Completely revised and updated, the second edition of Modern Raman Spectroscopy presents the information needed for clear understanding and application of the technique of Raman Spectroscopy in a range of areas such as pharmaceuticals, forensics, and biology. The authors—noted experts on the topic—reveal how to make full use of the critical information presented and include a wealth of examples of the pitfalls that can be encountered. The text opens with a description of the basic theory to assist readers in making a practical interpretation of Raman Spectra. Chapters include the main equations that are used in order to highlight the theory’s meaning and relevance while avoiding a full mathematical treatment. Modern Raman Spectroscopy provides a firm grounding, combined with a variety of references, from which to approach a more comprehensive study of specific aspects of Raman Spectroscopy. This new edition: Includes instrumentation sections that now contain Spatially Offset Raman scattering and transmission Raman scattering Offers an updated SERS chapter that presents recent examples and Tip enhanced Raman scattering Contains updated information with an emphasis on pharmaceutical, forensic, and biological applications Introduces modern techniques in the imaging and mapping of biological samples and more advanced methods which are becoming easier to use Written for users of Raman Spectroscopy in industry, including non-analysts, researchers, and academics, the second edition of Modern Raman Spectroscopy clearly demonstrates the potential of using Raman Spectroscopy for a wide range of applications.
Author: Abida Naemat
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Valerian Ciobotă
Publisher:
ISBN:
Category :
Languages : en
Pages : 96
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Book Description
Author: J. J. Laserna
Publisher: John Wiley & Sons
ISBN:
Category : Science
Languages : en
Pages : 458
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Book Description
Raman spectroscopy is now well established as one of the most versatile techniques for the chemical analysis of molecular species. Major advances have been made in a number of areas in the field in recent years which enable the researcher and practising analytical scientist to solve the complex chemical problems of today. The ten chapters in Modern Techniques in Raman Spectroscopy cover some of the most exciting fields of research in modern Raman techniques, and illustrate the power of modern Raman spectroscopy for molecular analysis in both theoretical and practical problems. The volume opens with chapters on signal expressions and instrumentation in Raman spectroscopy, and then goes on to discuss in detail Fourier and Hadamard Transform Raman spectroscopies, micro-Raman spectroscopy, surface-enhanced Raman spectroscopy, Raman optical activity, coherent and time-resolved techniques and the use of optical fibres in Raman spectroscopy. The chapters are written by leading researchers from a broad range of disciplines. Throughout, applications of the various techniques are discussed. Modern Techniques in Raman Spectroscopy will be of great interest to all those involved in molecular spectroscopy, in both industry and academia. The inclusion of a wide range of modern techniques in a single volume will make this a particularly valuable work to researchers across the whole field of Raman spectroscopy.
Author: M. Ghomi
Publisher: IOS Press
ISBN: 1614990204
Category : Medical
Languages : en
Pages : 204
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Book Description
Raman spectroscopy has been known and used as a technique for 80 years, originally for the study of inorganic substances. Recent advances in underlying technology, such as lasers, detectors, filters and components, have transformed the technique into a very effective modern tool for studying complex biological problems. Professor Mahmoud Ghomi (of the University of Paris XIII) has edited this book on the applications of Raman spectroscopy to biology, covering in a readily accessible way the area from basic studies to the diagnosis of disease. The early chapters provide background information on basic principles underlying the main Raman methods covered in the book, with information on Surface-Enhanced Raman Scattering (SERS) and Surface-Enhanced Fluorescence (SEF), as well as giving accounts of applications to biomolecular and cellular investigations. Among the topics covered are studies of drugs and their complexes with biomolecules on nanoparticles, application of SERS to blood analysis, studies of single cells and of applications to human cancer diagnostics.This will be a useful book for experimental scientists in academic, governmental, industrial and clinical environments and for those entering the field of biomolecular spectroscopy.
Author: Ian R. Lewis
Publisher: CRC Press
ISBN: 9781420029253
Category : Science
Languages : en
Pages : 1076
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Book Description
This work covers principles of Raman theory, analysis, instrumentation, and measurement, specifying up-to-the-minute benefits of Raman spectroscopy in a variety of industrial and academic fields, and how to cultivate growth in new disciplines. It contains case studies that illustrate current techniques in data extraction and analysis, as well as over 500 drawings and photographs that clarify and reinforce critical text material. The authors discuss Raman spectra of gases; Raman spectroscopy applied to crystals, applications to gemology, in vivo Raman spectroscopy, applications in forensic science, and collectivity of vibrational modes, among many other topics.
Author: Smith
Publisher:
ISBN: 9780471496762
Category :
Languages : en
Pages :
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Book Description
Author: Marek Prochazka
Publisher: Springer
ISBN: 3319239929
Category : Science
Languages : en
Pages : 230
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Book Description
This book gives an overview of recent developments in RS and SERS for sensing and biosensing considering also limitations, possibilities and prospects of this technique. Raman scattering (RS) is a widely used vibrational technique providing highly specific molecular spectral patterns. A severe limitation for the application of this spectroscopic technique lies in the low cross section of RS. Surface-enhanced Raman scattering (SERS) spectroscopy overcomes this problem by 6-11 orders of magnitude enhancement compared with the standard RS for molecules in the close vicinity of certain rough metal surfaces. Thus, SERS combines molecular fingerprint specificity with potential single-molecule sensitivity. Due to the recent development of new SERS-active substrates, labeling and derivatization chemistry as well as new instrumentations, SERS became a very promising tool for many varied applications, including bioanalytical studies and sensing. Both intrinsic and extrinsic SERS biosensing schemes have been employed to detect and identify small molecules, nucleic acids and proteins, and also for cellular and in vivo sensing.
