The Resource Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource)
Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource)
Resource Information
The item Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.This item is available to borrow from 1 library branch.
Resource Information
The item Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.
This item is available to borrow from 1 library branch.
- Summary
-
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- Annotation
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- Language
- eng
- Contents
-
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Isbn
- 9783642180354
- Label
- Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging
- Title
- Advanced Fluorescence Reporters in Chemistry and Biology III
- Title remainder
- Applications in Sensing and Imaging
- Statement of responsibility
- edited by Alexander P. Demchenko
- Language
- eng
- Summary
-
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- Annotation
- The key element of any fluorescence sensing or imaging technology is the fluorescence reporter, which transforms the information on molecular interactions and dynamics into measurable signals of fluorescence emission. This book, written by a team of frontline researchers, demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging. Basic information on obtaining and interpreting experimental data is presented and recent progress in these practically important areas is highlighted. The book is addressed to a broad interdisciplinary audience
- http://library.link/vocab/creatorName
- Demchenko, Alexander P
- Dewey number
- 543
- LC call number
- QD71-142
- http://library.link/vocab/relatedWorkOrContributorName
- SpringerLink (Online service)
- Series statement
- Springer Series on Fluorescence, Methods and Applications,
- Series volume
- 113
- http://library.link/vocab/subjectName
-
- Chemistry
- Medicine
- Analytical biochemistry
- Biochemistry
- Cytology
- Optical materials
- Chemistry
- Analytical Chemistry
- Molecular Medicine
- Medical Biochemistry
- Biophysics and Biological Physics
- Optical and Electronic Materials
- Biological Techniques
- Summary expansion
- This volume demonstrates the broad field of applications of fluorescence reporters, starting from nanoscopic properties of materials, such as self-assembled thin films, polymers and ionic liquids, through biological macromolecules and further to living cell, tissue and body imaging
- Label
- Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource)
- Contents
-
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Control code
- OCM1bookssj0000508069
- Dimensions
- unknown
- Isbn
- 9783642180354
- Other control number
- 10.1007/978-3-642-18035-4
- Specific material designation
- remote
- System control number
- (WaSeSS)bookssj0000508069
- Label
- Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource)
- Contents
-
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Interfacial behavior of fluorescent dyes. Power and weakness of nanoscopic description -- Fluorescence probing of physicochemical characteristics of the room temperature ionic liquids -- Fluorescence spectroscopy in polymer science -- Fluorescence probing in structurally anisotropic materials. From liquid crystals to macromolecules, micelles and lipid bilayers -- ptimized dyes for protein and nucleic acid detection -- Functional nucleic acids for fluorescence based biosensing applications -- Covalent labeling of biomolecules in living cells -- Tetracysteine and bipartite tags for biarsenical organic fluorophores -- Labeling of oligohistidine-tagged proteins -- In vivo imaging of vascular targets using near-infrared fluorescent probes -- Whole-body imaging of hematopoietic and cancer cells using near infrared probes
- Control code
- OCM1bookssj0000508069
- Dimensions
- unknown
- Isbn
- 9783642180354
- Other control number
- 10.1007/978-3-642-18035-4
- Specific material designation
- remote
- System control number
- (WaSeSS)bookssj0000508069
Subject
- Analytical biochemistry
- Biochemistry
- Biological Techniques
- Biophysics and Biological Physics
- Chemistry
- Cytology -- Research_xMethodology
- Fluorescence Spectroscopy
- Imaging Systems
- Medical Biochemistry
- Medicine
- Molecular Medicine
- Optical and Electronic Materials
- Optical materials
- Analytical Chemistry
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<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.mst.edu/portal/Advanced-Fluorescence-Reporters-in-Chemistry-and/Ce4EvVGsADc/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.mst.edu/portal/Advanced-Fluorescence-Reporters-in-Chemistry-and/Ce4EvVGsADc/">Advanced Fluorescence Reporters in Chemistry and Biology III : Applications in Sensing and Imaging, edited by Alexander P. Demchenko, (electronic resource)</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.mst.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.mst.edu/">Missouri University of Science & Technology Library</a></span></span></span></span></div>
