Recognition Receptors in Biosensors:
Gespeichert in:
1. Verfasser: | |
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Format: | Elektronisch E-Book |
Sprache: | English |
Veröffentlicht: |
New York, NY
Springer New York
2010
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Schlagworte: | |
Online-Zugang: | BTU01 FHI01 FHN01 FHR01 Volltext |
Beschreibung: | This book presents a significant and up-to-date review of various recognition receptors, their immobilization, and an overview of surface characterization techniques. Distinguished scientists from key institutions worldwide have contributed chapters that provide a deep analysis of their particular subjects; at the same time, each topic is framed within the context of this integrated approach. This work explores comprehensively the field of recognition receptors, presenting a thorough review of the subject and effective integration of these receptors on sensor surfaces in order to appropriately convey state-of the-art fundamentals and applications of the most innovative approaches. The book consists of four parts: The first part comprises three chapters, which are devoted to the introduction of biomolecular recognition, surface sensitization and recognition receptors immobilization, as well as containing an overview of the analytical tools that can be used for surface characterization. The second part describes the different natural recognition receptors (enzymes, antibodies, cells, tissues, plant tissues, peptides, bacteriophages and photosynthetic proteins) currently used in the field of biosensors and microarrays. It covers the theory behind each technique and delivers a detailed state-of-the-art review for each new technology. The third part covers the recognition receptors that can be prepared and tailored by man to mimic natural molecules used in biosensors and microarrays. It describes in detail the use of engineered antibodies, carbohydrates, nucleic acids, oligonucleotides, aptamers, genetically engineered cells, genetically engineered proteins, phage display, molecularly imprinted polymers, and biomemetic materials as recognition elements. The fourth part contains one chapter that briefly covers the kinetics and thermodynamics of association/dissociation of analytes to the recognition receptors on sensor surfaces. Students and researchers who need a solid foundation or reference, and practitioners interested in discovering more about what is state-of-the-art in the field of recognition receptors will find this book invaluable. This book is written for academics, from undergraduate and postgraduate students upward, working in areas related to chemical/bio-sensors. It would be an important reference for, but not limited to, professionals working in varied fields including biology, biotechnology, biochemistry, analytical chemistry, biomedicine, physical chemistry, microsystem engineering, nanotechnology, veterinary, food QA, bioterrorism and security, as well as health surveillance. The book has more than 150 illustrations and figures to help explain and clarify the ideas presented |
Beschreibung: | 1 Online-Ressource (XIV, 849p) |
ISBN: | 9781441909190 |
DOI: | 10.1007/978-1-4419-0919-0 |
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500 | |a The book consists of four parts: The first part comprises three chapters, which are devoted to the introduction of biomolecular recognition, surface sensitization and recognition receptors immobilization, as well as containing an overview of the analytical tools that can be used for surface characterization. The second part describes the different natural recognition receptors (enzymes, antibodies, cells, tissues, plant tissues, peptides, bacteriophages and photosynthetic proteins) currently used in the field of biosensors and microarrays. It covers the theory behind each technique and delivers a detailed state-of-the-art review for each new technology. The third part covers the recognition receptors that can be prepared and tailored by man to mimic natural molecules used in biosensors and microarrays. | ||
500 | |a It describes in detail the use of engineered antibodies, carbohydrates, nucleic acids, oligonucleotides, aptamers, genetically engineered cells, genetically engineered proteins, phage display, molecularly imprinted polymers, and biomemetic materials as recognition elements. The fourth part contains one chapter that briefly covers the kinetics and thermodynamics of association/dissociation of analytes to the recognition receptors on sensor surfaces. Students and researchers who need a solid foundation or reference, and practitioners interested in discovering more about what is state-of-the-art in the field of recognition receptors will find this book invaluable. This book is written for academics, from undergraduate and postgraduate students upward, working in areas related to chemical/bio-sensors. | ||
500 | |a It would be an important reference for, but not limited to, professionals working in varied fields including biology, biotechnology, biochemistry, analytical chemistry, biomedicine, physical chemistry, microsystem engineering, nanotechnology, veterinary, food QA, bioterrorism and security, as well as health surveillance. The book has more than 150 illustrations and figures to help explain and clarify the ideas presented | ||
505 | 0 | |a Sensor Surface Chemistry and Receptor Immobilization -- Principles of Biomolecular Recognition -- Surface Sensitization Techniques and Recognition Receptors Immobilization on Biosensors and Microarrays -- Analytical Tools for Biosensor Surface Chemical Characterization -- Natural Recognition Receptors -- Enzyme for Biosensing Applications -- Antibodies in Biosensing -- Peptides as Molecular Receptors -- Carbohydrates as Recognition Receptors in Biosensing Applications -- Nucleic Acid Diagnostic Biosensors -- Tissue-Based Biosensors -- Biosensing with Plants: Plant Receptors for Sensing Environmental Pollution -- Bacteriophage-Based Biosensors -- Synthetic and Engineered Receptors -- Antibody Engineering for Biosensor Applications -- Genetically Engineered Proteins as Recognition Receptors -- Biosensing Systems Based on Genetically Engineered Whole Cells -- Photosynthetic Proteins Created by Computational and Biotechnological Approaches in Biosensing Applications -- Oligonucleotides as Recognition and Catalytic Elements -- Aptamers: Versatile Tools for Reagentless Aptasensing -- Phage Display Technology in Biosensor Development -- Molecularly Imprinted Polymer Receptors for Sensors and Arrays -- Biomimetic Synthetic Receptors as Molecular Recognition Elements -- Kinetics of Chemo/Biosensors -- Kinetics of Chemo/Biosensors | |
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650 | 4 | |a Biophysics and Biological Physics | |
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Datensatz im Suchindex
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---|---|
any_adam_object | |
author | Zourob, Mohammed |
author_facet | Zourob, Mohammed |
author_role | aut |
author_sort | Zourob, Mohammed |
author_variant | m z mz |
building | Verbundindex |
bvnumber | BV041889570 |
classification_rvk | WC 3420 |
collection | ZDB-2-ENG |
contents | Sensor Surface Chemistry and Receptor Immobilization -- Principles of Biomolecular Recognition -- Surface Sensitization Techniques and Recognition Receptors Immobilization on Biosensors and Microarrays -- Analytical Tools for Biosensor Surface Chemical Characterization -- Natural Recognition Receptors -- Enzyme for Biosensing Applications -- Antibodies in Biosensing -- Peptides as Molecular Receptors -- Carbohydrates as Recognition Receptors in Biosensing Applications -- Nucleic Acid Diagnostic Biosensors -- Tissue-Based Biosensors -- Biosensing with Plants: Plant Receptors for Sensing Environmental Pollution -- Bacteriophage-Based Biosensors -- Synthetic and Engineered Receptors -- Antibody Engineering for Biosensor Applications -- Genetically Engineered Proteins as Recognition Receptors -- Biosensing Systems Based on Genetically Engineered Whole Cells -- Photosynthetic Proteins Created by Computational and Biotechnological Approaches in Biosensing Applications -- Oligonucleotides as Recognition and Catalytic Elements -- Aptamers: Versatile Tools for Reagentless Aptasensing -- Phage Display Technology in Biosensor Development -- Molecularly Imprinted Polymer Receptors for Sensors and Arrays -- Biomimetic Synthetic Receptors as Molecular Recognition Elements -- Kinetics of Chemo/Biosensors -- Kinetics of Chemo/Biosensors |
ctrlnum | (OCoLC)725385025 (DE-599)BVBBV041889570 |
dewey-full | 610.28 |
dewey-hundreds | 600 - Technology (Applied sciences) |
dewey-ones | 610 - Medicine and health |
dewey-raw | 610.28 |
dewey-search | 610.28 |
dewey-sort | 3610.28 |
dewey-tens | 610 - Medicine and health |
discipline | Biologie Medizin |
doi_str_mv | 10.1007/978-1-4419-0919-0 |
format | Electronic eBook |
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illustrated | Not Illustrated |
indexdate | 2024-07-10T01:07:32Z |
institution | BVB |
isbn | 9781441909190 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027333523 |
oclc_num | 725385025 |
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owner | DE-634 DE-898 DE-BY-UBR DE-573 DE-92 DE-83 |
owner_facet | DE-634 DE-898 DE-BY-UBR DE-573 DE-92 DE-83 |
physical | 1 Online-Ressource (XIV, 849p) |
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publishDate | 2010 |
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publisher | Springer New York |
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spelling | Zourob, Mohammed Verfasser aut Recognition Receptors in Biosensors edited by Mohammed Zourob New York, NY Springer New York 2010 1 Online-Ressource (XIV, 849p) txt rdacontent c rdamedia cr rdacarrier This book presents a significant and up-to-date review of various recognition receptors, their immobilization, and an overview of surface characterization techniques. Distinguished scientists from key institutions worldwide have contributed chapters that provide a deep analysis of their particular subjects; at the same time, each topic is framed within the context of this integrated approach. This work explores comprehensively the field of recognition receptors, presenting a thorough review of the subject and effective integration of these receptors on sensor surfaces in order to appropriately convey state-of the-art fundamentals and applications of the most innovative approaches. The book consists of four parts: The first part comprises three chapters, which are devoted to the introduction of biomolecular recognition, surface sensitization and recognition receptors immobilization, as well as containing an overview of the analytical tools that can be used for surface characterization. The second part describes the different natural recognition receptors (enzymes, antibodies, cells, tissues, plant tissues, peptides, bacteriophages and photosynthetic proteins) currently used in the field of biosensors and microarrays. It covers the theory behind each technique and delivers a detailed state-of-the-art review for each new technology. The third part covers the recognition receptors that can be prepared and tailored by man to mimic natural molecules used in biosensors and microarrays. It describes in detail the use of engineered antibodies, carbohydrates, nucleic acids, oligonucleotides, aptamers, genetically engineered cells, genetically engineered proteins, phage display, molecularly imprinted polymers, and biomemetic materials as recognition elements. The fourth part contains one chapter that briefly covers the kinetics and thermodynamics of association/dissociation of analytes to the recognition receptors on sensor surfaces. Students and researchers who need a solid foundation or reference, and practitioners interested in discovering more about what is state-of-the-art in the field of recognition receptors will find this book invaluable. This book is written for academics, from undergraduate and postgraduate students upward, working in areas related to chemical/bio-sensors. It would be an important reference for, but not limited to, professionals working in varied fields including biology, biotechnology, biochemistry, analytical chemistry, biomedicine, physical chemistry, microsystem engineering, nanotechnology, veterinary, food QA, bioterrorism and security, as well as health surveillance. The book has more than 150 illustrations and figures to help explain and clarify the ideas presented Sensor Surface Chemistry and Receptor Immobilization -- Principles of Biomolecular Recognition -- Surface Sensitization Techniques and Recognition Receptors Immobilization on Biosensors and Microarrays -- Analytical Tools for Biosensor Surface Chemical Characterization -- Natural Recognition Receptors -- Enzyme for Biosensing Applications -- Antibodies in Biosensing -- Peptides as Molecular Receptors -- Carbohydrates as Recognition Receptors in Biosensing Applications -- Nucleic Acid Diagnostic Biosensors -- Tissue-Based Biosensors -- Biosensing with Plants: Plant Receptors for Sensing Environmental Pollution -- Bacteriophage-Based Biosensors -- Synthetic and Engineered Receptors -- Antibody Engineering for Biosensor Applications -- Genetically Engineered Proteins as Recognition Receptors -- Biosensing Systems Based on Genetically Engineered Whole Cells -- Photosynthetic Proteins Created by Computational and Biotechnological Approaches in Biosensing Applications -- Oligonucleotides as Recognition and Catalytic Elements -- Aptamers: Versatile Tools for Reagentless Aptasensing -- Phage Display Technology in Biosensor Development -- Molecularly Imprinted Polymer Receptors for Sensors and Arrays -- Biomimetic Synthetic Receptors as Molecular Recognition Elements -- Kinetics of Chemo/Biosensors -- Kinetics of Chemo/Biosensors Engineering Bioorganic chemistry Microbiology Biomedical engineering Nanotechnology Biomedical Engineering Biophysics and Biological Physics Bioorganic Chemistry Ingenieurwissenschaften Erscheint auch als Druckausgabe 978-1-4419-0918-3 https://doi.org/10.1007/978-1-4419-0919-0 Verlag Volltext |
spellingShingle | Zourob, Mohammed Recognition Receptors in Biosensors Sensor Surface Chemistry and Receptor Immobilization -- Principles of Biomolecular Recognition -- Surface Sensitization Techniques and Recognition Receptors Immobilization on Biosensors and Microarrays -- Analytical Tools for Biosensor Surface Chemical Characterization -- Natural Recognition Receptors -- Enzyme for Biosensing Applications -- Antibodies in Biosensing -- Peptides as Molecular Receptors -- Carbohydrates as Recognition Receptors in Biosensing Applications -- Nucleic Acid Diagnostic Biosensors -- Tissue-Based Biosensors -- Biosensing with Plants: Plant Receptors for Sensing Environmental Pollution -- Bacteriophage-Based Biosensors -- Synthetic and Engineered Receptors -- Antibody Engineering for Biosensor Applications -- Genetically Engineered Proteins as Recognition Receptors -- Biosensing Systems Based on Genetically Engineered Whole Cells -- Photosynthetic Proteins Created by Computational and Biotechnological Approaches in Biosensing Applications -- Oligonucleotides as Recognition and Catalytic Elements -- Aptamers: Versatile Tools for Reagentless Aptasensing -- Phage Display Technology in Biosensor Development -- Molecularly Imprinted Polymer Receptors for Sensors and Arrays -- Biomimetic Synthetic Receptors as Molecular Recognition Elements -- Kinetics of Chemo/Biosensors -- Kinetics of Chemo/Biosensors Engineering Bioorganic chemistry Microbiology Biomedical engineering Nanotechnology Biomedical Engineering Biophysics and Biological Physics Bioorganic Chemistry Ingenieurwissenschaften |
title | Recognition Receptors in Biosensors |
title_auth | Recognition Receptors in Biosensors |
title_exact_search | Recognition Receptors in Biosensors |
title_full | Recognition Receptors in Biosensors edited by Mohammed Zourob |
title_fullStr | Recognition Receptors in Biosensors edited by Mohammed Zourob |
title_full_unstemmed | Recognition Receptors in Biosensors edited by Mohammed Zourob |
title_short | Recognition Receptors in Biosensors |
title_sort | recognition receptors in biosensors |
topic | Engineering Bioorganic chemistry Microbiology Biomedical engineering Nanotechnology Biomedical Engineering Biophysics and Biological Physics Bioorganic Chemistry Ingenieurwissenschaften |
topic_facet | Engineering Bioorganic chemistry Microbiology Biomedical engineering Nanotechnology Biomedical Engineering Biophysics and Biological Physics Bioorganic Chemistry Ingenieurwissenschaften |
url | https://doi.org/10.1007/978-1-4419-0919-0 |
work_keys_str_mv | AT zourobmohammed recognitionreceptorsinbiosensors |