Kooperativer Bibliotheksverbund

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Format: 1 Online-Ressource , v.: digital

Edition: Online_Ausgabe New York, NY Springer Science+Business Media, LLC 2008 Springer ebook collection / Chemistry and Materials Science 2005-2008 Sonstige Standardnummer des Gesamttitels: 041171-1

ISBN: 9780387745367 , 9780387745374

Additional Edition: Reproduktion von Foodborne Microbial Pathogens 2008

Language: English

Subjects: Chemistry/Pharmacy

URL: Volltext

URL: Volltext

URL: Kapitel 2

URL: Einführung/Vorwort

URL: Inhaltsverzeichnis

URL: Volltext  (lizenzpflichtig)

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Format: 1 online resource (550 p.)

ISBN: 0-85709-807-1

Series Statement: Woodhead Publishing Series in Food Science, Technology and Nutrition ; Number 262

Content: Recent advances in array-based detectors and imaging technologies have provided high throughput systems that can operate within a substantially reduced timeframe and other techniques that can detect multiple contaminants at one time. These technologies are revolutionary in terms of food safety assessment in manufacturing, and will also have a significant impact on areas such as public health and food defence. This book summarizes the latest research and applications of sensor technologies for online and high throughput screening of food. The book first introduces high throughput screening

Note: Description based upon print version of record. , Front Cover; High Throughput Screening for Food Safety Assessment: Biosensor Technologies, Hyperspectral Imaging and Practical Applications; Copyright; Contents; List of contributors; Woodhead Publishing Series in Food Science, Technology and Nutrition; Chapter 1: High throughput screening strategies and technology platforms for detection of pathogens: an introduction; 1.1. Introduction; 1.2. Current detection strategies; 1.3. Why high throughput screening (HTS) is needed; 1.4. HTS technologies for foodborne pathogens - present and future trends; References , Chapter 2: Sampling and sample preparation for sensor-based detection of pathogens in foods2.1. Introduction; 2.2. Key issues in sample preparation: from ``Farm to Fork to Physician ́ ́; 2.3. Challenges in sampling from food matrices and on ``bulk ́ ́ surfaces; 2.4. Nonspecific vs. specific methods; 2.5. Physical methods; 2.6. Chemical and combined methods; 2.7. Capture and concentration of whole microbial cells; 2.8. The use of cleaning materials in sampling; 2.9. Capture and concentration of pathogen DNA from complex food matrices; 2.10. Innovations in selective enrichment strategies , 2.11. ConclusionsReferences; Part One: Biorecognition techniques; Chapter 3: Antibodies, enzymes, and nucleic acid sensors for high throughput screening of microbes and toxins in food; 3.1. Introduction; 3.2. Conventional methods for bacterial pathogen detection; 3.3. Rapid and advanced technologies; 3.4. Antibody structure and production; 3.5. Polyclonal and monoclonal antibodies for biorecognition; 3.6. The identification of recombinant antibodies by phage display technology; 3.7. Biopanning of phage display libraries; 3.8. Biosensors and antibody immobilization strategies , 3.9. Immunosensor-based applications for high throughput pathogen screening3.10. Multiplexed pathogen detection using antibodies for biorecognition; 3.11. Nucleic acid assays; 3.12. Microarray-based technologies; 3.13. Enzyme-based sensors; 3.14. High throughput bacterial toxin detection; 3.15. High throughput fungal pathogen and mycotoxin detection; 3.16. Marine toxins; 3.17. Selected commercial platforms for high throughput detection; 3.18. Conclusion; References; Chapter 4: Phage technology in high throughput screening for pathogen detection in food; 4.1. Introduction , 4.2. Pathogen detection using phage: culture-based methods and phage typing4.3. Pathogen detection using phage: phage-host adhesion-based methods; 4.3.1. Phage display; 4.3.2. Labeled phage; 4.4. Pathogen detection using phage: biosensors; 4.4.1. Surface plasmon resonance; 4.4.2. Magnetoelastic biosensors; 4.4.3. Piezoelectric quartz crystal; 4.4.4. Impedimetric detection; 4.4.5. Acoustic wave biosensors; 4.4.6. Optofluidic ring resonator; 4.4.7. Long-period grating; 4.5. Pathogen detection using phage: phage-triggered ion cascade , 4.6. Pathogen detection using phage: phage replication and metabolism-based methods , English

Additional Edition: ISBN 0-85709-801-2

Additional Edition: ISBN 1-322-10937-0

Language: English

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Format: XLVII, 607 S. : , Ill., graph. Darst.

Edition: 5. ed.

ISBN: 978-1-4665-6443-5

Language: English

Subjects: Biology

Keywords: Lebensmittelmikrobiologie

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Format: 1 Online-Ressource (XXVI, 365 p. 133 illus., 114 illus. in color)

Edition: 2nd ed. 2018

ISBN: 9781493973491

Series Statement: Food Science Text Series

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-1-4939-7347-7

Language: English

DOI: 10.1007/978-1-4939-7349-1

URL: Volltext  (URL des Erstveröffentlichers)

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Format: 1 online resource (334 pages) : , illustrations

Content: Annotation This Special Issue is dedicated to publishing articles that describe the novel sensors or high-throughput screening technologies that are involved in detecting multiple pathogens, spoilage microorganisms, microbial communnities, indicator microorganisms, microbial or non-microbial toxins, and non-microbial parameters (water activity, pH, metabolic by-products) relevant to improving the safety, quality, and security of foods.

Additional Edition: ISBN 3-03842-199-5

Language: English

UID:

Format: 1 online resource (334 pages)

ISBN: 3-03842-200-2

Language: English

UID:

Format: 1 online resource (334 pages)

ISBN: 3-03842-200-2

Language: English

UID:

Format: 1 online resource (334 pages)

ISBN: 3-03842-200-2

Language: English

UID:

Format: 1 online resource (550 p.)

ISBN: 0-85709-807-1

Series Statement: Woodhead Publishing Series in Food Science, Technology and Nutrition ; Number 262

Content: Recent advances in array-based detectors and imaging technologies have provided high throughput systems that can operate within a substantially reduced timeframe and other techniques that can detect multiple contaminants at one time. These technologies are revolutionary in terms of food safety assessment in manufacturing, and will also have a significant impact on areas such as public health and food defence. This book summarizes the latest research and applications of sensor technologies for online and high throughput screening of food. The book first introduces high throughput screening

Note: Description based upon print version of record. , Front Cover; High Throughput Screening for Food Safety Assessment: Biosensor Technologies, Hyperspectral Imaging and Practical Applications; Copyright; Contents; List of contributors; Woodhead Publishing Series in Food Science, Technology and Nutrition; Chapter 1: High throughput screening strategies and technology platforms for detection of pathogens: an introduction; 1.1. Introduction; 1.2. Current detection strategies; 1.3. Why high throughput screening (HTS) is needed; 1.4. HTS technologies for foodborne pathogens - present and future trends; References , Chapter 2: Sampling and sample preparation for sensor-based detection of pathogens in foods2.1. Introduction; 2.2. Key issues in sample preparation: from ``Farm to Fork to Physician ́ ́; 2.3. Challenges in sampling from food matrices and on ``bulk ́ ́ surfaces; 2.4. Nonspecific vs. specific methods; 2.5. Physical methods; 2.6. Chemical and combined methods; 2.7. Capture and concentration of whole microbial cells; 2.8. The use of cleaning materials in sampling; 2.9. Capture and concentration of pathogen DNA from complex food matrices; 2.10. Innovations in selective enrichment strategies , 2.11. ConclusionsReferences; Part One: Biorecognition techniques; Chapter 3: Antibodies, enzymes, and nucleic acid sensors for high throughput screening of microbes and toxins in food; 3.1. Introduction; 3.2. Conventional methods for bacterial pathogen detection; 3.3. Rapid and advanced technologies; 3.4. Antibody structure and production; 3.5. Polyclonal and monoclonal antibodies for biorecognition; 3.6. The identification of recombinant antibodies by phage display technology; 3.7. Biopanning of phage display libraries; 3.8. Biosensors and antibody immobilization strategies , 3.9. Immunosensor-based applications for high throughput pathogen screening3.10. Multiplexed pathogen detection using antibodies for biorecognition; 3.11. Nucleic acid assays; 3.12. Microarray-based technologies; 3.13. Enzyme-based sensors; 3.14. High throughput bacterial toxin detection; 3.15. High throughput fungal pathogen and mycotoxin detection; 3.16. Marine toxins; 3.17. Selected commercial platforms for high throughput detection; 3.18. Conclusion; References; Chapter 4: Phage technology in high throughput screening for pathogen detection in food; 4.1. Introduction , 4.2. Pathogen detection using phage: culture-based methods and phage typing4.3. Pathogen detection using phage: phage-host adhesion-based methods; 4.3.1. Phage display; 4.3.2. Labeled phage; 4.4. Pathogen detection using phage: biosensors; 4.4.1. Surface plasmon resonance; 4.4.2. Magnetoelastic biosensors; 4.4.3. Piezoelectric quartz crystal; 4.4.4. Impedimetric detection; 4.4.5. Acoustic wave biosensors; 4.4.6. Optofluidic ring resonator; 4.4.7. Long-period grating; 4.5. Pathogen detection using phage: phage-triggered ion cascade , 4.6. Pathogen detection using phage: phage replication and metabolism-based methods , English

Additional Edition: ISBN 0-85709-801-2

Additional Edition: ISBN 1-322-10937-0

Language: English

UID:

Format: 1 online resource (550 p.)

ISBN: 0-85709-807-1

Series Statement: Woodhead Publishing Series in Food Science, Technology and Nutrition ; Number 262

Content: Recent advances in array-based detectors and imaging technologies have provided high throughput systems that can operate within a substantially reduced timeframe and other techniques that can detect multiple contaminants at one time. These technologies are revolutionary in terms of food safety assessment in manufacturing, and will also have a significant impact on areas such as public health and food defence. This book summarizes the latest research and applications of sensor technologies for online and high throughput screening of food. The book first introduces high throughput screening

Note: Description based upon print version of record. , Front Cover; High Throughput Screening for Food Safety Assessment: Biosensor Technologies, Hyperspectral Imaging and Practical Applications; Copyright; Contents; List of contributors; Woodhead Publishing Series in Food Science, Technology and Nutrition; Chapter 1: High throughput screening strategies and technology platforms for detection of pathogens: an introduction; 1.1. Introduction; 1.2. Current detection strategies; 1.3. Why high throughput screening (HTS) is needed; 1.4. HTS technologies for foodborne pathogens - present and future trends; References , Chapter 2: Sampling and sample preparation for sensor-based detection of pathogens in foods2.1. Introduction; 2.2. Key issues in sample preparation: from ``Farm to Fork to Physician ́ ́; 2.3. Challenges in sampling from food matrices and on ``bulk ́ ́ surfaces; 2.4. Nonspecific vs. specific methods; 2.5. Physical methods; 2.6. Chemical and combined methods; 2.7. Capture and concentration of whole microbial cells; 2.8. The use of cleaning materials in sampling; 2.9. Capture and concentration of pathogen DNA from complex food matrices; 2.10. Innovations in selective enrichment strategies , 2.11. ConclusionsReferences; Part One: Biorecognition techniques; Chapter 3: Antibodies, enzymes, and nucleic acid sensors for high throughput screening of microbes and toxins in food; 3.1. Introduction; 3.2. Conventional methods for bacterial pathogen detection; 3.3. Rapid and advanced technologies; 3.4. Antibody structure and production; 3.5. Polyclonal and monoclonal antibodies for biorecognition; 3.6. The identification of recombinant antibodies by phage display technology; 3.7. Biopanning of phage display libraries; 3.8. Biosensors and antibody immobilization strategies , 3.9. Immunosensor-based applications for high throughput pathogen screening3.10. Multiplexed pathogen detection using antibodies for biorecognition; 3.11. Nucleic acid assays; 3.12. Microarray-based technologies; 3.13. Enzyme-based sensors; 3.14. High throughput bacterial toxin detection; 3.15. High throughput fungal pathogen and mycotoxin detection; 3.16. Marine toxins; 3.17. Selected commercial platforms for high throughput detection; 3.18. Conclusion; References; Chapter 4: Phage technology in high throughput screening for pathogen detection in food; 4.1. Introduction , 4.2. Pathogen detection using phage: culture-based methods and phage typing4.3. Pathogen detection using phage: phage-host adhesion-based methods; 4.3.1. Phage display; 4.3.2. Labeled phage; 4.4. Pathogen detection using phage: biosensors; 4.4.1. Surface plasmon resonance; 4.4.2. Magnetoelastic biosensors; 4.4.3. Piezoelectric quartz crystal; 4.4.4. Impedimetric detection; 4.4.5. Acoustic wave biosensors; 4.4.6. Optofluidic ring resonator; 4.4.7. Long-period grating; 4.5. Pathogen detection using phage: phage-triggered ion cascade , 4.6. Pathogen detection using phage: phage replication and metabolism-based methods , English

Additional Edition: ISBN 0-85709-801-2

Additional Edition: ISBN 1-322-10937-0

Language: English