Biological Identification

Informationen zum Autor R. Paul Schaudies is the president and chief executive officer of GenArraytion. He served as scientific advisor to the EPA during the Anthrax incident in Washington D.C. and served on a dozen National Research Council committees due to his expertise in bio- and nanotechnology. He has also held research posts in the US Army, and is an author of several papers and reports on biological identification. Klappentext Biological Identification provides a detailed review of, and potential future developments in, the technologies available to counter the threats to life and health posed by natural pathogens, toxins, and bioterrorism agents. Biological identification systems must be fast, accurate, reliable, and easy to use. It is also important to employ the most suitable technology in dealing with any particular threat. This book covers the fundamentals of these vital systems and lays out possible advances in the technology.Part one covers the essentials of DNA and RNA sequencing for the identification of pathogens, including next generation sequencing (NGS), polymerase chain reaction (PCR) methods, isothermal amplification, and bead array technologies. Part two addresses a variety of approaches to making identification systems portable, tackling the special requirements of smaller, mobile systems in fluid movement, power usage, and sample preparation. Part three focuses on a range of optical methods and their advantages. Finally, part four describes a unique approach to sample preparation and a promising approach to identification using mass spectroscopy.Biological Identification is a useful resource for academics and engineers involved in the microelectronics and sensors industry, and for companies, medical organizations and military bodies looking for biodetection solutions. Zusammenfassung Part one covers DNA sequencing of pathogens! part two looks at lab-on-chip and portable systems for biodetection and analysis! part three describes optical systems and part four explores sample preparation and mass spectrometry-based biological analysis. Inhaltsverzeichnis Part I: Technology for DNA and RNA analysis of pathogens 1. Nucleic acid sequencing for characterizing infectious and/or novel agents in complex samples 2. Multiplexed, lateral flow, polymerase chain reaction (PCR) techniques for biological identification 3. Isothermal amplification of specific sequences 4. Bead array technologies for genetic disease screening and microbial detection Part II: Lab-on-chip and portable systems for biodetection and analysis 5. Electrochemical detection for biological identification 6. Conductometric biosensors 7. Bio-chem-FETs: field effect transistors for biological sensing 8. Microfluidic devices for rapid identification and characterization of pathogens Part III: Optical systems for biological identification 9. Optical biodetection using receptors and enzymes (porphyrin-incorporated) 10. Overview of terahertz spectral characterization for biological identification 11. Raman spectroscopy for biological identification 12. Lidar (Light Detection And Ranging) for biodetection Part IV: Sample preparation and mass spectrometry-based biological analysis 13. Electrophoretic approaches to sample collection and preparation for nucleic acids analysis 14. Mass spectrometry-based proteomics techniques for biological identification ...

Autorentext
R. Paul Schaudies is the president and chief executive officer of GenArraytion. He served as scientific advisor to the EPA during the Anthrax incident in Washington D.C. and served on a dozen National Research Council committees due to his expertise in bio- and nanotechnology. He has also held research posts in the US Army, and is an author of several papers and reports on biological identification.

Klappentext

Biological Identification provides a detailed review of, and potential future developments in, the technologies available to counter the threats to life and health posed by natural pathogens, toxins, and bioterrorism agents. Biological identification systems must be fast, accurate, reliable, and easy to use. It is also important to employ the most suitable technology in dealing with any particular threat. This book covers the fundamentals of these vital systems and lays out possible advances in the technology.

Part one covers the essentials of DNA and RNA sequencing for the identification of pathogens, including next generation sequencing (NGS), polymerase chain reaction (PCR) methods, isothermal amplification, and bead array technologies. Part two addresses a variety of approaches to making identification systems portable, tackling the special requirements of smaller, mobile systems in fluid movement, power usage, and sample preparation. Part three focuses on a range of optical methods and their advantages. Finally, part four describes a unique approach to sample preparation and a promising approach to identification using mass spectroscopy.

Biological Identification is a useful resource for academics and engineers involved in the microelectronics and sensors industry, and for companies, medical organizations and military bodies looking for biodetection solutions.

Zusammenfassung
Part one covers DNA sequencing of pathogens, part two looks at lab-on-chip and portable systems for biodetection and analysis, part three describes optical systems and part four explores sample preparation and mass spectrometry-based biological analysis.

Inhalt

Part I: Technology for DNA and RNA analysis of pathogens

1. Nucleic acid sequencing for characterizing infectious and/or novel agents in complex samples
2. Multiplexed, lateral flow, polymerase chain reaction (PCR) techniques for biological identification
3. Isothermal amplification of specific sequences

4. Bead array technologies for genetic disease screening and microbial detection

   Part II: Lab-on-chip and portable systems for biodetection and analysis

5. Electrochemical detection for biological identification
6. Conductometric biosensors
7. Bio-chem-FETs: field effect transistors for biological sensing

8. Microfluidic devices for rapid identification and characterization of pathogens

   Part III: Optical systems for biological identification

9. Optical biodetection using receptors and enzymes (porphyrin-incorporated)
10. Overview of terahertz spectral characterization for biological identification
11. Raman spectroscopy for biological identification

12. Lidar (Light Detection And Ranging) for biodetection

    Part IV: Sample preparation and mass spectrometry-based biological analysis

13. Electrophoretic approaches to sample collection and preparation for nucleic acids analysis
14. Mass spectrometry-based proteomics techniques for biological identification