Environmental Applications Of Nucleic Acid Amplification Technology
Download Environmental Applications Of Nucleic Acid Amplification Technology PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Environmental Applications Of Nucleic Acid Amplification Technology book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Environmental Applications of Nucleic Acid Amplification Technology
From the Preface Antibody techniques have allowed us to study microorganisms in situ. However, until recently all methodology lacked the sensitivity necessary for environmental work where microorganisms are in most cases present at very low concentrations or where microbial ecosystems contain a myriad of different organisms. Gene probes have been used successfully for a variety of samples, but this method was still not sensitive enough. The next logical step was the application of the recently developed DNA amplification technique known as the polymerase chain reaction, or PCR. Since then, many laboratories around the world have adopted PCR for environmental work. Samples obtained from soils, water and air are enormously complex because they are unknown mixtures of DNA and other compounds. Thus, procedures for target DNA amplification from the environment require special attention. The PCR has allowed us to go beyond the need for culturing prior to analysis of microbial communities. It has been shown that even microorganisms that can be routinely grown in the laboratory undergo some physiological changes when exposed to the environment. One of these changes (first observed by R. Colwell and colleagues) is known as the viable-but-non-culturable state, and seems to be a common occurrence. Thus, the use of culture techniques paint only part of the picture in terms of microbial behavior under environmental conditions. The ability to amplify nucleic acids by the PCR has brought about a myriad of very ingenious modifications to the technique that can then be used to study complex ecosystems. The manner in which the PCR can be modified is only limited by the need and/or the imagination of the researcher. The first manual dedicated specifically to the analysis (by PCR) of environmental samples, Environmental Applications of Nucleic Acid Amplification Techniques presents state of the art methodology for the detection of microorganisms in soil, water, air samples, as well as the amplification of nucleic acids from fossil samples. The manual gives step-by-step procedures for the analysis of these samples. Although several publications have addressed the use of Polymerase Chain Reaction technique, very few of them have been directed toward the application of this technique to environmental samples. This book fills this gap in the literature.
Environmental Applications of Nucleic Acid Amplification Technology
From the Preface Antibody techniques have allowed us to study microorganisms in situ. However, until recently all methodology lacked the sensitivity necessary for environmental work where microorganisms are in most cases present at very low concentrations or where microbial ecosystems contain a myriad of different organisms. Gene probes have been used successfully for a variety of samples, but this method was still not sensitive enough. The next logical step was the application of the recently developed DNA amplification technique known as the polymerase chain reaction, or PCR. Since then, many laboratories around the world have adopted PCR for environmental work. Samples obtained from soils, water and air are enormously complex because they are unknown mixtures of DNA and other compounds. Thus, procedures for target DNA amplification from the environment require special attention. The PCR has allowed us to go beyond the need for culturing prior to analysis of microbial communities. It has been shown that even microorganisms that can be routinely grown in the laboratory undergo some physiological changes when exposed to the environment. One of these changes (first observed by R. Colwell and colleagues) is known as the viable-but-non-culturable state, and seems to be a common occurrence. Thus, the use of culture techniques paint only part of the picture in terms of microbial behavior under environmental conditions. The ability to amplify nucleic acids by the PCR has brought about a myriad of very ingenious modifications to the technique that can then be used to study complex ecosystems. The manner in which the PCR can be modified is only limited by the need and/or the imagination of the researcher. The first manual dedicated specifically to the analysis (by PCR) of environmental samples, Environmental Applications of Nucleic Acid Amplification Techniques presents state of the art methodology for the detection of microorganisms in soil, water, air samples, as well as the amplification of nucleic acids from fossil samples. The manual gives step-by-step procedures for the analysis of these samples. Although several publications have addressed the use of Polymerase Chain Reaction technique, very few of them have been directed toward the application of this technique to environmental samples. This book fills this gap in the literature.
Health and Environmental Applications of Biosensing Technologies
With emerging biological threats from pathogenic microorganisms and increasing environmental pollutants, it is essential to ensure the safety needs of individuals and the ecosystem are met. Modern materials science and engineering has evolved over the years to better develop devices to test abnormalities. Affordability, accessibility, and reliability of any analytical system is the prime necessity for a modern diagnostic application. Health and Environmental Applications of Biosensing Technologies: Clinical and Allied Health Science Perspective presents a detailed overview on biosensor design systems and optimal fabrication technologies to create a greater impact on various industries and help organizations break existing performance tradeoffs to deploy biosensor technologies across inter/transdisciplinary businesses. The book presents novel and emerging trends in biosensor design and healthcare applications focused on API detection, communicable/non-communicable disease diagnosis, food quality monitoring, agro-environmental analysis, bio-defense, and industrial pollutant sensing. In addition, wearable biosensors, commercial products, and safety regulations for biosensing technologies are summarized. - Provides a fundamental understanding on biosensor system design, biomarkers for communicable/non-communicable diseases, and bioreceptor immobilization techniques - Integrates information covering biosensing technologies for clinical diagnosis, API detection, industrial/environmental monitoring, agro-livestock healthcare, and disease control - Provides information on principles, advanced trends, and approaches for wearable biosensors - Covers market trends with biosensing technologies/products and their commercial challenges