Molecular Microbial Ecology
- Mark Osborn, Cindy Smith
- Publication Date:
- August 10, 2005
- Content Details:
- 400 pages
Also of Interest
Microoganisms are distributed across every ecosystem, and microbial transformations are fundamental to the operation of the biosphere. Microbial ecology is the study of this interaction between microorganisms and their environment, and arguably represents one of the most important areas of biological research. Yet for many years our study of microbial flora was severely limited: the primary method of culturing microorganisms on media allowed us to study only between 0.1 and 10% of the total microbial flora in any given environment.
Molecular Microbial Ecology gives a comprehensive guide to the recent revolution in the study of microorganisms in the environment. Details are given on molecular methods for isolating some of the previously uncultured and numerically dominant microbial groups. PCR-based approaches to studying prokaryotic systematics are described, including ribosomal RNA analysis and stable isotope probing. Later chapters cover DNA hybridisation techniques (including fluorescent in situ hybridisation), as well as genomic and metagenomic approaches to microbial ecology. Gathering together some of the world’s leading experts, this book provides an invaluable introduction to the modern theory and molecular methods used in studying microbial ecology.
- Applies the recent revolution in genetics to the study of microbial ecology, demonstrating the latest developments in the field.
- Presents many of the key protocols in molecular microbial research in an accessible format for the advanced student and researcher.
- Written by some of the world's leading experts in the field.
1. Nucleic Acid Extraction From Environmental Samples. 2. Prokaryotic Systematics: PCR And Sequence Analysis Of Amplified 16S rRNA Genes. 3. DNA Fingerprinting Of Microbial Communities. 4. Molecular Typing Of Environmental Isolates. 5. RT-PCR And mRNA Expression Analysis Of Functional Genes. 6.Quantitative Real-Time PCR. 7. Stable Isotope Probing. 8. Applications Of Nucleic Acid Hybridization In Microbial Ecology. 9. Fluorescence in situ Hybridisation For The Detection Of Prokaryotes. 10. Lessons From The Genomes: Microbial Ecology And Genomics. 11. Metagenomic Libraries From Uncultured Microorganisms. 12. A Molecular Toolbox For Bacterial Ecologists: PCR Primers For Functional Gene Analysis. 13. Molecular Detection Of Fungal Communities In Soil. 14. Environmental Assessment: Bioreporter Systems. 15. Bioinformatics And Web Resources For The Microbial Ecologist.