Molecular Research in Aquaculture Molecular research and biotechnology have long been fields of study with applications useful to aquaculture and other animal sciences. Molecular Research in Aquaculture looks to provide an understanding of molecular research and its applications to the aquaculture industry in a format that allows individuals without prior experience in this area to learn about and understand this important field. Molecular Research in Aquaculture opens with an introductory chapter giving background information on the aquaculture industry and the development of the science and research methods to what is currently being used. From there it discusses how new, innovative techniques are now being converted and used for research in this field. Introductory chapters on basic molecular biological techniques, such as PCR, cloning, and hybridization, and their rationale provide the foundation for an in-depth look at molecular research and its specific applications. The remaining chapters review key areas of molecular research such as microarray analysis, quantitative PCR, and transgenics.
Molecular Research in Aquaculture will be a valuable reference for professionals and researchers with an interest in the development of molecular technologies and their applications to the field of aquaculture. Coverage of basic molecular biological techniques and their rationale In-depth look at molecular research and their applications to aquaculture Valuable reference on the developments of this key area in aquaculture research
Ken Overturf is a Research Geneticist at the USDA-Agricultural Research Service, Hagerman Fish Culture Experiment Station, Hagerman Idaho.
Preface. List of Contributors. Chapter 1. Convergence of Aquaculture and Molecular Biology ( Ken Overturf). Chapter 2. Basic Molecular Laboratory Methods ( Ken Overturf ). Chapter 3. Quantitative PCR ( Ken Overturf). Chapter 4. Aquaculture-Related Applications of DNA Microarray Technology ( Matthew L. Rise, Zhanjiang Liu, Susan E. Douglas, Laura L. Brown, John H.E. Nash, and Margaret J. McFall-Ngai). Chapter 5. Aquaculture Genomics ( Yniv Palti). Chapter 6. Proteomics in Aquaculture ( Samuel A.M. Martin). Chapter 7. The Role of Model Organisms in Aquaculture Research: Transient and Permanent Advantages ( Barrie Robison). Chapter 8. Clonal Lines and Chromosome Manipulation for Aquaculture Research and Production ( Krista M. Nichols). Chapter 9. Issues and Methodology for Development of Transgenic Fish for Aquaculture with a Focus on Growth Enhancement ( Robert H. Devlin, Peter A. Raven, L. Fredrik Sundstrom, and Mitchell Uh). Chapter 10. Molecular Regulation of Intermediary Metabolism Focusing on Utilization of Dietary Carbohydrates ( Stephane Panserat). Chapter 11. Muscle Regulation ( Peggy R. Biga). Chapter 12. Microbial Genomics of Aquaculture Pathogens ( Gregory D. Wiens). Chapter 13. Control of Reproduction ( Gregory M. Weber). Index.