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Cellular and Molecular Approaches in Fish Biology - ½Å°£POD»óÇ°
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Cellular and Molecular Approaches in Fish Biology - ½Å°£POD»óÇ°



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No. of pages: 438
Published: December 2, 2021
Imprint: Academic Press
Paperback ISBN: 9780128222737



Description


Cellular and Molecular Approaches in Fish Biology is a highly interdisciplinary resource to bring industry professionals, students and researchers up-to-date with the latest developments and information on fish biology research combining a historical overview of the different research areas in fish biology and detailed descriptions of cellular and molecular approaches with explanations and recommendations for research. The book presents a global perspective of each research area with detailed analytical methodologies on the cellular and molecular mechanisms within fish biology for expermentation. The book provides different points of view on how researchers have addressed timely issues, while describing and dissecting some of the new experimental/analytical approaches used to answer the key questions at cellular and molecular levels, making this a valuable resource to those in industry and academia as well as those entering the field.



Key Features


  • Provides detailed descriptions of each research approach, highlighting the tricks of the trade for its effective and successful application
  • Includes the latest developments in fish reproduction, fish development and nutrition, fish welfare, fish immunology, ecology and biomedics
  • Presents hot topics of research such as genetics, transcriptomics and epigenetics
  • Readership
  • Anyone in the fisheries sector, scientists and researchers, fisheries managers, marine resource managers, marine biologists, fish farmers, marine ecologists, policy makers, leaders and regulators, operations researchers, as well as faculty and students. Students in marine bio/fisheries/aquatic science
  • Table of Contents
  • Chapter 1: Technologies and strategies for ex situ conservation of aquatic organisms: The role of cryopreservation in long-term management
  • Abstract
  • Acknowledgments
  • 1: Factors and steps to consider in setting up a cryopreservation protocol
  • 2: Applications of cryopreservation techniques in aquatic animals
  • 3: Cryopreservation of different biological materials to create Genome Resource Banks
  • 4: Examples of sperm cryopreservation in specific species
  • 5: Conclusions and future perspectives
  • References
  • Further reading
  • Chapter 2: Molecular approaches on DNA damage evaluation after primordial germ cell cryopreservation in zebrafish
  • Abstract
  • Acknowledgments
  • 1: Introduction
  • 2: Conventional DNA evaluation methods
  • 3: DNA lesion detection by qPCR: A novel approach
  • 4: Our contribution to DNA damage evaluation in cryopreserved germ cells
  • 5: Specific protocol for DNA damage evaluation in zebrafish PGCs after cryopreservation
  • 6: Summary and future perspectives
  • References
  • Chapter 3: The role of epigenetics in fish biology and reproduction: An insight into the methods applied to aquaculture
  • Abstract
  • 1: Introduction: Concept and importance of epigenetics in terms of evolution
  • 2: Epigenetic mechanisms
  • 3: The role of epigenetics in farmed fish species
  • 4: Epigenetic mechanisms in model species: A case study in zebrafish
  • 5: Techniques applied for the evaluation of DNA methylation
  • 6: Techniques applied for the evaluation of histone modifications
  • 7: Application of the epigenetic methods to our research
  • References
  • Further reading
  • Chapter 4: Noncoding RNAs in fish physiology and development: miRNAs as a cornerstone in gene networks
  • Abstract
  • Acknowledgments
  • 1: Noncoding RNAs
  • 2: Biogenesis and mechanisms of action of miRNAs
  • 3: Methodological approaches applied in miRNA research
  • 4: miRNAs playing key roles in fish development and physiology
  • 5: Recent progress and future perspectives
  • References
  • Chapter 5: Nutritional epigenetics
  • Abstract
  • 1: Introduction
  • 2: Epigenetic regulators
  • 3: Nutrients and metabolites influencing the epigenetic regulators
  • 4: Transfer of cell memory utilizing the epigenetic regulators
  • 5: Where do we go with nutritional epigenetics?
  • References
  • Chapter 6: Methods for mapping genomic variants associated with production traits in aquaculture species
  • Abstract
  • 1: Introduction
  • 2: Finding causative variants through QTL mapping approaches
  • 3: Detailed description of state-of-the-art methodology: Step by step on how to perform GWAS
  • 4: Pipeline
  • 5: The next generation of association mapping methods: Multimarker models
  • 6: Implementation of QTLs and causative variants into breeding programs
  • 7: Funneling candidate variants toward causality
  • 8: Conclusions
  • References
  • Chapter 7: Double-labeling immunofluorescence: A simple and effective tool to study pituitary regulation in teleost fish
  • Abstract
  • Acknowledgments
  • 1: The importance of gaining knowledge about the neuroendocrine system
  • 2: Neuroendocrine system
  • 3: Double-labeling immunofluorescence
  • 4: Going deeper on the pituitary hormone regulation
  • 5: How to approach this kind of neuroendocrine study in fish?
  • 6: Summary
  • References
  • Chapter 8: Mucosal immunology in fish
  • Abstract
  • Acknowledgments
  • 1: A brief introduction to the immune system in teleost fish
  • 2: Historical perspective and relevance of immunological studies in gilthead seabream
  • 3: Fish mucosal immunology
  • 4: How to alter or strengthen the fish mucosal immune system
  • 5: Methodologies to collect and preserve fish mucus
  • 6: Main questions still to be addressed
  • References
  • Chapter 9: Characterization of the neuroendocrine stress status as part of the multiparametric assessment of welfare in fish
  • Abstract
  • 1: Animal welfare
  • 2: The neuroendocrine stress response and its relation to welfare
  • 3: A proposed method to determine the stress status of fishes as part of the assessment of their welfare
  • 4: Conclusions and future perspectives
  • References
  • Chapter 10: Evolution of ray-finned fish genomes: Status and directions with a primer on microRNA characterization
  • Abstract
  • 1: Introduction
  • 2: Resources to study fish genome evolution
  • 3: Overview of fish genome evolution
  • 4: Evolutionary consequences of rediploidization—No ¡°one size fits all¡±
  • 5: Transposable elements as agents of fish genome evolution
  • 6: Fish phylogenomics
  • 7: Evolution of ¡°functional¡± regions in fish genomes
  • 8: A primer on miRNA evolutionary characterization
  • 9: Concluding remarks
  • References
  • Chapter 11: Zebrafish xenotransplantation: A versatile platform for cancer and stem cell translational research
  • Abstract
  • 1: Introduction
  • 2: Larval zebrafish XT models of cancer
  • 3: Using the zebrafish for translational stem cell research
  • 4: Adult zebrafish XT models of cancer
  • 5: Conclusion
  • References
  • Chapter 12: Status, challenges, and perspectives of fish cell culture—Focus on cell lines capable of in vitro mineralization
  • Abstract
  • Acknowledgments
  • 1: A growing interest for cell lines of fish origin
  • 2: Current status of fish cell culture
  • 3: Applications for fish cell lines
  • 4: Fish cell lines capable of in vitro mineralization
  • 5: Development of bone-derived cells
  • 6: Perspectives for fish cell culture
  • References
  • Index
  • About the Editors
  • Ignacio Fernandez

    Ignacio Fernández is a researcher in fish development and molecular biology at the Agro-Technological Institute of Castilla y León (ITACyL), Spain. Dr. Fernández obtained his BS in Marine Sciences from the University of Vigo (Spain) in 2003. His enthusiasm and curiosity for understanding how fish growth and develop led him to get a doctoral degree. He got a fellowship to conduct his PhD at the Institute of Agrifood Research and Technology (IRTA, Spain) in collaboration with the Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER, France), receiving his PhD graduation in Aquaculture at the University of Barcelona (Spain) in 2011. In 2012 won a post-doctoral fellowship from the Portuguese Foundation for Science and Technology (FCT) at the Centre of Marine Sciences (CCMAR, Portugal). There, he studied the molecular pathways governing the skeletal development using a multidisciplinary approach. Along his career, Dr. Fernández performed several short stages at different internationally recognized institutions. The different research skills gained all over the years, gave him the possibility to won two Spanish grants of excellence in research: Beatriu de Pinós (2018) and Ramón y Cajal (2019). Currently, Dr. Fernández has coauthored 47 publications in international peer reviewed journals. His main research interests are: i) the development of sustainable aquaculture production; ii) the identification, validation and implementation of integrative biomarkers of fish physiological condition, particularly on nutritional status; and iii) the identification of suitable predictive and diagnosis descriptors of fish quality.

    Affiliations and Expertise

    Researcher in Nutrigenomics, Instituto Tecnologico Agrario de Castilla y Leon, ITACyL, Spain

    Jorge Fernandes

    Jorge M.O. Fernandes is a Professor in Genomics and Molecular Biology at Nord University, Norway. He has also held honorary professorships at the University of Messina (Italy) and the University of Tokyo (Japan). Prof. Fernandes obtained his BEng in Chemical Engineering with specialization in Biotechnology from Instituto Superior Técnico (Portugal), where he graduated with distinction in 1997. His passion for Biology led him to pursue a doctoral degree in Comparative Immunology at the University of St Andrews. After his PhD graduation in 2003, he took a post-doc position until 2007, studying the molecular mechanisms that regulate muscle growth in fish. Prof. Fernandes has over 15 years¡¯ experience as an independent researcher and is a recognised expert in aquaculture genomics. His current research fields are muscle growth and innate immunity in teleosts, with focus on the epigenetic regulation (DNA methylation and miRNAs) of gene networks by environmental factors in commercially important species. Prof. Fernandes is an ERC grantee and has an established track record of high-standard research, with 113 publications in international journals with peer review and an h-index of 35. He is a regular reviewer for various scientific journals and funding bodies, and has won the Nord University research prize in 2014 and 2016.

    Affiliations and Expertise

    Professor in Genomics, Nord University, Norway
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