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This second volume of The Chlamydomonas Sourcebook provides the background and techniques for using this important organism in plant research. From biogenesis of chloroplasts and mitochondria and photosynthesis to respiration and nitrogen assimilation, this volume introduces scientists to the functions of the organism. The volume then moves on to starch biosynthesis, sulfur metabolism, response to heavy metals, and hydrogen production. - Describes molecular techniques, analysis of the recently sequenced genome, and reviews of the current status of the diverse fields in which Chlamydomonas is used as a model organism - Includes contributions from leaders in particular areas of research - Provides methods for Chlamydomonas research and best practices for applications in research, including methods for culture, preservation of cultures, preparation of media, lists of inhibitors and other additives to culture media - Assists researchers with common laboratory problems such as contamination - Includes valuable student demonstrations and properties of particular strains and mutants - Edited by the leading researcher in Chlamydomonas science
Originally published as the stand-alone Chlamydomonas Sourcebook, then expanded as the second volume in a three-part comprehensive gold-standard reference, The Chlamydomonas Sourcebook: Organellar and Metabolic Processes has been fully revised and updated to include a wealth of new knowledge and resources for the Chlamydomonas community. It details the tremendous progress recently made with respect to imaging the ultrastructure of cells, dissecting acclimation and biosynthetic responses, and elucidating molecular processes underlying the biology of organelles. In particular, this volume includes exciting new developments in the use of imaging technologies for examining supramolecular organization of the chloroplast, defining mechanisms of branched electron transfer pathways in photosynthesis, dissecting the organization of pyrenoids and CO2 concentration mechanisms, presenting the intricacies associated with acclimation to environmental conditions and providing new insights into dark metabolism and the network of fermentative metabolism. This book thus presents the latest advances in both the research and uses of new experimental approaches and technologies, making this a must-have resource for researchers and students working in plant science and photosynthesis, fertility, mammalian vision, aspects of human disease, acclimation to environmental change, and the biogenesis of cellular complexes. - Describes molecular techniques, analysis of the recently sequenced genome, reviews of the current status of the diverse fields in which Chlamydomonas is used as a model organism - Provides methods for Chlamydomonas research and best practices for their applications; this includes methods for cell culture, preservation of cultures, preparation of media, lists of inhibitors, and other additives to culture media, classical genetic manipulation, and new approaches for gene transfer and editing technologies - Assists researchers with common laboratory problems such as contamination
Dr. Harris has played a major role in the development of this organism as a model system. Her previous version of the Chlamydomonas Sourcebook which published in 1989, has been a classic in the field and is considered required reading for anyone working with this organism. This latest edition has been expanded to include three volumes providing molecular techniques, analysis of the recently sequenced genome, and reviews of the current status of the diverse fields in which Chlamydomonas is used as a model organism. Methods for Chlamydomonas research and best practices for applications in research, including methods for culture, preservation of cultures, preparation of media, lists of inhibitors and other additives to culture media, are included. Additions to this volume also include help with common laboratory problems such as contamination, student demonstrations, and properties of particular strains and mutants. This volume is part of a 3-Volume Set (ISBN: 978-0-12-370873-1) and is also sold individually. - Expanded revision of gold standard reference - Includes latest advances in research, including completion of the genome - Provides broad perspective with studies in cell and molecular biology, genetics, plant physiology and related fields - Available as part of a 3-Volume Set or sold individually
This second volume of The Chlamydomonas Sourcebook provides the background and techniques for using this important organism in plant research. From biogenesis of chloroplasts and mitochondria and photosynthesis to respiration and nitrogen assimilation, this volume introduces scientists to the functions of the organism. The volume then moves on to starch biosynthesis, sulfur metabolism, response to heavy metals, and hydrogen production. Describes molecular techniques, analysis of the recently sequenced genome, and reviews of the current status of the diverse fields in which Chlamydomonas is used as a model organism Includes contributions from leaders in particular areas of research Provides methods for Chlamydomonas research and best practices for applications in research, including methods for culture, preservation of cultures, preparation of media, lists of inhibitors and other additives to culture media Assists researchers with common laboratory problems such as contamination Includes valuable student demonstrations and properties of particular strains and mutants Edited by the leading researcher in Chlamydomonas science
During the last ten years, knowledge about the multitude of adaptive responses of plants to low oxygen stress has grown immensely. The oxygen sensor mechanism has been discovered, the knowledge about the interaction network of gene expression is expanding and metabolic adaptations have been described in detail. Furthermore, morphological changes were investigated and the regulative mechanisms triggered by plant hormones or reactive oxygen species have been revealed. This book provides a broad overview of all these aspects of low oxygen stress in plants. It integrates knowledge from different disciplines such as molecular biology, biochemistry, ecophysiology and agricultural / horticultural sciences to comprehensively describe how plants cope with low oxygen stress and discuss its ecological and agronomical consequences. This book is written for plant scientists, biochemists and scientists in agriculture and ecophysiology.
The Chlamydomonas Sourcebook, 3rd Edition Cell Motility and Behavior (Volume 3) The gold-standard reference?introducing this multidisciplinary science,?fully revised and updated with the latest discoveries Originally published as the standalone Chlamydomonas Sourcebook, then expanded as the third volume in a three-part comprehensive gold-standard reference,?The Chlamydomonas Sourcebook: Cell Motility and Behavior has been fully revised and updated to include the wealth of new resources for the Chlamydomonas community. Reflecting the significant advancement in?the understanding of the role of basal bodies and cilia play in human diseases, this volume employs quantitative proteomics and mass spectroscopy as well as?cryo?EM tomography and single particle?cryo?EM. Other topics such as current insights?on?mitosis and cytokinesis, ciliary assembly and motility, intraflagellar?transport, and more help build an understanding of human diseases of the cilium. Cell Motility and Behavior presents the latest in research and best practices, making this a must-have resource for researchers and students working in plant science and photosynthesis, fertility, mammalian vision, and biochemistry; crop scientists; plant physiologists; and plant, molecular, and human disease biologists. Provides an essential reference to a model species for the study of mechanisms of motility in free living cells? Includes methods for Chlamydomonas motility research? Includes a table listing the known proteins (with NCBI accession numbers) for each structure discussed, and the known mutations that affect each structure and process
The Chlamydomonas Sourcebook, 3rd Edition Introduction to Chlamydomonas and Its Laboratory Use (Volume 1) The gold-standard reference?covering the basic biology of the Chlamydomonas alga and techniques for its laboratory analysis Originally published as the standalone Chlamydomonas Sourcebook, then expanded as the first volume in a three-part comprehensive gold-standard reference,?The Chlamydomonas Sourcebook: Introduction to Chlamydomonas and Its Laboratory Use?has been fully revised and updated to include a?wealth of new resources for the Chlamydomonas community. Early chapters cover current understandings of its taxonomy, ultrastructure, cell and life cycles, and nuclear and organelle genomes, followed by technique-oriented chapters covering such topics as cell culture, mutagenesis, genetic analysis, construction of mutant libraries, and protein localization using immunofluorescence. This volume presents the latest in research and best practices, making it a must-have resource for researchers and students working in plant science and photosynthesis, fertility, mammalian vision, and biochemistry; crop scientists; plant physiologists; and plant, molecular, and human disease biologists. - Remains the only complete reference to provide both the historical background and the most up-to-date information and applications on Chlamydomonas - Includes best practices for applications in research, including methods for culture, genetic analysis, genomic and transcriptomic analysis, and mutant screening - Helps researchers solve common laboratory problems, provides details on the properties of particular strains, and offers a comprehensive survey of molecular approaches - Provides a broad perspective for studies in cell and molecular biology, genetics, plant physiology, and related fields
This book summarizes recent advances in understanding the functions of plant and algal lipids in photosynthesis, in development and signaling, and in industrial applications. As readers will discover, biochemistry, enzymology and analytical chemistry, as well as gene knock-out studies have all contributed to our rapidly increasing understanding of the functions of lipids. In the past few decades, distinct physical and biochemical properties of specific lipid classes were revealed in plant and algal lipids and the functional aspects of lipids in modulating critical biological processes have been uncovered. These chapters from international authors across relevant research fields highlight the underlying evolutionary context of lipid function in photosynthetic unicellular and multicellular organisms. The book goes on to encompass what lipids can do for industrial applications at a time of fascination with plants and algae in carbon fixation and as sources for production of food, energy and novel chemicals. The developmental context is a part of the fresh and engaging perspective that is presented in this work which graduate students and scientists will find both illuminating and useful.
The first comprehensive single-authored textbook on genome-scale models and the bottom-up approach to systems biology.