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A comprehensive reference work covering the key issues in insect cell cultures, this text includes 30 review papers on such topics as: cell lines (development, characterisation, physiology, cultivation and medium design); viruses (virus-cell interactions, replication, recombinant construction, infection kinetics, post-translational modification and passage effects); engineering (shear, bioreactors including perfusion, immobilisation, scale-up and modelling, downstream processing); applications; and economics and regulatory aspects.; This text should be useful for cell biologists, biochemists, molecular biologists, virologists, immunologists and other basic and applied disciplines related to cell culture engineering, both academic and industrial.
Consolidating and expanding current, fundamental notions of virology and animal cell cultivation, this practical reference examines the development of insect cell culture techniques for the production of recombinant proteins and insect pathogenic viruses.;Resolving on-the-job problems such as sparging cell damage and reduced infectivity cells, Insect Cell Culture Engineering: includes special introductory material as well as background information on insect pathogenic viruses, the molecular biology of baculoviruses and bioreactor design; offers advice on how to save time when deciding which insect cell line, bioreactor and medium to exploit; discusses the preparation of mathematical modelling in animal cell culture; addresses the concerns associated with insect cell immobilization and the use of serum-free culture media; provides insights into the protective effects of polymer additives and insect cell gene expression in pharmaceutical research; and analyzes process scale-up and reactor design.;Bridging the gap between laboratory research and pilot plant scale insect culture/baculovirus technology, Insect Cell Culture Engineering is designed as a reference for biochemical and bioprocess engineers, bioprocess technologists, biochemists, molecular and cell biologists, microbiologists, and upper-level undergraduate and graduate students in these disciplines.
A useful reference for those using or interested in cultured invertebrate cells, this two-volume text provides information about techniques and advances in invertebrate tissue culture. Cell lines for Insecta, Crustacea, Mollusca, and Nematoda are introduces along with their characterizations. Developments in insect biotechnology, including foreign protein production by insect cells infected with recombinant virus are described. Fundamental studies for introducing foreign genes into cultured insect cells is also presented. Wide information on studies -at cellular levels-on pathogens of insects, plants, and vertebrates is given.
The third edition of this volume expands upon the previous two editions with new and up-to-date methods and protocols. Chapters include step-by-step procedures involved in quantifying cell growth, baculovirus infection and cell metabolism, methods to isolate new cell lines and develop your own serum-free medium, and routine maintenance and storage of insect cell lines and baculoviruses, small- and large-scale recombinant protein production with the BEVS in both insect and mammalian cell culture and in insect larvae, production and characterization of baculoviruses, green fluorescent protein, tubular reactors and RNAi, and baculovirus/insect cell system to study apoptosis and generating envelop-modified baculovirus for gene delivery into mammalian cells. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Baculovirus and Insect Cell Expression Protocols, Third Edition aims to not only aid the user in successfully completing the tasks described, but also stimulate the development of improved techniques and new applications of baculoviruses and insect cell culture.
I started insect cell culture work in 1962, when T. D. C. Grace reported the first establishment of invertebrate continuous cell lines. He obtained grow ing cells from pupal ovaries of the emperor gum moth, Antheraea euca lypti. At that time, I was trying to obtain growing cells from leafhoppers. Grace's method could not be applied directly to my culture because of the differences in species, the size of the insects, and the tissue to be cul tured. The vertebrate tissue culture methods gave me some ideas for pre paring cultures from leafhoppers, but those could not be used directly either. There were no textbooks and no manuals for invertebrate tissue culture, so I had to develop a method by myself. First, I considered what type and what size of vessels are suitable for insect tissue culture. Also, I had to look for suitable materials to construct the culture vessels. Sec ond, I had to examine various culture media, especially growth-promot ing substances, such as sera. Then I had to improve culture media by trial and error. The procedure to set up a primary culture was also a problem. How could I sterilize materials? How could I remove tissues from a tiny insect? How many tissues should I pool in order to set up one culture? I had to find out the answers. Naturally, it took a lot of time.
The submersed cultivation of organisms in sterile containments or fermenters has become the standard manufacturing procedure, and will remain the gold standard for some time to come. This book thus addresses submersed cell culture and fermentation and its importance for the manufacturing industry. It goes beyond expression systems and integrally investigates all those factors relevant for manufacturing using suspension cultures. In so doing, the contributions cover all industrial cultivation methods in a comprehensive and comparative manner, with most of the authors coming from the industry itself. Depending on the maturity of the technology, the chapters address in turn the expression system, basic process design, key factors affecting process economics, plant and bioreactor design, and regulatory aspects.
The development of invertebrate and fish tissue cultures, the characterization and application of new cell lines for the evaluation of physiological and endocrinological cell parameters, cell differentiation, gene expression and pathological and microbiological problems are treated in detail. New techniques for the production of specific proteins in vitro are described. Highlights derive from results of studies on the molecular mechanisms of gene regulation using DNA mediated gene transfer techniques, on the influence of ecdysterone on the differentiation of embryonic cells, and on metabolic processes of cells in culture leading to the identification of functions for individual ribosomal proteins. Data on the establishment of new cell lines, their simplified culture media, and on the special use of cell cultures for the evaluation of the cytotoxicity, accumulation, and metabolization of insecticides are discussed.
Since the introduction of recombinant human growth hormone and insulin a quarter century ago, protein therapeutics has greatly broadened the ho- zon of health care. Many patients suffering with life-threatening diseases or chronic dysfunctions, which were medically untreatable not long ago, can attest to the wonder these drugs have achieved. Although the ?rst generation of p- tein therapeutics was produced in recombinant Escherichia coli, most recent products use mammalian cells as production hosts. Not long after the ?rst p- duction of recombinant proteins in E. coli, it was realized that the complex tasks of most post-translational modi?cations on proteins could only be ef?ciently carried out in mammalian cells. In the 1990s, we witnessed a rapid expansion of mammalian-cell-derived protein therapeutics, chie?y antibodies. In fact, it has been nearly a decade since the market value of mammalian-cell-derived protein therapeutics surpassed that of those produced from E. coli. A common characteristic of recent antibody products is the relatively large dose required for effective therapy, demanding larger quantities for the treatment of a given disease. This, coupled with the broadening repertoire of protein drugs, has rapidly expanded the quantity needed for clinical applications. The increasing demand for protein therapeutics has not been met exclusively by construction of new manufacturing plants and increasing total volume capacity. More - portantly the productivity of cell culture processes has been driven upward by an order of magnitude in the past decade.
Medicines from Animal Cell Culture focuses on the use of animal cell culture, which has been used to produce human and veterinary vaccines, interferon, monoclonal antibodies and genetically engineered products such as tPA and erythropoietin. It also addresses the recent dramatic expansion in cell-based therapies, including the use of live cells for tissue regeneration and the culture of stem cells. Medicines from Animal Cell Culture: Provides comprehensive descriptions of methods for cell culture and nutrition as well as the technologies for the preservation and characterisation of both the cells and the derived products Describes the preparation of stem cells and others for use in cell-based therapies – an area of burgeoning research Includes experimental examples to indicate expected results Covers regulatory issues from the UK, the EU and the USA and reviews how these are developing around the world Addresses the key issues of standardisation and validation with chapters on GLP and GMP for cell culture processes Delivering insight into the exciting world of biological medicines and directions for further investigation into specific topics, Medicines from Animal Cell Culture is an essential resource for researchers and technicians at all levels using cell culture within the pharmaceutical, biotechnology and biomedical industries. It is of value to laboratory managers in these industries and to all those interested in this topic alike.
The book "New Insights into Cell Culture Technology" focuses on many advanced methods and techniques concerned with cell culture. The contributing authors have discussed various developments in cell culture methods, the application of insect cells for the efficient production of heterologous proteins, the expansion of human mesenchymal stromal cells for different clinical applications, the remote sensing of cell culture experiments and concepts for the development of cell culture bioprocess, continuous production of retroviral pseudotype vectors, and the production of oncolytic measles virus vectors for cancer therapy. This book is an original contribution of experts from different parts of the globe, and the in-depth information will be a significant resource for students, scientists, and physicians who are directly dealing with cells.["Culture" is essential for human life and also the life of a cell. - Sivakumar Gowder]