Karl Maramorosch may be best known for his accomplishments as a top scientist, but the story of how he became such a success has never been tolduntil now. Born in Vienna in 1915, his family moved to Poland, and he fled with his wife, Irene, to Romania in September 1939. They spent four years in Polish refugee camps and were in Soviet-occupied Romania until October 1946, before coming to the United States in January 1947 on an immigration visa. But they did not arrive unscathed: Maramoroschs father died in the gas chamber in Belzec in 1942, and his mother also died at the camp. His brother died in the Kolomyya jail on Yom Kippur in 1942. His wifes closest relatives died in Treblinka in 1942. The inseparable couple refused to let any of that stop them from forging ahead: He began a scientific career that spanned more than sixty years, and she became a librarian at the New York Public Library, where she worked thirty years. Maramorosch recalls the painful losses of the past and the brutalities of war, but he also celebrates his love for his wife and life in The Thorny Road to Success.
Practical Tissue Culture Applications contains the proceedings of a conference held at the International Laboratory for Research on Animal Diseases in Nairobi, Kenya, August 24-29, 1978. This book aims to describe some of the more important practical applications of in vitro techniques in a simple, easily understandable manner. Organized into three sections, with a total of 27 chapters, this book provides critical reviews, describes various techniques, and presents complete step-by-step methodology. It emphasizes applications pertaining to the health and economy in developing nations. In particular, this book discusses the pitfalls in preparing general purpose culture media, balanced salt solutions, and the procedures followed in the development of modern in vitro techniques. It also describes techniques for cultivation of vertebrate cells and organs; plant tissue culture and its numerous applications; and electron microscopy of cultured cell. This book explains as well virus isolation and identification in cell cultures, mass production of cells for vaccines, and use of cultured cells for drug evaluation. The applications of in vitro techniques to parasitology are explored in numerous chapters of this book. Considering the potential benefit of application of in vitro techniques, this reference material will be of interest both in developed and developing countries.
Invertebrate Cell Culture Applications assesses the status of invertebrate cell culture at a time when this method can be used to solve problems in a number of diverse disciplines. Organized into seven chapters, this book begins by discussing the development and amino acid requirements of insect cell culture. It then describes the Drosophila tissue culture and chromosomal phenomena in cell lines of this organism. This book also explains the culture conditions regulating the infection of cells by an intracellular microorganism, as well as the replication of arboviruses in arthropod in vitro systems. Lastly, the characteristics, growth requirements, and applications of tick cell culture to parasitology are explored. This book will contribute in solving biomedical and agricultural problems. This reference material will be of special interest to parasitologists, virologists, microbiologists, entomologists, geneticists, medical researchers, and graduate students in related fields of biomedical research.
Invertebrate Tissue Culture: Research Applications covers the broad field and status of basic research in invertebrate tissue culture. This book particularly discusses invertebrate cell growth and differentiation, cloning of established cell lines, the breakthrough in molluscan tissue culture, and the establishment of the first snail line. It also highlights topics on invertebrate endocrinology and ecdysone biosynthesis in vitro. This text describes the identification of distinct juvenile hormones from corpora allata and the production of peptide neurohormones by cultured insect brains. Some chapters elucidate the use of Drosophila discs in vitro to study gene activity sites, as well as the applications of insect tissue culture to the study of intracellular parasites, symbionts, and arboviruses. Discussions on insect pathogenic viruses in insect cell lines, extraneous contaminants in invertebrate cell cultures, uses of invertebrate cells in plant pathology, and a description of invertebrate cell lines complete this volume. This reference will be valuable to microbiologists, parasitologists, virologists, entomologists, geneticists, and medical researchers working in the field and to graduate students in related fields of biomedical research.
Invertebrate Immunity: Mechanisms of Invertebrate Vector-Parasite Relations consists of chapters presented at a workshop on invertebrate defense mechanisms, sponsored by the National Institutes of Health and held in Bethesda, Maryland, on April 17 and 18, 1974. Organized into four parts, having a total of 24 chapters, this book first discusses the barrier imposed by the gut of invertebrates to invading parasites. It then centers on the role of invertebrate hemocytes and other phagocytic cells in immunity, as well as the humoral defense mechanisms of these organisms. Other topics discussed include parasite encapsulation in insects, role of melanin in host-parasite interaction, and use of host hormones by insect parasites to make the host environment favorable for their growth and development. This book will be essential for those interested in comparative immunology and in invertebrate immune responses. It will be of special interest to entomologists, protozoologists, physicians, veterinarians, ecologists, pathologists, research workers, science teachers, and graduate students.
Viral Insecticides for Biological Control focuses on the basic as well as applied aspects of viral insecticides, which have the potential to significantly reduce the current reliance on chemical pesticide technology. This book serves as a guide for the development of means to identify hazardous problems and prevent them. Organized into six parts with a total of 23 chapters, this book describes the taxonomy, nomenclature, identification, physical, biological, as well as chemical characteristics, replication, and pathology of insect viruses. This reference material also explores the dispersal, stability, and utilization of insect viruses as biological control agents. The factors and considerations that must be taken into account when a viral insecticide is sought as a large-scale commercial alternative to other more traditional methods of pest control are also addressed. Because this reference material collates information in this field of interest, it will benefit a wide audience of readers, including researchers, students, and those working directly in crop protection.
Mycoplasma Diseases of Trees and Shrubs contains the edited papers presented at the Third Working Party meeting organized by Professor Karl Maramorosch at Rutgers University, New Jersey, in August 1979. This book also includes additional chapters by the invited contributors in the meeting. Organized into 15 chapters, this book begins with the isolation, characterization and identification of spiroplasmas and mycoplasma-like organisms. It then describes the various diseases of trees and shrubs, specifically yellows disease, stubborn disease, Paulownia witches' broom disease, mulberry dwarf, blueberry stunt, and sandal spike disease. It also elaborates the control of tree diseases by chemotherapy. This treatise will provide a standard reference work for all interested in plant mycoplasma diseases in forest pathology, entomology, and disease control.
Subviral Pathogens of Plants and Animals: Viroids and Prions is organized into four parts consisting of a total of 20 chapters that discuss the nature of subviral pathogens of plants and animal. This book first elucidates the recognition of subviral pathogens, and then explores the host range of viroids and its diseases. It also addresses the control of viroid diseases. The book explains the structure and replication of viroids. Lastly, it centers on the structure and biology of prions, as well as the diseases these pathogens cause. This treatise will be of considerable scientific interest and importance to those in the field of human and veterinary medicine, virology, zoology, microbiology, plant pathology, entomology, as well as other branches of biology.
The adverse impact of plant diseases is felt around the world. In this book, the contributors analyze the nature and origins of pathogens that affect some economically important food and fiber crops.
Invertebrate cell culture is increasingly being used in various areas of biological research. Research in cellular biology and pathology that previously depended primarily on in vitro investigations of vertebrate animal cell systems is now being conducted using invertebrate cells. Specialists and pioneers from the United States, Japan, Switzerland, Slovakia, and China have presented original contributions to create a well-balanced cross-section of current developments. Topics discussed include the preparation of cell culture media; cultivation of mosquito, lepidopteran, grasshopper, and tick cells; the application of such cells to mammalian and plant virus research; and diverse applications in medicine, biology, and agriculture. A special chapter devoted to the work of Japanese cell culture pioneers is also featured. All chapters are supported by tables, photographs, and up-to-date bibliographies.
This is an essential bench book that describes the molecular biology, structure, detection, purification, and pathogenesis of viroids and satellites. The volume begins with an overview of the current status of the field, followed by four chapters describing details of methodology, nucleic acid probes, purification, sequence variation, complementary RNA probes, polyacrylamide gel electrophoresis and mutational analysis of viroid movement and pathogenicity. Remaining chapters discuss such topics as viroids that cause apple scar disease in China, the cadang-cadang disease of palms in the Pacific area, viroid-like satellite RNAs, and a comparison of plant viroids with the human-pathogenic delta agent. The book will be a major reference work on viroids for years to come and an essential resource for virologists, molecular biologists, microbiologists, geneticists, biochemists, biomedical investigators, plant pathologists, and agricultural researchers.
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