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Animal Virus Genetics is a collection of scientific presentations of the ICN-UCLA Symposia on Molecular and Cellular Biology, held at the University of California, Los Angeles in 1980. The papers in the compendium focus on the basic genetic model systems; the uses of genetic approaches to study basic problems in molecular biology; and on the increasing application of genetic systems to the study of more complex viral-host interactions such as viral virulence and persistence. Microbiologists, cellular biologists, and virologists will find the book insightful.
The Biology of Animal Viruses, Second Edition deals with animal viruses focusing on molecular biology and tumor virology. The book reviews the nature, chemical composition, structure, and classification of animal viruses. The text also describes the methods of isolating animal viruses, how these are grown in the laboratory, assayed, purified, and used in biochemical experiments. The book also describes the structure and chemistry of many known viruses such as the papovaviridae, herpes virus, poxvirus, coronavirus, or the Bunyamwera supergroup. The book then explains the structure and function of the animal cell including the cytoplasmic organelles, the nucleus, inhibitors of cell function, and viral multiplication. Other papers discuss in detail the multiplication of the DNA and RNA viruses, whose mechanisms of multiplication differ from those of other viruses. Other papers discuss the known prevention and treatment methods of viral diseases, as well as the epidemiology and evolution of viral diseases resulting from human's disturbance of the biosphere and from medical and experimental innovations. The text can prove useful for immunologists, veterinarians, virologists, molecular researchers, students, and academicians in the field of cellular microbiology and virology.
This fully revised second edition of Molecular and Cellular Biology of Viruses leads students on an exploration of viruses by supporting engaging and interactive learning. All the major classes of viruses are covered, with separate chapters for their replication and expression strategies, and chapters for mechanisms such as attachment that are independent of the virus genome type. Specific cases drawn from primary literature foster student engagement. End-of-chapter questions focus on analysis and interpretation with answers being given at the back of the book. Examples come from the most-studied and medically important viruses such as SARS-CoV-2, HIV, and influenza. Plant viruses and bacteriophages are also included. There are chapters on the overall effect of viral infection on the host cell. Coverage of the immune system is focused on the interplay between host defenses and viruses, with a separate chapter on medical applications such as antiviral drugs and vaccine development. The final chapter is on virus diversity and evolution, incorporating contemporary insights from metagenomic research. The second edition has updated suggestions for primary literature to discuss along with each chapter. New to this second edition, a supplementary chapter, freely available for download, looks at how virology intersects with public health, and uses the COVID-19 pandemic as a notable example. Key Features Readable but rigorous coverage of the molecular and cellular biology of viruses Molecular mechanisms of all major groups, including plant viruses and bacteriophages, illustrated by example Host-pathogen interactions at the cellular and molecular level emphasized throughout Medical implications and consequences included Quality illustrations available to instructors New to this second edition, interactive quiz questions hosted online
Animal Virus Structure provides a comprehensive, state-of-the-art summary of the structure, molecular composition, and principal antigenic and biological properties of each currently recognized family of animal viruses. Information deriving from electron microscopy, computer image processing and X-ray diffraction is integrated systematically with biochemical data into three-dimensional molecular models of viral architecture. A brief account of virus/cell interaction and pathogenicity completes each chapter.
Animal Virology consists of papers presented in a meeting which considered broad issues and advances in animal virology and tumor viruses. This book is divided into nine parts, representing the nine sessions of the meeting. Five of the nine sections deal particularly with viruses known to be oncogenic in animals, and one of these covers explicitly human oncornaviruses. The other four sections describe the processes common to all viruses: replication, protein synthesis, and persistence, wherein emphasis is given to negative strand viruses and plant viruses.
Viruses, being obligatory parasites of their host cells, rely on a vast supply of cellular components for their replication, regardless of whether infection leads to cell death or to the state of persistence. Animal viruses are providing scientists with relatively simple models to study the molecular biology of genome replication and gene expression. Whereas viruses use, in general, pathways of macromolecular biosynthesis common to the host cell, they have a cunning ability to adopt unusual mechanisms of gene expression and gene replication, provided these special pathways offer an advantage in competition for cellular resources. Any study of viral gene expression and replication is likely to lead also to new insights in cellular metabolism. The discoveries of cis-acting regulatory elements in transcription, the phenomenon of splicing of pre mRNA, and cap-dependent and cap-independent initiation of translation may be cited as examples. In addition, animal virus genomes contain elements and encode proteins that are very useful for the design of vectors for gene cloning and expression in mammalian cells. Apart from the basic interest in their biology, viruses have gained notoriety, of course, because they are pathogens. Human animal viruses may cause diseases ranging from the deadly (AIDS) to the benign (common cold). All studies on animal viruses potentially lead to the development of tools for their control, be it through prevention by immunization or treatment with antiviral drugs. Finally, viruses have yielded invaluable reagents in molecular biology as, for example, the vaccinia virus vector for the expression of foreign genes.