Principles of Molecular Virology (Standard Edition)Principles of Molecular Virology, Fourth Edition provides an essential introduction to modern virology in a clear and concise manner. It is a highly enjoyable and readable text with numerous illustrations that enhance the reader's understanding of important principles.
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Page vi
... produced. The Sendai virus is also used as a cell-fusing agent in laboratories. Magnification unknown. Dr Linda Stannard, UCT, courtesy of Science Photo Library.” Elsevier Academic Press 30 Corporate Drive, Suite 400, Burlington, MA ...
... produced. The Sendai virus is also used as a cell-fusing agent in laboratories. Magnification unknown. Dr Linda Stannard, UCT, courtesy of Science Photo Library.” Elsevier Academic Press 30 Corporate Drive, Suite 400, Burlington, MA ...
Page 2
... produced from the assembly of preformed components, whereas other agents grow from an increase in the integrated sum of their com- ponents and reproduce by division. Virus particles (virions) themselves do not grow or undergo division ...
... produced from the assembly of preformed components, whereas other agents grow from an increase in the integrated sum of their com- ponents and reproduce by division. Virus particles (virions) themselves do not grow or undergo division ...
Page 5
... producing attenuated virus preparations by progressively drying the spinal cords of rabbits experimentally infected with ... produced virus vaccine (as the ancient practice of variolation and Jenner's use of cowpox virus for vaccination ...
... producing attenuated virus preparations by progressively drying the spinal cords of rabbits experimentally infected with ... produced virus vaccine (as the ancient practice of variolation and Jenner's use of cowpox virus for vaccination ...
Page 6
... produced by the replication of vaccinia virus was the first quantitative assay for any virus. Animal host systems still have their uses in virology: To produce viruses that cannot be effectively studied in vitro (e.g., hepatitis B virus) ...
... produced by the replication of vaccinia virus was the first quantitative assay for any virus. Animal host systems still have their uses in virology: To produce viruses that cannot be effectively studied in vitro (e.g., hepatitis B virus) ...
Page 9
... produce plaques, (e.g., human immunodeficiency virus). SEROLOGICAL/IMMUNOLOGICAL. METHODS. As the discipline of virology was emerging, the techniques of immunology were also developing, and, as with molecular biology more recently, the ...
... produce plaques, (e.g., human immunodeficiency virus). SEROLOGICAL/IMMUNOLOGICAL. METHODS. As the discipline of virology was emerging, the techniques of immunology were also developing, and, as with molecular biology more recently, the ...
Contents
1 | |
25 | |
Chapter 3 Genomes | 56 |
Chapter 4 Replication | 102 |
Chapter 5 Expression | 131 |
Chapter 6 Infection | 165 |
Chapter 7 Pathogenesis | 208 |
Genomes Without Viruses Viruses Without Genomes | 249 |
Appendix 1 Glossary And Abbreviations | 269 |
Appendix 2 Classification of Subcellular Infectious Agents | 281 |
Appendix 3 The History Of Virology | 294 |
Index | 300 |
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Common terms and phrases
activation addition agents allow altered animals antibodies antigen appear assembly associated Bacteria bacteriophages binding biology capsid cause cellular changes Chapter complex consist contain cytoplasm dependent described determined direct disease drugs early effects encode envelope enzymes example expression factors families Figure formation function further gene gene expression genetic groups host cell human immune system important infected cells influenza initiation interaction involved known major mature mechanisms membrane molecular molecules mRNAs mutations nature normal nucleic acid nucleotide nucleus occurs organisms packaged particular phage Plants polymerase possible present produced promoter proteins receptor region regulation relatively release replication response result retroviruses reverse segments sense sequence similar single specific stages strand structure subunits surface techniques tion transcription transformation translation transmission tumour usually vaccines vectors Vertebrates virion virology virus genome virus infection virus particles virus replication viruses
Popular passages
Page 129 - Schneider-Schaulies, J. 2000. Cellular receptors for viruses: links to tropism and pathogenesis.
Page 129 - JA (2004) The CCR5 and CXCR4 coreceptors central to understanding the transmission and pathogenesis of human immunodeficiency virus type 1 infection. AIDS Res Hum Retroviruses 20: 1 1 1-26.
Page x - Press for their support and assistance during the preparation of the book. Finally, I would like to thank my family for respecting the sign which has spent many hours on the door of my study, 'I am working. Please don't come in'.
Page 128 - Kasamatsu. H.. and Nakanishi. A. (1998). How do animal DNA viruses get to the nucleus? Annu. Rev. Microbiol.
Page 23 - Rohwer, F., and Edwards, R. (2002). The Phage Proteomic Tree: a genome-based taxonomy for phage. J.
Page 163 - J, et al (2002) Molecular Biology of the Cell, 4th Ed. Garland Science, New York Berger SI, (2002) Historic modifications in transcriptional regulation.
Page 3 - The disease must be reproduced when a pure culture of the agent is inoculated into a healthy susceptible host. • The same agent must be recovered once again from the experimentally infected host. Subsequently, Pasteur worked extensively on rabies, which he identified as being caused by a 'virus...
Page 281 - a virus species is a polythetic class of viruses that constitute a replicating lineage and occupy a particular ecological niche
Page 100 - Young. 2004. The structure of a thermophilic archaeal virus shows a double-stranded DNA viral capsid type that spans all domains of life. Proc.
Page 267 - Taylor, JM 2003. Replication of human hepatitis delta virus: recent developments.