Principles of Virology, Volume 1. Jane Flint

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Principles of Virology, Volume 1 - Jane Flint

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years later. Cell culture technology revolutionized the ability to investigate the reproduction of viruses. Viral infectious cycles could be studied under precisely controlled conditions by employing the analog of the one-step growth cycle of bacteriophages and simple methods for quantification of infectious particles described in Chapter 2.

      BACKGROUND

       Properties of lysogeny shared with animal viruses

      Lytic versus Lysogenic Response to Infection

      Some bacterial viruses can enter into either destructive (lytic) or relatively benign (lysogenic) relationships with their host cells. Such bacteriophages were called temperate. In a lysogenic bacterial cell, viral genetic information persists but viral gene expression is repressed. Such cells are called lysogens, and the quiescent viral genome, a prophage. By analogy with the prophage, an integrated DNA copy of a retroviral genome in an animal genome is termed a provirus.

      Propagation as a Prophage

      For some bacteriophages like lambda and Mu (Mu stands for “mutator”), prophage DNA is integrated into the host genome of lysogens and passively replicated by the host. Virally encoded enzymes, known as integrase (lambda) and transposase (Mu), mediate the covalent insertion of viral DNA into the chromosome of the host bacterium, establishing it as a prophage. The prophage DNA of other bacteriophages, such as P1, exists as a plasmid, a self-replicating, autonomous chromosome in a lysogen. Both forms of propagation have been identified in certain animal viruses, for example, retroviruses and a lethal herpesvirus.

      Insertional Mutagenesis

      Bacteriophage Mu inserts its genome into many random locations on the host chromosome, causing numerous mutations by disrupting host DNA sequences. This process is called insertional mutagenesis and is a phenomenon observed with retroviruses.

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      Pioneers in the study of lysogeny: Nobel laureates François Jacob, Jacques Monod, and André Lwoff, 1965. Courtesy of the U.S. National Library of Medicine.

      Gene Repression and Induction

      Prophage gene expression in lysogens is turned of by the action of viral proteins called repressors. Expression can be turned on when repressors are inactivated (a process called induction). The discovery that genes can be regulated by such trans-acting proteins, and elucidation of their mechanism, set the stage for later investigation of the control of gene expression with other viruses and their host cells.

      Transduction of Host Genes

      Bacteriophage genomes can pick up cellular genes and deliver them to new cells (a process known as transduction). For example, occasional mistakes in excision of the lambda prophage from its host chromosome after induction result in production of unusual progeny phages that have lost some of their own DNA but have acquired the bacterial DNA adjacent to the prophage. The acute transforming retroviruses also arise via capture of genes in the vicinity of their integration as proviruses (Volume II, Chapter 6). These cancer-inducing cellular genes are then transduced along with viral genes during subsequent infection.

      TERMINOLOGY

       The episome

      In 1958, François Jacob and Elie Wollman realized that lambda prophage and the E. coli F sex factor had many common properties. This remarkable insight led to the definition of the episome.

      An episome is an exogenous genetic element that is not necessary for cell survival. Its defining characteristic is the ability to reproduce in two alternative states: while integrated in the host chromosome or autonomously. However, this term is now most commonly applied to genomes that can be maintained in cells by autonomous replication and never integrate, for example, the DNA genomes of certain animal viruses.

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      DISCUSSION

       Are viruses living entities? What can/can’t they do?

      Viruses can be viewed as microbes that exist in two phases: an inanimate phase, the virion; and a multiplying phase in an infected cell. Some researchers have promoted the idea that viruses are bona fide living entities. According to this notion, inanimate virions may be viewed as “spores” that transform the infected cell into a novel type of organism (termed a virocell), dedicated to the production of new virions. The nature of viruses has long been a topic of intense discussion, stimulated most recently by the discovery of giant viruses such as the mimiviruses and Pandoraviruses, which encode more functions that previously ascribed to viral genomes.

      Apart from attributing “life” to viruses, many scientists have succumbed to the temptation of ascribing various actions and motives when discussing them. While remarkably effective in enlivening a lecture or an article, anthropomorphic characterizations are inaccurate and also quite misleading. Infected cells and hosts respond in many ways after virus infection, but viruses, which are totally at the mercy of their environment, lack the capacity for intentional, goal-directed activity. Therefore, viruses cannot employ, ensure, synthesize, induce, display, destroy, deploy, depend, avoid, retain, evade, exploit, generate, etc.

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      As virologists can be very passionate about their subject, it is exceedingly difficult to purge such anthropomorphic terms from virology communications. Indeed, hours were spent

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