Principles of Virology. Jane Flint

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Название Principles of Virology
Автор произведения Jane Flint
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781683673583



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Genome structures in cartoons and in real life. (A) Linear representation of a picornavirus RNA genome. UTR, untranslated region. (B) Long-distance RNA-RNA interactions in a tombusvirus RNA genome. The 4,252-nucleotide viral genome is shown with secondary RNA structures at the 5′ and 3′ ends. Sequences that base-pair are shown in blue (required for RNA frameshifting) and red (required to bring ribosomes from the 3′ end to the 5′ end). Courtesy of Anne Simon, University of Maryland. (C) Schematic representation of RNA secondary-structure elements in the human immunodeficiency virus type 1 5′ leader, including the core packaging signal. (D) NMR structure of the RNA shown in C, without elements colored black. Courtesy of Paul Bieniasz, Rockefeller University.

      Knowledge about the physical nature of genomes and coding strategies was first obtained by the study of the nucleic acids of viruses. Indeed, DNA sequencing technology was perfected on viral genomes. The first genome of any kind to be sequenced was that of the Escherichia coli bacteriophage MS2, a linear ssRNA of 3,569 nucleotides. dsDNA genomes of larger viruses, such as herpesviruses and poxviruses (vaccinia virus), were sequenced completely by the 1990s. Since then, high-throughput sequencing has revolutionized the biological sciences, allowing rapid determination of genome sequences from clinical and environmental samples. Organand tissue-specific viromes of many organisms have been determined. In one study, over 186 host species representing the phylogenetic diversity of vertebrates, including lancelets (chordates, but considered invertebrates), jawless fish, cartilaginous fish, ray-finned fish, amphibians, and reptiles, all ancestral to birds and mammals, were sampled. RNA was extracted from multiple organs and subjected to high-throughput sequencing. Among 806 billion bases that were read, 214 new viral genomes were identified. The results show that in vertebrates other than birds and mammals, RNA viruses are more numerous and diverse than suspected. Every viral family or genus of bird and mammal viruses is also represented in viruses of amphibians, reptiles, or fish. Arenaviruses, filoviruses, and hantaviruses were found for the first time in aquatic vertebrates. The genomes of some fish viruses have now expanded so that their phylogenetic diversity is larger than in mammalian viruses. New relatives of influenza viruses were found in hagfish, amphibians, and ray-finned fish. As of this writing, the complete sequences of >8,000 different viral genomes have been determined. Published viral genome sequences can be found at http://www.ncbi.nlm.nih.gov/genome/viruses/.

Mechanism Diagram Virus Chapter(s) Figures in appendix
MultiplesubgenomicmRNAs image Adenoviridae Hepadnaviridae Herpesviridae Paramyxoviridae Poxviridae Rhabdoviridae 7, 87, 107676 1, 211, 1217, 1825, 2631, 32
Alternative mRNA splicing image Adenoviridae Orthomyxoviridae Papillomaviridae Polyomaviridae Retroviridae 7, 887, 8810 1, 215, 1623, 2429, 30
RNA editing image Paramyxoviridae Filoviridae Hepatitis delta virus 6, 888
Information on both strands image Adenoviridae Polyomaviridae Retroviridae 7-97-910 1, 223, 2429, 30
Polyproteinsynthesis image AlphavirusesFlaviviridae Picornaviridae Retroviridae 6, 116, 116, 116, 11 33, 349, 1021, 2229, 30
Leaky scanning image Orthomyxoviridae Paramyxoviridae Polyomaviridae Retroviridae 11111111 15, 1629, 30
Reinitiation image Orthomyxoviridae Herpesviridae 1111 15, 16
Suppression of termination image AlphavirusesRetroviridae 1111 33, 3429, 30
Ribosomalframeshifting image Astroviridae Coronaviridae Retroviridae 111111 5, 629, 30
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