Textbook Question
The outer surface of a virion consists of either a membranous envelope or a protein capsid. How does the outer surface correlate with a virus's mode of exiting a host cell?
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Ch. 33 - Viruses
Freeman7th EditionBiological ScienceISBN: 9783584863285
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Table of contents
- Ch. 1 - Biology: The Study of Life11
- Ch. 2 - Water and Carbon: The Chemical Basis of Life10
- Ch.3 - Protein Structure and Function11
- Ch.4 - Nucleic Acids and the RNA World10
- Ch. 5 - An Introduction to Carbohydrates10
- Ch. 6 - Lipids, Membranes, and the First Cells10
- Ch. 7 - Inside the Cell10
- Ch. 8 - Energy and Enzymes: An Introduction to Metabolism10
- Ch. 9 - Cellular Respiration and Fermentation16
- Ch. 10 - Photosynthesis14
- Ch. 11 - Cell-Cell Interactions14
- Ch. 12 - The Cell Cycle12
- Ch. 13 - Meiosis13
- Ch. 14 - Mendel and the Gene32
- Ch. 15 - DNA and the Gene: Synthesis and Repair8
- Ch. 16 - How Genes Work35
- Ch. 17 - Transcription, RNA Processing, and Translation16
- Ch. 18 - Control of Gene Expression in Bacteria19
- Ch. 19 - Control of Gene Expression in Eukaryotes17
- Ch. 20 - The Molecular Revolution: Biotechnology, Genomics, and New Frontiers23
- Ch. 21 - Genes, Development, and Evolution13
- Ch. 22 - Evolution by Natural Selection17
- Ch. 23 - Evolutionary Processes13
- Ch. 24 - Speciation15
- Ch. 25 - Phylogenies and the History of Life13
- Ch. 26 - Bacteria and Archaea17
- Ch. 27 - Diversification of Eukaryotes19
- Ch. 28 - Green Algae and Land Plants18
- Ch. 29 - Fungi19
- Ch. 30 - An Introduction to Animals9
- Ch. 31 - Protostome Animals20
- Ch. 32 - Deuterostome Animals19
- Ch. 33 - Viruses16
- Ch. 34 - Plant Form and Function16
- Ch. 35 - Water and Sugar Transport in Plants16
- Ch. 36 - Plant Nutrition13
- Ch. 37 - Plant Sensory Systems, Signals, and Responses16
- Ch. 38 - Flowering Plant Reproduction and Development16
- Ch. 39 - Animal Form and Function16
- Ch. 40 - Water and Electrolyte Balance in Animals16
- Ch. 41 - Animal Nutrition16
- Ch. 42 - Gas Exchange and Circulation16
- Ch. 43 - Animal Nervous Systems16
- Ch. 44 - Animal Sensory Systems16
- Ch. 45 - Animal Movement11
- Ch. 46 - Chemical Signals in Animals16
- Ch. 47 - Animal Reproduction and Development18
- Ch. 48 - The Immune System in Animals16
- Ch. 49 - An Introduction to Ecology16
- Ch. 50 - Behavioral Ecology16
- Ch. 51 - Population Ecology16
- Ch. 52 - Community Ecology20
- Ch. 53 - Ecosystems and Global Ecology16
- Ch. 54 - Biodiversity and Conservation Ecology16
Chapter 33, Problem 8
Of the viruses highlighted in Section 33.4, predict which of the following would be able to make viral proteins if nothing more than its genome were injected into a suitable host cell.a. pea mosaic ([+]ssRNA) virusb. bluetongue (dsRNA) virusc. measles ([−]ssRNA) virusd. human immunodeficiency (RNA reverse-transcribing) virus
Verified step by step guidance1
Identify the type of RNA each virus contains and understand the implications for protein synthesis. Positive-sense single-stranded RNA ([+]ssRNA) can be directly translated into proteins by the host's ribosomes. Double-stranded RNA (dsRNA) and negative-sense single-stranded RNA ([−]ssRNA) require transcription into a positive-sense RNA before translation can occur. RNA reverse-transcribing viruses need to reverse transcribe their RNA into DNA, which then needs to be transcribed into mRNA.
Analyze the pea mosaic virus, which has a [+]ssRNA genome. Since [+]ssRNA can act as mRNA, this virus can directly make viral proteins using the host's ribosomes once its genome is injected into the cell.
Consider the bluetongue virus with a dsRNA genome. This type of RNA cannot be directly translated into proteins. The virus must first use its own RNA-dependent RNA polymerase to transcribe the dsRNA into positive-sense mRNA, which is not possible if only the genome is injected without the necessary viral enzymes.
Evaluate the measles virus, which contains a [−]ssRNA genome. Similar to dsRNA viruses, [−]ssRNA cannot be directly translated into proteins. It requires transcription into a complementary [+]ssRNA by viral RNA-dependent RNA polymerase, which must be present in the virion or in the host cell.
Assess the human immunodeficiency virus, an RNA reverse-transcribing virus. This virus must first reverse transcribe its RNA into DNA, which then needs to be integrated into the host's genome and transcribed into mRNA. This process requires viral reverse transcriptase and integrase enzymes, which are not available if only the genome is injected.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Viral Genome Types
Viruses can have different types of genomes, including single-stranded RNA ([+]ssRNA, [−]ssRNA), double-stranded RNA (dsRNA), and reverse-transcribing RNA. The type of genome influences how the virus replicates and produces proteins within a host cell. For instance, [+]ssRNA viruses can directly serve as mRNA, while [−]ssRNA viruses require conversion to [+]ssRNA before translation.
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Genomes and Genome Evolution
Viral Protein Synthesis
Viral protein synthesis occurs when a virus hijacks a host cell's machinery to produce its proteins. This process depends on the viral genome type; [+]ssRNA can be translated directly, while dsRNA and [−]ssRNA require additional steps. Understanding these mechanisms is crucial for predicting which viruses can produce proteins from just their genome.
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Host Cell Compatibility
The ability of a virus to produce proteins is also contingent on the compatibility of its genome with the host cell's translation machinery. Different host cells may have varying capabilities to recognize and translate viral RNA, affecting the virus's ability to replicate and express its proteins. This concept is essential for determining which viruses can function effectively in a given host.
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Related Practice
Textbook Question
Compare and contrast the bacteriophage lytic cycle and lysogeny by addressing (1) the rate of replication of the viral genome, (2) production of virions, and (3) effect on the host cell.
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Textbook Question
If you come down with the flu, should your physician prescribe an antibiotic for you? Explain why or why not.
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Textbook Question
If you were in charge of the government's budget devoted to stemming the AIDS epidemic, would you devote most of the resources to drug development or preventive medicine? Defend your answer.
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Textbook Question
Which of the following types of viruses would you expect to require periods of latency?
a. Viruses that have large genomes and require a long time for replication
b. Viruses that require a long time for transmission to new hosts
c. Viruses that require a long time for assembly into complex structures
d. Viruses that infect cells of the immune system
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Textbook Question
The mosquito-borne Zika virus (ZIKV) is one of the most feared viruses for pregnant women. Recent statistics justify this fear: Infants born to mothers infected with ZIKV during pregnancy face a risk of up to 42 percent of developing birth defects, including microcephaly (an abnormally small head and decreased brain volume).
What do we know about how ZIKV causes damage to the developing brain?
ZIKV is a Baltimore class IV virus. Based on this classification, what do you know about the structure of its genome?
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