Results 321 to 330 of about 5,532,566 (363)
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2008
Questions and Concepts in Plant Virus Evolution: a Historical Perspective.- Community Ecology of Plant Viruses.- Emerging Plant Viruses: a Diversity of Mechanisms and Opportunities.- Evolution of Integrated Plant Viruses.- Viroids.- Virus Populations, Mutation Rates and Frequencies.- Genetic Bottlenecks.- Recombination in Plant RNA Viruses.- Symbiosis,
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Questions and Concepts in Plant Virus Evolution: a Historical Perspective.- Community Ecology of Plant Viruses.- Emerging Plant Viruses: a Diversity of Mechanisms and Opportunities.- Evolution of Integrated Plant Viruses.- Viroids.- Virus Populations, Mutation Rates and Frequencies.- Genetic Bottlenecks.- Recombination in Plant RNA Viruses.- Symbiosis,
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2018
Viruses are small pathogens not visible under light microscope and are causal agents for many common plant diseases. They lead to heavy economic losses in crop production and quality in different parts of the world. The simplest viruses are composed of nucleic acid and protein coat.
Anju K. Chhibbar, Sunita Yadav
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Viruses are small pathogens not visible under light microscope and are causal agents for many common plant diseases. They lead to heavy economic losses in crop production and quality in different parts of the world. The simplest viruses are composed of nucleic acid and protein coat.
Anju K. Chhibbar, Sunita Yadav
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1977
Publisher Summary Inclusion bodies can be simply defined as intracellular structures produced de novo as a result of viral infections. They may contain virus particles, virus-related materials, or ordinary cell constituents in a normal or degenerating condition, either single or, more often, in various proportions.
Giovanni P. Martelli, Marcello Russo
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Publisher Summary Inclusion bodies can be simply defined as intracellular structures produced de novo as a result of viral infections. They may contain virus particles, virus-related materials, or ordinary cell constituents in a normal or degenerating condition, either single or, more often, in various proportions.
Giovanni P. Martelli, Marcello Russo
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1983
The processes involved in plant virus replication may include (1) passage of virus through the cell wall; (2) entry of virus or its nucleic acid into cells and then to replicative sites in cells; (3) removal of protein from nucleic acid, this being termed ‘uncoating’.
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The processes involved in plant virus replication may include (1) passage of virus through the cell wall; (2) entry of virus or its nucleic acid into cells and then to replicative sites in cells; (3) removal of protein from nucleic acid, this being termed ‘uncoating’.
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Strategies for virus resistance in plants
Trends in Genetics, 1989Virus infections of plants are controlled and suppressed naturally by the action of resistance genes encoded within the plant, by interactions between viruses or even as a result of the activity of functions encoded by or associated with the virus itself.
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Climate change and plant virus epidemiology.
Virus Research, 2020P. Trębicki
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Cervical cancer prevention and control in women living with human immunodeficiency virus
Ca-A Cancer Journal for Clinicians, 2021Philip E Castle, Vikrant V Sahasrabuddhe
exaly
1983
In this chapter the biochemical structure of plant viruses will be described, followed by an examination of virus morphology and architecture.
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In this chapter the biochemical structure of plant viruses will be described, followed by an examination of virus morphology and architecture.
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Current treatment and recent progress in gastric cancer
Ca-A Cancer Journal for Clinicians, 2021Smita S Joshi, Brian D Badgwell
exaly
Isolation and Analysis of Double-Stranded RNA from Virus-Infected Plant and Fungal Tissue.
PhytopathologyT. J. Morris, J. Dodds
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