Specificity of Plant Rhabdovirus Cell-to-Cell Movement
Copyright policy )Specificity of Plant Rhabdovirus Cell-to-Cell Movement
Local transport of plant rhabdoviruses likely involves the passage of viral nucleocapsids through MP-gated plasmodesmata, but the molecular mechanisms are not fully understood. We have conducted complementation assays with MPs encoded by five distinct rhabdoviruses to assess their movement specificity. Each of the rhabdovirus MPs complemented the movement of MP-defective mutants of two positive-stranded RNA viruses that have different movement strategies. In marked contrast, cell-to-cell movement of two recombinant plant rhabdoviruses was highly specific in requiring their cognate MPs. We have shown that these rhabdovirus MPs are localized to the cell periphery and associate with cellular membranes, and that they interact only with their cognate nucleocapsid core proteins. These interactions are able to redirect viral nucleocapsid core proteins from their sites of replication to the cell periphery. Our study provides a model for the specific inter- and intracellular trafficking of plant rhabdoviruses that may be applicable to other negative-stranded RNA viruses.
- State Key Laboratory of Rice Biology China (People's Republic of)
- Zhejiang Ocean University China (People's Republic of)
- MRC Laboratory of Molecular Biology United Kingdom
- Institute of Plant Protection China (People's Republic of)
- Medical Research Council United Kingdom
Nicotiana, cell-to-cell movement, Biomedical and clinical sciences, nucleocapsid, Veterinary and Food Sciences, Plant Biology, Medical and Health Sciences, Plant Viruses, veterinary and food sciences, Virology, Tobacco, plant rhabdovirus, trans-complementation, Agricultural, Agricultural and Veterinary Sciences, Cell Membrane, Genetic Complementation Test, Biological Sciences, Virus Internalization, Horticultural Production, Plant Viral Movement Proteins, movement protein, sonchus yellow net virus, Biological sciences, Infectious Diseases, tomato yellow mottle-associated virus, Biochemistry and Cell Biology, Rhabdoviridae, Infection, Protein Binding
Nicotiana, cell-to-cell movement, Biomedical and clinical sciences, nucleocapsid, Veterinary and Food Sciences, Plant Biology, Medical and Health Sciences, Plant Viruses, veterinary and food sciences, Virology, Tobacco, plant rhabdovirus, trans-complementation, Agricultural, Agricultural and Veterinary Sciences, Cell Membrane, Genetic Complementation Test, Biological Sciences, Virus Internalization, Horticultural Production, Plant Viral Movement Proteins, movement protein, sonchus yellow net virus, Biological sciences, Infectious Diseases, tomato yellow mottle-associated virus, Biochemistry and Cell Biology, Rhabdoviridae, Infection, Protein Binding
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