Minor Coat and Heat Shock Proteins Are Involved in the Binding of Citrus Tristeza Virus to the Foregut of Its Aphid Vector, Toxoptera citricida
| Autor: | William O. Dawson, Serine Alfaress, C. El Mohtar, S. J. Harper, Nabil Killiny |
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| Rok vydání: | 2016 |
| Předmět: |
0301 basic medicine
Citrus Closterovirus viruses Virus Attachment Toxoptera citricida Applied Microbiology and Biotechnology Viral Proteins 03 medical and health sciences Viral life cycle Virion binding Plant virus Heat shock protein Invertebrate Microbiology Animals Heat-Shock Proteins Plant Diseases Aphid Ecology biology Virion Citrus tristeza virus Foregut biology.organism_classification Virology Insect Vectors Cell biology 030104 developmental biology Aphids Capsid Proteins Microscopy Polarization Digestive System Food Science Biotechnology |
| Zdroj: | Applied and Environmental Microbiology. 82:6294-6302 |
| ISSN: | 1098-5336 0099-2240 |
| Popis: | Vector transmission is a critical stage in the viral life cycle, yet for most plant viruses how they interact with their vector is unknown or is explained by analogy with previously described relatives. Here we examined the mechanism underlying the transmission of citrus tristeza virus (CTV) by its aphid vector, Toxoptera citricida , with the objective of identifying what virus-encoded proteins it uses to interact with the vector. Using fluorescently labeled virions, we demonstrated that CTV binds specifically to the lining of the cibarium of the aphid. Through in vitro competitive binding assays between fluorescent virions and free viral proteins, we determined that the minor coat protein is involved in vector interaction. We also found that the presence of two heat shock-like proteins, p61 and p65, reduces virion binding in vitro . Additionally, treating the dissected mouthparts with proteases did not affect the binding of CTV virions. In contrast, chitinase treatment reduced CTV binding to the foregut. Finally, competition with glucose, N -acetyl-β- d -glucosamine, chitobiose, and chitotriose reduced the binding. These findings together suggest that CTV binds to the sugar moieties of the cuticular surface of the aphid cibarium, and the binding involves the concerted activity of three virus-encoded proteins. IMPORTANCE Limited information is known about the specific interactions between citrus tristeza virus and its aphid vectors. These interactions are important for the process of successful transmission. In this study, we localized the CTV retention site as the cibarium of the aphid foregut. Moreover, we demonstrated that the nature of these interactions is protein-carbohydrate binding. The viral proteins, including the minor coat protein and two heat shock proteins, bind to sugar moieties on the surface of the foregut. These findings will help in understanding the transmission mechanism of CTV by the aphid vector and may help in developing control strategies which interfere with the CTV binding to its insect vector to block the transmission. |
| Databáze: | OpenAIRE |
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