AI Article Synopsis
- The study investigates the role of extracellular RNases in plant defense, focusing on their potential to inhibit viruses like the Cucumber mosaic virus (CMV) in Nicotiana tabacum plants.
- Transgenic plants expressing a non-plant RNase showed suppressed disease symptoms and lower viral levels compared to control plants after CMV infection.
- These findings suggest that boosting extracellular RNase activity can enhance plants' resistance to various RNA viruses, indicating a broader potential for pathogen defense mechanisms in plants.
Article Abstract
Background: The apoplast plays an important role in plant defense against pathogens. Some extracellular PR-4 proteins possess ribonuclease activity and may directly inhibit the growth of pathogenic fungi. It is likely that extracellular RNases can also protect plants against some viruses with RNA genomes. However, many plant RNases are multifunctional and the direct link between their ribonucleolytic activity and antiviral defense still needs to be clarified. In this study, we evaluated the resistance of Nicotiana tabacum plants expressing a non-plant single-strand-specific extracellular RNase against Cucumber mosaic virus.
Results: Severe mosaic symptoms and shrinkage were observed in the control non-transgenic plants 10 days after inoculation with Cucumber mosaic virus (CMV), whereas such disease symptoms were suppressed in the transgenic plants expressing the RNase gene. In a Western blot analysis, viral proliferation was observed in the uninoculated upper leaves of control plants, whereas virus levels were very low in those of transgenic plants. These results suggest that resistance against CMV was increased by the expression of the heterologous RNase gene.
Conclusion: We have previously shown that tobacco plants expressing heterologous RNases are characterized by high resistance to Tobacco mosaic virus. In this study, we demonstrated that elevated levels of extracellular RNase activity resulted in increased resistance to a virus with a different genome organization and life cycle. Thus, we conclude that the pathogen-induced expression of plant apoplastic RNases may increase non-specific resistance against viruses with RNA genomes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5123310 | PMC |
| http://dx.doi.org/10.1186/s12870-016-0928-8 | DOI Listing |
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