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Article Abstract
In the context of climate change, elevated temperature is a major concern due to the impact on plant-pathogen interactions. Although atmospheric temperature is predicted to increase in the next century, heat waves during summer seasons have already become a current problem. Elevated temperatures strongly influence plant-virus interactions, the most drastic effect being a breakdown of plant viral resistance conferred by some major resistance genes. In this work, we focused on the gene, a major resistance gene against in . We inoculated different BPMV constructs in order to study the behavior of the -mediated resistance at normal (20 °C) and elevated temperatures (constant 25, 30, and 35 °C). Our results show that mediates a temperature-dependent phenotype of resistance from hypersensitive reaction at 20 °C to chlorotic lesions at 35 °C in the resistant genotype BAT93. BPMV is detected in inoculated leaves but not in systemic ones, suggesting that the resistance remains heat-stable up to 35 °C. segregates as an incompletely dominant gene in an F2 population. We also investigated the impact of elevated temperature on BPMV infection in susceptible genotypes, and our results reveal that elevated temperatures boost BPMV infection both locally and systemically in susceptible genotypes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310253 | PMC |
| http://dx.doi.org/10.3390/v13071239 | DOI Listing |
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